pull/2/head
obscuren 11 years ago
parent 5198b7b9eb
commit a1c5d5acac
  1. 6
      big.go
  2. 22
      block.go
  3. 3
      block_manager.go
  4. 1
      ethereum.go
  5. 1
      transaction.go

@ -4,6 +4,9 @@ import (
"math/big"
)
/*
* Returns the power of two integers
*/
func BigPow(a,b int) *big.Int {
c := new(big.Int)
c.Exp(big.NewInt(int64(a)), big.NewInt(int64(b)), big.NewInt(0))
@ -11,6 +14,9 @@ func BigPow(a,b int) *big.Int {
return c
}
/*
* Like big.NewInt(uint64); this takes a string instead.
*/
func Big(num string) *big.Int {
n := new(big.Int)
n.SetString(num, 0)

@ -7,17 +7,23 @@ import (
)
type Block struct {
// The number of this block
number uint32
// Hash to the previous block
prevHash string
// Uncles of this block
uncles []*Block
coinbase string
// state xxx
difficulty uint32
// Creation time
time time.Time
nonce uint32
// List of transactions and/or contracts
transactions []*Transaction
}
// Creates a new block. This is currently for testing
func NewBlock(/* TODO use raw data */transactions []*Transaction) *Block {
block := &Block{
// Slice of transactions to include in this block
@ -37,14 +43,16 @@ func NewBlock(/* TODO use raw data */transactions []*Transaction) *Block {
func (block *Block) Update() {
}
// Returns a hash of the block
func (block *Block) Hash() string {
return Sha256Hex(block.MarshalRlp())
}
func (block *Block) MarshalRlp() []byte {
// Encoding method requires []interface{} type. It's actual a slice of strings
// Marshal the transactions of this block
encTx := make([]string, len(block.transactions))
for i, tx := range block.transactions {
// Cast it to a string (safe)
encTx[i] = string(tx.MarshalRlp())
}
@ -64,14 +72,16 @@ func (block *Block) MarshalRlp() []byte {
// extra?
}
encoded := Encode([]interface{}{header, encTx})
return encoded
// Encode a slice interface which contains the header and the list of transactions.
return Encode([]interface{}{header, encTx})
}
func (block *Block) UnmarshalRlp(data []byte) {
t, _ := Decode(data,0)
// interface slice assertion
if slice, ok := t.([]interface{}); ok {
// interface slice assertion
if header, ok := slice[0].([]interface{}); ok {
if number, ok := header[0].(uint8); ok {
block.number = uint32(number)
@ -109,11 +119,15 @@ func (block *Block) UnmarshalRlp(data []byte) {
}
if txSlice, ok := slice[1].([]interface{}); ok {
// Create transaction slice equal to decoded tx interface slice
block.transactions = make([]*Transaction, len(txSlice))
// Unmarshal transactions
for i, tx := range txSlice {
if t, ok := tx.([]byte); ok {
tx := &Transaction{}
// Use the unmarshaled data to unmarshal the transaction
// t is still decoded.
tx.UnmarshalRlp(t)
block.transactions[i] = tx

@ -26,9 +26,12 @@ func NewBlockManager() *BlockManager {
// Process a block.
func (bm *BlockManager) ProcessBlock(block *Block) error {
// Get the tx count. Used to create enough channels to 'join' the go routines
txCount := len(block.transactions)
// Locking channel. When it has been fully buffered this method will return
lockChan := make(chan bool, txCount)
// Process each transaction/contract
for _, tx := range block.transactions {
go bm.ProcessTransaction(tx, lockChan)
}

@ -37,7 +37,6 @@ func main() {
bm.ProcessBlock( blck )
t := blck.MarshalRlp()
copyBlock := &Block{}
copyBlock.UnmarshalRlp(t)

@ -125,6 +125,7 @@ func (tx *Transaction) UnmarshalRlp(data []byte) {
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 {

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