// This function is called from a net conn thread
func netBlockReceived(conn *OneConnection, b []byte) {
bl, e := btc.NewBlock(b)
if e != nil {
conn.DoS("BrokenBlock")
println("NewBlock:", e.Error())
return
}
idx := bl.Hash.BIdx()
MutexRcv.Lock()
if rb, got := ReceivedBlocks[idx]; got {
rb.Cnt++
MutexRcv.Unlock()
common.CountSafe("BlockSameRcvd")
return
}
orb := &OneReceivedBlock{Time: time.Now()}
if bip, ok := conn.GetBlockInProgress[idx]; ok {
orb.TmDownload = orb.Time.Sub(bip.start)
conn.Mutex.Lock()
delete(conn.GetBlockInProgress, idx)
conn.Mutex.Unlock()
} else {
common.CountSafe("UnxpectedBlockRcvd")
}
ReceivedBlocks[idx] = orb
MutexRcv.Unlock()
NetBlocks <- &BlockRcvd{Conn: conn, Block: bl}
}
func (c *one_net_conn) headers(d []byte) {
var hdr [81]byte
b := bytes.NewReader(d)
cnt, er := btc.ReadVLen(b)
if er != nil {
return
}
if cnt == 0 /*|| LastBlock.node.Height>=10e3*/ {
SetAllHeadersDone(true)
return
}
for i := uint64(0); i < cnt; i++ {
if _, er = b.Read(hdr[:]); er != nil {
return
}
if hdr[80] != 0 {
fmt.Println(LastBlock.node.Height, "Unexpected value of txn_count")
continue
}
bl, er := btc.NewBlock(hdr[:])
if er == nil {
er = chkblock(bl)
if er != nil {
fmt.Println(er.Error())
os.Exit(1)
}
} else {
fmt.Println(LastBlock.node.Height, er.Error())
}
}
//fmt.Println("Height:", LastBlock.node.Height)
}
func (ch *Chain) ParseTillBlock(end *BlockTreeNode) {
var b []byte
var er error
var trusted bool
prv := time.Now().UnixNano()
for !AbortNow && ch.BlockTreeEnd != end {
cur := time.Now().UnixNano()
if cur-prv >= 10e9 {
fmt.Println("ParseTillBlock ...", ch.BlockTreeEnd.Height, "/", end.Height)
prv = cur
}
nxt := ch.BlockTreeEnd.FindPathTo(end)
if nxt == nil {
break
}
b, trusted, er = ch.Blocks.BlockGet(nxt.BlockHash)
if er != nil {
panic("Db.BlockGet(): " + er.Error())
}
bl, er := btc.NewBlock(b)
if er != nil {
ch.DeleteBranch(nxt)
break
}
er = bl.BuildTxList()
if er != nil {
ch.DeleteBranch(nxt)
break
}
bl.Trusted = trusted
changes, er := ch.ProcessBlockTransactions(bl, nxt.Height, end.Height)
if er != nil {
println("ProcessBlockTransactions", nxt.Height, er.Error())
ch.DeleteBranch(nxt)
break
}
if !trusted {
ch.Blocks.BlockTrusted(bl.Hash.Hash[:])
}
ch.Unspent.CommitBlockTxs(changes, bl.Hash.Hash[:])
ch.BlockTreeEnd = nxt
}
if !AbortNow && ch.BlockTreeEnd != end {
end, _ = ch.BlockTreeRoot.FindFarthestNode()
fmt.Println("ParseTillBlock failed - now go to", end.Height)
ch.MoveToBlock(end)
}
ch.Unspent.Sync()
ch.Save()
}
func GetchBlockForBIP152(hash *btc.Uint256) (crec *chain.BlckCachRec) {
crec, _, _ = common.BlockChain.Blocks.BlockGetExt(hash)
if crec == nil {
fmt.Println("BlockGetExt failed for", hash.String())
return
}
if crec.Block == nil {
crec.Block, _ = btc.NewBlock(crec.Data)
if crec.Block == nil {
fmt.Println("SendCmpctBlk: btc.NewBlock() failed for", hash.String())
return
}
}
if len(crec.Block.Txs) == 0 {
if crec.Block.BuildTxList() != nil {
fmt.Println("SendCmpctBlk: bl.BuildTxList() failed for", hash.String())
return
}
}
if len(crec.BIP152) != 24 {
crec.BIP152 = make([]byte, 24)
copy(crec.BIP152[:8], crec.Data[48:56]) // set the nonce to 8 middle-bytes of block's merkle_root
sha := sha256.New()
sha.Write(crec.Data[:80])
sha.Write(crec.BIP152[:8])
copy(crec.BIP152[8:24], sha.Sum(nil)[0:16])
}
return
}
func GetAverageFee() float64 {
Last.Mutex.Lock()
end := Last.Block
Last.Mutex.Unlock()
LockCfg()
blocks := CFG.AverageFeeBlocks
UnlockCfg()
if blocks <= 0 {
blocks = 1 // at leats one block
}
AverageFeeMutex.Lock()
defer AverageFeeMutex.Unlock()
