open-vault/vault/seal.go

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package vault
import (
"bytes"
"encoding/base64"
"encoding/json"
"fmt"
"github.com/hashicorp/vault/helper/jsonutil"
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"github.com/hashicorp/vault/physical"
"golang.org/x/crypto/openpgp"
"golang.org/x/crypto/openpgp/packet"
)
const (
// barrierSealConfigPath is the path used to store our seal configuration.
// This value is stored in plaintext, since we must be able to read it even
// with the Vault sealed. This is required so that we know how many secret
// parts must be used to reconstruct the master key.
barrierSealConfigPath = "core/seal-config"
// recoverySealConfigPath is the path to the recovery key seal
// configuration. It is inside the barrier.
recoverySealConfigPath = "core/recovery-seal-config"
// recoveryKeyPath is the path to the recovery key
recoveryKeyPath = "core/recovery-key"
)
type Seal interface {
SetCore(*Core)
Init() error
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Finalize() error
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StoredKeysSupported() bool
SetStoredKeys([][]byte) error
GetStoredKeys() ([][]byte, error)
BarrierType() string
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BarrierConfig() (*SealConfig, error)
SetBarrierConfig(*SealConfig) error
RecoveryKeySupported() bool
RecoveryType() string
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RecoveryConfig() (*SealConfig, error)
SetRecoveryConfig(*SealConfig) error
SetRecoveryKey([]byte) error
VerifyRecoveryKey([]byte) error
}
type DefaultSeal struct {
config *SealConfig
core *Core
}
func (d *DefaultSeal) checkCore() error {
if d.core == nil {
return fmt.Errorf("seal does not have a core set")
}
return nil
}
func (d *DefaultSeal) SetCore(core *Core) {
d.core = core
}
func (d *DefaultSeal) Init() error {
return nil
}
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func (d *DefaultSeal) Finalize() error {
return nil
}
func (d *DefaultSeal) BarrierType() string {
return "shamir"
}
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func (d *DefaultSeal) StoredKeysSupported() bool {
return false
}
func (d *DefaultSeal) RecoveryKeySupported() bool {
return false
}
func (d *DefaultSeal) SetStoredKeys(keys [][]byte) error {
return fmt.Errorf("[ERR] core: stored keys are not supported")
}
func (d *DefaultSeal) GetStoredKeys() ([][]byte, error) {
return nil, fmt.Errorf("[ERR] core: stored keys are not supported")
}
func (d *DefaultSeal) BarrierConfig() (*SealConfig, error) {
if d.config != nil {
return d.config.Clone(), nil
}
if err := d.checkCore(); err != nil {
return nil, err
}
// Fetch the core configuration
pe, err := d.core.physical.Get(barrierSealConfigPath)
if err != nil {
d.core.logger.Printf("[ERR] core: failed to read seal configuration: %v", err)
return nil, fmt.Errorf("failed to check seal configuration: %v", err)
}
// If the seal configuration is missing, we are not initialized
if pe == nil {
d.core.logger.Printf("[INFO] core: seal configuration missing, not initialized")
return nil, nil
}
var conf SealConfig
// Decode the barrier entry
if err := jsonutil.DecodeJSON(pe.Value, &conf); err != nil {
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d.core.logger.Printf("[ERR] core: failed to decode seal configuration: %v", err)
return nil, fmt.Errorf("failed to decode seal configuration: %v", err)
}
switch conf.Type {
// This case should not be valid for other types as only this is the default
case "":
conf.Type = d.BarrierType()
case d.BarrierType():
default:
d.core.logger.Printf("[ERR] core: barrier seal type of %s does not match loaded type of %s", conf.Type, d.BarrierType())
return nil, fmt.Errorf("barrier seal type of %s does not match loaded type of %s", conf.Type, d.BarrierType())
}
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// Check for a valid seal configuration
if err := conf.Validate(); err != nil {
d.core.logger.Printf("[ERR] core: invalid seal configuration: %v", err)
return nil, fmt.Errorf("seal validation failed: %v", err)
}
d.config = &conf
return d.config.Clone(), nil
}
func (d *DefaultSeal) SetBarrierConfig(config *SealConfig) error {
if err := d.checkCore(); err != nil {
return err
}
config.Type = d.BarrierType()
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// Encode the seal configuration
buf, err := json.Marshal(config)
if err != nil {
return fmt.Errorf("failed to encode seal configuration: %v", err)
}
// Store the seal configuration
pe := &physical.Entry{
Key: barrierSealConfigPath,
Value: buf,
}
if err := d.core.physical.Put(pe); err != nil {
d.core.logger.Printf("[ERR] core: failed to write seal configuration: %v", err)
return fmt.Errorf("failed to write seal configuration: %v", err)
}
d.config = config.Clone()
return nil
}
func (d *DefaultSeal) RecoveryType() string {
return "unsupported"
}
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func (d *DefaultSeal) RecoveryConfig() (*SealConfig, error) {
return nil, fmt.Errorf("recovery not supported")
}
func (d *DefaultSeal) SetRecoveryConfig(config *SealConfig) error {
return fmt.Errorf("recovery not supported")
}
func (d *DefaultSeal) VerifyRecoveryKey([]byte) error {
return fmt.Errorf("recovery not supported")
}
func (d *DefaultSeal) SetRecoveryKey(key []byte) error {
return fmt.Errorf("recovery not supported")
}
// SealConfig is used to describe the seal configuration
type SealConfig struct {
// The type, for sanity checking
Type string `json:"type"`
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// SecretShares is the number of shares the secret is split into. This is
// the N value of Shamir.
