lbcwallet/waddrmgr/db.go

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/*
* Copyright (c) 2014 Conformal Systems LLC <info@conformal.com>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
package waddrmgr
import (
"bytes"
"encoding/binary"
"fmt"
"time"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcwallet/walletdb"
"github.com/btcsuite/fastsha256"
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)
const (
// LatestMgrVersion is the most recent manager version.
LatestMgrVersion = 1
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)
// maybeConvertDbError converts the passed error to a ManagerError with an
// error code of ErrDatabase if it is not already a ManagerError. This is
// useful for potential errors returned from managed transaction an other parts
// of the walletdb database.
func maybeConvertDbError(err error) error {
// When the error is already a ManagerError, just return it.
if _, ok := err.(ManagerError); ok {
return err
}
return managerError(ErrDatabase, err.Error(), err)
}
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// syncStatus represents a address synchronization status stored in the
// database.
type syncStatus uint8
// These constants define the various supported sync status types.
//
// NOTE: These are currently unused but are being defined for the possibility of
// supporting sync status on a per-address basis.
const (
ssNone syncStatus = 0 // not iota as they need to be stable for db
ssPartial syncStatus = 1
ssFull syncStatus = 2
)
// addressType represents a type of address stored in the database.
type addressType uint8
// These constants define the various supported address types.
const (
adtChain addressType = 0 // not iota as they need to be stable for db
adtImport addressType = 1
adtScript addressType = 2
)
// accountType represents a type of address stored in the database.
type accountType uint8
// These constants define the various supported account types.
const (
actBIP0044 accountType = 0 // not iota as they need to be stable for db
)
// dbAccountRow houses information stored about an account in the database.
type dbAccountRow struct {
acctType accountType
rawData []byte // Varies based on account type field.
}
// dbBIP0044AccountRow houses additional information stored about a BIP0044
// account in the database.
type dbBIP0044AccountRow struct {
dbAccountRow
pubKeyEncrypted []byte
privKeyEncrypted []byte
nextExternalIndex uint32
nextInternalIndex uint32
name string
}
// dbAddressRow houses common information stored about an address in the
// database.
type dbAddressRow struct {
addrType addressType
account uint32
addTime uint64
syncStatus syncStatus
rawData []byte // Varies based on address type field.
}
// dbChainAddressRow houses additional information stored about a chained
// address in the database.
type dbChainAddressRow struct {
dbAddressRow
branch uint32
index uint32
}
// dbImportedAddressRow houses additional information stored about an imported
// public key address in the database.
type dbImportedAddressRow struct {
dbAddressRow
encryptedPubKey []byte
encryptedPrivKey []byte
}
// dbImportedAddressRow houses additional information stored about a script
// address in the database.
type dbScriptAddressRow struct {
dbAddressRow
encryptedHash []byte
encryptedScript []byte
}
// Key names for various database fields.
var (
// Bucket names.
acctBucketName = []byte("acct")
addrBucketName = []byte("addr")
addrAcctIdxBucketName = []byte("addracctidx")
mainBucketName = []byte("main")
syncBucketName = []byte("sync")
// Db related key names (main bucket).
mgrVersionName = []byte("mgrver")
mgrCreateDateName = []byte("mgrcreated")
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// Crypto related key names (main bucket).
masterPrivKeyName = []byte("mpriv")
masterPubKeyName = []byte("mpub")
cryptoPrivKeyName = []byte("cpriv")
cryptoPubKeyName = []byte("cpub")
cryptoScriptKeyName = []byte("cscript")
watchingOnlyName = []byte("watchonly")
// Sync related key names (sync bucket).
syncedToName = []byte("syncedto")
startBlockName = []byte("startblock")
recentBlocksName = []byte("recentblocks")
// Account related key names (account bucket).
acctNumAcctsName = []byte("numaccts")
)
// fetchMasterKeyParams loads the master key parameters needed to derive them
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// (when given the correct user-supplied passphrase) from the database. Either
// returned value can be nil, but in practice only the private key params will
// be nil for a watching-only database.
func fetchMasterKeyParams(tx walletdb.Tx) ([]byte, []byte, error) {
bucket := tx.RootBucket().Bucket(mainBucketName)
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// Load the master public key parameters. Required.
val := bucket.Get(masterPubKeyName)
if val == nil {
str := "required master public key parameters not stored in " +
"database"
return nil, nil, managerError(ErrDatabase, str, nil)
}
pubParams := make([]byte, len(val))
copy(pubParams, val)
// Load the master private key parameters if they were stored.
var privParams []byte
val = bucket.Get(masterPrivKeyName)
if val != nil {
privParams = make([]byte, len(val))
copy(privParams, val)
}
return pubParams, privParams, nil
}
// putMasterKeyParams stores the master key parameters needed to derive them
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// to the database. Either parameter can be nil in which case no value is
// written for the parameter.
