import deserialize
import ast, time, threading, hashlib
from Queue import Queue
+import traceback, sys, os, random
-def rev_hex(s):
- return s.decode('hex')[::-1].encode('hex')
-
-
-def int_to_hex(i, length=1):
- s = hex(i)[2:].rstrip('L')
- s = "0"*(2*length - len(s)) + s
- return rev_hex(s)
-
-
+from util import Hash, hash_encode, hash_decode, rev_hex, int_to_hex
+from util import bc_address_to_hash_160, hash_160_to_bc_address, header_to_string, header_from_string
from processor import Processor, print_log
+class BlockchainProcessor(Processor):
-class Blockchain2Processor(Processor):
-
- def __init__(self, config):
+ def __init__(self, config, shared):
Processor.__init__(self)
+ self.shared = shared
+ self.up_to_date = False
self.watched_addresses = []
self.history_cache = {}
self.chunk_cache = {}
self.cache_lock = threading.Lock()
+ self.headers_data = ''
+ self.mempool_addresses = {}
self.mempool_hist = {}
- self.known_mempool_hashes = []
+ self.mempool_hashes = []
+ self.mempool_lock = threading.Lock()
+
self.address_queue = Queue()
+ self.dbpath = config.get('leveldb', 'path')
self.dblock = threading.Lock()
try:
- self.db = leveldb.LevelDB(config.get('leveldb', 'path'))
+ self.db = leveldb.LevelDB(self.dbpath)
except:
traceback.print_exc(file=sys.stdout)
self.shared.stop()
config.get('bitcoind','port'))
self.height = 0
+ self.is_test = False
self.sent_height = 0
self.sent_header = None
- # catch_up first
+
try:
- hist = self.deserialize(self.db.Get('0'))
- hh, self.height = hist[0]
- self.block_hashes = [hh]
+ hist = self.deserialize(self.db.Get('height'))
+ self.last_hash, self.height, _ = hist[0]
print_log( "hist", hist )
except:
- traceback.print_exc(file=sys.stdout)
+ #traceback.print_exc(file=sys.stdout)
+ print_log('initializing database')
self.height = 0
- self.block_hashes = [ '000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f' ]
+ self.last_hash = '000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f'
+
+ # catch_up headers
+ self.init_headers(self.height)
+
+ threading.Timer(0, lambda: self.catch_up(sync=False)).start()
+ while not shared.stopped() and not self.up_to_date:
+ try:
+ time.sleep(1)
+ except:
+ print "keyboard interrupt: stopping threads"
+ shared.stop()
+ sys.exit(0)
+
+ print_log( "blockchain is up to date." )
threading.Timer(10, self.main_iteration).start()
+
def bitcoind(self, method, params=[]):
postdata = dumps({"method": method, 'params': params, 'id':'jsonrpc'})
respdata = urllib.urlopen(self.bitcoind_url, postdata).read()
def serialize(self, h):
s = ''
- for txid, height in h:
- s += txid + int_to_hex(height, 4)
+ for txid, txpos, height in h:
+ s += txid + int_to_hex(txpos, 4) + int_to_hex(height, 4)
return s.decode('hex')
+
def deserialize(self, s):
h = []
while s:
txid = s[0:32].encode('hex')
- height = s[32:36].encode('hex')
- height = int( rev_hex( height ), 16 )
- h.append( ( txid, height ) )
- s = s[36:]
+ txpos = int( rev_hex( s[32:36].encode('hex') ), 16 )
+ height = int( rev_hex( s[36:40].encode('hex') ), 16 )
+ h.append( ( txid, txpos, height ) )
+ s = s[40:]
return h
def block2header(self, b):
return {"block_height":b.get('height'), "version":b.get('version'), "prev_block_hash":b.get('previousblockhash'),
