def start(self):
if self._started:
return
self._started = True
start_download_manager()
self.guide_addr = env.get(GUIDE_ADDR)
self.download_addr = env.get(DOWNLOAD_ADDR)
self.cache = Cache()
self.ctx = zmq.Context()
self.shared_uuid_fn_dict = _download_manager.shared_uuid_fn_dict
self.shared_uuid_map_dict = _download_manager.shared_uuid_map_dict
self.download_cond = _download_manager.download_cond
def __init__(self):
self.published = {}
self.cache = Cache()
self.host = socket.gethostname()
self.server_thread = None
random.seed(os.getpid() + int(time.time() * 1000) % 1000)
class P2PBroadcastManager(BroadcastManager):
def __init__(self):
self.published = {}
self.cache = Cache()
self.host = socket.gethostname()
self.server_thread = None
random.seed(os.getpid() + int(time.time() * 1000) % 1000)
def start(self, is_master):
if is_master:
self.guides = {}
self.guide_addr, self.guide_thread = self.start_guide()
env.register('BroadcastGuideAddr', self.guide_addr)
else:
self.guide_addr = env.get('BroadcastGuideAddr')
logger.debug("broadcast started: %s", self.guide_addr)
def shutdown(self):
sock = env.ctx.socket(zmq.REQ)
sock.setsockopt(zmq.LINGER, 0)
sock.connect(self.guide_addr)
sock.send_pyobj((GUIDE_STOP, None))
sock.recv_pyobj()
sock.close()
def register(self, uuid, value):
if uuid in self.published:
raise RuntimeError('broadcast %s has already registered' % uuid)
if not self.server_thread:
self.server_addr, self.server_thread = self.start_server()
blocks = self.to_blocks(uuid, value)
self.published[uuid] = blocks
self.guides[uuid] = {self.server_addr: [1] * len(blocks)}
self.cache.put(uuid, value)
return len(blocks)
def fetch(self, uuid, block_num):
if not self.server_thread:
self.server_addr, self.server_thread = self.start_server()
value = self.cache.get(uuid)
if value is not None:
return value
blocks = self.fetch_blocks(uuid, block_num)
value = self.from_blocks(uuid, blocks)
return value
def clear(self, uuid):
self.cache.put(uuid, None)
del self.published[uuid]
def fetch_blocks(self, uuid, block_num):
guide_sock = env.ctx.socket(zmq.REQ)
guide_sock.connect(self.guide_addr)
logger.debug("connect to guide %s", self.guide_addr)
blocks = [None] * block_num
bitmap = [0] * block_num
self.published[uuid] = blocks
def _report_bad(addr):
guide_sock.send_pyobj((GUIDE_REPORT_BAD, (uuid, addr)))
guide_sock.recv_pyobj()
def _fetch(addr, indices):
sock = env.ctx.socket(zmq.REQ)
try:
sock.setsockopt(zmq.LINGER, 0)
sock.connect(addr)
for i in indices:
sock.send_pyobj((SERVER_FETCH, (uuid, i)))
avail = sock.poll(5 * 1000, zmq.POLLIN)
if not avail:
logger.debug("%s recv broadcast %d from %s timeout",
self.server_addr, i, addr)
_report_bad(addr)
return
result, msg = sock.recv_pyobj()
if result == SERVER_FETCH_FAIL:
_report_bad(addr)
return
if result == SERVER_FETCH_OK:
id, block = msg
if i == id and block is not None:
blocks[id] = block
bitmap[id] = 1
else:
raise RuntimeError('Unknown server response: %s %s' %
(result, msg))
finally:
sock.close()
while not all(bitmap):
guide_sock.send_pyobj(
(GUIDE_SOURCES, (uuid, self.server_addr, bitmap)))
sources = guide_sock.recv_pyobj()
logger.debug("received SourceInfo from master: %s",
list(sources.keys()))
local = []
remote = []
for addr, _bitmap in six.iteritems(sources):
if addr.startswith('tcp://%s:' % self.host):
local.append((addr, _bitmap))
else:
remote.append((addr, _bitmap))
for addr, _bitmap in local:
indices = [
i for i in range(block_num) if not bitmap[i] and _bitmap[i]
]
if indices:
_fetch(addr, indices)
random.shuffle(remote)
for addr, _bitmap in remote:
indices = [
i for i in range(block_num) if not bitmap[i] and _bitmap[i]
]
if indices:
_fetch(addr, [random.choice(indices)])
guide_sock.close()
return blocks
def start_guide(self):
sock = env.ctx.socket(zmq.REP)
port = sock.bind_to_random_port("tcp://0.0.0.0")
guide_addr = "tcp://%s:%d" % (self.host, port)
def run():
logger.debug("guide start at %s", guide_addr)
while True:
type, msg = sock.recv_pyobj()
if type == GUIDE_STOP:
sock.send_pyobj(0)
break
elif type == GUIDE_SOURCES:
uuid, addr, bitmap = msg
sources = self.guides[uuid]
sock.send_pyobj(sources)
if any(bitmap):
sources[addr] = bitmap
elif type == GUIDE_REPORT_BAD:
uuid, addr = msg
sock.send_pyobj(0)
sources = self.guides[uuid]
if addr in sources:
del sources[addr]
else:
logger.error('Unknown guide message: %s %s', type, msg)
sock.close()
logger.debug("Sending stop notification to all servers ...")