func putMasterKeyParams(tx walletdb.Tx, pubParams, privParams []byte) error {
bucket := tx.RootBucket().Bucket(mainBucketName)
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if privParams != nil {
err := bucket.Put(masterPrivKeyName, privParams)
if err != nil {
str := "failed to store master private key parameters"
return managerError(ErrDatabase, str, err)
}
}
if pubParams != nil {
err := bucket.Put(masterPubKeyName, pubParams)
if err != nil {
str := "failed to store master public key parameters"
return managerError(ErrDatabase, str, err)
}
}
return nil
}
// fetchCryptoKeys loads the encrypted crypto keys which are in turn used to
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// protect the extended keys, imported keys, and scripts. Any of the returned
// values can be nil, but in practice only the crypto private and script keys
// will be nil for a watching-only database.
func fetchCryptoKeys(tx walletdb.Tx) ([]byte, []byte, []byte, error) {
bucket := tx.RootBucket().Bucket(mainBucketName)
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// Load the crypto public key parameters. Required.
val := bucket.Get(cryptoPubKeyName)
if val == nil {
str := "required encrypted crypto public not stored in database"
return nil, nil, nil, managerError(ErrDatabase, str, nil)
}
pubKey := make([]byte, len(val))
copy(pubKey, val)
// Load the crypto private key parameters if they were stored.
var privKey []byte
val = bucket.Get(cryptoPrivKeyName)
if val != nil {
privKey = make([]byte, len(val))
copy(privKey, val)
}
// Load the crypto script key parameters if they were stored.
var scriptKey []byte
val = bucket.Get(cryptoScriptKeyName)
if val != nil {
scriptKey = make([]byte, len(val))
copy(scriptKey, val)
}
return pubKey, privKey, scriptKey, nil
}
// putCryptoKeys stores the encrypted crypto keys which are in turn used to
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// protect the extended and imported keys. Either parameter can be nil in which
// case no value is written for the parameter.
func putCryptoKeys(tx walletdb.Tx, pubKeyEncrypted, privKeyEncrypted, scriptKeyEncrypted []byte) error {
bucket := tx.RootBucket().Bucket(mainBucketName)
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if pubKeyEncrypted != nil {
err := bucket.Put(cryptoPubKeyName, pubKeyEncrypted)
if err != nil {
str := "failed to store encrypted crypto public key"
return managerError(ErrDatabase, str, err)
}
}
if privKeyEncrypted != nil {
err := bucket.Put(cryptoPrivKeyName, privKeyEncrypted)
if err != nil {
str := "failed to store encrypted crypto private key"
return managerError(ErrDatabase, str, err)
}
}
if scriptKeyEncrypted != nil {
err := bucket.Put(cryptoScriptKeyName, scriptKeyEncrypted)
if err != nil {
str := "failed to store encrypted crypto script key"
return managerError(ErrDatabase, str, err)
}
}
return nil
}
// fetchWatchingOnly loads the watching-only flag from the database.
func fetchWatchingOnly(tx walletdb.Tx) (bool, error) {
bucket := tx.RootBucket().Bucket(mainBucketName)
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buf := bucket.Get(watchingOnlyName)
if len(buf) != 1 {
str := "malformed watching-only flag stored in database"
return false, managerError(ErrDatabase, str, nil)
}
return buf[0] != 0, nil
}
// putWatchingOnly stores the watching-only flag to the database.
func putWatchingOnly(tx walletdb.Tx, watchingOnly bool) error {
bucket := tx.RootBucket().Bucket(mainBucketName)
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var encoded byte
if watchingOnly {
encoded = 1
}
if err := bucket.Put(watchingOnlyName, []byte{encoded}); err != nil {
str := "failed to store watching only flag"
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return managerError(ErrDatabase, str, err)
}
return nil
}
// uint32ToBytes converts a 32 bit unsigned integer into a 4-byte slice in
// little-endian order: 1 -> [1 0 0 0].
func uint32ToBytes(number uint32) []byte {
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buf := make([]byte, 4)
binary.LittleEndian.PutUint32(buf, number)
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return buf
}
// deserializeAccountRow deserializes the passed serialized account information.
// This is used as a common base for the various account types to deserialize
// the common parts.
func deserializeAccountRow(accountID []byte, serializedAccount []byte) (*dbAccountRow, error) {
// The serialized account format is:
// <acctType><rdlen><rawdata>
//
// 1 byte acctType + 4 bytes raw data length + raw data
// Given the above, the length of the entry must be at a minimum
// the constant value sizes.
if len(serializedAccount) < 5 {
str := fmt.Sprintf("malformed serialized account for key %x",
accountID)
return nil, managerError(ErrDatabase, str, nil)
}
row := dbAccountRow{}
row.acctType = accountType(serializedAccount[0])
rdlen := binary.LittleEndian.Uint32(serializedAccount[1:5])
row.rawData = make([]byte, rdlen)
copy(row.rawData, serializedAccount[5:5+rdlen])
return &row, nil
}
// serializeAccountRow returns the serialization of the passed account row.
func serializeAccountRow(row *dbAccountRow) []byte {
// The serialized account format is:
// <acctType><rdlen><rawdata>
//
// 1 byte acctType + 4 bytes raw data length + raw data
rdlen := len(row.rawData)
buf := make([]byte, 5+rdlen)
buf[0] = byte(row.acctType)
binary.LittleEndian.PutUint32(buf[1:5], uint32(rdlen))
copy(buf[5:5+rdlen], row.rawData)
return buf
}
// deserializeBIP0044AccountRow deserializes the raw data from the passed
// account row as a BIP0044 account.
