open-vault/vault/rekey.go

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package vault
import (
"bytes"
"context"
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"crypto/subtle"
"encoding/hex"
"encoding/json"
"fmt"
"net/http"
"github.com/hashicorp/errwrap"
"github.com/hashicorp/go-uuid"
"github.com/hashicorp/vault/helper/consts"
"github.com/hashicorp/vault/helper/jsonutil"
"github.com/hashicorp/vault/helper/pgpkeys"
"github.com/hashicorp/vault/logical"
"github.com/hashicorp/vault/physical"
"github.com/hashicorp/vault/shamir"
)
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const (
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// coreUnsealKeysBackupPath is the path used to backup encrypted unseal
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// keys if specified during a rekey operation. This is outside of the
// barrier.
coreBarrierUnsealKeysBackupPath = "core/unseal-keys-backup"
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// coreRecoveryUnsealKeysBackupPath is the path used to backup encrypted
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// recovery keys if specified during a rekey operation. This is outside of
// the barrier.
coreRecoveryUnsealKeysBackupPath = "core/recovery-keys-backup"
)
// RekeyResult is used to provide the key parts back after
// they are generated as part of the rekey.
type RekeyResult struct {
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SecretShares [][]byte
PGPFingerprints []string
Backup bool
RecoveryKey bool
VerificationRequired bool
VerificationNonce string
}
type RekeyVerifyResult struct {
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Complete bool
Nonce string
}
// RekeyBackup stores the backup copy of PGP-encrypted keys
type RekeyBackup struct {
Nonce string
Keys map[string][]string
}
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// RekeyThreshold returns the secret threshold for the current seal
// config. This threshold can either be the barrier key threshold or
// the recovery key threshold, depending on whether rekey is being
// performed on the recovery key, or whether the seal supports
// recovery keys.
func (c *Core) RekeyThreshold(ctx context.Context, recovery bool) (int, logical.HTTPCodedError) {
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c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return 0, logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
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}
if c.standby {
return 0, logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
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}
c.rekeyLock.RLock()
defer c.rekeyLock.RUnlock()
var config *SealConfig
var err error
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// If we are rekeying the recovery key, or if the seal supports
// recovery keys and we are rekeying the barrier key, we use the
// recovery config as the threshold instead.
if recovery || c.seal.RecoveryKeySupported() {
config, err = c.seal.RecoveryConfig(ctx)
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} else {
config, err = c.seal.BarrierConfig(ctx)
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}
if err != nil {
return 0, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("unable to look up config: {{err}}", err).Error())
}
if config == nil {
return 0, logical.CodedError(http.StatusBadRequest, ErrNotInit.Error())
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}
return config.SecretThreshold, nil
}
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// RekeyProgress is used to return the rekey progress (num shares).
func (c *Core) RekeyProgress(recovery, verification bool) (bool, int, logical.HTTPCodedError) {
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return false, 0, logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
}
if c.standby {
return false, 0, logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
}
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c.rekeyLock.RLock()
defer c.rekeyLock.RUnlock()
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var conf *SealConfig
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if recovery {
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conf = c.recoveryRekeyConfig
} else {
conf = c.barrierRekeyConfig
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}
if conf == nil {
return false, 0, logical.CodedError(http.StatusBadRequest, "rekey operation not in progress")
}
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if verification {
return len(conf.VerificationKey) > 0, len(conf.VerificationProgress), nil
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}
return true, len(conf.RekeyProgress), nil
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}
// RekeyConfig is used to read the rekey configuration
func (c *Core) RekeyConfig(recovery bool) (*SealConfig, logical.HTTPCodedError) {
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return nil, logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
}
if c.standby {
return nil, logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
}
c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
// Copy the seal config if any
var conf *SealConfig
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if recovery {
if c.recoveryRekeyConfig != nil {
conf = c.recoveryRekeyConfig.Clone()
}
} else {
if c.barrierRekeyConfig != nil {
conf = c.barrierRekeyConfig.Clone()
}
}
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return conf, nil
}
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// RekeyInit will either initialize the rekey of barrier or recovery key.
