def __init__(self, self_address, home_dir='/tmp/', certfile=None, is_init_node=False, node_name='unknown'):
Operator.__init__(self, self_address, home_dir, certfile, is_init_node, node_name)
self.status = DS_INITIALIZE
self.ranges_table = HashRangesTable()
if is_init_node:
self.ranges_table.append(MIN_HASH, MAX_HASH, self.self_address)
self.save_path = os.path.join(home_dir, 'dht_range')
if not os.path.exists(self.save_path):
os.mkdir(self.save_path)
self.__dht_range = FSHashRanges.discovery_range(self.save_path)
self.__split_requests_cache = []
self.__start_dht_try_count = 0
self.__init_dht_thread = None
if is_init_node:
self.status = DS_NORMALWORK
self.__check_hash_table_thread = CheckLocalHashTableThread(self)
self.__check_hash_table_thread.setName('%s-CheckLocalHashTableThread'%self.node_name)
self.__check_hash_table_thread.start()
self.__monitor_dht_ranges = MonitorDHTRanges(self)
self.__monitor_dht_ranges.setName('%s-MonitorDHTRanges'%self.node_name)
self.__monitor_dht_ranges.start()
def __init__(self, self_address, home_dir='/tmp/', key_storage=None, \
is_init_node=False, node_name='unknown', config={}):
cur_cfg = {}
cur_cfg.update(DEFAULT_DHT_CONFIG)
cur_cfg.update(config)
Operator.__init__(self, self_address, home_dir, key_storage, \
is_init_node, node_name, cur_cfg)
self.status = DS_INITIALIZE
self.ranges_table = HashRangesTable()
if is_init_node:
self.ranges_table.append(MIN_HASH, MAX_HASH, self.self_address)
self.save_path = os.path.join(home_dir, 'dht_range')
if not os.path.exists(self.save_path):
os.mkdir(self.save_path)
self.__split_requests_cache = []
self.__dht_range = FSHashRanges.discovery_range(self.save_path, ret_full=is_init_node)
self.__start_dht_try_count = 0
self.__init_dht_thread = None
if is_init_node:
self.status = DS_NORMALWORK
self.__check_hash_table_thread = CheckLocalHashTableThread(self)
self.__check_hash_table_thread.setName('%s-CheckLocalHashTableThread'%self.node_name)
self.__check_hash_table_thread.start()
self.__monitor_dht_ranges = MonitorDHTRanges(self)
self.__monitor_dht_ranges.setName('%s-MonitorDHTRanges'%self.node_name)
self.__monitor_dht_ranges.start()
class DHTOperator(Operator):
def __init__(self, self_address, home_dir='/tmp/', certfile=None, is_init_node=False, node_name='unknown'):
Operator.__init__(self, self_address, home_dir, certfile, is_init_node, node_name)
self.status = DS_INITIALIZE
self.ranges_table = HashRangesTable()
if is_init_node:
self.ranges_table.append(MIN_HASH, MAX_HASH, self.self_address)
self.save_path = os.path.join(home_dir, 'dht_range')
if not os.path.exists(self.save_path):
os.mkdir(self.save_path)
self.__dht_range = FSHashRanges.discovery_range(self.save_path)
self.__split_requests_cache = []
self.__start_dht_try_count = 0
self.__init_dht_thread = None
if is_init_node:
self.status = DS_NORMALWORK
self.__check_hash_table_thread = CheckLocalHashTableThread(self)
self.__check_hash_table_thread.setName('%s-CheckLocalHashTableThread'%self.node_name)
self.__check_hash_table_thread.start()
self.__monitor_dht_ranges = MonitorDHTRanges(self)
self.__monitor_dht_ranges.setName('%s-MonitorDHTRanges'%self.node_name)
self.__monitor_dht_ranges.start()
def get_statistic(self):
stat = Operator.get_statistic(self)
dht_range = self.get_dht_range()
stat['status'] = self.status
stat['range_start'] = '%040x'% dht_range.get_start()
stat['range_end'] = '%040x'% dht_range.get_end()
stat['range_size'] = dht_range.get_range_size()
stat['replicas_size'] = dht_range.get_replicas_size()
stat['free_size'] = dht_range.get_free_size()
return stat
def on_neigbour_not_respond(self, neighbour_type, neighbour_address):
if neighbour_type != NT_SUPERIOR:
return
for range_obj in self.ranges_table.iter_table():
if range_obj.node_address == neighbour_address:
self._move_range(range_obj)
break
def _move_range(self, range_obj):
logger.info('Node %s went from DHT. Updating hash range table on network...'%range_obj.node_address)
