plugeth/transaction.go

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package main
import (
"math/big"
"fmt"
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"github.com/obscuren/secp256k1-go"
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_"encoding/hex"
_"crypto/sha256"
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_ "bytes"
)
/*
Transaction Contract Size
-------------------------------------------
sender sender 20 bytes
recipient 0x0 20 bytes
value endowment 4 bytes (uint32)
fee fee 4 bytes (uint32)
d_size o_size 4 bytes (uint32)
data ops *
signature signature 64 bytes
*/
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var StepFee *big.Int = new(big.Int)
var TxFee *big.Int = new(big.Int)
var ContractFee *big.Int = new(big.Int)
var MemFee *big.Int = new(big.Int)
var DataFee *big.Int = new(big.Int)
var CryptoFee *big.Int = new(big.Int)
var ExtroFee *big.Int = new(big.Int)
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var Period1Reward *big.Int = new(big.Int)
var Period2Reward *big.Int = new(big.Int)
var Period3Reward *big.Int = new(big.Int)
var Period4Reward *big.Int = new(big.Int)
type Transaction struct {
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nonce string
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sender string
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recipient string
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value uint64
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fee uint32
data []string
memory []int
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lastTx string
v uint32
r, s []byte
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}
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func NewTransaction(to string, value uint64, data []string) *Transaction {
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tx := Transaction{sender: "1234567890", recipient: to, value: value}
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tx.nonce = "0"
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tx.fee = 0//uint32((ContractFee + MemoryFee * float32(len(tx.data))) * 1e8)
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tx.lastTx = "0"
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// Serialize the data
tx.data = make([]string, len(data))
for i, val := range data {
instr, err := CompileInstr(val)
if err != nil {
//fmt.Printf("compile error:%d %v\n", i+1, err)
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}
tx.data[i] = instr
}
tx.SetVRS()
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return &tx
}
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func (tx *Transaction) Hash() []byte {
preEnc := []interface{}{
tx.nonce,
tx.recipient,
tx.value,
tx.fee,
tx.data,
}
return Sha256Bin(Encode(preEnc))
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}
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func (tx *Transaction) IsContract() bool {
return tx.recipient == ""
}
func (tx *Transaction) Signature() []byte {
hash := tx.Hash()
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sec := Sha256Bin([]byte("myprivkey"))
sig, _ := secp256k1.Sign(hash, sec)
return sig
}
func (tx *Transaction) PublicKey() []byte {
hash := Sha256Bin(tx.MarshalRlp())
sig := tx.Signature()
pubkey, _ := secp256k1.RecoverPubkey(hash, sig)
return pubkey
}
func (tx *Transaction) Address() []byte {
pubk := tx.PublicKey()
// 1 is the marker 04
key := pubk[1:65]
return Sha256Bin(key)[12:]
}
func (tx *Transaction) SetVRS() {
// Add 27 so we get either 27 or 28 (for positive and negative)
tx.v = uint32(tx.Signature()[64]) + 27
pubk := tx.PublicKey()[1:65]
tx.r = pubk[:32]
tx.s = pubk[32:64]
}
func (tx *Transaction) MarshalRlp() []byte {
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// Prepare the transaction for serialization
preEnc := []interface{}{
tx.nonce,
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tx.recipient,
tx.value,
tx.fee,
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tx.data,
tx.v,
tx.r,
tx.s,
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}
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return Encode(preEnc)
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}
func (tx *Transaction) UnmarshalRlp(data []byte) {
t, _ := Decode(data,0)
if slice, ok := t.([]interface{}); ok {
fmt.Printf("NONCE %T\n", slice[3])
if nonce, ok := slice[0].(uint8); ok {
tx.nonce = string(nonce)
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}
if recipient, ok := slice[1].([]byte); ok {
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tx.recipient = string(recipient)
}
// If only I knew of a better way.
if value, ok := slice[2].(uint8); ok {
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tx.value = uint64(value)
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}
if value, ok := slice[2].(uint16); ok {
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tx.value = uint64(value)
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}
if value, ok := slice[2].(uint32); ok {
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tx.value = uint64(value)
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}
if value, ok := slice[2].(uint64); ok {
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tx.value = uint64(value)
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}
if fee, ok := slice[3].(uint8); ok {
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tx.fee = uint32(fee)
}
if fee, ok := slice[3].(uint16); ok {
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tx.fee = uint32(fee)
}
if fee, ok := slice[3].(uint32); ok {
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tx.fee = uint32(fee)
}
if fee, ok := slice[3].(uint64); ok {
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tx.fee = uint32(fee)
}
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// Encode the data/instructions
if data, ok := slice[4].([]interface{}); ok {
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tx.data = make([]string, len(data))
for i, d := range data {
if instr, ok := d.([]byte); ok {
tx.data[i] = string(instr)
}
}
}
// vrs
fmt.Printf("v %T\n", slice[5])
if v, ok := slice[5].(uint8); ok {
tx.v = uint32(v)
}
if v, ok := slice[5].(uint16); ok {
tx.v = uint32(v)
}
if v, ok := slice[5].(uint32); ok {
tx.v = uint32(v)
}
if v, ok := slice[5].(uint64); ok {
tx.v = uint32(v)
}
if r, ok := slice[6].([]byte); ok {
tx.r = r
}
if s, ok := slice[7].([]byte); ok {
tx.s = s
}
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}
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}
func InitFees() {
// Base for 2**60
b60 := new(big.Int)
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b60.Exp(big.NewInt(2), big.NewInt(64), big.NewInt(0))
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// Base for 2**80
b80 := new(big.Int)
b80.Exp(big.NewInt(2), big.NewInt(80), big.NewInt(0))
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StepFee.Exp(big.NewInt(10), big.NewInt(16), big.NewInt(0))
//StepFee.Div(b60, big.NewInt(64))
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//fmt.Println("StepFee:", StepFee)
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TxFee.Exp(big.NewInt(2), big.NewInt(64), big.NewInt(0))
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//fmt.Println("TxFee:", TxFee)
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ContractFee.Exp(big.NewInt(2), big.NewInt(64), big.NewInt(0))
//fmt.Println("ContractFee:", ContractFee)
MemFee.Div(b60, big.NewInt(4))
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//fmt.Println("MemFee:", MemFee)
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DataFee.Div(b60, big.NewInt(16))
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//fmt.Println("DataFee:", DataFee)
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CryptoFee.Div(b60, big.NewInt(16))
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//fmt.Println("CrytoFee:", CryptoFee)
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ExtroFee.Div(b60, big.NewInt(16))
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//fmt.Println("ExtroFee:", ExtroFee)
Period1Reward.Mul(b80, big.NewInt(1024))
//fmt.Println("Period1Reward:", Period1Reward)
Period2Reward.Mul(b80, big.NewInt(512))
//fmt.Println("Period2Reward:", Period2Reward)
Period3Reward.Mul(b80, big.NewInt(256))
//fmt.Println("Period3Reward:", Period3Reward)
Period4Reward.Mul(b80, big.NewInt(128))
//fmt.Println("Period4Reward:", Period4Reward)
}