// recovery determines whether this is a rekey on the barrier or recovery key.
func (c *Core) RekeyInit(config *SealConfig, recovery bool) logical.HTTPCodedError {
if config.SecretThreshold > config.SecretShares {
return logical.CodedError(http.StatusBadRequest, "provided threshold greater than the total shares")
}
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if recovery {
return c.RecoveryRekeyInit(config)
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}
return c.BarrierRekeyInit(config)
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}
// BarrierRekeyInit is used to initialize the rekey settings for the barrier key
func (c *Core) BarrierRekeyInit(config *SealConfig) logical.HTTPCodedError {
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if c.seal.StoredKeysSupported() {
c.logger.Warn("stored keys supported, forcing rekey shares/threshold to 1")
config.SecretShares = 1
config.SecretThreshold = 1
config.StoredShares = 1
}
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if config.StoredShares > 0 {
if !c.seal.StoredKeysSupported() {
return logical.CodedError(http.StatusBadRequest, "storing keys not supported by barrier seal")
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}
if len(config.PGPKeys) > 0 {
return logical.CodedError(http.StatusBadRequest, "PGP key encryption not supported when using stored keys")
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}
if config.Backup {
return logical.CodedError(http.StatusBadRequest, "key backup not supported when using stored keys")
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}
if c.seal.RecoveryKeySupported() {
if config.VerificationRequired {
return logical.CodedError(http.StatusBadRequest, "requiring verification not supported when rekeying the barrier key with recovery keys")
}
c.logger.Debug("using recovery seal configuration to rekey barrier key")
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}
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}
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// Check if the seal configuration is valid
if err := config.Validate(); err != nil {
c.logger.Error("invalid rekey seal configuration", "error", err)
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("invalid rekey seal configuration: {{err}}", err).Error())
}
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
}
if c.standby {
return logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
}
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c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
// Prevent multiple concurrent re-keys
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if c.barrierRekeyConfig != nil {
return logical.CodedError(http.StatusBadRequest, "rekey already in progress")
}
// Copy the configuration
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c.barrierRekeyConfig = config.Clone()
// Initialize the nonce
nonce, err := uuid.GenerateUUID()
if err != nil {
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c.barrierRekeyConfig = nil
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("error generating nonce for procedure: {{err}}", err).Error())
}
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c.barrierRekeyConfig.Nonce = nonce
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if c.logger.IsInfo() {
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c.logger.Info("rekey initialized", "nonce", c.barrierRekeyConfig.Nonce, "shares", c.barrierRekeyConfig.SecretShares, "threshold", c.barrierRekeyConfig.SecretThreshold, "validation_required", c.barrierRekeyConfig.VerificationRequired)
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}
return nil
}
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// RecoveryRekeyInit is used to initialize the rekey settings for the recovery key
func (c *Core) RecoveryRekeyInit(config *SealConfig) logical.HTTPCodedError {
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if config.StoredShares > 0 {
return logical.CodedError(http.StatusBadRequest, "stored shares not supported by recovery key")
}
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// Check if the seal configuration is valid
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if err := config.Validate(); err != nil {
c.logger.Error("invalid recovery configuration", "error", err)
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("invalid recovery configuration: {{err}}", err).Error())
}
if !c.seal.RecoveryKeySupported() {
return logical.CodedError(http.StatusBadRequest, "recovery keys not supported")
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}
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
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}
if c.standby {
return logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
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}
c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
// Prevent multiple concurrent re-keys
if c.recoveryRekeyConfig != nil {
return logical.CodedError(http.StatusBadRequest, "rekey already in progress")
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}
// Copy the configuration
c.recoveryRekeyConfig = config.Clone()
// Initialize the nonce
nonce, err := uuid.GenerateUUID()
if err != nil {
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c.recoveryRekeyConfig = nil
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("error generating nonce for procedure: {{err}}", err).Error())
}
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c.recoveryRekeyConfig.Nonce = nonce
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if c.logger.IsInfo() {
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c.logger.Info("rekey initialized", "nonce", c.recoveryRekeyConfig.Nonce, "shares", c.recoveryRekeyConfig.SecretShares, "threshold", c.recoveryRekeyConfig.SecretThreshold, "validation_required", c.recoveryRekeyConfig.VerificationRequired)
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}
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return nil
}
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// RekeyUpdate is used to provide a new key part for the barrier or recovery key.