rm_lst = [(range_obj.start, range_obj.end, range_obj.node_address)]
parameters = {'append': [], 'remove': rm_lst}
req = FabnetPacketRequest(method='UpdateHashRangeTable', sender=self.self_address, parameters=parameters)
self.call_network(req)
def stop(self):
self.status = DS_DESTROYING
for range_obj in self.ranges_table.iter_table():
if range_obj.node_address == self.self_address:
self._move_range(range_obj)
break
Operator.stop(self)
self.__check_hash_table_thread.stop()
self.__monitor_dht_ranges.stop()
self.__check_hash_table_thread.join()
self.__monitor_dht_ranges.join()
def __get_next_max_range(self):
max_range = None
for range_obj in self.ranges_table.iter_table():
if range_obj.node_address in self.__split_requests_cache:
continue
if not max_range:
max_range = range_obj
continue
if max_range.length() < range_obj.length():
max_range = range_obj
return max_range
def __get_next_range_near(self, start, end):
found_range = self.ranges_table.find(start)
if found_range and found_range.node_address not in self.__split_requests_cache:
return found_range
found_range = self.ranges_table.find(end)
if found_range and found_range.node_address not in self.__split_requests_cache:
return found_range
return None
def set_status_to_normalwork(self):
logger.info('Changing node status to NORMALWORK')
self.status = DS_NORMALWORK
self.__split_requests_cache = []
self.__start_dht_try_count = 0
def start_as_dht_member(self):
if self.status == DS_DESTROYING:
return
self.status = DS_INITIALIZE
dht_range = self.get_dht_range()
nochange = False
curr_start = dht_range.get_start()
curr_end = dht_range.get_end()
if dht_range.is_max_range() or self.__split_requests_cache:
new_range = self.__get_next_max_range()
else:
new_range = self.__get_next_range_near(curr_start, curr_end)
if new_range:
if (new_range.start != curr_start or new_range.end != curr_end):
nochange = True
if new_range.node_address == self.self_address:
self.set_status_to_normalwork()
return
if new_range is None:
#wait and try again
if self.__start_dht_try_count == DHT_CYCLE_TRY_COUNT:
logger.error('Cant initialize node as a part of DHT')
self.__start_dht_try_count = 0
return
logger.info('No ready range for me on network... So, sleep and try again')
self.__start_dht_try_count += 1
self.__split_requests_cache = []
time.sleep(WAIT_RANGE_TIMEOUT)
return self.start_as_dht_member()
if nochange:
new_dht_range = dht_range
else:
new_dht_range = FSHashRanges(long(new_range.start + new_range.length()/2+1), long(new_range.end), self.save_path)
self.update_dht_range(new_dht_range)
new_dht_range.restore_from_trash() #try getting new range data from trash
self.__split_requests_cache.append(new_range.node_address)
logger.info('Call SplitRangeRequest to %s'%(new_range.node_address,))
parameters = { 'start_key': new_dht_range.get_start(), 'end_key': new_dht_range.get_end() }
req = FabnetPacketRequest(method='SplitRangeRequest', sender=self.self_address, parameters=parameters)
ret_code, ret_msg = self.call_node(new_range.node_address, req)
if ret_code != RC_OK:
logger.error('Cant start SplitRangeRequest operation on node %s. Details: %s'%(new_range.node_address, ret_msg))
return self.start_as_dht_member()
def get_dht_range(self):
self._lock()
try:
return self.__dht_range
finally:
self._unlock()
def update_dht_range(self, new_dht_range):
self._lock()
old_dht_range = self.__dht_range
self.__dht_range = new_dht_range
self._unlock()
old_dht_range.move_to_trash()
dht_range = self.get_dht_range()
logger.info('New node range: %040x-%040x'%(dht_range.get_start(), dht_range.get_end()))
def check_dht_range(self):
if self.status == DS_INITIALIZE:
return
dht_range = self.get_dht_range()
start = dht_range.get_start()
end = dht_range.get_end()
range_obj = self.ranges_table.find(start)
if not range_obj or range_obj.start != start or range_obj.end != end or range_obj.node_address != self.self_address:
logger.error('DHT range on this node is not found in ranges_table')
logger.info('Trying reinit node as DHT member...')
