mirror of
https://github.com/nspcc-dev/neo-go.git
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962b161652
This was recently added in neotest, but working with the real RPC is still not enjoyable. This commit extends `wallet.Account` with invocation script builder to aid network fee calculations and signing. Signed-off-by: Evgenii Stratonikov <fyfyrchik@runbox.com>
339 lines
9.8 KiB
Go
339 lines
9.8 KiB
Go
package wallet
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import (
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"errors"
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"fmt"
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"github.com/nspcc-dev/neo-go/pkg/config/netmode"
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"github.com/nspcc-dev/neo-go/pkg/core/transaction"
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"github.com/nspcc-dev/neo-go/pkg/crypto/hash"
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"github.com/nspcc-dev/neo-go/pkg/crypto/keys"
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"github.com/nspcc-dev/neo-go/pkg/encoding/address"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"github.com/nspcc-dev/neo-go/pkg/smartcontract"
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"github.com/nspcc-dev/neo-go/pkg/util"
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"github.com/nspcc-dev/neo-go/pkg/vm/emit"
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"github.com/nspcc-dev/neo-go/pkg/vm/opcode"
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)
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// Account represents a NEO account. It holds the private and the public key
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// along with some metadata.
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type Account struct {
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// NEO private key.
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privateKey *keys.PrivateKey
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// Script hash corresponding to the Address.
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scriptHash util.Uint160
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// NEO public address.
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Address string `json:"address"`
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// Encrypted WIF of the account also known as the key.
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EncryptedWIF string `json:"key"`
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// Label is a label the user had made for this account.
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Label string `json:"label"`
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// Contract is a Contract object which describes the details of the contract.
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// This field can be null (for watch-only address).
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Contract *Contract `json:"contract"`
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// Indicates whether the account is locked by the user.
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// the client shouldn't spend the funds in a locked account.
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Locked bool `json:"lock"`
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// Indicates whether the account is the default change account.
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Default bool `json:"isDefault"`
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}
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// Contract represents a subset of the smartcontract to embed in the
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// Account so it's NEP-6 compliant.
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type Contract struct {
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// Script of the contract deployed on the blockchain.
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Script []byte `json:"script"`
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// A list of parameters used deploying this contract.
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Parameters []ContractParam `json:"parameters"`
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// Indicates whether the contract has been deployed to the blockchain.
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Deployed bool `json:"deployed"`
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// InvocationBuilder returns invocation script for deployed contracts.
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// In case contract is not deployed or has 0 arguments, this field is ignored.
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// It might be executed on a partially formed tx, and is primarily needed to properly
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// calculate network fee for complex contract signers.
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InvocationBuilder func(tx *transaction.Transaction) ([]byte, error) `json:"-"`
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}
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// ContractParam is a descriptor of a contract parameter
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// containing type and optional name.
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type ContractParam struct {
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Name string `json:"name"`
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Type smartcontract.ParamType `json:"type"`
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}
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// ScriptHash returns the hash of contract's script.
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func (c Contract) ScriptHash() util.Uint160 {
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return hash.Hash160(c.Script)
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}
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// NewAccount creates a new Account with a random generated PrivateKey.
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func NewAccount() (*Account, error) {
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priv, err := keys.NewPrivateKey()
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if err != nil {
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return nil, err
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}
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return NewAccountFromPrivateKey(priv), nil
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}
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// NewContractAccount creates a contract account belonging to some deployed contract.
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// SignTx can be called on this account with no error and will create invocation script,
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// which puts provided arguments on stack for use in `verify`.
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func NewContractAccount(hash util.Uint160, args ...any) *Account {
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return &Account{
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Address: address.Uint160ToString(hash),
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Contract: &Contract{
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Parameters: make([]ContractParam, len(args)),
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Deployed: true,
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InvocationBuilder: func(tx *transaction.Transaction) ([]byte, error) {
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w := io.NewBufBinWriter()
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for i := range args {
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emit.Any(w.BinWriter, args[i])
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}
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if w.Err != nil {
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return nil, w.Err
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}
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return w.Bytes(), nil
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},
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},
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}
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}
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// SignTx signs transaction t and updates it's Witnesses.
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func (a *Account) SignTx(net netmode.Magic, t *transaction.Transaction) error {
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var (
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haveAcc bool
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pos int
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)
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if a.Locked {
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return errors.New("account is locked")
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}
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if a.Contract == nil {
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return errors.New("account has no contract")
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}
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for i := range t.Signers {
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if t.Signers[i].Account.Equals(a.ScriptHash()) {
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haveAcc = true
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pos = i
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break
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}
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}
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if !haveAcc {
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return errors.New("transaction is not signed by this account")
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}
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if len(t.Scripts) < pos {
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return errors.New("transaction is not yet signed by the previous signer")
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}
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if len(t.Scripts) == pos {
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t.Scripts = append(t.Scripts, transaction.Witness{
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VerificationScript: a.Contract.Script, // Can be nil for deployed contract.
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})
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}
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if a.Contract.Deployed && a.Contract.InvocationBuilder != nil {
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invoc, err := a.Contract.InvocationBuilder(t)
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t.Scripts[pos].InvocationScript = invoc
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return err
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}
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if len(a.Contract.Parameters) == 0 {
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return nil
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}
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if a.privateKey == nil {
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return errors.New("account key is not available (need to decrypt?)")
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}
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sign := a.privateKey.SignHashable(uint32(net), t)
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invoc := append([]byte{byte(opcode.PUSHDATA1), keys.SignatureLen}, sign...)
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if len(a.Contract.Parameters) == 1 {
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t.Scripts[pos].InvocationScript = invoc
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} else {
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t.Scripts[pos].InvocationScript = append(t.Scripts[pos].InvocationScript, invoc...)