func (c *Core) RekeyUpdate(ctx context.Context, key []byte, nonce string, recovery bool) (*RekeyResult, logical.HTTPCodedError) {
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if recovery {
return c.RecoveryRekeyUpdate(ctx, key, nonce)
}
return c.BarrierRekeyUpdate(ctx, key, nonce)
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}
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// BarrierRekeyUpdate is used to provide a new key part. Barrier rekey can be done
// with unseal keys, or recovery keys if that's supported and we are storing the barrier
// key.
//
// N.B.: If recovery keys are used to rekey, the new barrier key shares are not returned.
func (c *Core) BarrierRekeyUpdate(ctx context.Context, key []byte, nonce string) (*RekeyResult, logical.HTTPCodedError) {
// Ensure we are already unsealed
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return nil, logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
}
if c.standby {
return nil, logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
}
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// Verify the key length
min, max := c.barrier.KeyLength()
max += shamir.ShareOverhead
if len(key) < min {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("key is shorter than minimum %d bytes", min))
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}
if len(key) > max {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("key is longer than maximum %d bytes", max))
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}
c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
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// Get the seal configuration
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var existingConfig *SealConfig
var err error
var useRecovery bool // Determines whether recovery key is being used to rekey the master key
if c.seal.StoredKeysSupported() && c.seal.RecoveryKeySupported() {
existingConfig, err = c.seal.RecoveryConfig(ctx)
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useRecovery = true
} else {
existingConfig, err = c.seal.BarrierConfig(ctx)
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}
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if err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to fetch existing config: {{err}}", err).Error())
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}
// Ensure the barrier is initialized
if existingConfig == nil {
return nil, logical.CodedError(http.StatusBadRequest, ErrNotInit.Error())
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}
// Ensure a rekey is in progress
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if c.barrierRekeyConfig == nil {
return nil, logical.CodedError(http.StatusBadRequest, "no barrier rekey in progress")
}
if len(c.barrierRekeyConfig.VerificationKey) > 0 {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("rekey operation already finished; verification must be performed; nonce for the verification operation is %q", c.barrierRekeyConfig.VerificationNonce))
}
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if nonce != c.barrierRekeyConfig.Nonce {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("incorrect nonce supplied; nonce for this rekey operation is %q", c.barrierRekeyConfig.Nonce))
}
// Check if we already have this piece
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for _, existing := range c.barrierRekeyConfig.RekeyProgress {
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if subtle.ConstantTimeCompare(existing, key) == 1 {
return nil, logical.CodedError(http.StatusBadRequest, "given key has already been provided during this generation operation")
}
}
// Store this key
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c.barrierRekeyConfig.RekeyProgress = append(c.barrierRekeyConfig.RekeyProgress, key)
// Check if we don't have enough keys to unlock
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if len(c.barrierRekeyConfig.RekeyProgress) < existingConfig.SecretThreshold {
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if c.logger.IsDebug() {
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c.logger.Debug("cannot rekey yet, not enough keys", "keys", len(c.barrierRekeyConfig.RekeyProgress), "threshold", existingConfig.SecretThreshold)
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}
return nil, nil
}
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// Recover the master key or recovery key
var recoveredKey []byte
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if existingConfig.SecretThreshold == 1 {
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recoveredKey = c.barrierRekeyConfig.RekeyProgress[0]
} else {
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recoveredKey, err = shamir.Combine(c.barrierRekeyConfig.RekeyProgress)
if err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to compute master key: {{err}}", err).Error())
}
}
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if useRecovery {
if err := c.seal.VerifyRecoveryKey(ctx, recoveredKey); err != nil {
c.logger.Error("rekey recovery key verification failed", "error", err)
return nil, logical.CodedError(http.StatusBadRequest, errwrap.Wrapf("recovery key verification failed: {{err}}", err).Error())
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}
} else {
if err := c.barrier.VerifyMaster(recoveredKey); err != nil {
c.logger.Error("master key verification failed", "error", err)
return nil, logical.CodedError(http.StatusBadRequest, errwrap.Wrapf("master key verification failed: {{err}}", err).Error())
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}
}
// Generate a new master key
newMasterKey, err := c.barrier.GenerateKey()
if err != nil {
c.logger.Error("failed to generate master key", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("master key generation failed: {{err}}", err).Error())
}
results := &RekeyResult{
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Backup: c.barrierRekeyConfig.Backup,
}
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// Set result.SecretShares to the master key if only a single key
// part is used -- no Shamir split required.