func deserializeBIP0044AccountRow(accountID []byte, row *dbAccountRow) (*dbBIP0044AccountRow, error) {
// The serialized BIP0044 account raw data format is:
// <encpubkeylen><encpubkey><encprivkeylen><encprivkey><nextextidx>
// <nextintidx><namelen><name>
//
// 4 bytes encrypted pubkey len + encrypted pubkey + 4 bytes encrypted
// privkey len + encrypted privkey + 4 bytes next external index +
// 4 bytes next internal index + 4 bytes name len + name
// Given the above, the length of the entry must be at a minimum
// the constant value sizes.
if len(row.rawData) < 20 {
str := fmt.Sprintf("malformed serialized bip0044 account for "+
"key %x", accountID)
return nil, managerError(ErrDatabase, str, nil)
}
retRow := dbBIP0044AccountRow{
dbAccountRow: *row,
}
pubLen := binary.LittleEndian.Uint32(row.rawData[0:4])
retRow.pubKeyEncrypted = make([]byte, pubLen)
copy(retRow.pubKeyEncrypted, row.rawData[4:4+pubLen])
offset := 4 + pubLen
privLen := binary.LittleEndian.Uint32(row.rawData[offset : offset+4])
offset += 4
retRow.privKeyEncrypted = make([]byte, privLen)
copy(retRow.privKeyEncrypted, row.rawData[offset:offset+privLen])
offset += privLen
retRow.nextExternalIndex = binary.LittleEndian.Uint32(row.rawData[offset : offset+4])
offset += 4
retRow.nextInternalIndex = binary.LittleEndian.Uint32(row.rawData[offset : offset+4])
offset += 4
nameLen := binary.LittleEndian.Uint32(row.rawData[offset : offset+4])
offset += 4
retRow.name = string(row.rawData[offset : offset+nameLen])
return &retRow, nil
}
// serializeBIP0044AccountRow returns the serialization of the raw data field
// for a BIP0044 account.
func serializeBIP0044AccountRow(encryptedPubKey,
encryptedPrivKey []byte, nextExternalIndex, nextInternalIndex uint32,
name string) []byte {
// The serialized BIP0044 account raw data format is:
// <encpubkeylen><encpubkey><encprivkeylen><encprivkey><nextextidx>
// <nextintidx><namelen><name>
//
// 4 bytes encrypted pubkey len + encrypted pubkey + 4 bytes encrypted
// privkey len + encrypted privkey + 4 bytes next external index +
// 4 bytes next internal index + 4 bytes name len + name
pubLen := uint32(len(encryptedPubKey))
privLen := uint32(len(encryptedPrivKey))
nameLen := uint32(len(name))
rawData := make([]byte, 20+pubLen+privLen+nameLen)
binary.LittleEndian.PutUint32(rawData[0:4], pubLen)
copy(rawData[4:4+pubLen], encryptedPubKey)
offset := 4 + pubLen
binary.LittleEndian.PutUint32(rawData[offset:offset+4], privLen)
offset += 4
copy(rawData[offset:offset+privLen], encryptedPrivKey)
offset += privLen
binary.LittleEndian.PutUint32(rawData[offset:offset+4], nextExternalIndex)
offset += 4
binary.LittleEndian.PutUint32(rawData[offset:offset+4], nextInternalIndex)
offset += 4
binary.LittleEndian.PutUint32(rawData[offset:offset+4], nameLen)
offset += 4
copy(rawData[offset:offset+nameLen], name)
return rawData
}
// fetchAccountInfo loads information about the passed account from the
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// database.
func fetchAccountInfo(tx walletdb.Tx, account uint32) (interface{}, error) {
bucket := tx.RootBucket().Bucket(acctBucketName)
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accountID := uint32ToBytes(account)
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serializedRow := bucket.Get(accountID)
if serializedRow == nil {
str := fmt.Sprintf("account %d not found", account)
return nil, managerError(ErrAccountNotFound, str, nil)
}
row, err := deserializeAccountRow(accountID, serializedRow)
if err != nil {
return nil, err
}
switch row.acctType {
case actBIP0044:
return deserializeBIP0044AccountRow(accountID, row)
}
str := fmt.Sprintf("unsupported account type '%d'", row.acctType)
return nil, managerError(ErrDatabase, str, nil)
}
// putAccountRow stores the provided account information to the database. This
// is used a common base for storing the various account types.
func putAccountRow(tx walletdb.Tx, account uint32, row *dbAccountRow) error {
bucket := tx.RootBucket().Bucket(acctBucketName)
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// Write the serialized value keyed by the account number.
err := bucket.Put(uint32ToBytes(account), serializeAccountRow(row))
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if err != nil {
str := fmt.Sprintf("failed to store account %d", account)
return managerError(ErrDatabase, str, err)
}
return nil
}
// putAccountInfo stores the provided account information to the database.
func putAccountInfo(tx walletdb.Tx, account uint32, encryptedPubKey,
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encryptedPrivKey []byte, nextExternalIndex, nextInternalIndex uint32,
name string) error {
rawData := serializeBIP0044AccountRow(encryptedPubKey, encryptedPrivKey,
nextExternalIndex, nextInternalIndex, name)
acctRow := dbAccountRow{
acctType: actBIP0044,
rawData: rawData,
}
return putAccountRow(tx, account, &acctRow)
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}
// fetchNumAccounts loads the number of accounts that have been created from
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// the database.