- "merkle_root":b.get('merkleroot'), "timestamp":b.get('time'), "bits":b.get('bits'), "nonce":b.get('nonce')}
+ "merkle_root":b.get('merkleroot'), "timestamp":b.get('time'), "bits":int(b.get('bits'),16), "nonce":b.get('nonce')}
+
def get_header(self, height):
block_hash = self.bitcoind('getblockhash', [height])
return self.block2header(b)
- def get_chunk(self):
+ def init_headers(self, db_height):
+ self.chunk_cache = {}
+ self.headers_filename = os.path.join( self.dbpath, 'blockchain_headers')
+
+ if os.path.exists(self.headers_filename):
+ height = os.path.getsize(self.headers_filename)/80 - 1 # the current height
+ if height > 0:
+ prev_hash = self.hash_header(self.read_header(height))
+ else:
+ prev_hash = None
+ else:
+ open(self.headers_filename,'wb').close()
+ prev_hash = None
+ height = -1
+
+ if height < db_height:
+ print_log( "catching up missing headers:", height, db_height)
+
+ try:
+ while height < db_height:
+ height = height + 1
+ header = self.get_header(height)
+ if height>1:
+ assert prev_hash == header.get('prev_block_hash')
+ self.write_header(header, sync=False)
+ prev_hash = self.hash_header(header)
+ if height%1000==0: print_log("headers file:",height)
+ except KeyboardInterrupt:
+ self.flush_headers()
+ sys.exit()
+
+ self.flush_headers()
+
+
+ def hash_header(self, header):
+ return rev_hex(Hash(header_to_string(header).decode('hex')).encode('hex'))
+
+
+ def read_header(self, block_height):
+ if os.path.exists(self.headers_filename):
+ f = open(self.headers_filename,'rb')
+ f.seek(block_height*80)
+ h = f.read(80)
+ f.close()
+ if len(h) == 80:
+ h = header_from_string(h)
+ return h
+
+
+ def read_chunk(self, index):
+ f = open(self.headers_filename,'rb')
+ f.seek(index*2016*80)
+ chunk = f.read(2016*80)
+ f.close()
+ return chunk.encode('hex')
+
+
+ def write_header(self, header, sync=True):
+ if not self.headers_data:
+ self.headers_offset = header.get('block_height')
+
+ self.headers_data += header_to_string(header).decode('hex')
+ if sync or len(self.headers_data) > 40*100:
+ self.flush_headers()
+
+ def pop_header(self):
+ # we need to do this only if we have not flushed
+ if self.headers_data:
+ self.headers_data = self.headers_data[:-40]
+
+ def flush_headers(self):
+ if not self.headers_data: return
+ f = open(self.headers_filename,'rb+')
+ f.seek(self.headers_offset*80)
+ f.write(self.headers_data)
+ f.close()
+ self.headers_data = ''
+
+
+ def get_chunk(self, i):
# store them on disk; store the current chunk in memory
- pass
+ chunk = self.chunk_cache.get(i)
+ if not chunk:
+ chunk = self.read_chunk(i)
+ self.chunk_cache[i] = chunk
+ return chunk
- def get_transaction(self, txid, block_height=-1):
+ def get_transaction(self, txid, block_height=-1, is_coinbase = False):
raw_tx = self.bitcoind('getrawtransaction', [txid, 0, block_height])
vds = deserialize.BCDataStream()
vds.write(raw_tx.decode('hex'))
- return deserialize.parse_Transaction(vds)
+ out = deserialize.parse_Transaction(vds, is_coinbase)
+ return out
def get_history(self, addr, cache_only=False):
with self.dblock:
try:
- hist = self.deserialize(self.db.Get(addr))
+ hash_160 = bc_address_to_hash_160(addr)
+ hist = self.deserialize(self.db.Get(hash_160))
+ is_known = True
except:
hist = []
+ is_known = False
# should not be necessary
hist.sort( key=lambda tup: tup[1])
