import threading
import traceback
import urllib
-
+from ltc_scrypt import getPoWHash
from backends.bitcoind import deserialize
from processor import Processor, print_log
from utils import *
+from storage import Storage
+
class BlockchainProcessor(Processor):
def __init__(self, config, shared):
Processor.__init__(self)
+ self.mtimes = {} # monitoring
self.shared = shared
self.config = config
self.up_to_date = False
self.chunk_cache = {}
self.cache_lock = threading.Lock()
self.headers_data = ''
+ self.headers_path = config.get('leveldb', 'path_fulltree')
+ self.mempool_values = {}
self.mempool_addresses = {}
self.mempool_hist = {}
self.mempool_hashes = set([])
self.address_queue = Queue()
try:
- self.use_plyvel = config.getboolean('leveldb', 'use_plyvel')
+ self.test_reorgs = config.getboolean('leveldb', 'test_reorgs') # simulate random blockchain reorgs
except:
- self.use_plyvel = False
- print_log('use_plyvel:', self.use_plyvel)
-
- # don't use the same database for plyvel, because python-leveldb uses snappy compression
- self.dbpath = config.get('leveldb', 'path_plyvel' if self.use_plyvel else 'path')
-
- self.pruning_limit = config.getint('leveldb', 'pruning_limit')
- self.db_version = 1 # increase this when database needs to be updated
+ self.test_reorgs = False
+ self.storage = Storage(config, shared, self.test_reorgs)
self.dblock = threading.Lock()
- try:
- if self.use_plyvel:
- import plyvel
- self.db = plyvel.DB(self.dbpath, create_if_missing=True, paranoid_checks=None, compression=None)
- else:
- import leveldb
- self.db = leveldb.LevelDB(self.dbpath, paranoid_checks=False)
- except:
- traceback.print_exc(file=sys.stdout)
- self.shared.stop()
self.bitcoind_url = 'http://%s:%s@%s:%s/' % (
config.get('bitcoind', 'user'),
self.bitcoind('getinfo')
break
except:
- print_log('cannot contact bitcoind...')
+ print_log('cannot contact novacoind...')
time.sleep(5)
continue
- self.height = 0
- self.is_test = False
self.sent_height = 0
self.sent_header = None
- try:
- hist = self.deserialize(self.db_get('height'))
- self.last_hash, self.height, db_version = hist[0]
- print_log("Database version", self.db_version)
- print_log("Blockchain height", self.height)
- except:
- traceback.print_exc(file=sys.stdout)
- print_log('initializing database')
- self.height = 0
- self.last_hash = '000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f'
- db_version = self.db_version
-
- # check version
- if self.db_version != db_version:
- print_log("Your database '%s' is deprecated. Please create a new database"%self.dbpath)
- self.shared.stop()
- return
-
# catch_up headers
- self.init_headers(self.height)
+ self.init_headers(self.storage.height)
threading.Timer(0, lambda: self.catch_up(sync=False)).start()
while not shared.stopped() and not self.up_to_date:
self.memorypool_update()
print_log("Memory pool initialized.")