self.start_as_dht_member()
class DHTOperator(Operator):
OPTYPE = 'DHT'
def __init__(self, self_address, home_dir='/tmp/', key_storage=None, \
is_init_node=False, node_name='unknown', config={}):
cur_cfg = {}
cur_cfg.update(DEFAULT_DHT_CONFIG)
cur_cfg.update(config)
Operator.__init__(self, self_address, home_dir, key_storage, \
is_init_node, node_name, cur_cfg)
self.status = DS_INITIALIZE
self.ranges_table = HashRangesTable()
if is_init_node:
self.ranges_table.append(MIN_HASH, MAX_HASH, self.self_address)
self.save_path = os.path.join(home_dir, 'dht_range')
if not os.path.exists(self.save_path):
os.mkdir(self.save_path)
self.__split_requests_cache = []
self.__dht_range = FSHashRanges.discovery_range(self.save_path, ret_full=is_init_node)
self.__start_dht_try_count = 0
self.__init_dht_thread = None
if is_init_node:
self.status = DS_NORMALWORK
self.__check_hash_table_thread = CheckLocalHashTableThread(self)
self.__check_hash_table_thread.setName('%s-CheckLocalHashTableThread'%self.node_name)
self.__check_hash_table_thread.start()
self.__monitor_dht_ranges = MonitorDHTRanges(self)
self.__monitor_dht_ranges.setName('%s-MonitorDHTRanges'%self.node_name)
self.__monitor_dht_ranges.start()
def get_status(self):
return self.status
def on_statisic_request(self):
stat = Operator.on_statisic_request(self)
dht_range = self.get_dht_range()
dht_i = {}
dht_i['status'] = self.status
dht_i['range_start'] = '%040x'% dht_range.get_start()
dht_i['range_end'] = '%040x'% dht_range.get_end()
dht_i['range_size'] = dht_range.get_range_size()
dht_i['replicas_size'] = dht_range.get_replicas_size()
dht_i['free_size'] = dht_range.get_free_size()
dht_i['free_size_percents'] = dht_range.get_free_size_percents()
stat['DHTInfo'] = dht_i
return stat
def _move_range(self, range_obj):
logger.info('Node %s went from DHT. Updating hash range table on network...'%range_obj.node_address)
rm_lst = [(range_obj.start, range_obj.end, range_obj.node_address)]
parameters = {'append': [], 'remove': rm_lst}
req = FabnetPacketRequest(method='UpdateHashRangeTable', sender=self.self_address, parameters=parameters)
self.call_network(req)
def _take_range(self, range_obj):
logger.info('Take node old range. Updating hash range table on network...')
app_lst = [(range_obj.start, range_obj.end, range_obj.node_address)]
parameters = {'append': app_lst, 'remove': []}
req = FabnetPacketRequest(method='UpdateHashRangeTable', sender=self.self_address, parameters=parameters)
self.call_network(req)
def stop_inherited(self):
self.status = DS_DESTROYING
for range_obj in self.ranges_table.iter_table():
if range_obj.node_address == self.self_address:
self._move_range(range_obj)
break
self.__check_hash_table_thread.stop()
self.__monitor_dht_ranges.stop()
time.sleep(Config.DHT_STOP_TIMEOUT)
self.__check_hash_table_thread.join()
self.__monitor_dht_ranges.join()
def __get_next_max_range(self):
max_range = None
for range_obj in self.ranges_table.iter_table():
if range_obj.node_address == self.self_address:
return range_obj
if range_obj.node_address in self.__split_requests_cache:
continue
if not max_range:
max_range = range_obj
continue
if max_range.length() < range_obj.length():
max_range = range_obj
if not max_range:
return None
return HashRange(long(max_range.start+max_range.length()/2+1), long(max_range.end), max_range.node_address)
def __normalize_range_request(self, c_start, c_end, f_range):
r1 = r2 = None
if f_range.contain(c_start):
r1 = HashRange(c_start, f_range.end, f_range.node_address)
if f_range.contain(c_end):
r2 = HashRange(f_range.start, c_end, f_range.node_address)
if r1 and r2:
if r1.length() < r2.length():
return r1
return r2
if r1:
return r1
return r2
def __get_next_range_near(self, start, end):
ret_range = None
found_range = self.ranges_table.find(start)
if found_range and found_range.node_address not in self.__split_requests_cache:
ret_range = self.__normalize_range_request(start, end, found_range)