# check uniqueness too...
# add memory pool
- for txid in self.mempool_hist.get(addr,[]):
- hist.append((txid, 0))
+ with self.mempool_lock:
+ for txid in self.mempool_hist.get(addr,[]):
+ hist.append((txid, 0, 0))
+
+ hist = map(lambda x: {'tx_hash':x[0], 'height':x[2]}, hist)
+ # add something to distinguish between unused and empty addresses
+ if hist == [] and is_known: hist = ['*']
- hist = map(lambda x: {'tx_hash':x[0], 'height':x[1]}, hist)
with self.cache_lock: self.history_cache[addr] = hist
return hist
if cache_only and tx_points == -1: return -1
if not tx_points: return None
+ if tx_points == ['*']: return '*'
status = ''
for tx in tx_points:
status += tx.get('tx_hash') + ':%d:' % tx.get('height')
return hashlib.sha256( status ).digest().encode('hex')
- def get_merkle(self, target_hash, height):
+ def get_merkle(self, tx_hash, height):
block_hash = self.bitcoind('getblockhash', [height])
b = self.bitcoind('getblock', [block_hash])
- merkle = b.get('tx')
-
+ tx_list = b.get('tx')
+ tx_pos = tx_list.index(tx_hash)
+
+ merkle = map(hash_decode, tx_list)
+ target_hash = hash_decode(tx_hash)
s = []
while len(merkle) != 1:
if len(merkle)%2: merkle.append( merkle[-1] )
while merkle:
new_hash = Hash( merkle[0] + merkle[1] )
if merkle[0] == target_hash:
- s.append( merkle[1])
+ s.append( hash_encode( merkle[1]))
target_hash = new_hash
elif merkle[1] == target_hash:
- s.append( merkle[0])
+ s.append( hash_encode( merkle[0]))
target_hash = new_hash
n.append( new_hash )
merkle = merkle[2:]
- def import_block(self, block, block_hash, block_height):
- #print "importing block", block_hash, block_height
+ def add_to_history(self, addr, tx_hash, tx_pos, tx_height):
- txlist = block.get('tx')
- batch_list = {}
+ # keep it sorted
+ s = (tx_hash + int_to_hex(tx_pos, 4) + int_to_hex(tx_height, 4)).decode('hex')
- for txid in txlist:
- tx = self.get_transaction(txid, block_height)
- for x in tx.get('inputs') + tx.get('outputs'):
- addr = x.get('address')
- serialized_hist = batch_list.get(addr)
- if serialized_hist is None:
- try:
- serialized_hist = self.db.Get(addr)
- except:
- serialized_hist = ''
-
- s = (txid + int_to_hex(block_height, 4)).decode('hex')
-
- found = False
- for i in range(len(serialized_hist)/36):
- item = serialized_hist[-36*(1+i):]
- item = item[0:36]
-
- h = int( rev_hex( item[32:36].encode('hex') ), 16 )
- if h > block_height:
- txhash = item[0:32].encode('hex')
- print_log('warning: non-chronological order at', addr, (txhash, h), (txid, block_height))
- hist = self.deserialize(serialized_hist)
- print_log(hist)
- hist.sort( key=lambda tup: tup[1])
- while hist:
- last = hist[-1]
- if last[1] > block_height:
- hist = hist[0:-1]
- else:
- break
- found = (txhash, h) in hist
- print_log('new sorted hist', hist, found)
- serialized_hist = self.serialize(hist)
- break
- elif h < block_height:
- break
- elif item == s:
- found = True
- break
-
- if not found:
- serialized_hist += s
-
- batch_list[addr] = serialized_hist
-
- # batch write
- batch = leveldb.WriteBatch()
- for addr, hist in batch_list.items():
- batch.Put(addr, serialized_hist)
- batch.Put('0', self.serialize( [(block_hash, block_height)] ) )
- self.db.Write(batch, sync = True)
+ serialized_hist = self.batch_list[addr]
+
+ l = len(serialized_hist)/40
+ for i in range(l-1, -1, -1):
+ item = serialized_hist[40*i:40*(i+1)]
+ item_height = int( rev_hex( item[36:40].encode('hex') ), 16 )
+ if item_height < tx_height:
+ serialized_hist = serialized_hist[0:40*(i+1)] + s + serialized_hist[40*(i+1):]
+ break
+ else:
+ serialized_hist = s + serialized_hist
+
+ self.batch_list[addr] = serialized_hist
- # invalidate cache
