package core import ( "crypto/ecdsa" "encoding/json" "fmt" ) var GenesisHashTxInput = HashBytes([]byte("genesis")) type Input struct { TxId Hash Vout int // index of the output from the TxId Value uint64 } type Output struct { Value uint64 } // Tx holds the data structure of a transaction type Tx struct { TxId Hash From *ecdsa.PublicKey To *ecdsa.PublicKey InputCount uint64 Inputs []Input Outputs []Output Signature []byte } func (tx *Tx) Bytes() []byte { // TODO add parser, to use minimum amount of bytes b, _ := json.Marshal(tx) return b } func (tx *Tx) CalculateTxId() { h := HashBytes(tx.Bytes()) tx.TxId = h } func NewTx(from, to *ecdsa.PublicKey, in []Input, out []Output) *Tx { tx := &Tx{ From: from, To: to, InputCount: uint64(len(in)), Inputs: in, Outputs: out, Signature: []byte{}, } tx.CalculateTxId() return tx } // CheckTx checks if the transaction is consistent func CheckTx(tx *Tx) bool { // TODO check that inputs and outputs are not empty // check that inputs == outputs totalIn := 0 for _, in := range tx.Inputs { totalIn = totalIn + int(in.Value) } totalOut := 0 for _, out := range tx.Outputs { totalOut = totalOut + int(out.Value) } if totalIn != totalOut { fmt.Println("totalIn != totalOut") return false } // TODO check signature return true }