if end.Height == averageFeeLastBlock && averageFeeLastCount == blocks {
return AverageFee_SPB // we've already calculated for this block
}
averageFeeLastBlock = end.Height
averageFeeLastCount = blocks
AverageFeeBytes = 0
AverageFeeTotal = 0
for blocks > 0 {
bl, _, e := BlockChain.Blocks.BlockGet(end.BlockHash)
if e != nil {
return 0
}
block, e := btc.NewBlock(bl)
if e != nil {
return 0
}
cbasetx, cbasetxlen := btc.NewTx(bl[block.TxOffset:])
for o := range cbasetx.TxOut {
AverageFeeTotal += cbasetx.TxOut[o].Value
}
AverageFeeTotal -= btc.GetBlockReward(end.Height)
AverageFeeBytes += uint64(len(bl) - block.TxOffset - cbasetxlen) /*do not count block header and conibase tx */
blocks--
end = end.Parent
}
if AverageFeeBytes == 0 {
if AverageFeeTotal != 0 {
panic("Impossible that miner gest a fee with no transactions in the block")
}
AverageFee_SPB = 0
} else {
AverageFee_SPB = float64(AverageFeeTotal) / float64(AverageFeeBytes)
}
return AverageFee_SPB
}
func (ch *Chain) UndoLastBlock() {
fmt.Println("Undo block", ch.BlockTreeEnd.Height, ch.BlockTreeEnd.BlockHash.String(),
ch.BlockTreeEnd.BlockSize>>10, "KB")
raw, _, _ := ch.Blocks.BlockGet(ch.BlockTreeEnd.BlockHash)
bl, _ := btc.NewBlock(raw)
bl.BuildTxList()
ch.Unspent.UndoBlockTxs(bl, ch.BlockTreeEnd.Parent.BlockHash.Hash[:])
ch.BlockTreeEnd = ch.BlockTreeEnd.Parent
}
func BlocksMiner(bl []byte) (string, int) {
for i, m := range MinerIds {
if MinedBy(bl, m.Tag) {
return m.Name, i
}
}
bt, _ := btc.NewBlock(bl)
cbtx, _ := btc.NewTx(bl[bt.TxOffset:])
adr := btc.NewAddrFromPkScript(cbtx.TxOut[0].Pk_script, Testnet)
if adr != nil {
return adr.String(), -1
}
return "", -1
}
func defrag_db() {
if (usif.DefragBlocksDB & 1) != 0 {
qdb.SetDefragPercent(1)
fmt.Print("Defragmenting UTXO database")
for {
if !common.BlockChain.Unspent.Idle() {
break
}
fmt.Print(".")
}
fmt.Println("done")
}
if (usif.DefragBlocksDB & 2) != 0 {
fmt.Println("Creating empty database in", common.GocoinHomeDir+"defrag", "...")
os.RemoveAll(common.GocoinHomeDir + "defrag")
defragdb := chain.NewBlockDB(common.GocoinHomeDir + "defrag")
fmt.Println("Defragmenting the database...")
blk := common.BlockChain.BlockTreeRoot
for {
blk = blk.FindPathTo(common.BlockChain.BlockTreeEnd)
if blk == nil {
fmt.Println("Database defragmenting finished successfully")
fmt.Println("To use the new DB, move the two new files to a parent directory and restart the client")
break
}
if (blk.Height & 0xff) == 0 {
fmt.Printf("%d / %d blocks written (%d%%)\r", blk.Height, common.BlockChain.BlockTreeEnd.Height,
100*blk.Height/common.BlockChain.BlockTreeEnd.Height)
}
bl, trusted, er := common.BlockChain.Blocks.BlockGet(blk.BlockHash)
if er != nil {
fmt.Println("FATAL ERROR during BlockGet:", er.Error())
break
}
nbl, er := btc.NewBlock(bl)
if er != nil {
fmt.Println("FATAL ERROR during NewBlock:", er.Error())
break
}
nbl.Trusted = trusted
defragdb.BlockAdd(blk.Height, nbl)
}
defragdb.Sync()
defragdb.Close()
}
}
func (c *OneConnection) ProcessNewHeader(hdr []byte) (int, *OneBlockToGet) {
var ok bool
var b2g *OneBlockToGet
bl, _ := btc.NewBlock(hdr)
c.Mutex.Lock()
c.InvStore(MSG_BLOCK, bl.Hash.Hash[:])
c.Mutex.Unlock()
if _, ok = ReceivedBlocks[bl.Hash.BIdx()]; ok {
common.CountSafe("HeaderOld")
//fmt.Println("", i, bl.Hash.String(), "-already received")
return PH_STATUS_OLD, nil
}
if b2g, ok = BlocksToGet[bl.Hash.BIdx()]; ok {
common.CountSafe("HeaderFresh")
//fmt.Println(c.PeerAddr.Ip(), "block", bl.Hash.String(), " not new but get it")
return PH_STATUS_FRESH, b2g
}
common.CountSafe("HeaderNew")
//fmt.Println("", i, bl.Hash.String(), " - NEW!")