- threading.Timer(10, self.main_iteration).start()
+ self.timer = threading.Timer(10, self.main_iteration)
+ self.timer.start()
- def db_get(self, key):
- if self.use_plyvel:
- return self.db.get(key)
- else:
- try:
- return self.db.Get(key)
- except KeyError:
- return None
- def batch_put(self, batch, key, value):
- if self.use_plyvel:
- batch.put(key, value)
- else:
- batch.Put(key, value)
-
- def batch_delete(self, batch, key):
- if self.use_plyvel:
- batch.delete(key)
- else:
- batch.Delete(key)
+ def mtime(self, name):
+ now = time.time()
+ if name != '':
+ delta = now - self.now
+ t = self.mtimes.get(name, 0)
+ self.mtimes[name] = t + delta
+ self.now = now
- def batch_write(self, batch, sync):
- if self.use_plyvel:
- batch.write()#, sync=sync)
- else:
- self.db.Write(batch, sync=sync)
+ def print_mtime(self):
+ s = ''
+ for k, v in self.mtimes.items():
+ s += k+':'+"%.2f"%v+' '
+ print_log(s)
def bitcoind(self, method, params=[]):
try:
respdata = urllib.urlopen(self.bitcoind_url, postdata).read()
except:
+ print_log("error calling novacoind")
traceback.print_exc(file=sys.stdout)
self.shared.stop()
raise BaseException(r['error'])
return r.get('result')
- def serialize(self, h):
- s = ''
- for txid, txpos, height in h:
- s += self.serialize_item(txid, txpos, height)
- return s
-
- def serialize_item(self, txid, txpos, height, spent=chr(0)):
- s = (txid + int_to_hex(txpos, 4) + int_to_hex(height, 3)).decode('hex') + spent
- return s
-
- def deserialize_item(self,s):
- txid = s[0:32].encode('hex')
- txpos = int(rev_hex(s[32:36].encode('hex')), 16)
- height = int(rev_hex(s[36:39].encode('hex')), 16)
- spent = s[39:40]
- return (txid, txpos, height, spent)
-
- def deserialize(self, s):
- h = []
- while s:
- txid, txpos, height, spent = self.deserialize_item(s[0:40])
- h.append((txid, txpos, height))
- if spent == chr(1):
- txid, txpos, height, spent = self.deserialize_item(s[40:80])
- h.append((txid, txpos, height))
- s = s[80:]
- return h
def block2header(self, b):
return {
}
def get_header(self, height):
- block_hash = self.bitcoind('getblockhash', [height])
- b = self.bitcoind('getblock', [block_hash])
+ b = self.bitcoind('getblockbynumber', [height])
return self.block2header(b)
def init_headers(self, db_height):
self.chunk_cache = {}
- self.headers_filename = os.path.join(self.dbpath, 'blockchain_headers')
+ self.headers_filename = os.path.join(self.headers_path, 'blockchain_headers')
if os.path.exists(self.headers_filename):
height = os.path.getsize(self.headers_filename)/80 - 1 # the current height
try:
while height < db_height:
- height = height + 1
+ height += 1
header = self.get_header(height)
if height > 1:
- assert prev_hash == header.get('prev_block_hash')
+ if prev_hash != header.get('prev_block_hash'):
+ # The prev_hash block is orphaned, go back
+ print_log("reorganizing, a block in file is orphaned:", prev_hash)
+ # Go to the parent of the orphaned block
+ height -= 2
+ prev_hash = self.hash_header(self.read_header(height))
+ continue
+
self.write_header(header, sync=False)
prev_hash = self.hash_header(header)
if (height % 1000) == 0:
self.flush_headers()
def hash_header(self, header):
- return rev_hex(Hash(header_to_string(header).decode('hex')).encode('hex'))
+ return rev_hex(getPoWHash(header_to_string(header).decode('hex')).encode('hex'))
def read_header(self, block_height):
if os.path.exists(self.headers_filename):
print_log("ERROR: cannot parse", txid)
return None
+
def get_history(self, addr, cache_only=False):
with self.cache_lock:
hist = self.history_cache.get(addr)
with self.dblock:
try:
- hist = self.deserialize(self.db_get(str((addr))))
+ hist = self.storage.get_history(addr)
is_known = True
except:
- self.shared.stop()
+ print_log("error get_history")
+ traceback.print_exc(file=sys.stdout)
raise
if hist:
is_known = True
hist = []
is_known = False
- # sort history, because redeeming transactions are next to the corresponding txout
- hist.sort(key=lambda tup: tup[2])
-
# add memory pool
with self.mempool_lock:
- for txid in self.mempool_hist.get(addr, []):
- hist.append((txid, 0, 0))
-
- # uniqueness