for uuid, sources in six.iteritems(self.guides):
for addr in sources:
self.stop_server(addr)
return guide_addr, spawn(run)
def start_server(self):
sock = env.ctx.socket(zmq.REP)
sock.setsockopt(zmq.LINGER, 0)
port = sock.bind_to_random_port("tcp://0.0.0.0")
server_addr = 'tcp://%s:%d' % (self.host, port)
def run():
logger.debug("server started at %s", server_addr)
while True:
type, msg = sock.recv_pyobj()
logger.debug('server recv: %s %s', type, msg)
if type == SERVER_STOP:
sock.send_pyobj(None)
break
elif type == SERVER_FETCH:
uuid, id = msg
if uuid not in self.published:
sock.send_pyobj((SERVER_FETCH_FAIL, None))
else:
blocks = self.published[uuid]
if id >= len(blocks):
sock.send_pyobj((SERVER_FETCH_FAIL, None))
else:
sock.send_pyobj(
(SERVER_FETCH_OK, (id, blocks[id])))
else:
logger.error('Unknown server message: %s %s', type, msg)
sock.close()
logger.debug("stop Broadcast server %s", server_addr)
for uuid in list(self.published.keys()):
self.clear(uuid)
return server_addr, spawn(run)
def stop_server(self, addr):
req = env.ctx.socket(zmq.REQ)
req.setsockopt(zmq.LINGER, 0)
req.connect(addr)
req.send_pyobj((SERVER_STOP, None))
avail = req.poll(1 * 100, zmq.POLLIN)
if avail:
req.recv_pyobj()
req.close()
self.server_thread = None
class BroadcastManager(object):
header_fmt = '>BI'
header_len = struct.calcsize(header_fmt)
def __init__(self):
self._started = False
self.guide_addr = None
self.download_addr = None
self.cache = None
self.shared_uuid_fn_dict = None
self.shared_uuid_map_dict = None
self.download_cond = None
self.ctx = None
def start(self):
if self._started:
return
self._started = True
start_download_manager()
self.guide_addr = env.get(GUIDE_ADDR)
self.download_addr = env.get(DOWNLOAD_ADDR)
self.cache = Cache()
self.ctx = zmq.Context()
self.shared_uuid_fn_dict = _download_manager.shared_uuid_fn_dict
self.shared_uuid_map_dict = _download_manager.shared_uuid_map_dict
self.download_cond = _download_manager.download_cond
def register(self, uuid, value):
self.start()
if uuid in self.shared_uuid_fn_dict:
raise RuntimeError('broadcast %s has already registered' % uuid)
blocks, size, block_map = self.to_blocks(uuid, value)
_download_manager.register_blocks(uuid, blocks)
self._update_sources(uuid, block_map)
self.cache.put(uuid, value)
return size
def _update_sources(self, uuid, bitmap):
guide_sock = self.ctx.socket(zmq.REQ)
try:
guide_sock.setsockopt(zmq.LINGER, 0)
guide_sock.connect(self.guide_addr)
guide_sock.send_pyobj((GUIDE_SET_SOURCES,
(uuid, self.download_addr, bitmap)))
guide_sock.recv_pyobj()
finally:
guide_sock.close()
def clear(self, uuid):
assert self._started
self.cache.put(uuid, None)
sock = self.ctx.socket(zmq.REQ)
sock.connect(self.download_addr)
sock.send_pyobj((SERVER_CLEAR_ITEM, uuid))
sock.recv_pyobj()
sock.close()
def fetch(self, uuid, compressed_size):
start_download_manager()
self.start()
value = self.cache.get(uuid)
if value is not None:
return value
blocks = _download_manager.get_blocks(uuid)
if blocks is None:
blocks = self.fetch_blocks(uuid, compressed_size)
value = self.from_blocks(uuid, blocks)
return value
@staticmethod
def _get_blocks_by_filename(file_name, block_map):
fp = open(file_name, 'rb')