common.BlockChain.BlockIndexAccess.Lock()
defer common.BlockChain.BlockIndexAccess.Unlock()
if er, dos, _ := common.BlockChain.PreCheckBlock(bl); er != nil {
common.CountSafe("PreCheckBlockFail")
//println("PreCheckBlock err", dos, er.Error())
if dos {
return PH_STATUS_FATAL, nil
} else {
return PH_STATUS_ERROR, nil
}
}
node := common.BlockChain.AcceptHeader(bl)
b2g = &OneBlockToGet{Started: c.LastMsgTime, Block: bl, BlockTreeNode: node, InProgress: 0}
AddB2G(b2g)
LastCommitedHeader = node
return PH_STATUS_NEW, b2g
}
func (c *one_net_conn) block(d []byte) {
BlocksMutex.Lock()
defer BlocksMutex.Unlock()
h := btc.NewSha2Hash(d[:80])
c.Lock()
c.last_blk_rcvd = time.Now()
c.Unlock()
bip := BlocksInProgress[h.Hash]
if bip == nil || !bip.Conns[c.id] {
COUNTER("UNEX")
//fmt.Println(h.String(), "- already received", bip)
return
}
delete(bip.Conns, c.id)
c.Lock()
c.inprogress--
c.Unlock()
atomic.AddUint64(&DlBytesDownloaded, uint64(len(d)))
blocksize_update(len(d))
bl, er := btc.NewBlock(d)
if er != nil {
fmt.Println(c.peerip, "-", er.Error())
c.setbroken(true)
return
}
bl.BuildTxList()
if !bytes.Equal(btc.GetMerkel(bl.Txs), bl.MerkleRoot()) {
fmt.Println(c.peerip, " - MerkleRoot mismatch at block", bip.Height)
c.setbroken(true)
return
}
BlocksCachedSize += uint(len(d))
BlocksCached[bip.Height] = bl
delete(BlocksToGet, bip.Height)
delete(BlocksInProgress, h.Hash)
//fmt.Println(" got block", height)
}
func (ch *Chain) GetRawTx(BlockHeight uint32, txid *btc.Uint256) (data []byte, er error) {
// Find the block with the indicated Height in the main tree
ch.BlockIndexAccess.Lock()
n := ch.BlockTreeEnd
if n.Height < BlockHeight {
println(n.Height, BlockHeight)
ch.BlockIndexAccess.Unlock()
er = errors.New("GetRawTx: block height too big")
return
}
for n.Height > BlockHeight {
n = n.Parent
}
ch.BlockIndexAccess.Unlock()
bd, _, e := ch.Blocks.BlockGet(n.BlockHash)
if e != nil {
er = errors.New("GetRawTx: block not in the database")
return
}
bl, e := btc.NewBlock(bd)
if e != nil {
er = errors.New("GetRawTx: NewBlock failed")
return
}
e = bl.BuildTxList()
if e != nil {
er = errors.New("GetRawTx: BuildTxList failed")
return
}
// Find the transaction we need and store it in the file
for i := range bl.Txs {
if bl.Txs[i].Hash.Equal(txid) {
data = bl.Txs[i].Serialize()
return
}
}
er = errors.New("GetRawTx: BuildTxList failed")
return
}
func GetRawTransaction(BlockHeight uint32, txid *btc.Uint256, txf io.Writer) bool {
// Find the block with the indicated Height in the main tree
common.BlockChain.BlockIndexAccess.Lock()
n := common.Last.Block
if n.Height < BlockHeight {
println(n.Height, BlockHeight)
common.BlockChain.BlockIndexAccess.Unlock()
panic("This should not happen")
}
for n.Height > BlockHeight {
n = n.Parent
}
common.BlockChain.BlockIndexAccess.Unlock()
bd, _, e := common.BlockChain.Blocks.BlockGet(n.BlockHash)
if e != nil {
println("BlockGet", n.BlockHash.String(), BlockHeight, e.Error())
println("This should not happen - please, report a bug.")
println("You can probably fix it by launching the client with -rescan")
os.Exit(1)
}
bl, e := btc.NewBlock(bd)
if e != nil {
println("NewBlock: ", e.Error())
os.Exit(1)
}
e = bl.BuildTxList()
if e != nil {
println("BuildTxList:", e.Error())
os.Exit(1)
}
// Find the transaction we need and store it in the file
for i := range bl.Txs {
if bl.Txs[i].Hash.Equal(txid) {
txf.Write(bl.Txs[i].Serialize())
return true
}
}
return false
}
func dump_block(s string) {
h := btc.NewUint256FromString(s)
if h == nil {
println("Specify block's hash")
return
}
crec, _, er := common.BlockChain.Blocks.BlockGetExt(btc.NewUint256(h.Hash[:]))
if er != nil {
println(er.Error())
return
}
ioutil.WriteFile(h.String()+".bin", crec.Data, 0700)
if crec.Block == nil {
crec.Block, _ = btc.NewBlock(crec.Data)
}
if crec.Block.OldData == nil {
crec.Block.BuildTxList()
}
ioutil.WriteFile(h.String()+".old", crec.Block.OldData, 0700)
fmt.Println("Block saved")
}
func verify_block(blk []byte, sl one_idx_rec, off int) {
bl, er := btc.NewBlock(blk)
if er != nil {
println("verify_block at off", off, er.Error())
return
}
if !bytes.Equal(bl.Hash.Hash[:], sl.Hash()) {
println("verify_block at off", off, "Header invalid")
return
}
er = bl.BuildTxList()
if er != nil {
println("verify_block at off", off, er.Error())
return
}
merk, _ := btc.GetMerkle(bl.Txs)
if !bytes.Equal(bl.MerkleRoot(), merk) {
println("verify_block at off", off, "Payload invalid")
return
}
}
func do_mining(s string) {
var totbtc, hrs uint64
if s != "" {
hrs, _ = strconv.ParseUint(s, 10, 64)
}
if hrs == 0 {
hrs = uint64(common.CFG.MiningStatHours)
}
fmt.Println("Looking back", hrs, "hours...")
