package p2p import "bytes" import "github.com/romana/rlog" import log "github.com/sirupsen/logrus" import "github.com/deroproject/derosuite/blockchain" // if the incoming blob contains block with included transactions //00009F94 01 11 01 01 01 01 02 01 01 08 06 62 6c 6f 63 6b ........ ...block //00009FA4 73 8c 04 08 05 62 6c 6f 63 6b 0a fd 03 06 06 cd s....blo ck...... // if the incoming blob contains block without any tx //00009EB4 01 11 01 01 01 01 02 01 01 08 06 62 6c 6f 63 6b ........ ...block //00009EC4 73 8c 08 04 05 62 6c 6f 63 6b 0a e5 01 01 00 00 s....blo ck...... // if the incoming blob only contains a TX // FIXME this code can also be shared by NOTIFY_NEW_BLOCK, NOTIFY_NEW_TRANSACTIONS // we trigger this if we want to request any TX or block from the peer func Handle_BC_Notify_Response_GetObjects(connection *Connection, i_command_header *Levin_Header, buf []byte) { var bl blockchain.Block complete_block := false // deserialize data header var i_data_header Levin_Data_Header // incoming data header err := i_data_header.DeSerialize(buf) if err != nil { log.Debugf("We should destroy connection here, data header cnot deserialized") return } // check whether the response contains block pos := bytes.Index(i_data_header.Data, []byte("blocks")) // at this point to buf = i_data_header.Data if pos > 0 { // the data contains atleast 1 block pos += 6 buf = i_data_header.Data[pos:] pos := bytes.Index(buf, []byte("block")) // find inner position of block pos = pos + 6 // jump to varint length position and decode buf = buf[pos:] block_length, done := Decode_Boost_Varint(buf) rlog.Tracef(9, "Block length %d %x\n", block_length, buf[:8]) buf = buf[done:] block_buf := buf[:block_length] err = bl.Deserialize(block_buf) if err != nil { log.Debugf("Block could not be deserialized successfully err %s\n", err) log.Debugf("We should destroy connection here, block not deserialized") return } hash := bl.GetHash() rlog.Tracef(9, "Block deserialized successfully %x\n", hash[:32]) rlog.Tracef(9, "Tx hash length %d\n", len(bl.Tx_hashes)) for i := range bl.Tx_hashes { rlog.Tracef(9, "%d tx %x\n", i, bl.Tx_hashes[i][:32]) } // point buffer to check whether any more tx exist buf = buf[block_length:] complete_block = true } pos = bytes.Index(buf, []byte("\x03txs\x8a")) // at this point to if pos > -1 { rlog.Tracef(9, "txt pos %d\n", pos) buf = buf[pos+5:] // decode remain data length ( though we know it from buffer size, but still verify it ) tx_count, done := Decode_Boost_Varint(buf) buf = buf[done:] for i := uint64(0); i < tx_count; i++ { var tx blockchain.Transaction tx_len, done := Decode_Boost_Varint(buf) buf = buf[done:] rlog.Tracef(9, "tx count %d i %d tx_len %d\n", tx_count, i, tx_len) tx_bytes := buf[:tx_len] // deserialize and verrify transaction err = tx.DeserializeHeader(tx_bytes) if err != nil { log.Debugf("Transaction could not be deserialized\n") } else { hash := tx.GetHash() rlog.Tracef(9, "Transaction deserialised successfully hash %x\n", hash[:32]) // add tx to block chain, we must verify that the tx has been mined chain.Add_TX(&tx) } buf = buf[tx_len:] // setup for next tx } } // at this point, if it's a block we should try to add it to block chain if complete_block { // add block to chain log.Debugf("Found a block we should add it to our chain\n") chain.Chain_Add(&bl) } // add all transaction to chains }