- hist = set(map(lambda x: (x[0], x[2]), hist))
-
- # convert to dict
- hist = map(lambda x: {'tx_hash': x[0], 'height': x[1]}, hist)
+ for txid, delta in self.mempool_hist.get(addr, []):
+ hist.append({'tx_hash':txid, 'height':0})
# add something to distinguish between unused and empty addresses
if hist == [] and is_known:
self.history_cache[addr] = hist
return hist
+
+ def get_unconfirmed_value(self, addr):
+ v = 0
+ with self.mempool_lock:
+ for txid, delta in self.mempool_hist.get(addr, []):
+ v += delta
+ return v
+
+
def get_status(self, addr, cache_only=False):
tx_points = self.get_history(addr, cache_only)
if cache_only and tx_points == -1:
def get_merkle(self, tx_hash, height):
- block_hash = self.bitcoind('getblockhash', [height])
- b = self.bitcoind('getblock', [block_hash])
+ b = self.bitcoind('getblockbynumber', [height])
tx_list = b.get('tx')
tx_pos = tx_list.index(tx_hash)
- def revert_add_to_history(self, addr, tx_hash, tx_pos, tx_height):
-
- serialized_hist = self.batch_list[addr]
- s = self.serialize_item(tx_hash, tx_pos, tx_height) + 40*chr(0)
- if serialized_hist.find(s) == -1: raise
- serialized_hist = serialized_hist.replace(s, '')
- self.batch_list[addr] = serialized_hist
-
-
-
- def prune_history(self, addr, undo):
- # remove items that have bit set to one
- if undo.get(addr) is None: undo[addr] = []
-
- serialized_hist = self.batch_list[addr]
- l = len(serialized_hist)/80
- for i in range(l):
- if len(serialized_hist)/80 < self.pruning_limit: break
- item = serialized_hist[80*i:80*(i+1)]
- if item[39:40] == chr(1):
- assert item[79:80] == chr(2)
- serialized_hist = serialized_hist[0:80*i] + serialized_hist[80*(i+1):]
- undo[addr].append(item) # items are ordered
- self.batch_list[addr] = serialized_hist
-
-
- def revert_prune_history(self, addr, undo):
- # restore removed items
- serialized_hist = self.batch_list[addr]
-
- if undo.get(addr) is not None:
- itemlist = undo.pop(addr)
- else:
- return
-
- if not itemlist: return
-
- l = len(serialized_hist)/80
- tx_item = ''
- for i in range(l-1, -1, -1):
- if tx_item == '':
- if not itemlist:
- break
- else:
- tx_item = itemlist.pop(-1) # get the last element
- tx_height = int(rev_hex(tx_item[36:39].encode('hex')), 16)
-
- item = serialized_hist[80*i:80*(i+1)]
- item_height = int(rev_hex(item[36:39].encode('hex')), 16)
-
- if item_height < tx_height:
- serialized_hist = serialized_hist[0:80*(i+1)] + tx_item + serialized_hist[80*(i+1):]
- tx_item = ''
-
- else:
- serialized_hist = ''.join(itemlist) + tx_item + serialized_hist
-
- self.batch_list[addr] = serialized_hist
-
-
- def set_spent_bit(self, addr, txi, is_spent, txid=None, index=None, height=None):
- serialized_hist = self.batch_list[addr]
- l = len(serialized_hist)/80
- for i in range(l):
- item = serialized_hist[80*i:80*(i+1)]
- if item[0:36] == txi:
- if is_spent:
- new_item = item[0:39] + chr(1) + self.serialize_item(txid, index, height, chr(2))
- else:
- new_item = item[0:39] + chr(0) + chr(0)*40
- serialized_hist = serialized_hist[0:80*i] + new_item + serialized_hist[80*(i+1):]
- break
- else:
- self.shared.stop()
- hist = self.deserialize(serialized_hist)
- raise BaseException("prevout not found", addr, hist, txi.encode('hex'))
-
- self.batch_list[addr] = serialized_hist
- def unset_spent_bit(self, addr, txi):
- self.set_spent_bit(addr, txi, False)
- self.batch_txio[txi] = addr
-
def deserialize_block(self, block):
txlist = block.get('tx')
+
tx_hashes = [] # ordered txids
txdict = {} # deserialized tx
- is_coinbase = True
- for raw_tx in txlist:
+
+ for i, raw_tx in enumerate(txlist):
tx_hash = hash_encode(Hash(raw_tx.decode('hex')))
vds = deserialize.BCDataStream()
vds.write(raw_tx.decode('hex'))
try:
- tx = deserialize.parse_Transaction(vds, is_coinbase)
+ tx = deserialize.parse_Transaction(vds, i == 0) # first transaction is always coinbase
except:
print_log("ERROR: cannot parse", tx_hash)
continue
tx_hashes.append(tx_hash)
txdict[tx_hash] = tx
- is_coinbase = False
return tx_hashes, txdict
- def get_undo_info(self, height):
- s = self.db_get("undo%d" % (height % 100))
- return eval(s)
- def write_undo_info(self, batch, height, undo_info):