lim := uint32(time.Now().Add(-time.Hour * time.Duration(hrs)).Unix())
common.Last.Mutex.Lock()
bte := common.Last.Block
end := bte
common.Last.Mutex.Unlock()
cnt, diff := 0, float64(0)
tot_blocks, tot_blocks_len := 0, 0
bip100_voting := make(map[string]uint)
bip100x := regexp.MustCompile("/BV{0,1}[0-9]+[M]{0,1}/")
for end.Timestamp() >= lim {
bl, _, e := common.BlockChain.Blocks.BlockGet(end.BlockHash)
if e != nil {
println(cnt, e.Error())
return
}
block, e := btc.NewBlock(bl)
if e != nil {
println("btc.NewBlock failed", e.Error())
return
}
bt, _ := btc.NewBlock(bl)
cbasetx, cbtxlen := btc.NewTx(bl[bt.TxOffset:])
tot_blocks++
tot_blocks_len += len(bl)
diff += btc.GetDifficulty(block.Bits())
common.LockCfg()
if common.CFG.Beeps.MinerID != "" &&
bytes.Contains(bl[bt.TxOffset:bt.TxOffset+cbtxlen], []byte(common.CFG.Beeps.MinerID)) {
block.BuildTxList()
totbtc += block.Txs[0].TxOut[0].Value
cnt++
fmt.Printf("%4d) %6d %s %s %5.2f => %5.2f BTC total, %d txs, %.1f KB\n",
cnt, end.Height, end.BlockHash.String(),
time.Unix(int64(end.Timestamp()), 0).Format("2006-01-02 15:04:05"),
float64(block.Txs[0].TxOut[0].Value)/1e8, float64(totbtc)/1e8,
len(block.Txs), float64(len(bl))/1e3)
}
common.UnlockCfg()
res := bip100x.Find(cbasetx.TxIn[0].ScriptSig)
if res != nil {
bip100_voting[string(res)]++
nimer, _ := common.TxMiner(cbasetx)
fmt.Println(" block", end.Height, "by", nimer, "voting", string(res), " total:", bip100_voting[string(res)])
}
end = end.Parent
}
if tot_blocks == 0 {
fmt.Println("There are no blocks from the last", hrs, "hour(s)")
return
}
diff /= float64(tot_blocks)
common.LockCfg()
if common.CFG.Beeps.MinerID != "" {
fmt.Printf("%.8f BTC mined by %s, in %d blocks for the last %d hours\n",
float64(totbtc)/1e8, common.CFG.Beeps.MinerID, cnt, hrs)
}
common.UnlockCfg()
if cnt > 0 {
fmt.Printf("Projected weekly income : %.0f BTC, estimated hashrate : %s\n",
7*24*float64(totbtc)/float64(hrs)/1e8,
common.HashrateToString(float64(cnt)/float64(6*hrs)*diff*7158278.826667))
}
bph := float64(tot_blocks) / float64(hrs)
fmt.Printf("Total network hashrate : %s @ average diff %.0f (%.2f bph)\n",
common.HashrateToString(bph/6*diff*7158278.826667), diff, bph)
fmt.Printf("Average block size was %.1f KB, next difficulty change in %d blocks\n",
float64(tot_blocks_len/tot_blocks)/1e3, 2016-bte.Height%2016)
}
func json_blocks(w http.ResponseWriter, r *http.Request) {
if !ipchecker(r) {
return
}
type one_block struct {
Height uint32
Timestamp uint32
Hash string
TxCnt int
Size int
Version uint32
Reward uint64
Miner string
FeeSPB float64
Received uint32
TimePre, TimeDl, TimeVer, TimeQue int
WasteCnt uint
MissedCnt int
FromConID uint32
Sigops int
MinFeeKSPB uint64
NonWitnessSize int
}
var blks []*one_block
common.Last.Mutex.Lock()
end := common.Last.Block
common.Last.Mutex.Unlock()
for cnt := uint32(0); end != nil && cnt < atomic.LoadUint32(&common.CFG.WebUI.ShowBlocks); cnt++ {
bl, _, e := common.BlockChain.Blocks.BlockGet(end.BlockHash)
if e != nil {
return
}
block, e := btc.NewBlock(bl)
if e != nil {
return
}
b := new(one_block)
b.Height = end.Height
b.Timestamp = block.BlockTime()
b.Hash = end.BlockHash.String()
b.TxCnt = block.TxCount
b.Size = len(bl)
b.Version = block.Version()
cbasetx, cbaselen := btc.NewTx(bl[block.TxOffset:])
for o := range cbasetx.TxOut {
b.Reward += cbasetx.TxOut[o].Value
}
b.Miner, _ = common.TxMiner(cbasetx)
if len(bl)-block.TxOffset-cbaselen != 0 {
b.FeeSPB = float64(b.Reward-btc.GetBlockReward(end.Height)) / float64(len(bl)-block.TxOffset-cbaselen)
}
common.BlockChain.BlockIndexAccess.Lock()
node := common.BlockChain.BlockIndex[end.BlockHash.BIdx()]
common.BlockChain.BlockIndexAccess.Unlock()
network.MutexRcv.Lock()
rb := network.ReceivedBlocks[end.BlockHash.BIdx()]
network.MutexRcv.Unlock()
b.Received = uint32(rb.TmStart.Unix())
b.Sigops = int(node.SigopsCost)
if rb.TmPreproc.IsZero() {
b.TimePre = -1
} else {
b.TimePre = int(rb.TmPreproc.Sub(rb.TmStart) / time.Millisecond)
}
if rb.TmDownload.IsZero() {
b.TimeDl = -1
} else {
b.TimeDl = int(rb.TmDownload.Sub(rb.TmStart) / time.Millisecond)
}
if rb.TmQueue.IsZero() {
b.TimeQue = -1
} else {
b.TimeQue = int(rb.TmQueue.Sub(rb.TmStart) / time.Millisecond)
}
if rb.TmAccepted.IsZero() {
b.TimeVer = -1
} else {
b.TimeVer = int(rb.TmAccepted.Sub(rb.TmStart) / time.Millisecond)
}
b.WasteCnt = rb.Cnt
b.MissedCnt = rb.TxMissing
b.FromConID = rb.FromConID
b.MinFeeKSPB = rb.MinFeeKSPB
b.NonWitnessSize = rb.NonWitnessSize
blks = append(blks, b)
end = end.Parent
}
bx, er := json.Marshal(blks)
if er == nil {
w.Header()["Content-Type"] = []string{"application/json"}
w.Write(bx)
} else {
println(er.Error())
}
}
func (c *OneConnection) ProcessGetData(pl []byte) {
var notfound []byte
//println(c.PeerAddr.Ip(), "getdata")
b := bytes.NewReader(pl)
cnt, e := btc.ReadVLen(b)
if e != nil {
println("ProcessGetData:", e.Error(), c.PeerAddr.Ip())
return
}
for i := 0; i < int(cnt); i++ {
var typ uint32
var h [36]byte
n, _ := b.Read(h[:])
if n != 36 {
println("ProcessGetData: pl too short", c.PeerAddr.Ip())
return
}
typ = binary.LittleEndian.Uint32(h[:4])
c.Mutex.Lock()
c.InvStore(typ, h[4:36])
c.Mutex.Unlock()
common.CountSafe(fmt.Sprintf("GetdataType-%x", typ))
if typ == MSG_BLOCK || typ == MSG_WITNESS_BLOCK {
crec, _, er := common.BlockChain.Blocks.BlockGetExt(btc.NewUint256(h[4:]))
//bl, _, er := common.BlockChain.Blocks.BlockGet(btc.NewUint256(h[4:]))
if er == nil {
bl := crec.Data
if typ == MSG_BLOCK {
// remove witness data from the block
if crec.Block == nil {
crec.Block, _ = btc.NewBlock(bl)
}
if crec.Block.OldData == nil {
crec.Block.BuildTxList()
}
//println("block size", len(crec.Data), "->", len(bl))
bl = crec.Block.OldData
}
c.SendRawMsg("block", bl)
} else {
notfound = append(notfound, h[:]...)
