package main import ( "math/big" "fmt" _"encoding/hex" _"crypto/sha256" _ "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 */ 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) 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 { sender string recipient string value uint32 fee uint32 data []string memory []int lastTx string // To be removed signature string addr string } func NewTransaction(to string, value uint32, data []string) *Transaction { tx := Transaction{sender: "1234567890", recipient: to, value: value} tx.fee = 0//uint32((ContractFee + MemoryFee * float32(len(tx.data))) * 1e8) tx.lastTx = "0" // 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", i+1, err) } tx.data[i] = instr } return &tx } func (tx *Transaction) Hash() []byte { return Sha256Bin(tx.MarshalRlp()) } func (tx *Transaction) MarshalRlp() []byte { // Prepare the transaction for serialization preEnc := []interface{}{ tx.lastTx, tx.sender, tx.recipient, tx.value, tx.fee, tx.data, } return Encode(preEnc) } func (tx *Transaction) UnmarshalRlp(data []byte) { t, _ := Decode(data,0) if slice, ok := t.([]interface{}); ok { if lastTx, ok := slice[0].([]byte); ok { tx.lastTx = string(lastTx) } if sender, ok := slice[1].([]byte); ok { tx.sender = string(sender) } if recipient, ok := slice[2].([]byte); ok { tx.recipient = string(recipient) } // If only I knew of a better way. if value, ok := slice[3].(uint8); ok { tx.value = uint32(value) } if value, ok := slice[3].(uint16); ok { tx.value = uint32(value) } if value, ok := slice[3].(uint32); ok { tx.value = uint32(value) } if value, ok := slice[3].(uint64); ok { tx.value = uint32(value) } if fee, ok := slice[4].(uint8); ok { tx.fee = uint32(fee) } if fee, ok := slice[4].(uint16); ok { tx.fee = uint32(fee) } if fee, ok := slice[4].(uint32); ok { tx.fee = uint32(fee) } if fee, ok := slice[4].(uint64); ok { tx.fee = uint32(fee) } // Encode the data/instructions if data, ok := slice[5].([]interface{}); ok { tx.data = make([]string, len(data)) for i, d := range data { if instr, ok := d.([]byte); ok { tx.data[i] = string(instr) } } } } } func InitFees() { // Base for 2**60 b60 := new(big.Int) b60.Exp(big.NewInt(2), big.NewInt(64), big.NewInt(0)) // Base for 2**80 b80 := new(big.Int) b80.Exp(big.NewInt(2), big.NewInt(80), big.NewInt(0)) StepFee.Div(b60, big.NewInt(64)) //fmt.Println("StepFee:", StepFee) TxFee.Exp(big.NewInt(2), big.NewInt(64), big.NewInt(0)) //fmt.Println("TxFee:", TxFee) ContractFee.Exp(big.NewInt(2), big.NewInt(64), big.NewInt(0)) //fmt.Println("ContractFee:", ContractFee) MemFee.Div(b60, big.NewInt(4)) //fmt.Println("MemFee:", MemFee) DataFee.Div(b60, big.NewInt(16)) //fmt.Println("DataFee:", DataFee) CryptoFee.Div(b60, big.NewInt(16)) //fmt.Println("CrytoFee:", CryptoFee) ExtroFee.Div(b60, big.NewInt(16)) //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) }