- if self.is_test or height > self.bitcoind_height - 100:
- self.batch_put(batch, "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
-
- block_inputs = set([])
- block_outputs = set([])
- addr_to_read = set([])
+ touched_addr = set([])
# deserialize transactions
- t0 = time.time()
tx_hashes, txdict = self.deserialize_block(block)
- t00 = time.time()
-
# undo info
if revert:
- undo_info = self.get_undo_info(block_height)
+ undo_info = self.storage.get_undo_info(block_height)
+ tx_hashes.reverse()
else:
undo_info = {}
-
- 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.add(txi)
-
- #block_inputs.sort()
- for txi in sorted(block_inputs):
- try:
- addr = self.db_get(txi)
- if addr is None:
- # the input could come from the same block
- continue
- except:
- traceback.print_exc(file=sys.stdout)
- self.shared.stop()
- raise
-
- self.batch_txio[txi] = addr
- addr_to_read.add(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.add(txo)
- addr_to_read.add( x.get('address') )
-
- undo = undo_info.get(txid)
- for i, x in enumerate(tx.get('inputs')):
- addr = undo['prev_addr'][i]
- addr_to_read.add(addr)
-
-
- #time spent reading txio
- t000 = time.time()
-
- # read histories of addresses
- for txid, tx in txdict.items():
- for x in tx.get('outputs'):
- addr_to_read.add(x.get('address'))
-
- #addr_to_read.sort()
- for addr in sorted(addr_to_read):
- try:
- h = self.db_get(addr)
- self.batch_list[addr] = '' if h is None else h
- except:
- print "db get error", addr
- traceback.print_exc(file=sys.stdout)
- self.shared.stop()
- raise
-
-
- # 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 = { 'prev_addr':[] } # contains the list of pruned items for each address in the tx; also, 'prev_addr' is a list of prev addresses
-
- prev_addr = []
- for i, x in enumerate(tx.get('inputs')):
- txi = (x.get('prevout_hash') + int_to_hex(x.get('prevout_n'), 4)).decode('hex')
- addr = self.batch_txio[txi]
-
- # add redeem item to the history.
- # add it right next to the input txi? this will break history sorting, but it's ok if I neglect tx inputs during search
- self.set_spent_bit(addr, txi, True, txid, i, block_height)
-
- # when I prune, prune a pair
- self.prune_history(addr, undo)
- prev_addr.append(addr)
-
- undo['prev_addr'] = prev_addr
-
- # here I add only the outputs to history; maybe I want to add inputs too (that's in the other loop)
- for x in tx.get('outputs'):
- addr = x.get('address')
- self.add_to_history(addr, txid, x.get('index'), block_height)
- self.prune_history(addr, undo) # prune here because we increased the length of the history
-
+ undo = self.storage.import_transaction(txid, tx, block_height, touched_addr)
undo_info[txid] = undo
-
else:
-
undo = undo_info.pop(txid)
-
- for x in tx.get('outputs'):
- addr = x.get('address')
- self.revert_prune_history(addr, undo)
- self.revert_add_to_history(addr, txid, x.get('index'), block_height)
-
- prev_addr = undo.pop('prev_addr')
- for i, x in enumerate(tx.get('inputs')):
- addr = prev_addr[i]
- self.revert_prune_history(addr, undo)
- txi = (x.get('prevout_hash') + int_to_hex(x.get('prevout_n'), 4)).decode('hex')
- self.unset_spent_bit(addr, txi)
-
- assert undo == {}
+ self.storage.revert_transaction(txid, tx, block_height, touched_addr, undo)
if revert:
assert undo_info == {}
-
- # write
- max_len = 0
- max_addr = ''
- t2 = time.time()
-
- if self.use_plyvel:
- batch = self.db.write_batch()
- else:
- import leveldb
- batch = leveldb.WriteBatch()
-
- for addr, serialized_hist in self.batch_list.items():
- self.batch_put(batch, addr, serialized_hist)
- l = len(serialized_hist)/80
- if l > max_len:
- max_len = l
- max_addr = addr
-
+ # add undo info
if not revert:
- # add new created outputs
- for txio, addr in self.batch_txio.items():
- self.batch_put(batch, txio, addr)
- # delete spent inputs
- for txi in block_inputs:
- self.batch_delete(batch, 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():
- # print "restoring spent input", repr(txio)
- self.batch_put(batch, txio, addr)
- # delete spent outputs
- for txo in block_outputs:
- self.batch_delete(batch, txo)