}
} else if typ == MSG_TX || typ == MSG_WITNESS_TX {
// transaction
TxMutex.Lock()
if tx, ok := TransactionsToSend[btc.NewUint256(h[4:]).BIdx()]; ok && tx.Blocked == 0 {
tx.SentCnt++
tx.Lastsent = time.Now()
TxMutex.Unlock()
if tx.SegWit == nil || typ == MSG_WITNESS_TX {
c.SendRawMsg("tx", tx.Data)
} else {
c.SendRawMsg("tx", tx.Serialize())
}
} else {
TxMutex.Unlock()
notfound = append(notfound, h[:]...)
}
} else if typ == MSG_CMPCT_BLOCK {
c.SendCmpctBlk(btc.NewUint256(h[4:]))
} else {
if common.DebugLevel > 0 {
println("getdata for type", typ, "not supported yet")
}
if typ > 0 && typ <= 3 /*3 is a filtered block(we dont support it)*/ {
notfound = append(notfound, h[:]...)
}
}
}
if len(notfound) > 0 {
buf := new(bytes.Buffer)
btc.WriteVlen(buf, uint64(len(notfound)/36))
buf.Write(notfound)
c.SendRawMsg("notfound", buf.Bytes())
}
}
func p_blocks(w http.ResponseWriter, r *http.Request) {
if !ipchecker(r) {
return
}
blks := load_template("blocks.html")
onerow := load_template("blocks_row.html")
common.Last.Mutex.Lock()
end := common.Last.Block
common.Last.Mutex.Unlock()
for cnt := uint32(0); end != nil && cnt < atomic.LoadUint32(&common.CFG.WebUI.ShowBlocks); cnt++ {
bl, _, e := common.BlockChain.Blocks.BlockGet(end.BlockHash)
if e != nil {
return
}
block, e := btc.NewBlock(bl)
if e != nil {
return
}
cbasetx, _ := btc.NewTx(bl[block.TxOffset:])
s := onerow
s = strings.Replace(s, "{BLOCK_NUMBER}", fmt.Sprint(end.Height), 1)
s = strings.Replace(s, "{BLOCK_TIMESTAMP}",
time.Unix(int64(block.BlockTime()), 0).Format("Mon 15:04:05"), 1)
s = strings.Replace(s, "{BLOCK_HASH}", end.BlockHash.String(), 1)
s = strings.Replace(s, "{BLOCK_TXS}", fmt.Sprint(block.TxCount), 1)
s = strings.Replace(s, "{BLOCK_SIZE}", fmt.Sprintf("%.1f", float64(len(bl))/1000), 1)
var rew uint64
for o := range cbasetx.TxOut {
rew += cbasetx.TxOut[o].Value
}
s = strings.Replace(s, "<!--BLOCK_VERSION-->", fmt.Sprint(block.Version()), 1)
s = strings.Replace(s, "{BLOCK_REWARD}", fmt.Sprintf("%.2f", float64(rew)/1e8), 1)
mi, _ := common.TxMiner(cbasetx)
if len(mi) > 10 {
mi = mi[:10]
}
s = strings.Replace(s, "{BLOCK_MINER}", mi, 1)
network.MutexRcv.Lock()
rb := network.ReceivedBlocks[end.BlockHash.BIdx()]
network.MutexRcv.Unlock()
if rb.TmDownload != 0 {
s = strings.Replace(s, "{TIME_TO_DOWNLOAD}", fmt.Sprint(int(rb.TmDownload/time.Millisecond)), 1)
} else {
s = strings.Replace(s, "{TIME_TO_DOWNLOAD}", "", 1)
}
if rb.TmAccept != 0 {
s = strings.Replace(s, "{TIME_TO_ACCEPT}", fmt.Sprint(int(rb.TmAccept/time.Millisecond)), 1)
} else {
s = strings.Replace(s, "{TIME_TO_ACCEPT}", "", 1)
}
if rb.Cnt != 0 {
s = strings.Replace(s, "{WASTED_BLOCKS}", fmt.Sprint(rb.Cnt), 1)
} else {
s = strings.Replace(s, "{WASTED_BLOCKS}", "", 1)
}
s = strings.Replace(s, "{TIME_RECEIVED}", rb.Time.Format("15:04:05"), 1)
blks = templ_add(blks, "<!--BLOCK_ROW-->", s)
end = end.Parent
}
write_html_head(w, r)
w.Write([]byte(blks))
write_html_tail(w)
}
func (c *one_net_conn) block(d []byte) {
atomic.AddUint64(&DlBytesDownloaded, uint64(len(d)))
BlocksMutex.Lock()
defer BlocksMutex.Unlock()
h := btc.NewSha2Hash(d[:80])
c.Lock()
c.last_blk_rcvd = time.Now()
c.Unlock()
bip := BlocksInProgress[h.Hash]
if bip == nil || !bip.Conns[c.id] {
COUNTER("BNOT")
//fmt.Println(h.String(), "- already received", bip)
return
}
//fmt.Println(h.String(), "- new", bip.Height)
COUNTER("BYES")
delete(bip.Conns, c.id)
c.Lock()
c.inprogress--
c.Unlock()
blocksize_update(len(d))
bl, er := btc.NewBlock(d)
if er != nil {
fmt.Println(c.Ip(), "-", er.Error())