if found_range and found_range.contain(end):
return ret_range
#case when current node range is splited between two other nodes
found_range = self.ranges_table.find(end)
if found_range and found_range.node_address not in self.__split_requests_cache:
ret_range_e = self.__normalize_range_request(start, end, found_range)
if (not ret_range) or (ret_range_e and ret_range_e.length() > ret_range.length()):
ret_range = ret_range_e
if not ret_range:
ret_range = HashRange(start, end, self.self_address)
return ret_range
def set_status_to_normalwork(self, save_range=False):
logger.info('Changing node status to NORMALWORK')
self.status = DS_NORMALWORK
self.__split_requests_cache = []
self.__start_dht_try_count = 0
if save_range:
dht_range = self.get_dht_range()
dht_range.save_range()
def start_as_dht_member(self):
if self.status == DS_DESTROYING:
return
self.status = DS_INITIALIZE
dht_range = self.get_dht_range()
curr_start = dht_range.get_start()
curr_end = dht_range.get_end()
last_range = dht_range.get_last_range()
if last_range and not self.__split_requests_cache:
new_range = self.__get_next_range_near(last_range[0], last_range[1])
elif dht_range.is_max_range() or self.__split_requests_cache:
new_range = self.__get_next_max_range()
else:
new_range = self.__get_next_range_near(curr_start, curr_end)
if new_range is None:
#wait and try again
if self.__start_dht_try_count == Config.DHT_CYCLE_TRY_COUNT:
logger.error('Cant initialize node as a part of DHT')
self.__start_dht_try_count = 0
return
logger.info('No ready range for me on network... So, sleep and try again')
self.__start_dht_try_count += 1
self.__split_requests_cache = []
time.sleep(Config.WAIT_RANGE_TIMEOUT)
return self.start_as_dht_member()
if (new_range.start == curr_start and new_range.end == curr_end):
new_dht_range = dht_range
else:
new_dht_range = FSHashRanges(long(new_range.start), long(new_range.end), self.save_path)
self.update_dht_range(new_dht_range)
new_dht_range.restore_from_reservation() #try getting new range data from reservation
if new_range.node_address == self.self_address:
self._take_range(new_range)
self.set_status_to_normalwork()
return
self.__split_requests_cache.append(new_range.node_address)
logger.info('Call SplitRangeRequest [%040x-%040x] to %s'% \
(new_dht_range.get_start(), new_dht_range.get_end(), new_range.node_address,))
parameters = { 'start_key': new_dht_range.get_start(), 'end_key': new_dht_range.get_end() }
req = FabnetPacketRequest(method='SplitRangeRequest', sender=self.self_address, parameters=parameters)
self.call_node(new_range.node_address, req)
def get_dht_range(self):
self._lock()
try:
return self.__dht_range
finally:
self._unlock()
def update_dht_range(self, new_dht_range):
self._lock()
old_dht_range = self.__dht_range
self.__dht_range = new_dht_range
self._unlock()
old_dht_range.move_to_reservation()
dht_range = self.get_dht_range()
logger.info('New node range: %040x-%040x'%(dht_range.get_start(), dht_range.get_end()))
def check_dht_range(self, reinit=True):
if self.status == DS_INITIALIZE:
return
dht_range = self.get_dht_range()
if dht_range.get_subranges():
return
start = dht_range.get_start()
end = dht_range.get_end()
range_obj = self.ranges_table.find(start)
if not range_obj:
range_obj = self.ranges_table.find(end)
if not range_obj or range_obj.start != start or range_obj.end != end or range_obj.node_address != self.self_address:
msg = 'Invalid self range!'
if range_obj:
msg += ' hash table range - [%040x-%040x]%s... my range - [%040x-%040x]%s'%\
(range_obj.start, range_obj.end, range_obj.node_address, start, end, self.self_address)
else:
msg += 'Not found in hash table'
logger.info(msg)
if (not range_obj) or reinit:
logger.warning('DHT range on this node is not found in ranges_table')
if range_obj:
logger.info('Self range: %040x-%040x, In hash table: %040x-%040x(%s)'%\
(start, end, range_obj.start, range_obj.end, range_obj.node_address))
logger.info('Trying reinit node as DHT member...')
