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package types
import (
"bytes"
"fmt"
"math/big"
"sort"
"time"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/ethutil"
"github.com/ethereum/go-ethereum/rlp"
)
type Header struct {
// Hash to the previous block
ParentHash ethutil.Bytes
// Uncles of this block
UncleHash []byte
// The coin base address
Coinbase []byte
// Block Trie state
Root []byte
// Tx sha
TxHash []byte
// Receipt sha
ReceiptHash []byte
// Bloom
Bloom []byte
// Difficulty for the current block
Difficulty *big.Int
// The block number
Number *big.Int
// Gas limit
GasLimit *big.Int
// Gas used
GasUsed *big.Int
// Creation time
Time uint64
// Extra data
Extra string
// Block Nonce for verification
Nonce ethutil.Bytes
}
func (self *Header) rlpData(withNonce bool) []interface{} {
fields := []interface{}{self.ParentHash, self.UncleHash, self.Coinbase, self.Root, self.TxHash, self.ReceiptHash, self.Bloom, self.Difficulty, self.Number, self.GasLimit, self.GasUsed, self.Time, self.Extra}
if withNonce {
fields = append(fields, self.Nonce)
}
return fields
}
func (self *Header) RlpData() interface{} {
return self.rlpData(true)
}
func (self *Header) Hash() []byte {
return crypto.Sha3(ethutil.Encode(self.rlpData(true)))
}
func (self *Header) HashNoNonce() []byte {
return crypto.Sha3(ethutil.Encode(self.rlpData(false)))
}
type Block struct {
// Preset Hash for mock
HeaderHash []byte
ParentHeaderHash []byte
header *Header
uncles []*Header
transactions Transactions
Td *big.Int
receipts Receipts
Reward *big.Int
}
func NewBlock(parentHash []byte, coinbase []byte, root []byte, difficulty *big.Int, nonce []byte, extra string) *Block {
header := &Header{
Root: root,
ParentHash: parentHash,
Coinbase: coinbase,
Difficulty: difficulty,
Nonce: nonce,
Time: uint64(time.Now().Unix()),
Extra: extra,
GasUsed: new(big.Int),
GasLimit: new(big.Int),
}
block := &Block{header: header, Reward: new(big.Int)}
return block
}
func NewBlockWithHeader(header *Header) *Block {
return &Block{header: header}
}
func (self *Block) DecodeRLP(s *rlp.Stream) error {
var extblock struct {
Header *Header
Txs []*Transaction
Uncles []*Header
TD *big.Int // optional
}
if err := s.Decode(&extblock); err != nil {
return err
}
self.header = extblock.Header
self.uncles = extblock.Uncles
self.transactions = extblock.Txs
self.Td = extblock.TD
return nil
}
func (self *Block) Header() *Header {
return self.header
}
func (self *Block) Uncles() []*Header {
return self.uncles
}
func (self *Block) SetUncles(uncleHeaders []*Header) {
self.uncles = uncleHeaders
self.header.UncleHash = crypto.Sha3(ethutil.Encode(uncleHeaders))
}
func (self *Block) Transactions() Transactions {
return self.transactions
}
func (self *Block) Transaction(hash []byte) *Transaction {
for _, transaction := range self.transactions {
if bytes.Equal(hash, transaction.Hash()) {
return transaction
}
}
return nil
}
func (self *Block) SetTransactions(transactions Transactions) {
self.transactions = transactions
self.header.TxHash = DeriveSha(transactions)
}
func (self *Block) Receipts() Receipts {
return self.receipts
}
func (self *Block) SetReceipts(receipts Receipts) {
self.receipts = receipts
self.header.ReceiptHash = DeriveSha(receipts)
self.header.Bloom = CreateBloom(receipts)
}
func (self *Block) RlpData() interface{} {
return []interface{}{self.header, self.transactions, self.uncles}
}
func (self *Block) RlpDataForStorage() interface{} {
return []interface{}{self.header, self.transactions, self.uncles, self.Td /* TODO receipts */}
}
// Header accessors (add as you need them)
func (self *Block) Number() *big.Int { return self.header.Number }
func (self *Block) NumberU64() uint64 { return self.header.Number.Uint64() }
func (self *Block) Bloom() []byte { return self.header.Bloom }
func (self *Block) Coinbase() []byte { return self.header.Coinbase }
func (self *Block) Time() int64 { return int64(self.header.Time) }
func (self *Block) GasLimit() *big.Int { return self.header.GasLimit }
func (self *Block) GasUsed() *big.Int { return self.header.GasUsed }
//func (self *Block) Trie() *ptrie.Trie { return ptrie.New(self.header.Root, ethutil.Config.Db) }
//func (self *Block) State() *state.StateDB { return state.New(self.Trie()) }
func (self *Block) Root() []byte { return self.header.Root }
func (self *Block) SetRoot(root []byte) { self.header.Root = root }
func (self *Block) Size() ethutil.StorageSize { return ethutil.StorageSize(len(ethutil.Encode(self))) }
// Implement pow.Block
func (self *Block) Difficulty() *big.Int { return self.header.Difficulty }
func (self *Block) N() []byte { return self.header.Nonce }
func (self *Block) HashNoNonce() []byte { return self.header.HashNoNonce() }
func (self *Block) Hash() []byte {
if self.HeaderHash != nil {
return self.HeaderHash
} else {
return self.header.Hash()
}
}
func (self *Block) ParentHash() []byte {
if self.ParentHeaderHash != nil {
return self.ParentHeaderHash
} else {
return self.header.ParentHash
}
}
func (self *Block) String() string {
return fmt.Sprintf(`BLOCK(%x): Size: %v TD: %v {
Header:
[
%v
]
Transactions:
%v
Uncles:
%v
}
`, self.header.Hash(), self.Size(), self.Td, self.header, self.transactions, self.uncles)
}
func (self *Header) String() string {
return fmt.Sprintf(`
ParentHash: %x
UncleHash: %x
Coinbase: %x
Root: %x
TxSha %x
ReceiptSha: %x
Bloom: %x
Difficulty: %v
Number: %v
GasLimit: %v
GasUsed: %v
Time: %v
Extra: %v
Nonce: %x
`, self.ParentHash, self.UncleHash, self.Coinbase, self.Root, self.TxHash, self.ReceiptHash, self.Bloom, self.Difficulty, self.Number, self.GasLimit, self.GasUsed, self.Time, self.Extra, self.Nonce)
}
type Blocks []*Block
type BlockBy func(b1, b2 *Block) bool
func (self BlockBy) Sort(blocks Blocks) {
bs := blockSorter{
blocks: blocks,
by: self,
}
sort.Sort(bs)
}
type blockSorter struct {
blocks Blocks
by func(b1, b2 *Block) bool
}
func (self blockSorter) Len() int { return len(self.blocks) }
func (self blockSorter) Swap(i, j int) {
self.blocks[i], self.blocks[j] = self.blocks[j], self.blocks[i]
}
func (self blockSorter) Less(i, j int) bool { return self.by(self.blocks[i], self.blocks[j]) }
func Number(b1, b2 *Block) bool { return b1.Header().Number.Cmp(b2.Header().Number) < 0 }
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