SecretShares int `json:"secret_shares"`
// SecretThreshold is the number of parts required to open the vault. This
// is the T value of Shamir.
SecretThreshold int `json:"secret_threshold"`
// PGPKeys is the array of public PGP keys used, if requested, to encrypt
// the output unseal tokens. If provided, it sets the value of
// SecretShares. Ordering is important.
PGPKeys []string `json:"pgp_keys"`
// Nonce is a nonce generated by Vault used to ensure that when unseal keys
// are submitted for a rekey operation, the rekey operation itself is the
// one intended. This prevents hijacking of the rekey operation, since it
// is unauthenticated.
Nonce string `json:"nonce"`
// Backup indicates whether or not a backup of PGP-encrypted unseal keys
// should be stored at coreUnsealKeysBackupPath after successful rekeying.
Backup bool `json:"backup"`
// How many keys to store, for seals that support storage.
StoredShares int `json:"stored_shares"`
}
// Validate is used to sanity check the seal configuration
func (s *SealConfig) Validate() error {
if s.SecretShares < 1 {
return fmt.Errorf("shares must be at least one")
}
if s.SecretThreshold < 1 {
return fmt.Errorf("threshold must be at least one")
}
if s.SecretShares > 1 && s.SecretThreshold == 1 {
return fmt.Errorf("threshold must be greater than one for multiple shares")
}
if s.SecretShares > 255 {
return fmt.Errorf("shares must be less than 256")
}
if s.SecretThreshold > 255 {
return fmt.Errorf("threshold must be less than 256")
}
if s.SecretThreshold > s.SecretShares {
return fmt.Errorf("threshold cannot be larger than shares")
}
if s.StoredShares > s.SecretShares {
return fmt.Errorf("stored keys cannot be larger than shares")
}
if len(s.PGPKeys) > 0 && len(s.PGPKeys) != s.SecretShares-s.StoredShares {
return fmt.Errorf("count mismatch between number of provided PGP keys and number of shares")
}
if len(s.PGPKeys) > 0 {
for _, keystring := range s.PGPKeys {
data, err := base64.StdEncoding.DecodeString(keystring)
if err != nil {
return fmt.Errorf("Error decoding given PGP key: %s", err)
}
_, err = openpgp.ReadEntity(packet.NewReader(bytes.NewBuffer(data)))
if err != nil {
return fmt.Errorf("Error parsing given PGP key: %s", err)
}
}
}
return nil
}
func (s *SealConfig) Clone() *SealConfig {
ret := &SealConfig{
Type: s.Type,
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SecretShares: s.SecretShares,
SecretThreshold: s.SecretThreshold,
Nonce: s.Nonce,
Backup: s.Backup,
StoredShares: s.StoredShares,
}
if len(s.PGPKeys) > 0 {
ret.PGPKeys = make([]string, len(s.PGPKeys))
copy(ret.PGPKeys, s.PGPKeys)
}
return ret
}
type SealAccess struct {
seal Seal
}
func (s *SealAccess) SetSeal(seal Seal) {
s.seal = seal
}
func (s *SealAccess) StoredKeysSupported() bool {
return s.seal.StoredKeysSupported()
}
func (s *SealAccess) BarrierConfig() (*SealConfig, error) {
return s.seal.BarrierConfig()
}
func (s *SealAccess) RecoveryKeySupported() bool {
return s.seal.RecoveryKeySupported()
}
func (s *SealAccess) RecoveryConfig() (*SealConfig, error) {
return s.seal.RecoveryConfig()
}