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450 lines
13 KiB
Go
450 lines
13 KiB
Go
package keychain
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import (
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"crypto/sha256"
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"fmt"
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"github.com/btcsuite/btcd/btcec"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/btcsuite/btcwallet/waddrmgr"
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"github.com/btcsuite/btcwallet/wallet"
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"github.com/btcsuite/btcwallet/walletdb"
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)
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const (
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// CoinTypeBitcoin specifies the BIP44 coin type for Bitcoin key
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// derivation.
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CoinTypeBitcoin uint32 = 0
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// CoinTypeTestnet specifies the BIP44 coin type for all testnet key
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// derivation.
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CoinTypeTestnet = 1
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// CoinTypeLitecoin specifies the BIP44 coin type for Litecoin key
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// derivation.
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CoinTypeLitecoin = 2
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)
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var (
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// lightningAddrSchema is the scope addr schema for all keys that we
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// derive. We'll treat them all as p2wkh addresses, as atm we must
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// specify a particular type.
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lightningAddrSchema = waddrmgr.ScopeAddrSchema{
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ExternalAddrType: waddrmgr.WitnessPubKey,
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InternalAddrType: waddrmgr.WitnessPubKey,
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}
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// waddrmgrNamespaceKey is the namespace key that the waddrmgr state is
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// stored within the top-level waleltdb buckets of btcwallet.
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waddrmgrNamespaceKey = []byte("waddrmgr")
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)
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// BtcWalletKeyRing is an implementation of both the KeyRing and SecretKeyRing
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// interfaces backed by btcwallet's internal root waddrmgr. Internally, we'll
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// be using a ScopedKeyManager to do all of our derivations, using the key
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// scope and scope addr scehma defined above. Re-using the existing key scope
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// construction means that all key derivation will be protected under the root
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// seed of the wallet, making each derived key fully deterministic.
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type BtcWalletKeyRing struct {
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// wallet is a pointer to the active instance of the btcwallet core.
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// This is required as we'll need to manually open database
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// transactions in order to derive addresses and lookup relevant keys
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wallet *wallet.Wallet
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// chainKeyScope defines the purpose and coin type to be used when generating
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// keys for this keyring.
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chainKeyScope waddrmgr.KeyScope
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// lightningScope is a pointer to the scope that we'll be using as a
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// sub key manager to derive all the keys that we require.
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lightningScope *waddrmgr.ScopedKeyManager
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}
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// NewBtcWalletKeyRing creates a new implementation of the
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// keychain.SecretKeyRing interface backed by btcwallet.
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//
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// NOTE: The passed waddrmgr.Manager MUST be unlocked in order for the keychain
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// to function.
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func NewBtcWalletKeyRing(w *wallet.Wallet, coinType uint32) SecretKeyRing {
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// Construct the key scope that will be used within the waddrmgr to
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// create an HD chain for deriving all of our required keys. A different
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// scope is used for each specific coin type.
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chainKeyScope := waddrmgr.KeyScope{
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Purpose: BIP0043Purpose,
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Coin: coinType,
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}
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return &BtcWalletKeyRing{
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wallet: w,
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chainKeyScope: chainKeyScope,
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}
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}
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// keyScope attempts to return the key scope that we'll use to derive all of
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// our keys. If the scope has already been fetched from the database, then a
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// cached version will be returned. Otherwise, we'll fetch it from the database
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// and cache it for subsequent accesses.
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func (b *BtcWalletKeyRing) keyScope() (*waddrmgr.ScopedKeyManager, error) {
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// If the scope has already been populated, then we'll return it
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// directly.
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if b.lightningScope != nil {
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return b.lightningScope, nil
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}
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// Otherwise, we'll first do a check to ensure that the root manager
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// isn't locked, as otherwise we won't be able to *use* the scope.
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if !b.wallet.Manager.WatchOnly() && b.wallet.Manager.IsLocked() {
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return nil, fmt.Errorf("cannot create BtcWalletKeyRing with " +
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"locked waddrmgr.Manager")
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}
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// If the manager is indeed unlocked, then we'll fetch the scope, cache
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// it, and return to the caller.
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lnScope, err := b.wallet.Manager.FetchScopedKeyManager(b.chainKeyScope)
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if err != nil {
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return nil, err
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}
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b.lightningScope = lnScope
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return lnScope, nil
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}
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// createAccountIfNotExists will create the corresponding account for a key
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// family if it doesn't already exist in the database.
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func (b *BtcWalletKeyRing) createAccountIfNotExists(
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addrmgrNs walletdb.ReadWriteBucket, keyFam KeyFamily,
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scope *waddrmgr.ScopedKeyManager) error {
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// If this is the multi-sig key family, then we can return early as
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// this is the default account that's created.
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if keyFam == KeyFamilyMultiSig {
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return nil
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}
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// Otherwise, we'll check if the account already exists, if so, we can
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// once again bail early.
