forked from cerc-io/laconicd-deprecated
365 lines
9.8 KiB
Go
365 lines
9.8 KiB
Go
package types
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import (
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"bytes"
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"crypto/ecdsa"
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"fmt"
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"io"
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"math/big"
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"sync/atomic"
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"github.com/cosmos/cosmos-sdk/codec"
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sdk "github.com/cosmos/cosmos-sdk/types"
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ethcmn "github.com/ethereum/go-ethereum/common"
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ethtypes "github.com/ethereum/go-ethereum/core/types"
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ethcrypto "github.com/ethereum/go-ethereum/crypto"
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ethsha "github.com/ethereum/go-ethereum/crypto/sha3"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/pkg/errors"
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)
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// TODO: Move to the EVM module
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// message constants
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const (
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TypeTxEthereum = "Ethereum"
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RouteTxEthereum = "evm"
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)
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// ----------------------------------------------------------------------------
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// Ethereum transaction
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// ----------------------------------------------------------------------------
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var _ sdk.Tx = (*Transaction)(nil)
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type (
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// Transaction implements the Ethereum transaction structure as an exact
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// replica. It implements the Cosmos sdk.Tx interface. Due to the private
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// fields, it must be replicated here and cannot be embedded or used
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// directly.
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//
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// Note: The transaction also implements the sdk.Msg interface to perform
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// basic validation that is done in the BaseApp.
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Transaction struct {
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data TxData
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// caches
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hash atomic.Value
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size atomic.Value
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from atomic.Value
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}
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// TxData implements the Ethereum transaction data structure as an exact
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// copy. It is used solely as intended in Ethereum abiding by the protocol
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// except for the payload field which may embed a Cosmos SDK transaction.
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TxData struct {
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AccountNonce uint64 `json:"nonce"`
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Price *big.Int `json:"gasPrice"`
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GasLimit uint64 `json:"gas"`
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Recipient *ethcmn.Address `json:"to" rlp:"nil"` // nil means contract creation
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Amount *big.Int `json:"value"`
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Payload []byte `json:"input"`
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// signature values
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V *big.Int `json:"v"`
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R *big.Int `json:"r"`
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S *big.Int `json:"s"`
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// hash is only used when marshaling to JSON
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Hash *ethcmn.Hash `json:"hash" rlp:"-"`
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}
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// sigCache is used to cache the derived sender and contains the signer used
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// to derive it.
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sigCache struct {
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signer ethtypes.Signer
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from ethcmn.Address
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}
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)
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// NewTransaction returns a reference to a new Ethereum transaction.
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func NewTransaction(
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nonce uint64, to ethcmn.Address, amount *big.Int, gasLimit uint64, gasPrice *big.Int, payload []byte,
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) *Transaction {
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return newTransaction(nonce, &to, amount, gasLimit, gasPrice, payload)
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}
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// NewContractCreation returns a reference to a new Ethereum transaction
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// designated for contract creation.
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func NewContractCreation(
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nonce uint64, amount *big.Int, gasLimit uint64, gasPrice *big.Int, payload []byte,
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) *Transaction {
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return newTransaction(nonce, nil, amount, gasLimit, gasPrice, payload)
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}
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func newTransaction(
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nonce uint64, to *ethcmn.Address, amount *big.Int,
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gasLimit uint64, gasPrice *big.Int, payload []byte,
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) *Transaction {
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if len(payload) > 0 {
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payload = ethcmn.CopyBytes(payload)
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}
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txData := TxData{
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AccountNonce: nonce,
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Recipient: to,
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Payload: payload,
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GasLimit: gasLimit,
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Amount: new(big.Int),
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Price: new(big.Int),
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V: new(big.Int),
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R: new(big.Int),
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S: new(big.Int),
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}
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if amount != nil {
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txData.Amount.Set(amount)
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}
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if gasPrice != nil {
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txData.Price.Set(gasPrice)
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}
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return &Transaction{data: txData}
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}
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// Data returns the Transaction's data.
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func (tx Transaction) Data() TxData {
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return tx.data
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}
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// EncodeRLP implements the rlp.Encoder interface.
