import collections from threading import current_thread, enumerate as threadingEnumerate, RLock import time from helper_sql import * from singleton import Singleton @Singleton class Inventory(collections.MutableMapping): def __init__(self): super(self.__class__, self).__init__() self._inventory = {} #of objects (like msg payloads and pubkey payloads) Does not include protocol headers (the first 24 bytes of each packet). self.numberOfInventoryLookupsPerformed = 0 self._streams = collections.defaultdict(set) # key = streamNumer, value = a set which holds the inventory object hashes that we are aware of. This is used whenever we receive an inv message from a peer to check to see what items are new to us. We don't delete things out of it; instead, the singleCleaner thread clears and refills it every couple hours. self.lock = RLock() # Guarantees that two receiveDataThreads don't receive and process the same message concurrently (probably sent by a malicious individual) self.InventoryItem = collections.namedtuple('InventoryItem', 'type stream payload expires tag') def __contains__(self, hash): with self.lock: self.numberOfInventoryLookupsPerformed += 1 if hash in self._inventory: return True return bool(sqlQuery('SELECT 1 FROM inventory WHERE hash=?', hash)) def __getitem__(self, hash): with self.lock: if hash in self._inventory: return self._inventory[hash] rows = sqlQuery('SELECT objecttype, streamnumber, payload, expirestime, tag FROM inventory WHERE hash=?', hash) if not rows: raise KeyError(hash) return self.InventoryItem(*rows[0]) def __setitem__(self, hash, value): with self.lock: value = self.InventoryItem(*value) self._inventory[hash] = value self._streams[value.stream].add(hash) PendingDownload().delete(hash) def __delitem__(self, hash): raise NotImplementedError def __iter__(self): with self.lock: hashes = self._inventory.keys()[:] hashes += (x for x, in sqlQuery('SELECT hash FROM inventory')) return hashes.__iter__() def __len__(self): with self.lock: return len(self._inventory) + sqlQuery('SELECT count(*) FROM inventory')[0][0] def by_type_and_tag(self, type, tag): with self.lock: values = [value for value in self._inventory.values() if value.type == type and value.tag == tag] values += (self.InventoryItem(*value) for value in sqlQuery('SELECT objecttype, streamnumber, payload, expirestime, tag FROM inventory WHERE objecttype=? AND tag=?', type, tag)) return values def hashes_by_stream(self, stream): with self.lock: return self._streams[stream] def unexpired_hashes_by_stream(self, stream): with self.lock: t = int(time.time()) hashes = [x for x, value in self._inventory.items() if value.stream == stream and value.expires > t] hashes += (payload for payload, in sqlQuery('SELECT hash FROM inventory WHERE streamnumber=? AND expirestime>?', stream, t)) return hashes def flush(self): with self.lock: # If you use both the inventoryLock and the sqlLock, always use the inventoryLock OUTSIDE of the sqlLock. with SqlBulkExecute() as sql: for objectHash, value in self._inventory.items(): sql.execute('INSERT INTO inventory VALUES (?, ?, ?, ?, ?, ?)', objectHash, *value) self._inventory.clear() def clean(self): with self.lock: sqlExecute('DELETE FROM inventory WHERE expirestime 0) def pull(self, count=1): if count < 1: raise ValueError("Must be at least one") objectHashes = [] unreachableObjects = [] if self.stopped: return objectHashes start = time.time() try: for objectHash in self.hashes.keys(): with self.lock: if len(objectHashes) >= count: break if current_thread().peer not in self.pending: self.addPending() if (self.pending[current_thread().peer]['requested'] >= time.time() - self.frequency or \ self.pending[current_thread().peer]['received'] >= time.time() - self.frequency) and \ len(self.pending[current_thread().peer]['objects']) >= count: break if len(self.hashes[objectHash]['peers']) == 0: unreachableObjects.append(objectHash) continue # requested too long ago or not at all from any thread if self.hashes[objectHash]['requested'] < time.time() - self.frequency: # ready requested from this thread but haven't received yet if objectHash in self.pending[current_thread().peer]['objects']: # if still