c.setbroken(true)
return
}
bl.BuildTxList()
if !bytes.Equal(btc.GetMerkel(bl.Txs), bl.MerkleRoot()) {
fmt.Println(c.Ip(), " - MerkleRoot mismatch at block", bip.Height)
c.setbroken(true)
return
}
delete(BlocksToGet, bip.Height)
delete(BlocksInProgress, h.Hash)
if len(BlocksInProgress) == 0 {
EmptyInProgressCnt++
}
//println("got-", bip.Height, BlocksComplete+1)
if BlocksComplete+1 == bip.Height {
BlocksComplete++
BlockQueue <- bl
for {
bl = BlocksCached[BlocksComplete+1]
if bl == nil {
break
}
BlocksComplete++
delete(BlocksCached, BlocksComplete)
BlocksCachedSize -= uint64(len(bl.Raw))
BlockQueue <- bl
}
} else {
BlocksCached[bip.Height] = bl
BlocksCachedSize += uint64(len(d))
}
}
func p_miners(w http.ResponseWriter, r *http.Request) {
if !ipchecker(r) {
return
}
common.ReloadMiners()
m := make(map[string]omv, 20)
var om omv
cnt := 0
common.Last.Mutex.Lock()
end := common.Last.Block
common.Last.Mutex.Unlock()
var lastts int64
var diff float64
var totbts uint64
var totfees uint64
current_mid := -1
now := time.Now().Unix()
common.LockCfg()
minerid := common.CFG.Beeps.MinerID
common.UnlockCfg()
next_diff_change := 2016 - end.Height%2016
block_versions := make(map[uint32]uint)
// bip100
bip100_voting := make(map[string]uint)
//var bip100, bip100v uint64
bip100x := regexp.MustCompile("/BV{0,1}[0-9]+[M]{0,1}/")
//bip100rx := regexp.MustCompile("/B[0-9]+[M]{0,1}/")
for ; end != nil; cnt++ {
if now-int64(end.Timestamp()) > int64(common.CFG.MiningStatHours)*3600 {
break
}
lastts = int64(end.Timestamp())
bl, _, e := common.BlockChain.Blocks.BlockGet(end.BlockHash)
if e != nil {
return
}
block, e := btc.NewBlock(bl)
cbasetx, _ := btc.NewTx(bl[block.TxOffset:])
block_versions[binary.LittleEndian.Uint32(bl[0:4])]++
diff += btc.GetDifficulty(end.Bits())
miner, mid := common.TxMiner(cbasetx)
if mid == -1 {
miner = "<i>" + miner + "</i>"
}
om = m[miner]
om.cnt++
om.bts += uint64(len(bl))
om.mid = mid
// Blocks reward
var rew uint64
for o := range cbasetx.TxOut {
rew += cbasetx.TxOut[o].Value
}
om.fees += rew - btc.GetBlockReward(end.Height)
// bip-100
res := bip100x.Find(cbasetx.TxIn[0].ScriptSig)
if res != nil {
bip100_voting[string(res)]++
}
m[miner] = om
if mid != -1 && current_mid == -1 && minerid == string(common.MinerIds[mid].Tag) {
current_mid = mid
}
totbts += uint64(len(bl))
end = end.Parent
}
if cnt == 0 {
write_html_head(w, r)
w.Write([]byte(fmt.Sprint("No blocks in last ", common.CFG.MiningStatHours, " hours")))
write_html_tail(w)
return
}
srt := make(onemiernstat, len(m))
i := 0
for k, v := range m {
srt[i].name = k
srt[i].omv = v
i++
}
sort.Sort(srt)
mnrs := load_template("miners.html")
onerow := load_template("miners_row.html")
diff /= float64(cnt)
bph := float64(cnt) / float64(common.CFG.MiningStatHours)
hrate := bph / 6 * diff * 7158278.826667
mnrs = strings.Replace(mnrs, "{MINING_HOURS}", fmt.Sprint(common.CFG.MiningStatHours), 1)
mnrs = strings.Replace(mnrs, "{BLOCKS_COUNT}", fmt.Sprint(cnt), 1)
mnrs = strings.Replace(mnrs, "{FIRST_BLOCK_TIME}", time.Unix(lastts, 0).Format("2006-01-02 15:04:05"), 1)
mnrs = strings.Replace(mnrs, "{AVG_BLOCKS_PER_HOUR}", fmt.Sprintf("%.2f", bph), 1)
mnrs = strings.Replace(mnrs, "{AVG_DIFFICULTY}", common.NumberToString(diff), 1)
mnrs = strings.Replace(mnrs, "{AVG_HASHDATE}", common.HashrateToString(hrate), 1)
mnrs = strings.Replace(mnrs, "{AVG_BLOCKSIZE}", fmt.Sprintf("%.1fKB", float64(totbts)/float64(cnt)/1000), 1)
mnrs = strings.Replace(mnrs, "{DIFF_CHANGE_IN}", fmt.Sprint(next_diff_change), 1)