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if c.barrierRekeyConfig.SecretShares == 1 {
results.SecretShares = append(results.SecretShares, newMasterKey)
} else {
// Split the master key using the Shamir algorithm
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shares, err := shamir.Split(newMasterKey, c.barrierRekeyConfig.SecretShares, c.barrierRekeyConfig.SecretThreshold)
if err != nil {
c.logger.Error("failed to generate shares", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to generate shares: {{err}}", err).Error())
}
results.SecretShares = shares
}
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// If we are storing any shares, add them to the shares to store and remove
// from the returned keys
var keysToStore [][]byte
if c.seal.StoredKeysSupported() && c.barrierRekeyConfig.StoredShares > 0 {
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for i := 0; i < c.barrierRekeyConfig.StoredShares; i++ {
keysToStore = append(keysToStore, results.SecretShares[0])
results.SecretShares = results.SecretShares[1:]
}
}
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// If PGP keys are passed in, encrypt shares with corresponding PGP keys.
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if len(c.barrierRekeyConfig.PGPKeys) > 0 {
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hexEncodedShares := make([][]byte, len(results.SecretShares))
for i, _ := range results.SecretShares {
hexEncodedShares[i] = []byte(hex.EncodeToString(results.SecretShares[i]))
}
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results.PGPFingerprints, results.SecretShares, err = pgpkeys.EncryptShares(hexEncodedShares, c.barrierRekeyConfig.PGPKeys)
if err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to encrypt shares: {{err}}", err).Error())
}
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// If backup is enabled, store backup info in vault.coreBarrierUnsealKeysBackupPath
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if c.barrierRekeyConfig.Backup {
backupInfo := map[string][]string{}
for i := 0; i < len(results.PGPFingerprints); i++ {
encShare := bytes.NewBuffer(results.SecretShares[i])
if backupInfo[results.PGPFingerprints[i]] == nil {
backupInfo[results.PGPFingerprints[i]] = []string{hex.EncodeToString(encShare.Bytes())}
} else {
backupInfo[results.PGPFingerprints[i]] = append(backupInfo[results.PGPFingerprints[i]], hex.EncodeToString(encShare.Bytes()))
}
}
backupVals := &RekeyBackup{
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Nonce: c.barrierRekeyConfig.Nonce,
Keys: backupInfo,
}
buf, err := json.Marshal(backupVals)
if err != nil {
c.logger.Error("failed to marshal unseal key backup", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to marshal unseal key backup: {{err}}", err).Error())
}
pe := &physical.Entry{
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Key: coreBarrierUnsealKeysBackupPath,
Value: buf,
}
if err = c.physical.Put(ctx, pe); err != nil {
c.logger.Error("failed to save unseal key backup", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to save unseal key backup: {{err}}", err).Error())
}
}
}
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if keysToStore != nil {
if err := c.seal.SetStoredKeys(ctx, keysToStore); err != nil {
c.logger.Error("failed to store keys", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to store keys: {{err}}", err).Error())
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}
}
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// If we are requiring validation, return now; otherwise rekey the barrier
if c.barrierRekeyConfig.VerificationRequired {
nonce, err := uuid.GenerateUUID()
if err != nil {
c.barrierRekeyConfig = nil
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to generate verification nonce: {{err}}", err).Error())
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}
c.barrierRekeyConfig.VerificationNonce = nonce
c.barrierRekeyConfig.VerificationKey = newMasterKey
results.VerificationRequired = true
results.VerificationNonce = nonce
return results, nil
}
if err := c.performBarrierRekey(ctx, newMasterKey); err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to perform barrier rekey: {{err}}", err).Error())
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}
c.barrierRekeyConfig = nil
return results, nil
}
func (c *Core) performBarrierRekey(ctx context.Context, newMasterKey []byte) logical.HTTPCodedError {
// Rekey the barrier
if err := c.barrier.Rekey(ctx, newMasterKey); err != nil {
c.logger.Error("failed to rekey barrier", "error", err)
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to rekey barrier: {{err}}", err).Error())
}
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if c.logger.IsInfo() {
c.logger.Info("security barrier rekeyed", "shares", c.barrierRekeyConfig.SecretShares, "threshold", c.barrierRekeyConfig.SecretThreshold)
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}
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c.barrierRekeyConfig.VerificationKey = nil