+ self.storage.write_undo_info(block_height, self.bitcoind_height, undo_info)
# add the max
- self.batch_put(batch, 'height', self.serialize([(block_hash, block_height, self.db_version)]))
-
- # actual write
- self.batch_write(batch, sync)
-
- t3 = time.time()
- if t3 - t0 > 10 and not sync:
- print_log("block %d "%block_height,
- "total:%0.2f " % (t3 - t0),
- #"parse:%0.2f " % (t00 - t0),
- "read_txio[%4d]:%0.2f " % (len(block_inputs), t000 - t00),
- "read_addr[%4d]:%0.2f " % (len(addr_to_read), t1 - t000),
- #"proc:%.2f " % (t2-t1),
- "write:%.2f " % (t3-t2),
- "max:", max_len, max_addr)
-
- for addr in self.batch_list.keys():
+ self.storage.db_undo.put('height', repr( (block_hash, block_height, self.storage.db_version) ))
+
+ for addr in touched_addr:
self.invalidate_cache(addr)
+ self.storage.update_hashes()
+
+
def add_request(self, session, request):
# see if we can get if from cache. if not, add to queue
if self.process(session, request, cache_only=True) == -1:
if session in l:
l.remove(session)
if session in l:
- print "error rc!!"
+ print_log("error rc!!")
self.shared.stop()
if l == []:
self.watched_addresses.pop(addr)
error = None
if method == 'blockchain.numblocks.subscribe':
- result = self.height
+ result = self.storage.height
elif method == 'blockchain.headers.subscribe':
result = self.header
elif method == 'blockchain.address.subscribe':
try:
- address = params[0]
+ address = str(params[0])
result = self.get_status(address, cache_only)
except BaseException, e:
error = str(e) + ': ' + address
elif method == 'blockchain.address.get_history':
try:
- address = params[0]
+ address = str(params[0])
result = self.get_history(address, cache_only)
except BaseException, e:
error = str(e) + ': ' + address
print_log("error:", error)
+ elif method == 'blockchain.address.get_mempool':
+ try:
+ address = str(params[0])
+ result = self.get_unconfirmed_history(address, cache_only)
+ except BaseException, e:
+ error = str(e) + ': ' + address
+ print_log("error:", error)
+
+ elif method == 'blockchain.address.get_balance':
+ try:
+ address = str(params[0])
+ confirmed = self.storage.get_balance(address)
+ unconfirmed = self.get_unconfirmed_value(address)
+ result = { 'confirmed':confirmed, 'unconfirmed':unconfirmed }
+ except BaseException, e:
+ error = str(e) + ': ' + address
+ print_log("error:", error)
+
+ elif method == 'blockchain.address.get_proof':
+ try:
+ address = str(params[0])
+ result = self.storage.get_proof(address)
+ except BaseException, e:
+ error = str(e) + ': ' + address
+ print_log("error:", error)
+
+ elif method == 'blockchain.address.listunspent':
+ try:
+ address = str(params[0])
+ result = self.storage.listunspent(address)
+ except BaseException, e:
+ error = str(e) + ': ' + address
+ print_log("error:", error)
+
+ elif method == 'blockchain.utxo.get_address':
+ try:
+ txid = str(params[0])
+ pos = int(params[1])
+ txi = (txid + int_to_hex(pos, 4)).decode('hex')
+ result = self.storage.get_address(txi)
+ except BaseException, e:
+ error = str(e)
+ print_log("error:", error, params)
+
elif method == 'blockchain.block.get_header':
if cache_only:
result = -1
else:
try:
- height = params[0]
+ height = int(params[0])
result = self.get_header(height)
except BaseException, e:
error = str(e) + ': %d' % height
result = -1
else:
try:
- index = params[0]
+ index = int(params[0])
result = self.get_chunk(index)
except BaseException, e:
error = str(e) + ': %d' % index
elif result != '':
self.push_response(session, {'id': message_id, 'result': result})
-
- def getfullblock(self, block_hash):
- block = self.bitcoind('getblock', [block_hash])
-
- rawtxreq = []
- i = 0
- for txid in block['tx']:
- rawtxreq.append({
- "method": "getrawtransaction",
- "params": [txid],
- "id": i,
- })
- i += 1
-
- postdata = dumps(rawtxreq)
- try:
- respdata = urllib.urlopen(self.bitcoind_url, postdata).read()
- except:
- traceback.print_exc(file=sys.stdout)
- self.shared.stop()
-
- r = loads(respdata)
- rawtxdata = []
- for ir in r:
- if ir['error'] is not None:
- self.shared.stop()
- print_log("Error: make sure you run bitcoind with txindex=1; use -reindex if needed.")