mnrs = strings.Replace(mnrs, "{MINER_MON_IDX}", fmt.Sprint(current_mid), 1)
for i := range srt {
s := onerow
s = strings.Replace(s, "{MINER_NAME}", srt[i].name, 1)
s = strings.Replace(s, "{BLOCK_COUNT}", fmt.Sprint(srt[i].cnt), 1)
s = strings.Replace(s, "{TOTAL_PERCENT}", fmt.Sprintf("%.0f", 100*float64(srt[i].cnt)/float64(cnt)), 1)
s = strings.Replace(s, "{MINER_HASHRATE}", common.HashrateToString(hrate*float64(srt[i].cnt)/float64(cnt)), 1)
s = strings.Replace(s, "{AVG_BLOCK_SIZE}", fmt.Sprintf("%.1fKB", float64(srt[i].bts)/float64(srt[i].cnt)/1000), 1)
s = strings.Replace(s, "{MINER_ID}", fmt.Sprint(srt[i].mid), -1)
s = strings.Replace(s, "<!--TOTAL_FEES-->", btc.UintToBtc(srt[i].fees), -1)
s = strings.Replace(s, "<!--FEE_PER_BYTE-->", fmt.Sprint(srt[i].fees/srt[i].bts), -1)
mnrs = templ_add(mnrs, "<!--MINER_ROW-->", s)
totfees += srt[i].fees
}
mnrs = strings.Replace(mnrs, "<!--TOTAL_MINING_FEES-->", btc.UintToBtc(totfees), 1)
mnrs = strings.Replace(mnrs, "<!--AVERAGE_FEE_PER_BYTE-->", fmt.Sprint(totfees/totbts), 1)
var bv string
for k, v := range block_versions {
if bv != "" {
bv += ", "
}
bv += fmt.Sprintf("%d (%d%%) x <b>v%d</b>", v, 100*int(v)/cnt, k)
}
mnrs = strings.Replace(mnrs, "<!--BLOCK_VERSIONS-->", bv, 1)
// bip100
bv = ""
for k, v := range bip100_voting {
if bv != "" {
bv += " + "
}
bv += fmt.Sprintf("%sx%d", k, v)
}
mnrs = strings.Replace(mnrs, "<!--BLOCKSIZE_VOTES-->", bv, 1)
write_html_head(w, r)
w.Write([]byte(mnrs))
write_html_tail(w)
}
func SubmitBlock(cmd *RpcCommand, resp *RpcResponse, b []byte) {
var bd []byte
var er error
switch uu := cmd.Params.(type) {
case []interface{}:
if len(uu) < 1 {
resp.Error = RpcError{Code: -1, Message: "empty params array"}
return
}
bd, er = hex.DecodeString(uu[0].(string))
if er != nil {
resp.Error = RpcError{Code: -3, Message: er.Error()}
return
}
default:
resp.Error = RpcError{Code: -2, Message: "incorrect params type"}
return
}
bs := new(BlockSubmited)
bs.Block, er = btc.NewBlock(bd)
if er != nil {
resp.Error = RpcError{Code: -4, Message: er.Error()}
return
}
network.MutexRcv.Lock()
network.ReceivedBlocks[bs.Block.Hash.BIdx()] = &network.OneReceivedBlock{TmStart: time.Now()}
network.MutexRcv.Unlock()
println("new block", bs.Block.Hash.String(), "len", len(bd), "- submitting...")
bs.Done.Add(1)
RpcBlocks <- bs
bs.Done.Wait()
if bs.Error != "" {
//resp.Error = RpcError{Code: -10, Message: bs.Error}
idx := strings.Index(bs.Error, "- RPC_Result:")
if idx == -1 {
resp.Result = "inconclusive"
} else {
resp.Result = bs.Error[idx+13:]
}
println("submiting block error:", bs.Error)
println("submiting block result:", resp.Result.(string))
print("time_now:", time.Now().Unix())
print(" cur_block_ts:", bs.Block.BlockTime())
print(" last_given_now:", last_given_time)
print(" last_given_min:", last_given_mintime)
common.Last.Mutex.Lock()
print(" prev_block_ts:", common.Last.Block.Timestamp())
common.Last.Mutex.Unlock()
println()
return
}
// cress check with bitcoind...
if false {
bitcoind_result := process_rpc(b)
json.Unmarshal(bitcoind_result, &resp)
switch cmd.Params.(type) {
case string:
println("\007Block rejected by bitcoind:", resp.Result.(string))
ioutil.WriteFile(fmt.Sprint(bs.Block.Height, "-", bs.Block.Hash.String()), bd, 0777)
default:
println("submiting block verified OK", bs.Error)
}
}
}
func do_mining(s string) {
var totbtc, hrs uint64
if s != "" {
hrs, _ = strconv.ParseUint(s, 10, 64)
}
if hrs == 0 {
hrs = uint64(common.CFG.MiningStatHours)
}
fmt.Println("Looking back", hrs, "hours...")