if err := c.seal.SetBarrierConfig(ctx, c.barrierRekeyConfig); err != nil {
c.logger.Error("error saving rekey seal configuration", "error", err)
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to save rekey seal configuration: {{err}}", err).Error())
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}
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// Write to the canary path, which will force a synchronous truing during
// replication
if err := c.barrier.Put(ctx, &Entry{
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Key: coreKeyringCanaryPath,
Value: []byte(c.barrierRekeyConfig.Nonce),
}); err != nil {
c.logger.Error("error saving keyring canary", "error", err)
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to save keyring canary: {{err}}", err).Error())
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}
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c.barrierRekeyConfig.RekeyProgress = nil
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return nil
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}
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// RecoveryRekeyUpdate is used to provide a new key part
func (c *Core) RecoveryRekeyUpdate(ctx context.Context, key []byte, nonce string) (*RekeyResult, logical.HTTPCodedError) {
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// Ensure we are already unsealed
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return nil, logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
}
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if c.standby {
return nil, logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
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}
// Verify the key length
min, max := c.barrier.KeyLength()
max += shamir.ShareOverhead
if len(key) < min {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("key is shorter than minimum %d bytes", min))
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}
if len(key) > max {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("key is longer than maximum %d bytes", max))
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}
c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
// Get the seal configuration
existingConfig, err := c.seal.RecoveryConfig(ctx)
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if err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to fetch existing recovery config: {{err}}", err).Error())
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}
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// Ensure the seal is initialized
if existingConfig == nil {
return nil, logical.CodedError(http.StatusBadRequest, ErrNotInit.Error())
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}
// Ensure a rekey is in progress
if c.recoveryRekeyConfig == nil {
return nil, logical.CodedError(http.StatusBadRequest, "no recovery rekey in progress")
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}
if len(c.recoveryRekeyConfig.VerificationKey) > 0 {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("rekey operation already finished; verification must be performed; nonce for the verification operation is %q", c.recoveryRekeyConfig.VerificationNonce))
}
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if nonce != c.recoveryRekeyConfig.Nonce {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("incorrect nonce supplied; nonce for this rekey operation is %q", c.recoveryRekeyConfig.Nonce))
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}
// Check if we already have this piece
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for _, existing := range c.recoveryRekeyConfig.RekeyProgress {
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if subtle.ConstantTimeCompare(existing, key) == 1 {
return nil, logical.CodedError(http.StatusBadRequest, "given key has already been provided during this rekey operation")
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}
}
// Store this key
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c.recoveryRekeyConfig.RekeyProgress = append(c.recoveryRekeyConfig.RekeyProgress, key)
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// Check if we don't have enough keys to unlock
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if len(c.recoveryRekeyConfig.RekeyProgress) < existingConfig.SecretThreshold {
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if c.logger.IsDebug() {
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c.logger.Debug("cannot rekey yet, not enough keys", "keys", len(c.recoveryRekeyConfig.RekeyProgress), "threshold", existingConfig.SecretThreshold)
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}
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return nil, nil
}
// Recover the master key
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var recoveryKey []byte
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if existingConfig.SecretThreshold == 1 {
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recoveryKey = c.recoveryRekeyConfig.RekeyProgress[0]