func fetchNumAccounts(tx walletdb.Tx) (uint32, error) {
bucket := tx.RootBucket().Bucket(acctBucketName)
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val := bucket.Get(acctNumAcctsName)
if val == nil {
str := "required num accounts not stored in database"
return 0, managerError(ErrDatabase, str, nil)
}
return binary.LittleEndian.Uint32(val), nil
}
// putNumAccounts stores the number of accounts that have been created to the
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// database.
func putNumAccounts(tx walletdb.Tx, numAccounts uint32) error {
bucket := tx.RootBucket().Bucket(acctBucketName)
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var val [4]byte
binary.LittleEndian.PutUint32(val[:], numAccounts)
err := bucket.Put(acctNumAcctsName, val[:])
if err != nil {
str := "failed to store num accounts"
return managerError(ErrDatabase, str, err)
}
return nil
}
// fetchAddressRow loads address information for the provided address id from
// the database. This is used as a common base for the various address types
// to load the common information.
// deserializeAddressRow deserializes the passed serialized address information.
// This is used as a common base for the various address types to deserialize
// the common parts.
func deserializeAddressRow(addressID, serializedAddress []byte) (*dbAddressRow, error) {
// The serialized address format is:
// <addrType><account><addedTime><syncStatus><rawdata>
//
// 1 byte addrType + 4 bytes account + 8 bytes addTime + 1 byte
// syncStatus + 4 bytes raw data length + raw data
// Given the above, the length of the entry must be at a minimum
// the constant value sizes.
if len(serializedAddress) < 18 {
str := fmt.Sprintf("malformed serialized address for key %s",
addressID)
return nil, managerError(ErrDatabase, str, nil)
}
row := dbAddressRow{}
row.addrType = addressType(serializedAddress[0])
row.account = binary.LittleEndian.Uint32(serializedAddress[1:5])
row.addTime = binary.LittleEndian.Uint64(serializedAddress[5:13])
row.syncStatus = syncStatus(serializedAddress[13])
rdlen := binary.LittleEndian.Uint32(serializedAddress[14:18])
row.rawData = make([]byte, rdlen)
copy(row.rawData, serializedAddress[18:18+rdlen])
return &row, nil
}
// serializeAddressRow returns the serialization of the passed address row.
func serializeAddressRow(row *dbAddressRow) []byte {
// The serialized address format is:
// <addrType><account><addedTime><syncStatus><commentlen><comment>
// <rawdata>
//
// 1 byte addrType + 4 bytes account + 8 bytes addTime + 1 byte
// syncStatus + 4 bytes raw data length + raw data
rdlen := len(row.rawData)
buf := make([]byte, 18+rdlen)
buf[0] = byte(row.addrType)
binary.LittleEndian.PutUint32(buf[1:5], row.account)
binary.LittleEndian.PutUint64(buf[5:13], row.addTime)
buf[13] = byte(row.syncStatus)
binary.LittleEndian.PutUint32(buf[14:18], uint32(rdlen))
copy(buf[18:18+rdlen], row.rawData)
return buf
}
// deserializeChainedAddress deserializes the raw data from the passed address
// row as a chained address.
func deserializeChainedAddress(addressID []byte, row *dbAddressRow) (*dbChainAddressRow, error) {
// The serialized chain address raw data format is:
// <branch><index>
//
// 4 bytes branch + 4 bytes address index
if len(row.rawData) != 8 {
str := fmt.Sprintf("malformed serialized chained address for "+
"key %s", addressID)
return nil, managerError(ErrDatabase, str, nil)
}
retRow := dbChainAddressRow{
dbAddressRow: *row,
}
retRow.branch = binary.LittleEndian.Uint32(row.rawData[0:4])
retRow.index = binary.LittleEndian.Uint32(row.rawData[4:8])
return &retRow, nil
}
// serializeChainedAddress returns the serialization of the raw data field for
// a chained address.
func serializeChainedAddress(branch, index uint32) []byte {
// The serialized chain address raw data format is:
// <branch><index>
//
// 4 bytes branch + 4 bytes address index
rawData := make([]byte, 8)
binary.LittleEndian.PutUint32(rawData[0:4], branch)
binary.LittleEndian.PutUint32(rawData[4:8], index)
return rawData
}
// deserializeImportedAddress deserializes the raw data from the passed address
// row as an imported address.
func deserializeImportedAddress(addressID []byte, row *dbAddressRow) (*dbImportedAddressRow, error) {
// The serialized imported address raw data format is:
// <encpubkeylen><encpubkey><encprivkeylen><encprivkey>
//
// 4 bytes encrypted pubkey len + encrypted pubkey + 4 bytes encrypted
// privkey len + encrypted privkey
// Given the above, the length of the entry must be at a minimum
// the constant value sizes.