sending or receiving, request next if self.pending[current_thread().peer]['received'] >= time.time() - self.frequency or \ self.pending[current_thread().peer]['requested'] >= time.time() - self.frequency: continue # haven't requested or received anything recently, re-request (i.e. continue) # the current node doesn't have the object elif current_thread().peer not in self.hashes[objectHash]['peers']: continue # already requested too many times, remove all signs of this object if self.hashes[objectHash]['requestedCount'] >= self.maxRequestCount: del self.hashes[objectHash] for thread in self.pending.keys(): if objectHash in self.pending[thread]['objects']: self.pending[thread]['objects'].remove(objectHash) continue # all ok, request objectHashes.append(objectHash) self.hashes[objectHash]['requested'] = time.time() self.hashes[objectHash]['requestedCount'] += 1 self.pending[current_thread().peer]['requested'] = time.time() self.addPending(objectHash) except (RuntimeError, KeyError, ValueError): # the for cycle sometimes breaks if you remove elements pass for objectHash in unreachableObjects: with self.lock: if objectHash in self.hashes: del self.hashes[objectHash] # logger.debug("Pull took %.3f seconds", time.time() - start) return objectHashes def delete(self, objectHash): with self.lock: if objectHash in self.hashes: del self.hashes[objectHash] if hasattr(current_thread(), 'peer') and current_thread().peer in self.pending: self.pending[current_thread().peer]['received'] = time.time() for thread in self.pending.keys(): with self.lock: if thread in self.pending and objectHash in self.pending[thread]['objects']: self.pending[thread]['objects'].remove(objectHash) def stop(self): with self.lock: self.hashes = {} self.pending = {} def threadEnd(self): while True: try: with self.lock: if current_thread().peer in self.pending: for objectHash in self.pending[current_thread().peer]['objects']: if objectHash in self.hashes: self.hashes[objectHash]['peers'].remove(current_thread().peer) except (KeyError): pass else: break with self.lock: try: del self.pending[current_thread().peer] except KeyError: pass class PendingUploadDeadlineException(Exception): pass @Singleton class PendingUpload(object): # keep a track of objects that we have created but haven't distributed yet def __init__(self): super(self.__class__, self).__init__() self.lock = RLock() self.hashes = {} # end by this time in any case self.deadline = 0 self.maxLen = 0 def add(self, objectHash = None): with self.lock: # add a new object into existing thread lists if objectHash: if objectHash not in self.hashes: self.hashes[objectHash] = [] for thread in threadingEnumerate(): if thread.isAlive() and hasattr(thread, 'peer') and \ thread.peer not in self.hashes[objectHash]: self.hashes[objectHash].append(thread.peer) # add all objects into the current thread else: for objectHash in self.hashes: if current_thread().peer not in self.hashes[objectHash]: self.hashes[objectHash].append(current_thread().peer) def len(self): with self.lock: return sum(len(self.hashes[x]) > 0 for x in self.hashes) def _progress(self): with self.lock: return float(sum(len(self.hashes[x]) for x in self.hashes)) def progress(self, throwDeadline=True): if self.maxLen < self._progress(): self.maxLen = self._progress() if self.deadline < time.time(): if self.deadline > 0 and throwDeadline: raise PendingUploadDeadlineException self.deadline = time.time() + 20 try: return 1.0 - self._progress() / self.maxLen except ZeroDivisionError: return 1.0 def delete(self, objectHash): if not hasattr(current_thread(), 'peer'): return with self.lock: if objectHash in self.hashes and current_thread().peer in self.hashes[objectHash]: self.hashes[objectHash].remove(current_thread().peer) if len(self.hashes[objectHash]) == 0: del self.hashes[objectHash] def stop(self): with self.lock: self.hashes = {} def threadEnd(self): while True: try: with self.lock: for objectHash in self.hashes: if current_thread().peer in self.hashes[objectHash]: self.hashes[objectHash].remove(current_thread().peer) if len(self.hashes[objectHash]) == 0: del self.hashes[objectHash] except (KeyError, RuntimeError): pass else: break