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func (tx *Transaction) EncodeRLP(w io.Writer) error {
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return rlp.Encode(w, &tx.data)
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}
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// DecodeRLP implements the rlp.Decoder interface.
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func (tx *Transaction) DecodeRLP(s *rlp.Stream) error {
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_, size, _ := s.Kind()
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err := s.Decode(&tx.data)
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if err == nil {
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tx.size.Store(ethcmn.StorageSize(rlp.ListSize(size)))
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}
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return err
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}
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// Hash hashes the RLP encoding of a transaction.
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func (tx *Transaction) Hash() ethcmn.Hash {
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if hash := tx.hash.Load(); hash != nil {
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return hash.(ethcmn.Hash)
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}
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v := rlpHash(tx)
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tx.hash.Store(v)
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return v
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}
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// SigHash returns the RLP hash of a transaction with a given chainID used for
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// signing.
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func (tx Transaction) SigHash(chainID *big.Int) ethcmn.Hash {
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return rlpHash([]interface{}{
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tx.data.AccountNonce,
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tx.data.Price,
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tx.data.GasLimit,
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tx.data.Recipient,
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tx.data.Amount,
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tx.data.Payload,
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chainID, uint(0), uint(0),
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})
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}
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// Sign calculates a secp256k1 ECDSA signature and signs the transaction. It
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// takes a private key and chainID to sign an Ethereum transaction according to
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// EIP155 standard. It mutates the transaction as it populates the V, R, S
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// fields of the Transaction's Signature.
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func (tx *Transaction) Sign(chainID *big.Int, priv *ecdsa.PrivateKey) {
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txHash := tx.SigHash(chainID)
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sig, err := ethcrypto.Sign(txHash[:], priv)
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if err != nil {
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panic(err)
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}
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if len(sig) != 65 {
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panic(fmt.Sprintf("wrong size for signature: got %d, want 65", len(sig)))
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}
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r := new(big.Int).SetBytes(sig[:32])
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s := new(big.Int).SetBytes(sig[32:64])
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var v *big.Int
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if chainID.Sign() == 0 {
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v = new(big.Int).SetBytes([]byte{sig[64] + 27})
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} else {
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v = big.NewInt(int64(sig[64] + 35))
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chainIDMul := new(big.Int).Mul(chainID, big.NewInt(2))
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v.Add(v, chainIDMul)
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}
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tx.data.V = v
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tx.data.R = r
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tx.data.S = s
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}
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// VerifySig attempts to verify a Transaction's signature for a given chainID.
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// A derived address is returned upon success or an error if recovery fails.
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func (tx Transaction) VerifySig(chainID *big.Int) (ethcmn.Address, error) {
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signer := ethtypes.NewEIP155Signer(chainID)
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if sc := tx.from.Load(); sc != nil {
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sigCache := sc.(sigCache)
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// If the signer used to derive from in a previous
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// call is not the same as used current, invalidate
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// the cache.
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if sigCache.signer.Equal(signer) {
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return sigCache.from, nil
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}
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}
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// do not allow recovery for transactions with an unprotected chainID
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if chainID.Sign() == 0 {
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return ethcmn.Address{}, errors.New("invalid chainID")
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}
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txHash := tx.SigHash(chainID)
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sig := recoverEthSig(tx.data.R, tx.data.S, tx.data.V, chainID)
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pub, err := ethcrypto.Ecrecover(txHash[:], sig)
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if err != nil {
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return ethcmn.Address{}, err
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}
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var addr ethcmn.Address
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copy(addr[:], ethcrypto.Keccak256(pub[1:])[12:])
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tx.from.Store(sigCache{signer: signer, from: addr})
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return addr, nil
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}
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// Type implements the sdk.Msg interface. It returns the type of the
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// Transaction.
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func (tx Transaction) Type() string { return TypeTxEthereum }
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func (tx Transaction) Route() string { return RouteTxEthereum }
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// ValidateBasic implements the sdk.Msg interface. It performs basic validation
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// checks of a Transaction. If returns an sdk.Error if validation fails.
