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Direktori : /proc/self/root/opt/alt/python35/lib64/python3.5/site-packages/maxminddb/ |
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""" maxminddb.reader ~~~~~~~~~~~~~~~~ This module contains the pure Python database reader and related classes. """ from __future__ import unicode_literals try: import mmap except ImportError: # pylint: disable=invalid-name mmap = None import struct from maxminddb.compat import byte_from_int, compat_ip_address from maxminddb.const import MODE_AUTO, MODE_MMAP, MODE_FILE, MODE_MEMORY from maxminddb.decoder import Decoder from maxminddb.errors import InvalidDatabaseError from maxminddb.file import FileBuffer class Reader(object): """ Instances of this class provide a reader for the MaxMind DB format. IP addresses can be looked up using the ``get`` method. """ _DATA_SECTION_SEPARATOR_SIZE = 16 _METADATA_START_MARKER = b"\xAB\xCD\xEFMaxMind.com" _ipv4_start = None def __init__(self, database, mode=MODE_AUTO): """Reader for the MaxMind DB file format Arguments: database -- A path to a valid MaxMind DB file such as a GeoIP2 database file. mode -- mode to open the database with. Valid mode are: * MODE_MMAP - read from memory map. * MODE_FILE - read database as standard file. * MODE_MEMORY - load database into memory. * MODE_AUTO - tries MODE_MMAP and then MODE_FILE. Default. """ # pylint: disable=redefined-variable-type if (mode == MODE_AUTO and mmap) or mode == MODE_MMAP: with open(database, 'rb') as db_file: self._buffer = mmap.mmap( db_file.fileno(), 0, access=mmap.ACCESS_READ) self._buffer_size = self._buffer.size() elif mode in (MODE_AUTO, MODE_FILE): self._buffer = FileBuffer(database) self._buffer_size = self._buffer.size() elif mode == MODE_MEMORY: with open(database, 'rb') as db_file: self._buffer = db_file.read() self._buffer_size = len(self._buffer) else: raise ValueError( 'Unsupported open mode ({0}). Only MODE_AUTO, ' ' MODE_FILE, and MODE_MEMORY are support by the pure Python ' 'Reader'.format(mode)) metadata_start = self._buffer.rfind( self._METADATA_START_MARKER, max(0, self._buffer_size - 128 * 1024)) if metadata_start == -1: self.close() raise InvalidDatabaseError('Error opening database file ({0}). ' 'Is this a valid MaxMind DB file?' ''.format(database)) metadata_start += len(self._METADATA_START_MARKER) metadata_decoder = Decoder(self._buffer, metadata_start) (metadata, _) = metadata_decoder.decode(metadata_start) self._metadata = Metadata(**metadata) # pylint: disable=bad-option-value self._decoder = Decoder(self._buffer, self._metadata.search_tree_size + self._DATA_SECTION_SEPARATOR_SIZE) def metadata(self): """Return the metadata associated with the MaxMind DB file""" return self._metadata def get(self, ip_address): """Return the record for the ip_address in the MaxMind DB Arguments: ip_address -- an IP address in the standard string notation """ address = compat_ip_address(ip_address) if address.version == 6 and self._metadata.ip_version == 4: raise ValueError( 'Error looking up {0}. You attempted to look up ' 'an IPv6 address in an IPv4-only database.'.format(ip_address)) pointer = self._find_address_in_tree(address) return self._resolve_data_pointer(pointer) if pointer else None def _find_address_in_tree(self, ip_address): packed = bytearray(ip_address.packed) bit_count = len(packed) * 8 node = self._start_node(bit_count) for i in range(bit_count): if node >= self._metadata.node_count: break bit = 1 & (packed[i >> 3] >> 7 - (i % 8)) node = self._read_node(node, bit) if node == self._metadata.node_count: # Record is empty return 0 elif node > self._metadata.node_count: return node raise InvalidDatabaseError('Invalid node in search tree') def _start_node(self, length): if self._metadata.ip_version != 6 or length == 128: return 0 # We are looking up an IPv4 address in an IPv6 tree. Skip over the # first 96 nodes. if self._ipv4_start: return self._ipv4_start node = 0 for _ in range(96): if node >= self._metadata.node_count: break node = self._read_node(node, 0) self._ipv4_start = node return node def _read_node(self, node_number, index): base_offset = node_number * self._metadata.node_byte_size record_size = self._metadata.record_size if record_size == 24: offset = base_offset + index * 3 node_bytes = b'\x00' + self._buffer[offset:offset + 3] elif record_size == 28: (middle, ) = struct.unpack( b'!B', self._buffer[base_offset + 3:base_offset + 4]) if index: middle &= 0x0F else: middle = (0xF0 & middle) >> 4 offset = base_offset + index * 4 node_bytes = byte_from_int(middle) + self._buffer[offset:offset + 3] elif record_size == 32: offset = base_offset + index * 4 node_bytes = self._buffer[offset:offset + 4] else: raise InvalidDatabaseError('Unknown record size: {0}'.format( record_size)) return struct.unpack(b'!I', node_bytes)[0] def _resolve_data_pointer(self, pointer): resolved = pointer - self._metadata.node_count + \ self._metadata.search_tree_size if resolved > self._buffer_size: raise InvalidDatabaseError( "The MaxMind DB file's search tree is corrupt") (data, _) = self._decoder.decode(resolved) return data def close(self): """Closes the MaxMind DB file and returns the resources to the system""" # pylint: disable=unidiomatic-typecheck if type(self._buffer) not in (str, bytes): self._buffer.close() class Metadata(object): """Metadata for the MaxMind DB reader""" # pylint: disable=too-many-instance-attributes def __init__(self, **kwargs): """Creates new Metadata object. kwargs are key/value pairs from spec""" # Although I could just update __dict__, that is less obvious and it # doesn't work well with static analysis tools and some IDEs self.node_count = kwargs['node_count'] self.record_size = kwargs['record_size'] self.ip_version = kwargs['ip_version'] self.database_type = kwargs['database_type'] self.languages = kwargs['languages'] self.binary_format_major_version = kwargs[ 'binary_format_major_version'] self.binary_format_minor_version = kwargs[ 'binary_format_minor_version'] self.build_epoch = kwargs['build_epoch'] self.description = kwargs['description'] @property def node_byte_size(self): """The size of a node in bytes""" return self.record_size // 4 @property def search_tree_size(self): """The size of the search tree""" return self.node_count * self.node_byte_size def __repr__(self): args = ', '.join('%s=%r' % x for x in self.__dict__.items()) return '{module}.{class_name}({data})'.format( module=self.__module__, class_name=self.__class__.__name__, data=args)