- for addr in batch_list.keys(): self.update_history_cache(addr)
+ # backlink
+ txo = (tx_hash + int_to_hex(tx_pos, 4)).decode('hex')
+ self.batch_txio[txo] = addr
- return len(txlist)
+ def remove_from_history(self, addr, tx_hash, tx_pos):
+
+ txi = (tx_hash + int_to_hex(tx_pos, 4)).decode('hex')
+ if addr is None:
+ try:
+ addr = self.batch_txio[txi]
+ except:
+ raise BaseException(tx_hash, tx_pos)
+
+ serialized_hist = self.batch_list[addr]
+
+ l = len(serialized_hist)/40
+ for i in range(l):
+ item = serialized_hist[40*i:40*(i+1)]
+ if item[0:36] == txi:
+ height = int( rev_hex( item[36:40].encode('hex') ), 16 )
+ serialized_hist = serialized_hist[0:40*i] + serialized_hist[40*(i+1):]
+ break
+ else:
+ hist = self.deserialize(serialized_hist)
+ raise BaseException("prevout not found", addr, hist, tx_hash, tx_pos)
- def revert_block(self, block, block_hash, block_height):
+ self.batch_list[addr] = serialized_hist
+ return height, addr
+
+ def deserialize_block(self, block):
txlist = block.get('tx')
- batch_list = {}
+ tx_hashes = [] # ordered txids
+ txdict = {} # deserialized tx
+ is_coinbase = True
+ for raw_tx in txlist:
+ tx_hash = hash_encode(Hash(raw_tx.decode('hex')))
+ tx_hashes.append(tx_hash)
+ vds = deserialize.BCDataStream()
+ vds.write(raw_tx.decode('hex'))
+ tx = deserialize.parse_Transaction(vds, is_coinbase)
+ txdict[tx_hash] = tx
+ is_coinbase = False
+ return tx_hashes, txdict
- for txid in txlist:
- tx = self.get_transaction(txid, block_height)
- for x in tx.get('inputs') + tx.get('outputs'):
+ def get_undo_info(self, height):
+ s = self.db.Get("undo%d"%(height%100))
+ return eval(s)
- addr = x.get('address')
+ def write_undo_info(self, batch, height, undo_info):
+ if self.is_test or height > self.bitcoind_height - 100:
+ batch.Put("undo%d"%(height%100), repr(undo_info))
+
+
+ def import_block(self, block, block_hash, block_height, sync, revert=False):
+
+ self.batch_list = {} # address -> history
+ self.batch_txio = {} # transaction i/o -> address
- hist = batch_list.get(addr)
- if hist is None:
- try:
- hist = self.deserialize(self.db.Get(addr))
- except:
- hist = []
+ block_inputs = []
+ block_outputs = []
+ addr_to_read = []
- if (txid, block_height) in hist:
- hist.remove( (txid, block_height) )
- else:
- print "error: txid not found during block revert", txid, block_height
+ # deserialize transactions
+ t0 = time.time()
+ tx_hashes, txdict = self.deserialize_block(block)
- batch_list[addr] = hist
+ t00 = time.time()
+
+
+ if not revert:
+ # read addresses of tx inputs
+ for tx in txdict.values():
+ for x in tx.get('inputs'):
+ txi = (x.get('prevout_hash') + int_to_hex(x.get('prevout_n'), 4)).decode('hex')
+ block_inputs.append(txi)
+
+ block_inputs.sort()
+ for txi in block_inputs:
+ try:
+ addr = self.db.Get(txi)
+ except:
+ # the input could come from the same block
+ continue
+ self.batch_txio[txi] = addr
+ addr_to_read.append(addr)
+
+ else:
+ for txid, tx in txdict.items():
+ for x in tx.get('outputs'):
+ txo = (txid + int_to_hex(x.get('index'), 4)).decode('hex')
+ block_outputs.append(txo)
+
+ # read histories of addresses
+ for txid, tx in txdict.items():
+ for x in tx.get('outputs'):
+ hash_160 = bc_address_to_hash_160(x.get('address'))
+ addr_to_read.append(hash_160)
+
+ addr_to_read.sort()
+ for addr in addr_to_read:
+ try:
+ self.batch_list[addr] = self.db.Get(addr)
+ except:
+ self.batch_list[addr] = ''
+
+
+ if revert:
+ undo_info = self.get_undo_info(block_height)
+ # print "undo", block_height, undo_info
+ else: undo_info = {}
+
+ # process
+ t1 = time.time()
+
+ if revert: tx_hashes = tx_hashes[::-1]