if len(row.rawData) < 8 {
str := fmt.Sprintf("malformed serialized imported address for "+
"key %s", addressID)
return nil, managerError(ErrDatabase, str, nil)
}
retRow := dbImportedAddressRow{
dbAddressRow: *row,
}
pubLen := binary.LittleEndian.Uint32(row.rawData[0:4])
retRow.encryptedPubKey = make([]byte, pubLen)
copy(retRow.encryptedPubKey, row.rawData[4:4+pubLen])
offset := 4 + pubLen
privLen := binary.LittleEndian.Uint32(row.rawData[offset : offset+4])
offset += 4
retRow.encryptedPrivKey = make([]byte, privLen)
copy(retRow.encryptedPrivKey, row.rawData[offset:offset+privLen])
return &retRow, nil
}
// serializeImportedAddress returns the serialization of the raw data field for
// an imported address.
func serializeImportedAddress(encryptedPubKey, encryptedPrivKey []byte) []byte {
// The serialized imported address raw data format is:
// <encpubkeylen><encpubkey><encprivkeylen><encprivkey>
//
// 4 bytes encrypted pubkey len + encrypted pubkey + 4 bytes encrypted
// privkey len + encrypted privkey
pubLen := uint32(len(encryptedPubKey))
privLen := uint32(len(encryptedPrivKey))
rawData := make([]byte, 8+pubLen+privLen)
binary.LittleEndian.PutUint32(rawData[0:4], pubLen)
copy(rawData[4:4+pubLen], encryptedPubKey)
offset := 4 + pubLen
binary.LittleEndian.PutUint32(rawData[offset:offset+4], privLen)
offset += 4
copy(rawData[offset:offset+privLen], encryptedPrivKey)
return rawData
}
// deserializeScriptAddress deserializes the raw data from the passed address
// row as a script address.
func deserializeScriptAddress(addressID []byte, row *dbAddressRow) (*dbScriptAddressRow, error) {
// The serialized script address raw data format is:
// <encscripthashlen><encscripthash><encscriptlen><encscript>
//
// 4 bytes encrypted script hash len + encrypted script hash + 4 bytes
// encrypted script len + encrypted script
// Given the above, the length of the entry must be at a minimum
// the constant value sizes.
if len(row.rawData) < 8 {
str := fmt.Sprintf("malformed serialized script address for "+
"key %s", addressID)
return nil, managerError(ErrDatabase, str, nil)
}
retRow := dbScriptAddressRow{
dbAddressRow: *row,
}
hashLen := binary.LittleEndian.Uint32(row.rawData[0:4])
retRow.encryptedHash = make([]byte, hashLen)
copy(retRow.encryptedHash, row.rawData[4:4+hashLen])
offset := 4 + hashLen
scriptLen := binary.LittleEndian.Uint32(row.rawData[offset : offset+4])
offset += 4
retRow.encryptedScript = make([]byte, scriptLen)
copy(retRow.encryptedScript, row.rawData[offset:offset+scriptLen])
return &retRow, nil
}
// serializeScriptAddress returns the serialization of the raw data field for
// a script address.
func serializeScriptAddress(encryptedHash, encryptedScript []byte) []byte {
// The serialized script address raw data format is:
// <encscripthashlen><encscripthash><encscriptlen><encscript>
//
// 4 bytes encrypted script hash len + encrypted script hash + 4 bytes
// encrypted script len + encrypted script
hashLen := uint32(len(encryptedHash))
scriptLen := uint32(len(encryptedScript))
rawData := make([]byte, 8+hashLen+scriptLen)
binary.LittleEndian.PutUint32(rawData[0:4], hashLen)
copy(rawData[4:4+hashLen], encryptedHash)
offset := 4 + hashLen
binary.LittleEndian.PutUint32(rawData[offset:offset+4], scriptLen)
offset += 4
copy(rawData[offset:offset+scriptLen], encryptedScript)
return rawData
}
// fetchAddress loads address information for the provided address id from
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// the database. The returned value is one of the address rows for the specific
// address type. The caller should use type assertions to ascertain the type.
func fetchAddress(tx walletdb.Tx, addressID []byte) (interface{}, error) {
bucket := tx.RootBucket().Bucket(addrBucketName)
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addrHash := fastsha256.Sum256(addressID)
serializedRow := bucket.Get(addrHash[:])
if serializedRow == nil {
str := "address not found"
return nil, managerError(ErrAddressNotFound, str, nil)
}
row, err := deserializeAddressRow(addressID, serializedRow)
if err != nil {
return nil, err
}
switch row.addrType {
case adtChain:
return deserializeChainedAddress(addressID, row)
case adtImport:
return deserializeImportedAddress(addressID, row)
case adtScript:
return deserializeScriptAddress(addressID, row)
}
str := fmt.Sprintf("unsupported address type '%d'", row.addrType)
return nil, managerError(ErrDatabase, str, nil)
}
// putAddress stores the provided address information to the database. This
// is used a common base for storing the various address types.
func putAddress(tx walletdb.Tx, addressID []byte, row *dbAddressRow) error {
bucket := tx.RootBucket().Bucket(addrBucketName)
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// Write the serialized value keyed by the hash of the address. The
// additional hash is used to conceal the actual address while still
// allowed keyed lookups.
addrHash := fastsha256.Sum256(addressID)
err := bucket.Put(addrHash[:], serializeAddressRow(row))
if err != nil {
str := fmt.Sprintf("failed to store address %x", addressID)
return managerError(ErrDatabase, str, err)
}
return nil
}
// putChainedAddress stores the provided chained address information to the
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// database.