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}
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return nil
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}
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// SignHashable signs the given Hashable item and returns the signature. If this
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// account can't sign (CanSign() returns false) nil is returned.
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func (a *Account) SignHashable(net netmode.Magic, item hash.Hashable) []byte {
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if !a.CanSign() {
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return nil
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}
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return a.privateKey.SignHashable(uint32(net), item)
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}
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// CanSign returns true when account is not locked and has a decrypted private
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// key inside, so it's ready to create real signatures.
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func (a *Account) CanSign() bool {
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return !a.Locked && a.privateKey != nil
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}
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// GetVerificationScript returns account's verification script.
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func (a *Account) GetVerificationScript() []byte {
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if a.Contract != nil {
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return a.Contract.Script
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}
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return a.privateKey.PublicKey().GetVerificationScript()
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}
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// Decrypt decrypts the EncryptedWIF with the given passphrase returning error
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// if anything goes wrong. After the decryption Account can be used to sign
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// things unless it's locked. Don't decrypt the key unless you want to sign
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// something and don't forget to call Close after use for maximum safety.
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func (a *Account) Decrypt(passphrase string, scrypt keys.ScryptParams) error {
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var err error
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if a.EncryptedWIF == "" {
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return errors.New("no encrypted wif in the account")
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}
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a.privateKey, err = keys.NEP2Decrypt(a.EncryptedWIF, passphrase, scrypt)
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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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// Encrypt encrypts the wallet's PrivateKey with the given passphrase
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// under the NEP-2 standard.
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func (a *Account) Encrypt(passphrase string, scrypt keys.ScryptParams) error {
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wif, err := keys.NEP2Encrypt(a.privateKey, passphrase, scrypt)
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if err != nil {
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return err
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}
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a.EncryptedWIF = wif
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return nil
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}
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// PrivateKey returns private key corresponding to the account if it's unlocked.
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// Please be very careful when using it, do not copy its contents and do not
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// keep a pointer to it unless you absolutely need to. Most of the time you can
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// use other methods (PublicKey, ScriptHash, SignHashable) depending on your
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// needs and it'll be safer this way.
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func (a *Account) PrivateKey() *keys.PrivateKey {
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return a.privateKey
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}
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// PublicKey returns the public key associated with the private key corresponding to
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// the account. It can return nil if account is locked (use CanSign to check).
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func (a *Account) PublicKey() *keys.PublicKey {
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if !a.CanSign() {
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return nil
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}
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return a.privateKey.PublicKey()
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}
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// ScriptHash returns the script hash (account) that the Account.Address is
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// derived from. It never returns an error, so if this Account has an invalid
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// Address you'll just get a zero script hash.
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func (a *Account) ScriptHash() util.Uint160 {
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if a.scriptHash.Equals(util.Uint160{}) {
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a.scriptHash, _ = address.StringToUint160(a.Address)
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}
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return a.scriptHash
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}
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// Close cleans up the private key used by Account and disassociates it from
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// Account. The Account can no longer sign anything after this call, but Decrypt
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// can make it usable again.
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func (a *Account) Close() {
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if a.privateKey == nil {
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return
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}
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a.privateKey.Destroy()
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a.privateKey = nil
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}
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// NewAccountFromWIF creates a new Account from the given WIF.
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func NewAccountFromWIF(wif string) (*Account, error) {
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privKey, err := keys.NewPrivateKeyFromWIF(wif)
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if err != nil {
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return nil, err
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}
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return NewAccountFromPrivateKey(privKey), nil
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}
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// NewAccountFromEncryptedWIF creates a new Account from the given encrypted WIF.
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func NewAccountFromEncryptedWIF(wif string, pass string, scrypt keys.ScryptParams) (*Account, error) {
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priv, err := keys.NEP2Decrypt(wif, pass, scrypt)
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if err != nil {
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return nil, err
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}
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a := NewAccountFromPrivateKey(priv)
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a.EncryptedWIF = wif
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return a, nil
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}
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// ConvertMultisig sets a's contract to multisig contract with m sufficient signatures.
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func (a *Account) ConvertMultisig(m int, pubs []*keys.PublicKey) error {
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if a.Locked {
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return errors.New("account is locked")
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}
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if a.privateKey == nil {
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return errors.New("account key is not available (need to decrypt?)")
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}
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var found bool
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accKey := a.privateKey.PublicKey()
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for i := range pubs {
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if accKey.Equal(pubs[i]) {
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found = true
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break
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}
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}
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if !found {
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return errors.New("own public key was not found among multisig keys")
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}
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script, err := smartcontract.CreateMultiSigRedeemScript(m, pubs)
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if err != nil {
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return err
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}
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a.scriptHash = hash.Hash160(script)
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a.Address = address.Uint160ToString(a.scriptHash)
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a.Contract = &Contract{
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Script: script,
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Parameters: getContractParams(m),
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}
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return nil
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}
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// NewAccountFromPrivateKey creates a wallet from the given PrivateKey.
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func NewAccountFromPrivateKey(p *keys.PrivateKey) *Account {
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pubKey := p.PublicKey()
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a := &Account{
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privateKey: p,
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scriptHash: p.GetScriptHash(),
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Address: p.Address(),
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Contract: &Contract{
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Script: pubKey.GetVerificationScript(),
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Parameters: getContractParams(1),
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},
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}
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return a
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}
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func getContractParams(n int) []ContractParam {
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params := make([]ContractParam, n)
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for i := range params {
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params[i].Name = fmt.Sprintf("parameter%d", i)
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params[i].Type = smartcontract.SignatureType
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}
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return params
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}
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