+ for txid in tx_hashes: # must be ordered
+ tx = txdict[txid]
+ if not revert:
+
+ undo = []
+ for x in tx.get('inputs'):
+ prevout_height, prevout_addr = self.remove_from_history( None, x.get('prevout_hash'), x.get('prevout_n'))
+ undo.append( (prevout_height, prevout_addr) )
+ undo_info[txid] = undo
+
+ for x in tx.get('outputs'):
+ hash_160 = bc_address_to_hash_160(x.get('address'))
+ self.add_to_history( hash_160, txid, x.get('index'), block_height)
+
+ else:
+ for x in tx.get('outputs'):
+ hash_160 = bc_address_to_hash_160(x.get('address'))
+ self.remove_from_history( hash_160, txid, x.get('index'))
+
+ i = 0
+ for x in tx.get('inputs'):
+ prevout_height, prevout_addr = undo_info.get(txid)[i]
+ i += 1
+
+ # read the history into batch list
+ if self.batch_list.get(prevout_addr) is None:
+ self.batch_list[prevout_addr] = self.db.Get(prevout_addr)
+
+ # re-add them to the history
+ self.add_to_history( prevout_addr, x.get('prevout_hash'), x.get('prevout_n'), prevout_height)
+ print_log( "new hist for", hash_160_to_bc_address(prevout_addr), self.deserialize(self.batch_list[prevout_addr]) )
+
+ # write
+ max_len = 0
+ max_addr = ''
+ t2 = time.time()
- # batch write
batch = leveldb.WriteBatch()
- for addr, hist in batch_list.items():
- batch.Put(addr, self.serialize(hist))
- batch.Put('0', self.serialize( [(block_hash, block_height)] ) )
- self.db.Write(batch, sync = True)
+ for addr, serialized_hist in self.batch_list.items():
+ batch.Put(addr, serialized_hist)
+ l = len(serialized_hist)
+ if l > max_len:
+ max_len = l
+ max_addr = addr
+
+ if not revert:
+ # add new created outputs
+ for txio, addr in self.batch_txio.items():
+ batch.Put(txio, addr)
+ # delete spent inputs
+ for txi in block_inputs:
+ batch.Delete(txi)
+ # add undo info
+ self.write_undo_info(batch, block_height, undo_info)
+ else:
+ # restore spent inputs
+ for txio, addr in self.batch_txio.items():
+ batch.Put(txio, addr)
+ # delete spent outputs
+ for txo in block_outputs:
+ batch.Delete(txo)
+
+
+ # add the max
+ batch.Put('height', self.serialize( [(block_hash, block_height, 0)] ) )
- # invalidate cache
- for addr in batch_list.keys(): self.update_history_cache(addr)
+ # actual write
+ self.db.Write(batch, sync = sync)
- return len(txlist)
+ t3 = time.time()
+ if t3 - t0 > 10 and not sync:
+ print_log("block", block_height,
+ "parse:%0.2f "%(t00 - t0),
+ "read:%0.2f "%(t1 - t00),
+ "proc:%.2f "%(t2-t1),
+ "write:%.2f "%(t3-t2),
+ "max:", max_len, hash_160_to_bc_address(max_addr))
+
+ for h160 in self.batch_list.keys():
+ addr = hash_160_to_bc_address(h160)
+ self.invalidate_cache(addr)
result = None
error = None
- if method == 'blockchain2.numblocks.subscribe':
+ if method == 'blockchain.numblocks.subscribe':
result = self.height
- elif method == 'blockchain2.headers.subscribe':
+ elif method == 'blockchain.headers.subscribe':
result = self.header
- elif method == 'blockchain2.address.subscribe':
+ elif method == 'blockchain.address.subscribe':
try:
address = params[0]
result = self.get_status(address, cache_only)
error = str(e) + ': ' + address
print_log( "error:", error )
- elif method == 'blockchain2.address.subscribe2':
+ elif method == 'blockchain.address.subscribe2':
try:
address = params[0]
- result = self.get_status2(address, cache_only)
+ result = self.get_status(address, cache_only)
self.watch_address(address)
except BaseException, e:
error = str(e) + ': ' + address
print_log( "error:", error )
- elif method == 'blockchain2.address.get_history':
+ elif method == 'blockchain.address.get_history2':
try:
address = params[0]
result = self.get_history( address, cache_only )
error = str(e) + ': ' + address