lim := uint32(time.Now().Add(-time.Hour * time.Duration(hrs)).Unix())
common.Last.Mutex.Lock()
bte := common.Last.Block
end := bte
common.Last.Mutex.Unlock()
cnt, diff := 0, float64(0)
tot_blocks, tot_blocks_len := 0, 0
for end.Timestamp() >= lim {
bl, _, e := common.BlockChain.Blocks.BlockGet(end.BlockHash)
if e != nil {
println(cnt, e.Error())
return
}
block, e := btc.NewBlock(bl)
if e != nil {
println("btc.NewBlock failed", e.Error())
return
}
tot_blocks++
tot_blocks_len += len(bl)
diff += btc.GetDifficulty(block.Bits())
if common.MinedByUs(bl) {
block.BuildTxList()
totbtc += block.Txs[0].TxOut[0].Value
cnt++
fmt.Printf("%4d) %6d %s %s %5.2f => %5.2f BTC total, %d txs, %.1f KB\n",
cnt, end.Height, end.BlockHash.String(),
time.Unix(int64(end.Timestamp()), 0).Format("2006-01-02 15:04:05"),
float64(block.Txs[0].TxOut[0].Value)/1e8, float64(totbtc)/1e8,
len(block.Txs), float64(len(bl))/1e3)
}
end = end.Parent
}
if tot_blocks == 0 {
fmt.Println("There are no blocks from the last", hrs, "hour(s)")
return
}
diff /= float64(tot_blocks)
common.LockCfg()
if common.CFG.Beeps.MinerID != "" {
fmt.Printf("%.8f BTC mined by %s, in %d blocks for the last %d hours\n",
float64(totbtc)/1e8, common.CFG.Beeps.MinerID, cnt, hrs)
}
common.UnlockCfg()
if cnt > 0 {
fmt.Printf("Projected weekly income : %.0f BTC, estimated hashrate : %s\n",
7*24*float64(totbtc)/float64(hrs)/1e8,
common.HashrateToString(float64(cnt)/float64(6*hrs)*diff*7158278.826667))
}
bph := float64(tot_blocks) / float64(hrs)
fmt.Printf("Total network hashrate : %s @ average diff %.0f (%.2f bph)\n",
common.HashrateToString(bph/6*diff*7158278.826667), diff, bph)
fmt.Printf("Average block size was %.1f KB, next difficulty change in %d blocks\n",
float64(tot_blocks_len/tot_blocks)/1e3, 2016-bte.Height%2016)
}
func import_blockchain(dir string) {
BlockDatabase := blockdb.NewBlockDB(dir, Magic)
chain := chain.NewChain(GocoinHomeDir, GenesisBlock, false)
var bl *btc.Block
var er error
var dat []byte
var totbytes, perbytes uint64
chain.DoNotSync = true
fmt.Println("Be patient while importing Satoshi's database... ")
start := time.Now().UnixNano()
prv := start
for {
now := time.Now().UnixNano()
if now-prv >= 10e9 {
stat(now-start, now-prv, totbytes, perbytes, chain.BlockTreeEnd.Height)
prv = now // show progress each 10 seconds
perbytes = 0
}
dat, er = BlockDatabase.FetchNextBlock()
if dat == nil || er != nil {
println("END of DB file")
break
}
bl, er = btc.NewBlock(dat[:])
if er != nil {
println("Block inconsistent:", er.Error())
break
}
bl.Trusted = Trust
er, _, _ = chain.CheckBlock(bl)
if er != nil {
if er.Error() != "Genesis" {
println("CheckBlock failed:", er.Error())
os.Exit(1) // Such a thing should not happen, so let's better abort here.
}
continue
}
er = chain.AcceptBlock(bl)
if er != nil {
println("AcceptBlock failed:", er.Error())
os.Exit(1) // Such a thing should not happen, so let's better abort here.
}
totbytes += uint64(len(bl.Raw))
perbytes += uint64(len(bl.Raw))
}
stop := time.Now().UnixNano()
stat(stop-start, stop-prv, totbytes, perbytes, chain.BlockTreeEnd.Height)
fmt.Println("Satoshi's database import finished in", (stop-start)/1e9, "seconds")
fmt.Println("Now saving the new database...")
chain.Save()
chain.Close()
fmt.Println("Database saved. No more imports should be needed.")
}
func json_blocks(w http.ResponseWriter, r *http.Request) {
if !ipchecker(r) {
return
}
type one_block struct {
Height uint32
Timestamp uint32
Hash string
TxCnt int
Size int
Version uint32
Reward uint64
Miner string
Received uint32
TimeDl, TimeVer int
WasteCnt uint
}
var blks []*one_block
common.Last.Mutex.Lock()
end := common.Last.Block
common.Last.Mutex.Unlock()
for cnt := uint32(0); end != nil && cnt < atomic.LoadUint32(&common.CFG.WebUI.ShowBlocks); cnt++ {
bl, _, e := common.BlockChain.Blocks.BlockGet(end.BlockHash)
if e != nil {
return
}
block, e := btc.NewBlock(bl)
if e != nil {
return
}
b := new(one_block)
b.Height = end.Height
b.Timestamp = block.BlockTime()
b.Hash = end.BlockHash.String()
b.TxCnt = block.TxCount
b.Size = len(bl)
b.Version = block.Version()
cbasetx, _ := btc.NewTx(bl[block.TxOffset:])
for o := range cbasetx.TxOut {
b.Reward += cbasetx.TxOut[o].Value
}
b.Miner, _ = common.TxMiner(cbasetx)
network.MutexRcv.Lock()
rb := network.ReceivedBlocks[end.BlockHash.BIdx()]
network.MutexRcv.Unlock()
b.Received = uint32(rb.Time.Unix())
if rb.TmDownload != 0 {
b.TimeDl = int(rb.TmDownload / time.Millisecond)
} else {
b.TimeDl = -1
}
if rb.TmAccept != 0 {
b.TimeVer = int(rb.TmAccept / time.Millisecond)
} else {
b.TimeVer = -1
}
b.WasteCnt = rb.Cnt
blks = append(blks, b)
end = end.Parent
}
bx, er := json.Marshal(blks)
if er == nil {
w.Header()["Content-Type"] = []string{"application/json"}
w.Write(bx)
} else {
println(er.Error())
}
}