Some useful tools for I2P
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##
## i2p netdb parser
##
## Author: Jeff
## MIT Liecense 2014
##
import os,sys,struct,time,hashlib,fnmatch,io
import base64
import logging
import pygeoip
geo = pygeoip.GeoIP('/usr/share/GeoIP/GeoIPCity.dat')
b64encode = lambda x : base64.b64encode(x, b'~-').decode('ascii')
def sha256(data,raw=True):
"""
compute sha256 of data
"""
h = hashlib.new('sha256')
h.update(data)
if raw:
return h.digest()
else:
return h.hexdigest()
class Inspector:
_log = logging.getLogger('NDBInspector')
def inspect(self, entry):
pass
def run(self, ndb):
entry_counter = 0
for root, dirnames, filenames in os.walk(ndb):
for filename in fnmatch.filter(filenames, '*.dat'):
fname = os.path.join(root, filename)
e = Entry(fname)
e.verify()
if e.valid:
entry_counter += 1
self.inspect(e)
else:
self._log.warn('invalid entry in file {}'.format(fname))
self._log.info('read {} entries'.format(entry_counter))
class Address:
"""
netdb address
"""
cost = None
transport = None
options = None
expire = None
location = None
def valid(self):
return None not in (self.cost, self.transport, self.options, self.expire)
def __repr__(self):
return 'Address: transport={} cost={} expire={} options={} location={} firewalled={}' \
.format(self.transport, self.cost, self.expire, self.options, self.location, self.firewalled)
class Entry:
"""
netdb entry
"""
_pubkey_size = 256
_signkey_size = 128
_min_cert_size = 3
_log = logging.getLogger('NDBEntry')
@staticmethod
def _read_short(fd):
Entry._log.debug('read_short')
d = Entry._read(fd, 2)
if d:
return struct.unpack('!H',d)[0]
@staticmethod
def _read_mapping(fd):
Entry._log.debug('read_mapping')
mapping = dict()
tsize = Entry._read_short(fd)
if tsize is None:
return
data = Entry._read(fd, tsize)
if data is None:
return
sfd = io.BytesIO(data)
ind = 0
while ind < tsize:
Entry._log.debug(ind)
key = Entry._read_string(sfd)
if key is None:
return
Entry._log.debug(['key', key])
ind += len(key) + 2
Entry._read_byte(sfd)
val = Entry._read_string(sfd)
if val is None:
return
Entry._log.debug(['val',val])
ind += len(val) + 2
Entry._read_byte(sfd)
#key = key[:-1]
#val = val[:-1]
if key in mapping:
v = mapping[key]
if isinstance(v,list):
mapping[key].append(val)
else:
mapping[key] = [v,val]
else:
mapping[key] = val
return mapping
@staticmethod
def _read(fd, amount):
dat = fd.read(amount)
Entry._log.debug('read %d of %d bytes' % (len(dat), amount))
if len(dat) == amount:
return dat
@staticmethod
def _read_byte(fd):
b = Entry._read(fd,1)
if b:
return struct.unpack('!B', b)[0]
@staticmethod
def _read_two_bytes(fd):
b = Entry._read(fd,2)
if b:
return struct.unpack('!H', b)[0]
@staticmethod
def _read_string(fd):
Entry._log.debug('read_string')
slen = Entry._read_byte(fd)
if slen:
return Entry._read(fd, slen)
@staticmethod
def _read_time(fd):
d = Entry._read(fd, 8)
if d:
li = struct.unpack('!Q', d)[0]
return li
@staticmethod
def geolookup(entry):
return geo.record_by_addr(entry)
@staticmethod
def _read_addr(fd):
"""
load next router address
"""
Entry._log.debug('read_addr')
addr = Address()
addr.cost = Entry._read_byte(fd)
addr.expire = Entry._read_time(fd)
addr.transport = Entry._read_string(fd)
addr.options = Entry._read_mapping(fd)
addr.firewalled = False
if addr.valid():
# This is a try because sometimes hostnames show up.
# TODO: Make it allow host names.
try:
addr.location = geolookup(addr.options.get('host', None))
except:
addr.location = None
# If the router is firewalled (i.e. has no 'host' mapping), then use the first introducer (of 3).
# In the future it might be worth it to do something else, but this helps for geopip information for now.
# http://i2p-projekt.i2p/en/docs/transport/ssu#ra
if not addr.location:
# If there are introducers then it's probably firewalled.
addr.firewalled = True
try:
addr.location = geolookup(addr.options.get('ihost0', None))
except:
addr.location = None
return addr
def __init__(self, filename):
"""
construct a NetDB Entry from a file
"""
self.addrs = list()
self.options = dict()
self.pubkey = None
self.signkey = None
self.cert = None
self.published = None
self.signature = None
self.peer_size = None
self.valid = False
try:
with open(filename, 'rb') as fr:
self._log.debug('load from file {}'.format(filename))
self._load(fr)
#self.routerHash =
except (IOError, OSError) as e:
self._log.debug('load from file {} failed'.format(filename))
def _load(self, fd):
"""
load from file descriptor
More docs: http://i2p-projekt.i2p/en/docs/spec/common-structures#struct_RouterInfo
"""