func putChainedAddress(tx walletdb.Tx, addressID []byte, account uint32,
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status syncStatus, branch, index uint32) error {
addrRow := dbAddressRow{
addrType: adtChain,
account: account,
addTime: uint64(time.Now().Unix()),
syncStatus: status,
rawData: serializeChainedAddress(branch, index),
}
if err := putAddress(tx, addressID, &addrRow); err != nil {
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return err
}
// Update the next index for the appropriate internal or external
// branch.
accountID := uint32ToBytes(account)
bucket := tx.RootBucket().Bucket(acctBucketName)
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serializedAccount := bucket.Get(accountID)
// Deserialize the account row.
row, err := deserializeAccountRow(accountID, serializedAccount)
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if err != nil {
return err
}
arow, err := deserializeBIP0044AccountRow(accountID, row)
if err != nil {
return err
}
// Increment the appropriate next index depending on whether the branch
// is internal or external.
nextExternalIndex := arow.nextExternalIndex
nextInternalIndex := arow.nextInternalIndex
if branch == internalBranch {
nextInternalIndex = index + 1
} else {
nextExternalIndex = index + 1
}
// Reserialize the account with the updated index and store it.
row.rawData = serializeBIP0044AccountRow(arow.pubKeyEncrypted,
arow.privKeyEncrypted, nextExternalIndex, nextInternalIndex,
arow.name)
err = bucket.Put(accountID, serializeAccountRow(row))
if err != nil {
str := fmt.Sprintf("failed to update next index for "+
"address %x, account %d", addressID, account)
return managerError(ErrDatabase, str, err)
}
return nil
}
// putImportedAddress stores the provided imported address information to the
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// database.
func putImportedAddress(tx walletdb.Tx, addressID []byte, account uint32,
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status syncStatus, encryptedPubKey, encryptedPrivKey []byte) error {
rawData := serializeImportedAddress(encryptedPubKey, encryptedPrivKey)
addrRow := dbAddressRow{
addrType: adtImport,
account: account,
addTime: uint64(time.Now().Unix()),
syncStatus: status,
rawData: rawData,
}
return putAddress(tx, addressID, &addrRow)
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}
// putScriptAddress stores the provided script address information to the
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// database.
func putScriptAddress(tx walletdb.Tx, addressID []byte, account uint32,
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status syncStatus, encryptedHash, encryptedScript []byte) error {
rawData := serializeScriptAddress(encryptedHash, encryptedScript)
addrRow := dbAddressRow{
addrType: adtScript,
account: account,
addTime: uint64(time.Now().Unix()),
syncStatus: status,
rawData: rawData,
}
if err := putAddress(tx, addressID, &addrRow); err != nil {
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return err
}
return nil
}
// existsAddress returns whether or not the address id exists in the database.
func existsAddress(tx walletdb.Tx, addressID []byte) bool {
bucket := tx.RootBucket().Bucket(addrBucketName)
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addrHash := fastsha256.Sum256(addressID)
return bucket.Get(addrHash[:]) != nil
}
// fetchAllAddresses loads information about all addresses from the database.
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// The returned value is a slice of address rows for each specific address type.
// The caller should use type assertions to ascertain the types.
func fetchAllAddresses(tx walletdb.Tx) ([]interface{}, error) {
bucket := tx.RootBucket().Bucket(addrBucketName)
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var addrs []interface{}
err := bucket.ForEach(func(k, v []byte) error {
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// Skip buckets.
if v == nil {
return nil
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}
// Deserialize the address row first to determine the field
// values.
row, err := deserializeAddressRow(k, v)
if err != nil {
return err
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}
var addrRow interface{}
switch row.addrType {
case adtChain:
addrRow, err = deserializeChainedAddress(k, row)
case adtImport:
addrRow, err = deserializeImportedAddress(k, row)
case adtScript:
addrRow, err = deserializeScriptAddress(k, row)
default:
str := fmt.Sprintf("unsupported address type '%d'",
row.addrType)
return managerError(ErrDatabase, str, nil)
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}
if err != nil {
return err
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}
addrs = append(addrs, addrRow)
return nil
})
if err != nil {
return nil, maybeConvertDbError(err)
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}
return addrs, nil
}
// deletePrivateKeys removes all private key material from the database.
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//
// NOTE: Care should be taken when calling this function. It is primarily
// intended for use in converting to a watching-only copy. Removing the private
// keys from the main database without also marking it watching-only will result
// in an unusable database. It will also make any imported scripts and private
// keys unrecoverable unless there is a backup copy available.
func deletePrivateKeys(tx walletdb.Tx) error {
bucket := tx.RootBucket().Bucket(mainBucketName)
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// Delete the master private key params and the crypto private and
// script keys.
if err := bucket.Delete(masterPrivKeyName); err != nil {
str := "failed to delete master private key parameters"
return managerError(ErrDatabase, str, err)
}
if err := bucket.Delete(cryptoPrivKeyName); err != nil {
str := "failed to delete crypto private key"
return managerError(ErrDatabase, str, err)
}
if err := bucket.Delete(cryptoScriptKeyName); err != nil {
str := "failed to delete crypto script key"
return managerError(ErrDatabase, str, err)
}
// Delete the account extended private key for all accounts.