buf = fp.read()
blocks = [buf[offset: offset + size] for offset, size in block_map]
fp.close()
return blocks
def fetch_blocks(self, uuid, compressed_size):
if uuid in self.shared_uuid_fn_dict:
return self._get_blocks_by_filename(self.shared_uuid_fn_dict[uuid],
self.shared_uuid_map_dict[uuid])
download_sock = self.ctx.socket(zmq.REQ)
download_sock.connect(self.download_addr)
download_sock.send_pyobj((DATA_GET,
(uuid, compressed_size)))
res = download_sock.recv_pyobj()
if res == DATA_GET_OK:
return self._get_blocks_by_filename(self.shared_uuid_fn_dict[uuid],
self.shared_uuid_map_dict[uuid])
if res == DATA_GET_FAIL:
raise RuntimeError('Data GET failed for uuid:%s' % uuid)
while True:
with self.download_cond:
if uuid not in self.shared_uuid_fn_dict:
self.download_cond.wait()
else:
break
if uuid in self.shared_uuid_fn_dict:
return self._get_blocks_by_filename(self.shared_uuid_fn_dict[uuid],
self.shared_uuid_map_dict[uuid])
else:
raise RuntimeError('get blocks failed')
def to_blocks(self, uuid, obj):
try:
if marshalable(obj):
buf = marshal.dumps((uuid, obj))
type_ = MARSHAL_TYPE
else:
buf = cPickle.dumps((uuid, obj), -1)
type_ = PICKLE_TYPE
except Exception:
buf = cPickle.dumps((uuid, obj), -1)
type_ = PICKLE_TYPE
checksum = binascii.crc32(buf) & 0xFFFF
stream = struct.pack(self.header_fmt, type_, checksum) + buf
blockNum = (len(stream) + (BLOCK_SIZE - 1)) >> BLOCK_SHIFT
blocks = [compress(stream[i * BLOCK_SIZE:(i + 1) * BLOCK_SIZE]) for i in range(blockNum)]
sizes = [len(block) for block in blocks]
size_l = accumulate_list(sizes)
block_map = list(izip(size_l[:-1], sizes))
return blocks, size_l[-1], block_map
def from_blocks(self, uuid, blocks):
stream = b''.join(map(decompress, blocks))
type_, checksum = struct.unpack(self.header_fmt, stream[:self.header_len])
buf = stream[self.header_len:]
_checksum = binascii.crc32(buf) & 0xFFFF
if _checksum != checksum:
raise RuntimeError('Wrong blocks: checksum: %s, expected: %s' % (
_checksum, checksum))
if type_ == MARSHAL_TYPE:
_uuid, value = marshal.loads(buf)
elif type_ == PICKLE_TYPE:
_uuid, value = cPickle.loads(buf)
else:
raise RuntimeError('Unknown serialization type: %s' % type_)
if uuid != _uuid:
raise RuntimeError('Wrong blocks: uuid: %s, expected: %s' % (_uuid, uuid))
return value
def shutdown(self):
if not self._started:
return
self._started = False
def __init__(self):
self.published = {}
self.cache = Cache()
self.host = socket.gethostname()
self.server_thread = None
random.seed(os.getpid() + int(time.time() * 1000) % 1000)
class P2PBroadcastManager(BroadcastManager):
def __init__(self):
self.published = {}
self.cache = Cache()
self.host = socket.gethostname()
self.server_thread = None
random.seed(os.getpid() + int(time.time() * 1000) % 1000)
def start(self, is_master):
if is_master:
self.guides = {}
self.guide_addr, self.guide_thread = self.start_guide()
env.register('BroadcastGuideAddr', self.guide_addr)
else:
self.guide_addr = env.get('BroadcastGuideAddr')
logger.debug("broadcast started: %s", self.guide_addr)
def shutdown(self):
sock = env.ctx.socket(zmq.REQ)
sock.setsockopt(zmq.LINGER, 0)
sock.connect(self.guide_addr)
sock.send_pyobj((GUIDE_STOP, None))
sock.recv_pyobj()