- raise BaseException(ir['error'])
- rawtxdata.append(ir['result'])
- block['tx'] = rawtxdata
- return block
-
def catch_up(self, sync=True):
- t1 = time.time()
+ prev_root_hash = None
while not self.shared.stopped():
+
+ self.mtime('')
+
# are we done yet?
info = self.bitcoind('getinfo')
self.bitcoind_height = info.get('blocks')
bitcoind_block_hash = self.bitcoind('getblockhash', [self.bitcoind_height])
- if self.last_hash == bitcoind_block_hash:
+ if self.storage.last_hash == bitcoind_block_hash:
self.up_to_date = True
break
+ # fixme: this is unsafe, if we revert when the undo info is not yet written
+ revert = (random.randint(1, 100) == 1) if self.test_reorgs else False
+
# not done..
self.up_to_date = False
- next_block_hash = self.bitcoind('getblockhash', [self.height + 1])
- next_block = self.getfullblock(next_block_hash)
+ try:
+ next_block = self.bitcoind('getblockbynumber', [self.storage.height + 1, True])
+ except BaseException, e:
+ next_block = self.bitcoind('getblock', [self.storage.last_hash, True])
+ revert = True
- # 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
+ next_block_hash = next_block.get('hash')
- if (next_block.get('previousblockhash') == self.last_hash) and not revert:
+ self.mtime('daemon')
- 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 (next_block.get('previousblockhash') == self.storage.last_hash) and not revert:
+
+ prev_root_hash = self.storage.get_root_hash()
- if self.height % 100 == 0 and not sync:
- t2 = time.time()
- print_log("catch_up: block %d (%.3fs)" % (self.height, t2 - t1))
- t1 = t2
+ self.import_block(next_block, next_block_hash, self.storage.height+1, sync)
+ self.storage.height = self.storage.height + 1
+ self.write_header(self.block2header(next_block), sync)
+ self.storage.last_hash = next_block_hash
+ self.mtime('import')
+
+ if self.storage.height % 1000 == 0 and not sync:
+ t_daemon = self.mtimes.get('daemon')
+ t_import = self.mtimes.get('import')
+ print_log("catch_up: block %d (%.3fs %.3fs)" % (self.storage.height, t_daemon, t_import), self.storage.get_root_hash().encode('hex'))
+ self.mtimes['daemon'] = 0
+ self.mtimes['import'] = 0
else:
+
# revert current block
- block = self.getfullblock(self.last_hash)
- print_log("blockchain reorg", self.height, block.get('previousblockhash'), self.last_hash)
- self.import_block(block, self.last_hash, self.height, sync, revert=True)
+ block = self.bitcoind('getblock', [self.storage.last_hash, True])
+ print_log("blockchain reorg", self.storage.height, block.get('previousblockhash'), self.storage.last_hash)
+ self.import_block(block, self.storage.last_hash, self.storage.height, sync, revert=True)
self.pop_header()
self.flush_headers()
- self.height -= 1
+ self.storage.height -= 1
# read previous header from disk
- self.header = self.read_header(self.height)
- self.last_hash = self.hash_header(self.header)
+ self.header = self.read_header(self.storage.height)
+ self.storage.last_hash = self.hash_header(self.header)
- self.header = self.block2header(self.bitcoind('getblock', [self.last_hash]))
+ if prev_root_hash:
+ assert prev_root_hash == self.storage.get_root_hash()
+ prev_root_hash = None
- if self.shared.stopped() and self.use_plyvel:
+
+ self.header = self.block2header(self.bitcoind('getblock', [self.storage.last_hash]))
+ self.header['utxo_root'] = self.storage.get_root_hash().encode('hex')
+
+ if self.shared.stopped():
print_log( "closing database" )
- self.db.close()
+ self.storage.close()
def memorypool_update(self):
mempool_hashes = set(self.bitcoind('getrawmempool'))
touched_addresses = set([])
