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exclude_badExits/exclude_badExits.py

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# -*- mode: python; indent-tabs-mode: nil; py-indent-offset: 4; coding: utf-8 -*-
# https://github.com/nusenu/noContactInfo_Exit_Excluder
# https://github.com/TheSmashy/TorExitRelayExclude
"""
This extends nusenu's basic idea of using the stem library to
dynamically exclude nodes that are likely to be bad by putting them
on the ExcludeNodes or ExcludeExitNodes setting of a running Tor.
* https://github.com/nusenu/noContactInfo_Exit_Excluder
* https://github.com/TheSmashy/TorExitRelayExclude
The basic idea is to exclude Exit nodes that do not have ContactInfo:
* https://github.com/nusenu/ContactInfo-Information-Sharing-Specification
That can be extended to relays that do not have an email in the contact,
or to relays that do not have ContactInfo that is verified to include them.
"""
__prolog__ = __doc__
__doc__ +="""But there's a problem, and your Tor notice.log will tell you about it:
you could exclude the relays needed to access hidden services or mirror
directories. So we need to add to the process the concept of a whitelist.
In addition, we may have our own blacklist of nodes we want to exclude,
or use these lists for other applications like selektor.
So we make two files that are structured in YAML:
```
/etc/tor/yaml/torrc-goodnodes.yaml
GoodNodes:
Relays:
IntroductionPoints:
- NODEFINGERPRINT
...
By default all sections of the goodnodes.yaml are used as a whitelist.
/etc/tor/yaml/torrc-badnodes.yaml
BadNodes:
ExcludeExitNodes:
BadExit:
# $0000000000000000000000000000000000000007
```
That part requires [PyYAML](https://pyyaml.org/wiki/PyYAML)
https://github.com/yaml/pyyaml/ or ```ruamel```: do
```pip3 install ruamel``` or ```pip3 install PyYAML```;
the advantage of the former is that it preserves comments.
(You may have to run this as the Tor user to get RW access to
/run/tor/control, in which case the directory for the YAML files must
be group Tor writeable, and its parents group Tor RX.)
Because you don't want to exclude the introduction points to any onion
you want to connect to, ```--white_onions``` should whitelist the
introduction points to a comma sep list of onions; we fixed stem to do this:
* https://github.com/torproject/stem/issues/96
* https://gitlab.torproject.org/legacy/trac/-/issues/25417
```--torrc_output``` will write the torrc ExcludeNodes configuration to a file.
```--good_contacts``` will write the contact info as a ciiss dictionary
to a YAML file. If the proof is uri-rsa, the well-known file of fingerprints
is downloaded and the fingerprints are added on a 'fps' field we create
of that fingerprint's entry of the YAML dictionary. This file is read at the
beginning of the program to start with a trust database, and only new
contact info from new relays are added to the dictionary.
Now for the final part: we lookup the Contact info of every relay
that is currently in our Tor, and check it the existence of the
well-known file that lists the fingerprints of the relays it runs.
If it fails to provide the well-know url, we assume its a bad
relay and add it to a list of nodes that goes on ```ExcludeNodes```
(not just ExcludeExitNodes```). If the Contact info is good, we add the
list of fingerprints to ```ExitNodes```, a whitelist of relays to use as exits.
```--bad_on``` We offer the users 3 levels of cleaning:
1. clean relays that have no contact ```=Empty```
2. clean relays that don't have an email in the contact (implies 1)
```=Empty,NoEmail```
3. clean relays that don't have "good' contactinfo. (implies 1)
```=Empty,NoEmail,NotGood```
The default is ```=Empty,NotGood``` ; ```NoEmail``` is inherently imperfect
in that many of the contact-as-an-email are obfuscated, but we try anyway.