print_log( "error:", error )
- elif method == 'blockchain2.block.get_header':
+ elif method == 'blockchain.block.get_header':
if cache_only:
result = -1
else:
error = str(e) + ': %d'% height
print_log( "error:", error )
- elif method == 'blockchain2.block.get_chunk':
+ elif method == 'blockchain.block.get_chunk':
if cache_only:
result = -1
else:
error = str(e) + ': %d'% index
print_log( "error:", error)
- elif method == 'blockchain2.transaction.broadcast':
- txo = self.bitcoind('sendrawtransaction', params[0])
+ elif method == 'blockchain.transaction.broadcast':
+ txo = self.bitcoind('sendrawtransaction', params)
print_log( "sent tx:", txo )
result = txo
- elif method == 'blockchain2.transaction.get_merkle':
+ elif method == 'blockchain.transaction.get_merkle':
if cache_only:
result = -1
else:
error = str(e) + ': ' + tx_hash
print_log( "error:", error )
- elif method == 'blockchain2.transaction.get':
+ elif method == 'blockchain.transaction.get':
try:
tx_hash = params[0]
height = params[1]
- def last_hash(self):
- return self.block_hashes[-1]
-
-
- def catch_up(self):
+ def catch_up(self, sync = True):
t1 = time.time()
# are we done yet?
info = self.bitcoind('getinfo')
- bitcoind_height = info.get('blocks')
- bitcoind_block_hash = self.bitcoind('getblockhash', [bitcoind_height])
- if self.last_hash() == bitcoind_block_hash: break
+ self.bitcoind_height = info.get('blocks')
+ bitcoind_block_hash = self.bitcoind('getblockhash', [self.bitcoind_height])
+ if self.last_hash == bitcoind_block_hash:
+ self.up_to_date = True
+ break
# not done..
- block_hash = self.bitcoind('getblockhash', [self.height+1])
- block = self.bitcoind('getblock', [block_hash])
+ self.up_to_date = False
+ next_block_hash = self.bitcoind('getblockhash', [self.height+1])
+ next_block = self.bitcoind('getblock', [next_block_hash, 1])
- if block.get('previousblockhash') == self.last_hash():
+ # fixme: this is unsafe, if we revert when the undo info is not yet written
+ revert = (random.randint(1, 100)==1) if self.is_test else False
- self.import_block(block, block_hash, self.height+1)
+ if (next_block.get('previousblockhash') == self.last_hash) and not revert:
- if (self.height+1)%100 == 0:
+ self.import_block(next_block, next_block_hash, self.height+1, sync)
+ self.height = self.height + 1
+ self.write_header(self.block2header(next_block), sync)
+ self.last_hash = next_block_hash
+
+ if (self.height)%100 == 0 and not sync:
t2 = time.time()
- print_log( "bc2: block %d (%.3fs)"%( self.height+1, t2 - t1 ) )
+ print_log( "catch_up: block %d (%.3fs)"%( self.height, t2 - t1 ) )
t1 = t2
-
- self.height = self.height + 1
- self.block_hashes.append(block_hash)
- self.block_hashes = self.block_hashes[-10:]
else:
# revert current block
- print_log( "bc2: reorg", self.height, block.get('previousblockhash'), self.last_hash() )
- block_hash = self.last_hash()
- block = self.bitcoind('getblock', [block_hash])
+ block = self.bitcoind('getblock', [self.last_hash, 1])
+ print_log( "blockchain reorg", self.height, block.get('previousblockhash'), self.last_hash )
+ self.import_block(block, self.last_hash, self.height, sync, revert=True)
+ self.pop_header()
+ self.flush_headers()
+
self.height = self.height -1
- self.block_hashes.remove(block_hash)
- self.revert_block(block, self.last_hash(), self.height)
+
+ # read previous header from disk
+ self.header = self.read_header(self.height)
+ self.last_hash = self.hash_header(self.header)
- self.header = self.block2header(self.bitcoind('getblock', [self.last_hash()]))
+ self.header = self.block2header(self.bitcoind('getblock', [self.last_hash]))
+
-
def memorypool_update(self):