+ # get new transactions
+ new_tx = {}
for tx_hash in mempool_hashes:
if tx_hash in self.mempool_hashes:
continue
if not tx:
continue
- mpa = self.mempool_addresses.get(tx_hash, [])
+ new_tx[tx_hash] = tx
+ self.mempool_hashes.add(tx_hash)
+
+ # remove older entries from mempool_hashes
+ self.mempool_hashes = mempool_hashes
+
+
+ # check all tx outputs
+ for tx_hash, tx in new_tx.items():
+ mpa = self.mempool_addresses.get(tx_hash, {})
+ out_values = []
+ for x in tx.get('outputs'):
+ out_values.append( x['value'] )
+
+ addr = x.get('address')
+ if not addr:
+ continue
+ v = mpa.get(addr,0)
+ v += x['value']
+ mpa[addr] = v
+ touched_addresses.add(addr)
+
+ self.mempool_addresses[tx_hash] = mpa
+ self.mempool_values[tx_hash] = out_values
+
+ # check all inputs
+ for tx_hash, tx in new_tx.items():
+ mpa = self.mempool_addresses.get(tx_hash, {})
for x in tx.get('inputs'):
# we assume that the input address can be parsed by deserialize(); this is true for Electrum transactions
addr = x.get('address')
- if addr and addr not in mpa:
- mpa.append(addr)
- touched_addresses.add(addr)
+ if not addr:
+ continue
- for x in tx.get('outputs'):
- addr = x.get('address')
- if addr and addr not in mpa:
- mpa.append(addr)
- touched_addresses.add(addr)
+ v = self.mempool_values.get(x.get('prevout_hash'))
+ if v:
+ value = v[ x.get('prevout_n')]
+ else:
+ txi = (x.get('prevout_hash') + int_to_hex(x.get('prevout_n'), 4)).decode('hex')
+ try:
+ value = self.storage.get_utxo_value(addr,txi)
+ except:
+ print_log("utxo not in database; postponing mempool update")
+ return
+
+ v = mpa.get(addr,0)
+ v -= value
+ mpa[addr] = v
+ touched_addresses.add(addr)
self.mempool_addresses[tx_hash] = mpa
- self.mempool_hashes.add(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)
+ self.mempool_values.pop(tx_hash)
for addr in addresses:
touched_addresses.add(addr)
# rebuild mempool histories
new_mempool_hist = {}
for tx_hash, addresses in self.mempool_addresses.items():
- for addr in addresses:
+ for addr, delta in addresses.items():
h = new_mempool_hist.get(addr, [])
if tx_hash not in h:
- h.append(tx_hash)
+ h.append((tx_hash, delta))
new_mempool_hist[addr] = h
with self.mempool_lock:
# TODO: update cache here. if new value equals cached value, do not send notification
self.address_queue.put((address,sessions))
+
+ def close(self):
+ self.timer.join()
+ print_log("Closing database...")
+ self.storage.close()
+ print_log("Database is closed")
+
+
def main_iteration(self):
if self.shared.stopped():
- print_log("blockchain processor terminating")
- if self.use_plyvel:
- self.db.close()
+ print_log("Stopping timer")
return
with self.dblock:
self.memorypool_update()
- if self.sent_height != self.height:
- self.sent_height = self.height
+ if self.sent_height != self.storage.height:
+ self.sent_height = self.storage.height
for session in self.watch_blocks:
self.push_response(session, {
'id': None,
'method': 'blockchain.numblocks.subscribe',
- 'params': [self.height],
+ 'params': [self.storage.height],
})
if self.sent_header != self.header:
- print_log("blockchain: %d (%.3fs)" % (self.height, t2 - t1))
+ print_log("blockchain: %d (%.3fs)" % (self.storage.height, t2 - t1))
self.sent_header = self.header
for session in self.watch_headers:
self.push_response(session, {
'params': [addr, status],
})
- if not self.shared.stopped():
- threading.Timer(10, self.main_iteration).start()
- else:
- print_log("blockchain processor terminating")
+ # next iteration
+ self.timer = threading.Timer(10, self.main_iteration)
+ self.timer.start()
+