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_, err := scope.AccountName(addrmgrNs, uint32(keyFam))
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if err == nil {
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return nil
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}
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// If we reach this point, then the account hasn't yet been created, so
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// we'll need to create it before we can proceed.
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return scope.NewRawAccount(addrmgrNs, uint32(keyFam))
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}
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// DeriveNextKey attempts to derive the *next* key within the key family
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// (account in BIP43) specified. This method should return the next external
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// child within this branch.
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//
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// NOTE: This is part of the keychain.KeyRing interface.
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func (b *BtcWalletKeyRing) DeriveNextKey(keyFam KeyFamily) (KeyDescriptor, error) {
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var (
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pubKey *btcec.PublicKey
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keyLoc KeyLocator
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)
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db := b.wallet.Database()
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err := walletdb.Update(db, func(tx walletdb.ReadWriteTx) error {
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addrmgrNs := tx.ReadWriteBucket(waddrmgrNamespaceKey)
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scope, err := b.keyScope()
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if err != nil {
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return err
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}
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// If the account doesn't exist, then we may need to create it
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// for the first time in order to derive the keys that we
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// require.
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err = b.createAccountIfNotExists(addrmgrNs, keyFam, scope)
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if err != nil {
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return err
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}
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addrs, err := scope.NextExternalAddresses(
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addrmgrNs, uint32(keyFam), 1,
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)
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if err != nil {
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return err
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}
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// Extract the first address, ensuring that it is of the proper
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// interface type, otherwise we can't manipulate it below.
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addr, ok := addrs[0].(waddrmgr.ManagedPubKeyAddress)
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if !ok {
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return fmt.Errorf("address is not a managed pubkey " +
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"addr")
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}
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pubKey = addr.PubKey()
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_, pathInfo, _ := addr.DerivationInfo()
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keyLoc = KeyLocator{
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Family: keyFam,
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Index: pathInfo.Index,
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}
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return nil
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})
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if err != nil {
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return KeyDescriptor{}, err
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}
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return KeyDescriptor{
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PubKey: pubKey,
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KeyLocator: keyLoc,
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}, nil
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}
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// DeriveKey attempts to derive an arbitrary key specified by the passed
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// KeyLocator. This may be used in several recovery scenarios, or when manually
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// rotating something like our current default node key.
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//
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// NOTE: This is part of the keychain.KeyRing interface.
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func (b *BtcWalletKeyRing) DeriveKey(keyLoc KeyLocator) (KeyDescriptor, error) {
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var keyDesc KeyDescriptor
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db := b.wallet.Database()
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err := walletdb.Update(db, func(tx walletdb.ReadWriteTx) error {
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addrmgrNs := tx.ReadWriteBucket(waddrmgrNamespaceKey)
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scope, err := b.keyScope()
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if err != nil {
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return err
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}
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// If the account doesn't exist, then we may need to create it
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// for the first time in order to derive the keys that we
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// require. We skip this if we're using a remote signer in which
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// case we _need_ to create all accounts when creating the
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// wallet, so it must exist now.
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if !b.wallet.Manager.WatchOnly() {
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err = b.createAccountIfNotExists(
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addrmgrNs, keyLoc.Family, scope,
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)
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if err != nil {
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return err
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}
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}
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path := waddrmgr.DerivationPath{
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InternalAccount: uint32(keyLoc.Family),
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Branch: 0,
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Index: keyLoc.Index,
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}
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addr, err := scope.DeriveFromKeyPath(addrmgrNs, path)
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if err != nil {
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return err
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}
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keyDesc.KeyLocator = keyLoc
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keyDesc.PubKey = addr.(waddrmgr.ManagedPubKeyAddress).PubKey()
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return nil
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})
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if err != nil {
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return keyDesc, err
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}
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return keyDesc, nil
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}
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// DerivePrivKey attempts to derive the private key that corresponds to the
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// passed key descriptor.
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//
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// NOTE: This is part of the keychain.SecretKeyRing interface.
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func (b *BtcWalletKeyRing) DerivePrivKey(keyDesc KeyDescriptor) (
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*btcec.PrivateKey, error) {
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var key *btcec.PrivateKey
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scope, err := b.keyScope()
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if err != nil {
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return nil, err
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}
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// First, attempt to see if we can read the key directly from
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// btcwallet's internal cache, if we can then we can skip all the
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// operations below (fast path).
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if keyDesc.PubKey == nil {
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keyPath := waddrmgr.DerivationPath{
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InternalAccount: uint32(keyDesc.Family),
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Account: uint32(keyDesc.Family),
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Branch: 0,
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Index: keyDesc.Index,
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}
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privKey, err := scope.DeriveFromKeyPathCache(keyPath)
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if err == nil {
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return privKey, nil
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}
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}
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db := b.wallet.Database()
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err = walletdb.Update(db, func(tx walletdb.ReadWriteTx) error {
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addrmgrNs := tx.ReadWriteBucket(waddrmgrNamespaceKey)
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// If the account doesn't exist, then we may need to create it
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// for the first time in order to derive the keys that we
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// require. We skip this if we're using a remote signer in which
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// case we _need_ to create all accounts when creating the
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// wallet, so it must exist now.