# router identity http://i2p-projekt.i2p/en/docs/spec/common-structures#struct_RouterIdentity
# Do not assume that these are always 387 bytes!
# There are 387 bytes plus the certificate length specified at bytes 385-386, which may be non-zero.
# Subtract because read the Certificate on it's own.
data = self._read(fd, 387-self._min_cert_size)
if data is None:
return
ind = 0
# public key
self.pubkey = sha256(data[ind:ind+self._pubkey_size])
ind += self._pubkey_size
# signing key (we hash this later due to RI changes in 0.9.12)
self.signkey = data[ind:ind+self._signkey_size]
ind + self._signkey_size
# certificate
self.cert = dict()
# If it's not null, follow what happens here: http://i2p-projekt.i2p/en/docs/spec/common-structures#type_Certificate
cert_type = self._read_byte(fd)
cert_len = self._read_two_bytes(fd)
if cert_type == 5 and cert_len != 0: # New format where extra information is in the cert.
spkt = self._read_two_bytes(fd)
cpkt = self._read_two_bytes(fd)
if spkt == 0:
self.cert['signature_type'],cert_padding,cert_extra = 'DSA_SHA1',0,0
elif spkt == 1:
self.cert['signature_type'],cert_padding,cert_extra = 'ECDSA_SHA256_P256',64,0
elif spkt == 2:
self.cert['signature_type'],cert_padding,cert_extra = 'ECDSA_SHA384_P384',32,0
elif spkt == 3:
self.cert['signature_type'],cert_padding,cert_extra = 'ECDSA_SHA512_P521',0,4
elif spkt == 4:
self.cert['signature_type'],cert_padding,cert_extra = 'RSA_SHA256_2048',0,128
elif spkt == 5:
self.cert['signature_type'],cert_padding,cert_extra = 'RSA_SHA384_3072',0,256
elif spkt == 6:
self.cert['signature_type'],cert_padding,cert_extra = 'RSA_SHA512_4096',0,384
elif spkt == 7:
self.cert['signature_type'],cert_padding,cert_extra = 'EdDSA_SHA512_Ed25519',96,0
else:
Entry._log.debug('Bad cert sign type.')
return
# This is always going to be 0 (as of 0.9.19), but future versions can add more crypto types.
if cpkt == 0:
self.cert['crypto_type'] = 'ElGamal'
else:
Entry._log.debug('Bad cert crypto type.')
return
else: # Old format where information is all in the main part.
self.cert['signature_type'],cert_padding,cert_extra = 'DSA_SHA1',0,0
self.cert['crypto_type'] = 'ElGamal'
# Parse public key properly (http://i2p-projekt.i2p/en/docs/spec/common-structures#type_Certificate)
if cert_padding > 0:
self.signkey = self.signkey[cert_padding:]
if cert_extra > 0:
self.signkey += self._read(fd,cert_extra)
Entry._log.debug('parsed cert, sig type {}, crypto type {}.'.format(self.cert['signature_type'], self.cert['crypto_type']))
self.signkey = sha256(self.signkey)
# date published
self.published = self._read_time(fd)
if self.published is None:
return
# reachable addresses
self.addrs = list()
addrlen = self._read_byte(fd)
if addrlen is None:
return
for n in range(addrlen):
addr = self._read_addr(fd)
if addr is None:
return
self.addrs.append(addr)
# peer size
self.peer_size = self._read_byte(fd)
if self.peer_size is None:
return
# other options
self.options = self._read_mapping(fd)
if self.options is None:
return
# signature
self.signature = sha256(self._read(fd, 40))
if self.signature is None:
return
self.valid = True
def verify(self):
"""
verify router identity
"""
#TODO: verify
def __repr__(self):
val = str()
val += 'NetDB Entry '
val += 'pubkey={} '.format(b64encode(self.pubkey))
val += 'signkey={} '.format(b64encode(self.signkey))
val += 'options={} '.format(self.options)
val += 'addrs={} '.format(self.addrs)
val += 'cert={} '.format(self.cert)
val += 'published={} '.format(self.published)
val += 'signature={}'.format(b64encode(self.signature))
return val
def dict(self):
"""
return dictionary in old format
"""
return dict({
'pubkey':b64encode(self.pubkey),
'signkey':b64encode(self.signkey),
'options':self.options,
'addrs':self.addrs,
'cert':self.cert,
'published':self.published,
'signature':b64encode(self.signature)
})
def inspect(hook=None,netdb_dir=os.path.join(os.environ['HOME'],'.i2pd','netDb')):
"""
iterate through the netdb
parameters:
hook - function taking 1 parameter
- the 1 parameter is a dictionary containing the info
of a netdb enrty
- called on every netdb entry
netdb_dir - path to netdb folder
- defaults to $HOME/.i2pd/netDb/
"""
insp = Inspector()
if hook is not None:
insp.inspect = hook
insp.run(netdb_dir)