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} else {
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recoveryKey, err = shamir.Combine(c.recoveryRekeyConfig.RekeyProgress)
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if err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to compute recovery key: {{err}}", err).Error())
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}
}
// Verify the recovery key
if err := c.seal.VerifyRecoveryKey(ctx, recoveryKey); err != nil {
c.logger.Error("recovery key verification failed", "error", err)
return nil, logical.CodedError(http.StatusBadRequest, errwrap.Wrapf("recovery key verification failed: {{err}}", err).Error())
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}
// Generate a new master key
newMasterKey, err := c.barrier.GenerateKey()
if err != nil {
c.logger.Error("failed to generate recovery key", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("recovery key generation failed: {{err}}", err).Error())
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}
// Return the master key if only a single key part is used
results := &RekeyResult{
Backup: c.recoveryRekeyConfig.Backup,
}
if c.recoveryRekeyConfig.SecretShares == 1 {
results.SecretShares = append(results.SecretShares, newMasterKey)
} else {
// Split the master key using the Shamir algorithm
shares, err := shamir.Split(newMasterKey, c.recoveryRekeyConfig.SecretShares, c.recoveryRekeyConfig.SecretThreshold)
if err != nil {
c.logger.Error("failed to generate shares", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to generate shares: {{err}}", err).Error())
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}
results.SecretShares = shares
}
if len(c.recoveryRekeyConfig.PGPKeys) > 0 {
hexEncodedShares := make([][]byte, len(results.SecretShares))
for i, _ := range results.SecretShares {
hexEncodedShares[i] = []byte(hex.EncodeToString(results.SecretShares[i]))
}
results.PGPFingerprints, results.SecretShares, err = pgpkeys.EncryptShares(hexEncodedShares, c.recoveryRekeyConfig.PGPKeys)
if err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to encrypt shares: {{err}}", err).Error())
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}
if c.recoveryRekeyConfig.Backup {
backupInfo := map[string][]string{}
for i := 0; i < len(results.PGPFingerprints); i++ {
encShare := bytes.NewBuffer(results.SecretShares[i])
if backupInfo[results.PGPFingerprints[i]] == nil {
backupInfo[results.PGPFingerprints[i]] = []string{hex.EncodeToString(encShare.Bytes())}
} else {
backupInfo[results.PGPFingerprints[i]] = append(backupInfo[results.PGPFingerprints[i]], hex.EncodeToString(encShare.Bytes()))
}
}
backupVals := &RekeyBackup{
Nonce: c.recoveryRekeyConfig.Nonce,
Keys: backupInfo,
}
buf, err := json.Marshal(backupVals)
if err != nil {
c.logger.Error("failed to marshal recovery key backup", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to marshal recovery key backup: {{err}}", err).Error())
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}
pe := &physical.Entry{
Key: coreRecoveryUnsealKeysBackupPath,
Value: buf,
}
if err = c.physical.Put(ctx, pe); err != nil {
c.logger.Error("failed to save unseal key backup", "error", err)
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to save unseal key backup: {{err}}", err).Error())
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}
}
}
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// If we are requiring validation, return now; otherwise save the recovery
// key
if c.recoveryRekeyConfig.VerificationRequired {
nonce, err := uuid.GenerateUUID()
if err != nil {
c.recoveryRekeyConfig = nil
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to generate verification nonce: {{err}}", err).Error())
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}
c.recoveryRekeyConfig.VerificationNonce = nonce
c.recoveryRekeyConfig.VerificationKey = newMasterKey
results.VerificationRequired = true
results.VerificationNonce = nonce
return results, nil
}
if err := c.performRecoveryRekey(ctx, newMasterKey); err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to perform recovery rekey: {{err}}", err).Error())
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}
c.recoveryRekeyConfig = nil
return results, nil
}
func (c *Core) performRecoveryRekey(ctx context.Context, newMasterKey []byte) logical.HTTPCodedError {
if err := c.seal.SetRecoveryKey(ctx, newMasterKey); err != nil {
c.logger.Error("failed to set recovery key", "error", err)
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to set recovery key: {{err}}", err).Error())
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}
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c.recoveryRekeyConfig.VerificationKey = nil
if err := c.seal.SetRecoveryConfig(ctx, c.recoveryRekeyConfig); err != nil {
c.logger.Error("error saving rekey seal configuration", "error", err)
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to save rekey seal configuration: {{err}}", err).Error())