self.start_as_dht_member()
return True
def check_near_range(self, reinit_dht=False):
if self.status != DS_NORMALWORK:
return
failed_range = self.check_dht_range(reinit=reinit_dht)
if failed_range:
return
self._lock()
try:
self_dht_range = self.get_dht_range()
if self_dht_range.get_end() != MAX_HASH:
next_range = self.ranges_table.find(self_dht_range.get_end()+1)
if not next_range:
next_exists_range = self.ranges_table.find_next(self_dht_range.get_end()-1)
if next_exists_range:
end = next_exists_range.start-1
else:
end = MAX_HASH
new_dht_range = self_dht_range.extend(self_dht_range.get_end()+1, end)
self.update_dht_range(new_dht_range)
rm_lst = [(self_dht_range.get_start(), self_dht_range.get_end(), self.self_address)]
append_lst = [(new_dht_range.get_start(), new_dht_range.get_end(), self.self_address)]
logger.info('Extended range by next neighbours')
req = FabnetPacketRequest(method='UpdateHashRangeTable', \
sender=self.self_address, parameters={'append': append_lst, 'remove': rm_lst})
self.call_network(req)
return
first_range = self.ranges_table.find(MIN_HASH)
if not first_range:
first_range = self.ranges_table.get_first()
if not first_range:
return
if first_range.node_address == self.self_address:
new_dht_range = self_dht_range.extend(MIN_HASH, first_range.start-1)
self.update_dht_range(new_dht_range)
rm_lst = [(self_dht_range.get_start(), self_dht_range.get_end(), self.self_address)]
append_lst = [(new_dht_range.get_start(), new_dht_range.get_end(), self.self_address)]
logger.info('Extended range by first range')
req = FabnetPacketRequest(method='UpdateHashRangeTable', \
sender=self.self_address, parameters={'append': append_lst, 'remove': rm_lst})
self.call_network(req)
finally:
self._unlock()
def extend_range(self, subrange_size, start_key, end_key):
dht_range = self.get_dht_range()
if dht_range.get_subranges():
raise Exception('Local range is spliited at this time...')
subrange_size = int(subrange_size)
estimated_data_size_perc = dht_range.get_estimated_data_percents(subrange_size)
if estimated_data_size_perc >= Config.MAX_USED_SIZE_PERCENTS:
raise Exception('Subrange is so big for this node ;(')
old_range = self.ranges_table.find(start_key)
if old_range is None:
raise Exception('No "parent" range found for subrange [%040x-%040x] in distributed ranges table'%(start_key, end_key))
new_range = dht_range.extend(start_key, end_key)
if old_range.start < start_key:
new_foreign_range = (old_range.start, start_key-1, old_range.node_address)
else:
new_foreign_range = (end_key+1, old_range.end, old_range.node_address)
old_foreign_range = (old_range.start, old_range.end, old_range.node_address)
append_lst = [(new_range.get_start(), new_range.get_end(), self.self_address)]
append_lst.append(new_foreign_range)
rm_lst = [(dht_range.get_start(), dht_range.get_end(), self.self_address)]
rm_lst.append(old_foreign_range)
self.update_dht_range(new_range)
req = FabnetPacketRequest(method='UpdateHashRangeTable', \
sender=self.self_address,\
parameters={'append': append_lst, 'remove': rm_lst})
self.call_network(req)
def get_data_block_path(self, key, is_replica):
return self.get_dht_range().get_path(key, is_replica)
def delete_data_block(self, key, is_replica, user_id, carefully_delete=True):
self.get_dht_range().delete_data_block(key, is_replica, user_id, carefully_delete)
def get_tempfile(self):
return self.get_dht_range().tempfile()
def join_subranges(self):
self.get_dht_range().join_subranges()
def put_data_block(self, key, tempfile_path, is_replica, carefully_save):
self.get_dht_range().put(key, tempfile_path, is_replica, carefully_save)
def get_subranges(self):
self.get_dht_range().get_subranges()
def send_subrange_data(self, node_address):
dht_range = self.get_dht_range()
subranges = dht_range.get_subranges()
if not subranges:
raise Exception('Range is not splitted!')
ret_range, new_range = subranges
try:
logger.debug('Starting subrange data transfering to %s'% node_address)
for key, data in ret_range.iter_range():
params = {'key': key, 'carefully_save': True}
req = FabnetPacketRequest(method='PutDataBlock', \
sender=self.self_address, binary_data=data, sync=True,
parameters=params)
resp = self.call_node(node_address, req)
if resp.ret_code:
raise Exception('Init PutDataBlock operation on %s error. Details: %s'%(node_address, resp.ret_message))
new_range.save_range()
self.update_dht_range(new_range)
except Exception, err:
logger.error('send_subrange_data error: %s'%err)
dht_range.join_subranges()
raise err
ret_range._destroy(force=True)
append_lst = [(ret_range.get_start(), ret_range.get_end(), node_address)]
append_lst.append((new_range.get_start(), new_range.get_end(), self.self_address))
rm_lst = [(dht_range.get_start(), dht_range.get_end(), self.self_address)]
req = FabnetPacketRequest(method='UpdateHashRangeTable', \
sender=self.self_address,\
parameters={'append': append_lst, 'remove': rm_lst})
self.call_network(req)