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if !b.wallet.Manager.WatchOnly() {
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err = b.createAccountIfNotExists(
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addrmgrNs, keyDesc.Family, scope,
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)
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if err != nil {
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return err
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}
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}
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// If the public key isn't set or they have a non-zero index,
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// then we know that the caller instead knows the derivation
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// path for a key.
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if keyDesc.PubKey == nil || keyDesc.Index > 0 {
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// Now that we know the account exists, we can safely
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// derive the full private key from the given path.
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path := waddrmgr.DerivationPath{
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InternalAccount: uint32(keyDesc.Family),
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Branch: 0,
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Index: keyDesc.Index,
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}
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addr, err := scope.DeriveFromKeyPath(addrmgrNs, path)
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if err != nil {
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return err
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}
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key, err = addr.(waddrmgr.ManagedPubKeyAddress).PrivKey()
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if err != nil {
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return err
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}
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return nil
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}
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// If the public key isn't nil, then this indicates that we
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// need to scan for the private key, assuming that we know the
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// valid key family.
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nextPath := waddrmgr.DerivationPath{
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InternalAccount: uint32(keyDesc.Family),
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Branch: 0,
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Index: 0,
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}
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// We'll now iterate through our key range in an attempt to
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// find the target public key.
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//
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// TODO(roasbeef): possibly move scanning into wallet to allow
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// to be parallelized
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for i := 0; i < MaxKeyRangeScan; i++ {
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// Derive the next key in the range and fetch its
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// managed address.
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addr, err := scope.DeriveFromKeyPath(
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addrmgrNs, nextPath,
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)
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if err != nil {
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return err
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}
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managedAddr := addr.(waddrmgr.ManagedPubKeyAddress)
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// If this is the target public key, then we'll return
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// it directly back to the caller.
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if managedAddr.PubKey().IsEqual(keyDesc.PubKey) {
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key, err = managedAddr.PrivKey()
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if err != nil {
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return err
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}
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return nil
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}
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// This wasn't the target key, so roll forward and try
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// the next one.
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nextPath.Index++
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}
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// If we reach this point, then we we're unable to derive the
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// private key, so return an error back to the user.
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return ErrCannotDerivePrivKey
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})
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if err != nil {
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return nil, err
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}
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return key, nil
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}
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// ECDH performs a scalar multiplication (ECDH-like operation) between the
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// target key descriptor and remote public key. The output returned will be
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// the sha256 of the resulting shared point serialized in compressed format. If
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// k is our private key, and P is the public key, we perform the following
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// operation:
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//
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// sx := k*P s := sha256(sx.SerializeCompressed())
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//
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// NOTE: This is part of the keychain.ECDHRing interface.
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func (b *BtcWalletKeyRing) ECDH(keyDesc KeyDescriptor,
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pub *btcec.PublicKey) ([32]byte, error) {
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privKey, err := b.DerivePrivKey(keyDesc)
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if err != nil {
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return [32]byte{}, err
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}
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s := &btcec.PublicKey{}
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x, y := btcec.S256().ScalarMult(pub.X, pub.Y, privKey.D.Bytes())
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s.X = x
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s.Y = y
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h := sha256.Sum256(s.SerializeCompressed())
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return h, nil
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}
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// SignMessage signs the given message, single or double SHA256 hashing it
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// first, with the private key described in the key locator.
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//
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// NOTE: This is part of the keychain.MessageSignerRing interface.
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func (b *BtcWalletKeyRing) SignMessage(keyLoc KeyLocator,
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msg []byte, doubleHash bool) (*btcec.Signature, error) {
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privKey, err := b.DerivePrivKey(KeyDescriptor{
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KeyLocator: keyLoc,
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})
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if err != nil {
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return nil, err
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}
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var digest []byte
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if doubleHash {
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digest = chainhash.DoubleHashB(msg)
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} else {
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digest = chainhash.HashB(msg)
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}
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return privKey.Sign(digest)
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}
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// SignMessageCompact signs the given message, single or double SHA256 hashing
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// it first, with the private key described in the key locator and returns
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// the signature in the compact, public key recoverable format.
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//
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// NOTE: This is part of the keychain.MessageSignerRing interface.
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func (b *BtcWalletKeyRing) SignMessageCompact(keyLoc KeyLocator,
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msg []byte, doubleHash bool) ([]byte, error) {
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privKey, err := b.DerivePrivKey(KeyDescriptor{
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KeyLocator: keyLoc,
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})
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if err != nil {
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return nil, err
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}
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var digest []byte
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if doubleHash {
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digest = chainhash.DoubleHashB(msg)
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} else {
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digest = chainhash.HashB(msg)
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}
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return btcec.SignCompact(btcec.S256(), privKey, digest, true)
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}
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