sock.close()
def register(self, uuid, value):
if uuid in self.published:
raise RuntimeError('broadcast %s has already registered' % uuid)
if not self.server_thread:
self.server_addr, self.server_thread = self.start_server()
blocks = self.to_blocks(uuid, value)
self.published[uuid] = blocks
self.guides[uuid] = {self.server_addr: [1] * len(blocks)}
self.cache.put(uuid, value)
return len(blocks)
def fetch(self, uuid, block_num):
if not self.server_thread:
self.server_addr, self.server_thread = self.start_server()
value = self.cache.get(uuid)
if value is not None:
return value
blocks = self.fetch_blocks(uuid, block_num)
value = self.from_blocks(uuid, blocks)
return value
def clear(self, uuid):
self.cache.put(uuid, None)
del self.published[uuid]
def fetch_blocks(self, uuid, block_num):
guide_sock = env.ctx.socket(zmq.REQ)
guide_sock.connect(self.guide_addr)
logger.debug("connect to guide %s", self.guide_addr)
blocks = [None] * block_num
bitmap = [0] * block_num
self.published[uuid] = blocks
def _report_bad(addr):
guide_sock.send_pyobj((GUIDE_REPORT_BAD, (uuid, addr)))
guide_sock.recv_pyobj()
def _fetch(addr, indices):
sock = env.ctx.socket(zmq.REQ)
try:
sock.setsockopt(zmq.LINGER, 0)
sock.connect(addr)
for i in indices:
sock.send_pyobj((SERVER_FETCH, (uuid, i)))
avail = sock.poll(5 * 1000, zmq.POLLIN)
if not avail:
logger.debug("%s recv broadcast %d from %s timeout",
self.server_addr, i, addr)
_report_bad(addr)
return
result, msg = sock.recv_pyobj()
if result == SERVER_FETCH_FAIL:
_report_bad(addr)
return
if result == SERVER_FETCH_OK:
id, block = msg
if i == id and block is not None:
blocks[id] = block
bitmap[id] = 1
else:
raise RuntimeError(
'Unknown server response: %s %s' % (result, msg))
finally:
sock.close()
while not all(bitmap):
guide_sock.send_pyobj((GUIDE_SOURCES, (uuid, self.server_addr,
bitmap)))
sources = guide_sock.recv_pyobj()
logger.debug("received SourceInfo from master: %s", sources.keys())
local = []
remote = []
for addr, _bitmap in sources.iteritems():
if addr.startswith('tcp://%s:' % self.host):
local.append((addr, _bitmap))
else:
remote.append((addr, _bitmap))
for addr, _bitmap in local:
indices = [
i for i in xrange(block_num)
if not bitmap[i] and _bitmap[i]
]
if indices:
_fetch(addr, indices)
random.shuffle(remote)
for addr, _bitmap in remote:
indices = [
i for i in xrange(block_num)
if not bitmap[i] and _bitmap[i]
]
if indices:
_fetch(addr, [random.choice(indices)])
guide_sock.close()
return blocks
def start_guide(self):
sock = env.ctx.socket(zmq.REP)
port = sock.bind_to_random_port("tcp://0.0.0.0")
guide_addr = "tcp://%s:%d" % (self.host, port)
def run():
logger.debug("guide start at %s", guide_addr)
while True:
type, msg = sock.recv_pyobj()
if type == GUIDE_STOP:
sock.send_pyobj(0)
break
elif type == GUIDE_SOURCES:
uuid, addr, bitmap = msg
sources = self.guides[uuid]
sock.send_pyobj(sources)
if any(bitmap):
sources[addr] = bitmap
elif type == GUIDE_REPORT_BAD:
uuid, addr = msg
sock.send_pyobj(0)
sources = self.guides[uuid]
if addr in sources:
del sources[addr]
else:
logger.error('Unknown guide message: %s %s', type, msg)
sock.close()
logger.debug("Sending stop notification to all servers ...")