}
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// Write to the canary path, which will force a synchronous truing during
// replication
if err := c.barrier.Put(ctx, &Entry{
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Key: coreKeyringCanaryPath,
Value: []byte(c.recoveryRekeyConfig.Nonce),
}); err != nil {
c.logger.Error("error saving keyring canary", "error", err)
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to save keyring canary: {{err}}", err).Error())
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}
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c.recoveryRekeyConfig.RekeyProgress = nil
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return nil
}
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func (c *Core) RekeyVerify(ctx context.Context, key []byte, nonce string, recovery bool) (ret *RekeyVerifyResult, retErr logical.HTTPCodedError) {
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// Ensure we are already unsealed
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return nil, logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
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}
if c.standby {
return nil, logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
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}
// Verify the key length
min, max := c.barrier.KeyLength()
max += shamir.ShareOverhead
if len(key) < min {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("key is shorter than minimum %d bytes", min))
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}
if len(key) > max {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("key is longer than maximum %d bytes", max))
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}
c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
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config := c.barrierRekeyConfig
if recovery {
config = c.recoveryRekeyConfig
}
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// Ensure a rekey is in progress
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if config == nil {
return nil, logical.CodedError(http.StatusBadRequest, "no rekey in progress")
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}
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if len(config.VerificationKey) == 0 {
return nil, logical.CodedError(http.StatusBadRequest, "no rekey verification in progress")
}
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if nonce != config.VerificationNonce {
return nil, logical.CodedError(http.StatusBadRequest, fmt.Sprintf("incorrect nonce supplied; nonce for this verify operation is %q", config.VerificationNonce))
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}
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// Check if we already have this piece
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for _, existing := range config.VerificationProgress {
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if subtle.ConstantTimeCompare(existing, key) == 1 {
return nil, logical.CodedError(http.StatusBadRequest, "given key has already been provided during this verify operation")
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}
}
// Store this key
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config.VerificationProgress = append(config.VerificationProgress, key)
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// Check if we don't have enough keys to unlock
2018-05-21 21:46:32 +00:00
if len(config.VerificationProgress) < config.SecretThreshold {
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if c.logger.IsDebug() {
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c.logger.Debug("cannot verify yet, not enough keys", "keys", len(config.VerificationProgress), "threshold", config.SecretThreshold)
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}
return nil, nil
}
// Schedule the progress for forgetting and rotate the nonce if possible
defer func() {
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config.VerificationProgress = nil
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if ret != nil && ret.Complete {
return
}
// Not complete, so rotate nonce
2018-05-21 21:46:32 +00:00
nonce, err := uuid.GenerateUUID()
2018-05-21 22:25:58 +00:00
if err == nil {
config.VerificationNonce = nonce
if ret != nil {
ret.Nonce = nonce
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}
}
}()
// Recover the master key or recovery key
var recoveredKey []byte
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if config.SecretThreshold == 1 {
recoveredKey = config.VerificationProgress[0]
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} else {
2018-05-21 18:47:00 +00:00
var err error
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recoveredKey, err = shamir.Combine(config.VerificationProgress)
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if err != nil {
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return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to compute key for verification: {{err}}", err).Error())
