import logging from binascii import hexlify from . import constants from .distance import Distance from .error import BucketFull import sys if sys.version_info > (3,): long = int log = logging.getLogger(__name__) class KBucket: """ Description - later """ def __init__(self, rangeMin, rangeMax, node_id): """ @param rangeMin: The lower boundary for the range in the n-bit ID space covered by this k-bucket @param rangeMax: The upper boundary for the range in the ID space covered by this k-bucket """ self.lastAccessed = 0 self.rangeMin = rangeMin self.rangeMax = rangeMax self._contacts = list() self._node_id = node_id def addContact(self, contact): """ Add contact to _contact list in the right order. This will move the contact to the end of the k-bucket if it is already present. @raise kademlia.kbucket.BucketFull: Raised when the bucket is full and the contact isn't in the bucket already @param contact: The contact to add @type contact: dht.contact._Contact """ if contact in self._contacts: # Move the existing contact to the end of the list # - using the new contact to allow add-on data # (e.g. optimization-specific stuff) to pe updated as well self._contacts.remove(contact) self._contacts.append(contact) elif len(self._contacts) < constants.k: self._contacts.append(contact) else: raise BucketFull("No space in bucket to insert contact") def getContact(self, contactID): """Get the contact specified node ID @raise IndexError: raised if the contact is not in the bucket @param contactID: the node id of the contact to retrieve @type contactID: str @rtype: dht.contact._Contact """ for contact in self._contacts: if contact.id == contactID: return contact raise IndexError(contactID) def getContacts(self, count=-1, excludeContact=None, sort_distance_to=None): """ Returns a list containing up to the first count number of contacts @param count: The amount of contacts to return (if 0 or less, return all contacts) @type count: int @param excludeContact: A node id to exclude; if this contact is in the list of returned values, it will be discarded before returning. If a C{str} is passed as this argument, it must be the contact's ID. @type excludeContact: str @param sort_distance_to: Sort distance to the id, defaulting to the parent node id. If False don't sort the contacts @raise IndexError: If the number of requested contacts is too large @return: Return up to the first count number of contacts in a list If no contacts are present an empty is returned @rtype: list """ contacts = [contact for contact in self._contacts if contact.id != excludeContact] # Return all contacts in bucket if count <= 0: count = len(contacts) # Get current contact number currentLen = len(contacts) # If count greater than k - return only k contacts if count > constants.k: count = constants.k if not currentLen: return contacts if sort_distance_to is False: pass else: sort_distance_to = sort_distance_to or self._node_id contacts.sort(key=lambda c: Distance(sort_distance_to)(c.id)) return contacts[:min(currentLen, count)] def getBadOrUnknownContacts(self): contacts = self.getContacts(sort_distance_to=False) results = [contact for contact in contacts if contact.contact_is_good is False] results.extend(contact for contact in contacts if contact.contact_is_good is None) return results def removeContact(self, contact): """ Remove the contact from the bucket @param contact: The contact to remove @type contact: dht.contact._Contact @raise ValueError: The specified contact is not in this bucket """ self._contacts.remove(contact) def keyInRange(self, key): """ Tests whether the specified key (i.e. node ID) is in the range of the n-bit ID space covered by this k-bucket (in otherwords, it returns whether or not the specified key should be placed in this k-bucket) @param key: The key to test @type key: str or int @return: C{True} if the key is in this k-bucket's range, or C{False} if not. @rtype: bool """ assert type(key) in [long, bytes], "{} is {}".format(key, type(key)) # fixme: _maybe_ remove this after porting if isinstance(key, bytes): key = long(hexlify(key), 16) return self.rangeMin <= key < self.rangeMax def __len__(self): return len(self._contacts) def __contains__(self, item): return item in self._contacts