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proofofwork.go
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proofofwork.go
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package main
import (
"bytes"
"crypto/sha256"
"fmt"
"math"
"math/big"
)
var (
maxNonce = math.MaxInt64
)
const targetBits = 16
// ProofOfWork represents a proof-of-work
type ProofOfWork struct {
block *Block
target *big.Int
}
// NewProofOfWork builds and returns a ProofOfWork
func NewProofOfWork(b *Block) *ProofOfWork {
target := big.NewInt(1)
target.Lsh(target, uint(256-targetBits))
pow := &ProofOfWork{b, target}
return pow
}
func (pow *ProofOfWork) prepareData(nonce int) []byte {
data := bytes.Join(
[][]byte{
pow.block.PrevBlockHash,
pow.block.HashTransactions(),
IntToHex(pow.block.Timestamp),
IntToHex(int64(targetBits)),
IntToHex(int64(nonce)),
},
[]byte{},
)
return data
}
// Run performs a proof-of-work
func (pow *ProofOfWork) Run() (int, []byte) {
var hashInt big.Int
var hash [32]byte
nonce := 0
fmt.Printf("Mining a new block")
for nonce < maxNonce {
data := pow.prepareData(nonce)
hash = sha256.Sum256(data)
if math.Remainder(float64(nonce), 100000) == 0 {
fmt.Printf("\r%x", hash)
}
hashInt.SetBytes(hash[:])
if hashInt.Cmp(pow.target) == -1 {
break
} else {
nonce++
}
}
fmt.Print("\n\n")
return nonce, hash[:]
}
// Validate validates block's PoW
func (pow *ProofOfWork) Validate() bool {
var hashInt big.Int
data := pow.prepareData(pow.block.Nonce)
hash := sha256.Sum256(data)
hashInt.SetBytes(hash[:])
isValid := hashInt.Cmp(pow.target) == -1
return isValid
}