mempool_hashes = self.bitcoind('getrawmempool')
for tx_hash in mempool_hashes:
- if tx_hash in self.known_mempool_hashes: continue
- self.known_mempool_hashes.append(tx_hash)
+ if tx_hash in self.mempool_hashes: continue
tx = self.get_transaction(tx_hash)
if not tx: continue
- for x in tx.get('inputs') + tx.get('outputs'):
+ for x in tx.get('inputs'):
+ txi = (x.get('prevout_hash') + int_to_hex(x.get('prevout_n'), 4)).decode('hex')
+ try:
+ h160 = self.db.Get(txi)
+ addr = hash_160_to_bc_address(h160)
+ except:
+ continue
+ l = self.mempool_addresses.get(tx_hash, [])
+ if addr not in l:
+ l.append( addr )
+ self.mempool_addresses[tx_hash] = l
+
+ for x in tx.get('outputs'):
addr = x.get('address')
- hist = self.mempool_hist.get(addr, [])
- if tx_hash not in hist:
- hist.append( tx_hash )
- self.mempool_hist[addr] = hist
- self.update_history_cache(addr)
+ l = self.mempool_addresses.get(tx_hash, [])
+ if addr not in l:
+ l.append( addr )
+ self.mempool_addresses[tx_hash] = l
+
+ self.mempool_hashes.append(tx_hash)
+
+ # remove older entries from mempool_hashes
+ self.mempool_hashes = mempool_hashes
+
+ # remove deprecated entries from mempool_addresses
+ for tx_hash, addresses in self.mempool_addresses.items():
+ if tx_hash not in self.mempool_hashes:
+ self.mempool_addresses.pop(tx_hash)
+
+ # rebuild histories
+ new_mempool_hist = {}
+ for tx_hash, addresses in self.mempool_addresses.items():
+ for addr in addresses:
+ h = new_mempool_hist.get(addr, [])
+ if tx_hash not in h:
+ h.append( tx_hash )
+ new_mempool_hist[addr] = h
+
+ for addr in new_mempool_hist.keys():
+ if addr in self.mempool_hist.keys():
+ if self.mempool_hist[addr] != new_mempool_hist[addr]:
+ self.invalidate_cache(addr)
+ else:
+ self.invalidate_cache(addr)
+
+ with self.mempool_lock:
+ self.mempool_hist = new_mempool_hist
- self.known_mempool_hashes = mempool_hashes
- def update_history_cache(self, address):
+ def invalidate_cache(self, address):
with self.cache_lock:
if self.history_cache.has_key(address):
print_log( "cache: invalidating", address )
self.history_cache.pop(address)
+ if address in self.watched_addresses:
+ self.address_queue.put(address)
+
def main_iteration(self):
if self.shared.stopped():
- print_log( "bc2 terminating")
+ print_log( "blockchain processor terminating" )
return
with self.dblock:
t1 = time.time()
self.catch_up()
t2 = time.time()
- print_log( "blockchain: %d (%.3fs)"%( self.height+1, t2 - t1 ) )
+
self.memorypool_update()
+ t3 = time.time()
+ # print "mempool:", len(self.mempool_addresses), len(self.mempool_hist), "%.3fs"%(t3 - t2)
+
if self.sent_height != self.height:
self.sent_height = self.height
- self.push_response({ 'id': None, 'method':'blockchain2.numblocks.subscribe', 'params':[self.height] })
+ self.push_response({ 'id': None, 'method':'blockchain.numblocks.subscribe', 'params':[self.height] })
if self.sent_header != self.header:
+ print_log( "blockchain: %d (%.3fs)"%( self.height, t2 - t1 ) )
self.sent_header = self.header
- self.push_response({ 'id': None, 'method':'blockchain2.headers.subscribe', 'params':[self.header] })
+ self.push_response({ 'id': None, 'method':'blockchain.headers.subscribe', 'params':[self.header] })
while True:
try:
if addr in self.watched_addresses:
status = self.get_status( addr )
self.push_response({ 'id': None, 'method':'blockchain.address.subscribe', 'params':[addr, status] })
+ self.push_response({ 'id': None, 'method':'blockchain.address.subscribe2', 'params':[addr, status] })
if not self.shared.stopped():
threading.Timer(10, self.main_iteration).start()
else:
- print_log( "bc2 terminating" )
+ print_log( "blockchain processor terminating" )