for uuid, sources in self.guides.iteritems():
for addr in sources:
self.stop_server(addr)
return guide_addr, spawn(run)
def start_server(self):
sock = env.ctx.socket(zmq.REP)
sock.setsockopt(zmq.LINGER, 0)
port = sock.bind_to_random_port("tcp://0.0.0.0")
server_addr = 'tcp://%s:%d' % (self.host, port)
def run():
logger.debug("server started at %s", server_addr)
while True:
type, msg = sock.recv_pyobj()
logger.debug('server recv: %s %s', type, msg)
if type == SERVER_STOP:
sock.send_pyobj(None)
break
elif type == SERVER_FETCH:
uuid, id = msg
if uuid not in self.published:
sock.send_pyobj((SERVER_FETCH_FAIL, None))
else:
blocks = self.published[uuid]
if id >= len(blocks):
sock.send_pyobj((SERVER_FETCH_FAIL, None))
else:
sock.send_pyobj((SERVER_FETCH_OK, (id,
blocks[id])))
else:
logger.error('Unknown server message: %s %s', type, msg)
sock.close()
logger.debug("stop Broadcast server %s", server_addr)
for uuid in self.published.keys():
self.clear(uuid)
return server_addr, spawn(run)
def stop_server(self, addr):
req = env.ctx.socket(zmq.REQ)
req.setsockopt(zmq.LINGER, 0)
req.connect(addr)
req.send_pyobj((SERVER_STOP, None))
avail = req.poll(1 * 100, zmq.POLLIN)
if avail:
req.recv_pyobj()
req.close()
class Broadcast:
initialized = False
is_master = False
cache = Cache()
broadcastFactory = None
BlockSize = 1024 * 1024
def __init__(self, value, is_local):
assert value is not None, 'broadcast object should not been None'
self.uuid = str(uuid.uuid4())
self.value = value
self.is_local = is_local
self.bytes = 0
self.stopped = False
if is_local:
if not self.cache.put(self.uuid, value):
raise Exception('object %s is too big to cache', repr(value))
else:
self.send()
def clear(self):
self.stopped = True
self.cache.put(self.uuid, None)
if hasattr(self, 'value'):
delattr(self, 'value')
def __getstate__(self):
return (self.uuid, self.bytes,
self.value if self.bytes < self.BlockSize / 20 else None)
def __setstate__(self, v):
self.stopped = False
self.uuid, self.bytes, value = v
if value is not None:
self.value = value
def __getattr__(self, name):
if name != 'value':
return getattr(self.value, name)
if self.stopped:
raise SystemExit("broadcast has been cleared")
# in the executor process, Broadcast is not initialized
if not self.initialized:
raise AttributeError(name)
uuid = self.uuid
value = self.cache.get(uuid)
if value is not None:
self.value = value
return value
oldtitle = getproctitle()
setproctitle('dpark worker: broadcasting ' + uuid)
value = self.recv()
if value is None:
raise Exception("recv broadcast failed")
self.value = value
self.cache.put(uuid, value)
setproctitle(oldtitle)
return value
def send(self):
raise NotImplementedError
def recv(self):
raise NotImplementedError
def blockifyObject(self, obj):
try:
buf = marshal.dumps(obj)
except Exception:
buf = cPickle.dumps(obj, -1)
N = self.BlockSize
blockNum = len(buf) / N + 1
val = [
Block(i, compress(buf[i * N:i * N + N])) for i in range(blockNum)
]
return val, len(buf)
def unBlockifyObject(self, blocks):
s = ''.join(decompress(b.data) for b in blocks)
try:
return marshal.loads(s)
except Exception:
return cPickle.loads(s)
@classmethod
def initialize(cls, is_master):
if cls.initialized:
return
cls.initialized = True
cls.is_master = is_master
cls.host = socket.gethostname()
logger.debug("Broadcast initialized")
@classmethod
def shutdown(cls):
pass