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}
}
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if subtle.ConstantTimeCompare(recoveredKey, config.VerificationKey) != 1 {
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c.logger.Error("rekey verification failed")
return nil, logical.CodedError(http.StatusBadRequest, "rekey verification failed; incorrect key shares supplied")
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}
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switch recovery {
case false:
if err := c.performBarrierRekey(ctx, recoveredKey); err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to perform rekey: {{err}}", err).Error())
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}
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c.barrierRekeyConfig = nil
default:
if err := c.performRecoveryRekey(ctx, recoveredKey); err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("failed to perform recovery key rekey: {{err}}", err).Error())
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}
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c.recoveryRekeyConfig = nil
2018-05-18 01:30:39 +00:00
}
res := &RekeyVerifyResult{
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Nonce: config.VerificationNonce,
Complete: true,
2018-05-18 01:30:39 +00:00
}
return res, nil
}
// RekeyCancel is used to cancel an in-progress rekey
func (c *Core) RekeyCancel(recovery bool) logical.HTTPCodedError {
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
}
if c.standby {
return logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
}
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c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
// Clear any progress or config
2016-04-04 14:44:22 +00:00
if recovery {
c.recoveryRekeyConfig = nil
} else {
c.barrierRekeyConfig = nil
}
return nil
}
// RekeyVerifyRestart is used to start the verification process over
func (c *Core) RekeyVerifyRestart(recovery bool) logical.HTTPCodedError {
2018-05-18 01:17:52 +00:00
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
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}
if c.standby {
return logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
2018-05-18 01:17:52 +00:00
}
c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
// Attempt to generate a new nonce, but don't bail if it doesn't succeed
// (which is extraordinarily unlikely)
nonce, nonceErr := uuid.GenerateUUID()
// Clear any progress or config
if recovery {
2018-05-21 21:46:32 +00:00
c.recoveryRekeyConfig.VerificationProgress = nil
2018-05-18 01:17:52 +00:00
if nonceErr == nil {
c.recoveryRekeyConfig.VerificationNonce = nonce
}
} else {
2018-05-21 21:46:32 +00:00
c.barrierRekeyConfig.VerificationProgress = nil
2018-05-18 01:17:52 +00:00
if nonceErr == nil {
c.barrierRekeyConfig.VerificationNonce = nonce
}
}
return nil
}
// RekeyRetrieveBackup is used to retrieve any backed-up PGP-encrypted unseal
// keys
func (c *Core) RekeyRetrieveBackup(ctx context.Context, recovery bool) (*RekeyBackup, logical.HTTPCodedError) {
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return nil, logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
}
if c.standby {
return nil, logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
}
2016-04-04 14:44:22 +00:00
c.rekeyLock.RLock()
defer c.rekeyLock.RUnlock()
var entry *physical.Entry
var err error
if recovery {
entry, err = c.physical.Get(ctx, coreRecoveryUnsealKeysBackupPath)
2016-04-04 14:44:22 +00:00
} else {
entry, err = c.physical.Get(ctx, coreBarrierUnsealKeysBackupPath)
2016-04-04 14:44:22 +00:00
}
if err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("error getting keys from backup: {{err}}", err).Error())
}
if entry == nil {
return nil, nil
}
ret := &RekeyBackup{}
err = jsonutil.DecodeJSON(entry.Value, ret)
if err != nil {
return nil, logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("error decoding backup keys: {{err}}", err).Error())
}
return ret, nil
}
// RekeyDeleteBackup is used to delete any backed-up PGP-encrypted unseal keys
func (c *Core) RekeyDeleteBackup(ctx context.Context, recovery bool) logical.HTTPCodedError {
c.stateLock.RLock()
defer c.stateLock.RUnlock()
if c.sealed {
return logical.CodedError(http.StatusServiceUnavailable, consts.ErrSealed.Error())
}
if c.standby {
return logical.CodedError(http.StatusBadRequest, consts.ErrStandby.Error())
}
2016-04-04 14:44:22 +00:00
c.rekeyLock.Lock()
defer c.rekeyLock.Unlock()
if recovery {
err := c.physical.Delete(ctx, coreRecoveryUnsealKeysBackupPath)
if err != nil {
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("error deleting backup keys: {{err}}", err).Error())
}
return nil
}
err := c.physical.Delete(ctx, coreBarrierUnsealKeysBackupPath)
if err != nil {
return logical.CodedError(http.StatusInternalServerError, errwrap.Wrapf("error deleting backup keys: {{err}}", err).Error())
2016-04-04 14:44:22 +00:00
}
return nil
}