bucket = tx.RootBucket().Bucket(acctBucketName)
err := bucket.ForEach(func(k, v []byte) error {
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// Skip buckets.
if v == nil || bytes.Equal(k, acctNumAcctsName) {
return nil
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}
// Deserialize the account row first to determine the type.
row, err := deserializeAccountRow(k, v)
if err != nil {
return err
}
switch row.acctType {
case actBIP0044:
arow, err := deserializeBIP0044AccountRow(k, row)
if err != nil {
return err
}
// Reserialize the account without the private key and
// store it.
row.rawData = serializeBIP0044AccountRow(
arow.pubKeyEncrypted, nil,
arow.nextExternalIndex, arow.nextInternalIndex,
arow.name)
err = bucket.Put(k, serializeAccountRow(row))
if err != nil {
str := "failed to delete account private key"
return managerError(ErrDatabase, str, err)
}
}
return nil
})
if err != nil {
return maybeConvertDbError(err)
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}
// Delete the private key for all imported addresses.
bucket = tx.RootBucket().Bucket(addrBucketName)
err = bucket.ForEach(func(k, v []byte) error {
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// Skip buckets.
if v == nil {
return nil
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}
// Deserialize the address row first to determine the field
// values.
row, err := deserializeAddressRow(k, v)
if err != nil {
return err
}
switch row.addrType {
case adtImport:
irow, err := deserializeImportedAddress(k, row)
if err != nil {
return err
}
// Reserialize the imported address without the private
// key and store it.
row.rawData = serializeImportedAddress(
irow.encryptedPubKey, nil)
err = bucket.Put(k, serializeAddressRow(row))
if err != nil {
str := "failed to delete imported private key"
return managerError(ErrDatabase, str, err)
}
case adtScript:
srow, err := deserializeScriptAddress(k, row)
if err != nil {
return err
}
// Reserialize the script address without the script
// and store it.
row.rawData = serializeScriptAddress(srow.encryptedHash,
nil)
err = bucket.Put(k, serializeAddressRow(row))
if err != nil {
str := "failed to delete imported script"
return managerError(ErrDatabase, str, err)
}
}
return nil
})
if err != nil {
return maybeConvertDbError(err)
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}
return nil
}
// fetchSyncedTo loads the block stamp the manager is synced to from the
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// database.
func fetchSyncedTo(tx walletdb.Tx) (*BlockStamp, error) {
bucket := tx.RootBucket().Bucket(syncBucketName)
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// The serialized synced to format is:
// <blockheight><blockhash>
//
// 4 bytes block height + 32 bytes hash length
buf := bucket.Get(syncedToName)
if len(buf) != 36 {
str := "malformed sync information stored in database"
return nil, managerError(ErrDatabase, str, nil)
}
var bs BlockStamp
bs.Height = int32(binary.LittleEndian.Uint32(buf[0:4]))
copy(bs.Hash[:], buf[4:36])
return &bs, nil
}
// putSyncedTo stores the provided synced to blockstamp to the database.
func putSyncedTo(tx walletdb.Tx, bs *BlockStamp) error {
bucket := tx.RootBucket().Bucket(syncBucketName)
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// The serialized synced to format is:
// <blockheight><blockhash>
//
// 4 bytes block height + 32 bytes hash length
buf := make([]byte, 36)
binary.LittleEndian.PutUint32(buf[0:4], uint32(bs.Height))
copy(buf[4:36], bs.Hash[0:32])
err := bucket.Put(syncedToName, buf)
if err != nil {
str := fmt.Sprintf("failed to store sync information %v", bs.Hash)
return managerError(ErrDatabase, str, err)
}
return nil
}
// fetchStartBlock loads the start block stamp for the manager from the
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// database.
func fetchStartBlock(tx walletdb.Tx) (*BlockStamp, error) {
bucket := tx.RootBucket().Bucket(syncBucketName)
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// The serialized start block format is:
// <blockheight><blockhash>
//
// 4 bytes block height + 32 bytes hash length
buf := bucket.Get(startBlockName)
if len(buf) != 36 {
str := "malformed start block stored in database"
return nil, managerError(ErrDatabase, str, nil)
}
var bs BlockStamp
bs.Height = int32(binary.LittleEndian.Uint32(buf[0:4]))
copy(bs.Hash[:], buf[4:36])
return &bs, nil
}
// putStartBlock stores the provided start block stamp to the database.
func putStartBlock(tx walletdb.Tx, bs *BlockStamp) error {
bucket := tx.RootBucket().Bucket(syncBucketName)
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// The serialized start block format is:
// <blockheight><blockhash>
//
// 4 bytes block height + 32 bytes hash length
buf := make([]byte, 36)
binary.LittleEndian.PutUint32(buf[0:4], uint32(bs.Height))
copy(buf[4:36], bs.Hash[0:32])
err := bucket.Put(startBlockName, buf)
if err != nil {
str := fmt.Sprintf("failed to store start block %v", bs.Hash)
return managerError(ErrDatabase, str, err)
}
return nil
}
// fetchRecentBlocks returns the height of the most recent block height and
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// hashes of the most recent blocks.
func fetchRecentBlocks(tx walletdb.Tx) (int32, []wire.ShaHash, error) {
bucket := tx.RootBucket().Bucket(syncBucketName)
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// The serialized recent blocks format is:
// <blockheight><numhashes><blockhashes>
//
// 4 bytes recent block height + 4 bytes number of hashes + raw hashes
// at 32 bytes each.