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func (tx Transaction) ValidateBasic() sdk.Error {
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if tx.data.Price.Sign() != 1 {
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return ErrInvalidValue(DefaultCodespace, "price must be positive")
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}
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if tx.data.Amount.Sign() != 1 {
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return ErrInvalidValue(DefaultCodespace, "amount must be positive")
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}
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return nil
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}
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// GetSignBytes performs a no-op and should not be used. It implements the
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// sdk.Msg Interface
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func (tx Transaction) GetSignBytes() (sigBytes []byte) { return }
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// GetSigners performs a no-op and should not be used. It implements the
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// sdk.Msg Interface
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//
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// CONTRACT: The transaction must already be signed.
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func (tx Transaction) GetSigners() (signers []sdk.AccAddress) { return }
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// GetMsgs returns a single message containing the Transaction itself. It
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// implements the Cosmos sdk.Tx interface.
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func (tx Transaction) GetMsgs() []sdk.Msg {
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return []sdk.Msg{tx}
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}
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// hasEmbeddedTx returns a boolean reflecting if the transaction contains an
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// SDK transaction or not based on the recipient address.
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func (tx Transaction) hasEmbeddedTx(addr ethcmn.Address) bool {
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return bytes.Equal(tx.data.Recipient.Bytes(), addr.Bytes())
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}
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// GetEmbeddedTx returns the embedded SDK transaction from an Ethereum
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// transaction. It returns an error if decoding the inner transaction fails.
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//
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// CONTRACT: The payload field of an Ethereum transaction must contain a valid
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// encoded SDK transaction.
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func (tx Transaction) GetEmbeddedTx(codec *codec.Codec) (sdk.Tx, sdk.Error) {
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var etx sdk.Tx
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err := codec.UnmarshalBinary(tx.data.Payload, &etx)
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if err != nil {
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return etx, sdk.ErrTxDecode("failed to decode embedded transaction")
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}
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return etx, nil
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}
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// ----------------------------------------------------------------------------
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// Utilities
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// ----------------------------------------------------------------------------
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// TxDecoder returns an sdk.TxDecoder that given raw transaction bytes and an
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// SDK address, attempts to decode them into a Transaction or an EmbeddedTx or
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// returning an error if decoding fails.
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func TxDecoder(codec *codec.Codec, sdkAddress ethcmn.Address) sdk.TxDecoder {
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return func(txBytes []byte) (sdk.Tx, sdk.Error) {
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var tx = Transaction{}
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if len(txBytes) == 0 {
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return nil, sdk.ErrTxDecode("transaction bytes are empty")
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}
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err := rlp.DecodeBytes(txBytes, &tx)
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if err != nil {
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return nil, sdk.ErrTxDecode("failed to decode transaction").TraceSDK(err.Error())
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}
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// If the transaction is routed as an SDK transaction, decode and return
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// the embedded SDK transaction.
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if tx.hasEmbeddedTx(sdkAddress) {
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etx, err := tx.GetEmbeddedTx(codec)
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if err != nil {
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return nil, err
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}
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return etx, nil
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}
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return tx, nil
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}
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}
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// recoverEthSig recovers a signature according to the Ethereum specification.
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func recoverEthSig(R, S, Vb, chainID *big.Int) []byte {
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var v byte
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r, s := R.Bytes(), S.Bytes()
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sig := make([]byte, 65)
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copy(sig[32-len(r):32], r)
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copy(sig[64-len(s):64], s)
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if chainID.Sign() == 0 {
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v = byte(Vb.Uint64() - 27)
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} else {
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chainIDMul := new(big.Int).Mul(chainID, big.NewInt(2))
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V := new(big.Int).Sub(Vb, chainIDMul)
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v = byte(V.Uint64() - 35)
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}
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sig[64] = v
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return sig
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}
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func rlpHash(x interface{}) (hash ethcmn.Hash) {
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hasher := ethsha.NewKeccak256()
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rlp.Encode(hasher, x)
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hasher.Sum(hash[:0])
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return
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}
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