// Given the above, the length of the entry must be at a minimum
// the constant value sizes.
buf := bucket.Get(recentBlocksName)
if len(buf) < 8 {
str := "malformed recent blocks stored in database"
return 0, nil, managerError(ErrDatabase, str, nil)
}
recentHeight := int32(binary.LittleEndian.Uint32(buf[0:4]))
numHashes := binary.LittleEndian.Uint32(buf[4:8])
recentHashes := make([]wire.ShaHash, numHashes)
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offset := 8
for i := uint32(0); i < numHashes; i++ {
copy(recentHashes[i][:], buf[offset:offset+32])
offset += 32
}
return recentHeight, recentHashes, nil
}
// putRecentBlocks stores the provided start block stamp to the database.
func putRecentBlocks(tx walletdb.Tx, recentHeight int32, recentHashes []wire.ShaHash) error {
bucket := tx.RootBucket().Bucket(syncBucketName)
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// The serialized recent blocks format is:
// <blockheight><numhashes><blockhashes>
//
// 4 bytes recent block height + 4 bytes number of hashes + raw hashes
// at 32 bytes each.
numHashes := uint32(len(recentHashes))
buf := make([]byte, 8+(numHashes*32))
binary.LittleEndian.PutUint32(buf[0:4], uint32(recentHeight))
binary.LittleEndian.PutUint32(buf[4:8], numHashes)
offset := 8
for i := uint32(0); i < numHashes; i++ {
copy(buf[offset:offset+32], recentHashes[i][:])
offset += 32
}
err := bucket.Put(recentBlocksName, buf)
if err != nil {
str := "failed to store recent blocks"
return managerError(ErrDatabase, str, err)
}
return nil
}
// managerExists returns whether or not the manager has already been created
// in the given database namespace.
func managerExists(namespace walletdb.Namespace) (bool, error) {
var exists bool
err := namespace.View(func(tx walletdb.Tx) error {
mainBucket := tx.RootBucket().Bucket(mainBucketName)
exists = mainBucket != nil
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return nil
})
if err != nil {
str := fmt.Sprintf("failed to obtain database view: %v", err)
return false, managerError(ErrDatabase, str, err)
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}
return exists, nil
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}
// upgradeManager opens the manager using the specified namespace or creates and
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// initializes it if it does not already exist. It also provides facilities to
// upgrade the data in the namespace to newer versions.
func upgradeManager(namespace walletdb.Namespace) error {
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// Initialize the buckets and main db fields as needed.
var version uint32
var createDate uint64
err := namespace.Update(func(tx walletdb.Tx) error {
rootBucket := tx.RootBucket()
mainBucket, err := rootBucket.CreateBucketIfNotExists(
mainBucketName)
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if err != nil {
str := "failed to create main bucket"
return managerError(ErrDatabase, str, err)
}
_, err = rootBucket.CreateBucketIfNotExists(addrBucketName)
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if err != nil {
str := "failed to create address bucket"
return managerError(ErrDatabase, str, err)
}
_, err = rootBucket.CreateBucketIfNotExists(acctBucketName)
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if err != nil {
str := "failed to create account bucket"
return managerError(ErrDatabase, str, err)
}
_, err = rootBucket.CreateBucketIfNotExists(addrAcctIdxBucketName)
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if err != nil {
str := "failed to create address index bucket"
return managerError(ErrDatabase, str, err)
}
_, err = rootBucket.CreateBucketIfNotExists(syncBucketName)
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if err != nil {
str := "failed to create sync bucket"
return managerError(ErrDatabase, str, err)
}
// Save the most recent database version if it isn't already
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// there, otherwise keep track of it for potential upgrades.
verBytes := mainBucket.Get(mgrVersionName)
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if verBytes == nil {
version = LatestMgrVersion
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var buf [4]byte
binary.LittleEndian.PutUint32(buf[:], version)
err := mainBucket.Put(mgrVersionName, buf[:])
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if err != nil {
str := "failed to store latest database version"
return managerError(ErrDatabase, str, err)
}
} else {
version = binary.LittleEndian.Uint32(verBytes)
}
createBytes := mainBucket.Get(mgrCreateDateName)
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if createBytes == nil {
createDate = uint64(time.Now().Unix())
var buf [8]byte
binary.LittleEndian.PutUint64(buf[:], createDate)
err := mainBucket.Put(mgrCreateDateName, buf[:])
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if err != nil {
str := "failed to store database creation time"
return managerError(ErrDatabase, str, err)
}
} else {
createDate = binary.LittleEndian.Uint64(createBytes)
}
return nil
})
if err != nil {
str := "failed to update database"
return managerError(ErrDatabase, str, err)
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}
// Upgrade the manager as needed.
if version < LatestMgrVersion {
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// No upgrades yet.
}
return nil
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}