To be "good" the ContactInfo must:
1. have a url for the well-defined-file to be gotten
2. must have a file that can be gotten at the URL
3. must support getting the file with a valid SSL cert from a recognized authority
4. (not in the spec but added by Python) must use a TLS SSL > v1
5. must have a fingerprint list in the file
6. must have the FP that got us the contactinfo in the fingerprint list in the file,
For usage, do ```python3 exclude_badExits.py --help`
"""
# https://github.com/nusenu/trustor-example-trust-config/blob/main/trust_config
# https://github.com/nusenu/tor-relay-operator-ids-trust-information
import argparse
import os
import json
import sys
import time
from io import StringIO
import stem
from stem import InvalidRequest
from stem.connection import IncorrectPassword
from stem.util.tor_tools import is_valid_fingerprint
import urllib3
from urllib3.util.ssl_match_hostname import CertificateError
# list(ipaddress._find_address_range(ipaddress.IPv4Network('172.16.0.0/12'))
try:
from ruamel.yaml import YAML
yaml = YAML(typ='rt')
yaml.indent(mapping=2, sequence=2)
safe_load = yaml.load
except:
yaml = None
if yaml is None:
try:
import yaml
safe_load = yaml.safe_load
except:
yaml = None
try:
from unbound import RR_CLASS_IN, RR_TYPE_TXT, ub_ctx
except:
ub_ctx = RR_TYPE_TXT = RR_CLASS_IN = None
from support_onions import (bAreWeConnected, icheck_torrc, lIntroductionPoints,
oGetStemController, vwait_for_controller,
yKNOWN_NODNS, zResolveDomain)
from trustor_poc import TrustorError, idns_validate
try:
import xxxhttpx
import asyncio
from trustor_poc import oDownloadUrlHttpx
except:
httpx = None
from trustor_poc import oDownloadUrlUrllib3Socks as oDownloadUrl
global LOG
import logging
import warnings
warnings.filterwarnings('ignore')
LOG = logging.getLogger()
try:
from torcontactinfo import TorContactInfoParser
oPARSER = TorContactInfoParser()
except ImportError:
oPARSER = None
ETC_DIR = '/usr/local/etc/tor/yaml'
aTRUST_DB = {}
aTRUST_DB_INDEX = {}
aRELAYS_DB = {}
aRELAYS_DB_INDEX = {}
aFP_EMAIL = {}
aDOMAIN_FPS = {}
sDETAILS_URL = "https://metrics.torproject.org/rs.html#details/"
# You can call this while bootstrapping
sEXCLUDE_EXIT_KEY = 'ExcludeNodes'
sINCLUDE_EXIT_KEY = 'ExitNodes'
oBAD_ROOT = 'BadNodes'
oBAD_NODES = safe_load("""
BadNodes:
ExcludeDomains: []
ExcludeNodes:
BadExit: []
""")
sGOOD_ROOT = 'GoodNodes'
sINCLUDE_GUARD_KEY = 'EntryNodes'
sEXCLUDE_DOMAINS = 'ExcludeDomains'
oGOOD_NODES = safe_load("""
GoodNodes:
EntryNodes: []
Relays:
ExitNodes: []
IntroductionPoints: []
Onions: []
Services: []
""")
lKNOWN_NODNS = []
tMAYBE_NODNS = set()
def lYamlBadNodes(sFile,
section=sEXCLUDE_EXIT_KEY,
lWanted=['BadExit']):
global oBAD_NODES
global lKNOWN_NODNS
global tMAYBE_NODNS
if not yaml:
return []
if os.path.exists(sFile):
with open(sFile, 'rt') as oFd:
oBAD_NODES = safe_load(oFd)
# BROKEN
# root = sEXCLUDE_EXIT_KEY
# for elt in o[oBAD_ROOT][root][section].keys():
# if lWanted and elt not in lWanted: continue
# # l += o[oBAD_ROOT][root][section][elt]
l = oBAD_NODES[oBAD_ROOT][sEXCLUDE_EXIT_KEY]['BadExit']
tMAYBE_NODNS = set(safe_load(StringIO(yKNOWN_NODNS)))
root = sEXCLUDE_DOMAINS
if root in oBAD_NODES[oBAD_ROOT] and oBAD_NODES[oBAD_ROOT][root]:
tMAYBE_NODNS.extend(oBAD_NODES[oBAD_ROOT][root])
return l
def lYamlGoodNodes(sFile='/etc/tor/torrc-goodnodes.yaml'):
global oGOOD_NODES
l = []
if not yaml: return l
if os.path.exists(sFile):
with open(sFile, 'rt') as oFd:
o = safe_load(oFd)
oGOOD_NODES = o
if 'EntryNodes' in o[sGOOD_ROOT].keys():
l = o[sGOOD_ROOT]['EntryNodes']
# yq '.Nodes.IntroductionPoints|.[]' < /etc/tor/torrc-goodnodes.yaml
return l
def bdomain_is_bad(domain, fp):
global lKNOWN_NODNS
if domain in lKNOWN_NODNS: return True
if domain in tMAYBE_NODNS:
ip = zResolveDomain(domain)
if ip == '':
LOG.debug(f"{fp} {domain} does not resolve")
lKNOWN_NODNS.append(domain)
tMAYBE_NODNS.remove(domain)
return True
for elt in '@(){}$!':
if elt in domain:
LOG.warn(f"{elt} in domain {domain}")
return True
return False
tBAD_URLS = set()
lAT_REPS = ['[]', ' at ', '(at)', '[at]', '<at>', '(att)', '_at_',
'~at~', '.at.', '!at!', '<a>t', '<(a)>', '|__at-|', '<:at:>',
'[__at ]', '"a t"', 'removeme at ']
lDOT_REPS = [' point ', ' dot ', '[dot]', '(dot)', '_dot_', '!dot!', '<.>',
'<:dot:>', '|dot--|',
]
lNO_EMAIL = [
'<nobody at example dot com>',
'<nobody at none of your business xyz>',
'<not-set@example.com>',
'@snowden',
'ano ano@fu.dk',
'anonymous',
'anonymous@buzzzz.com',
'check http://highwaytohoell.de',
'no-spam@tor.org',
'no@no.no',
'noreply@bytor.com',
'not a person <nomail at yet dot com>',
'not@needed.com',
'not@needed.com',
'not@re.al',
'nothanks',
'nottellingyou@mail.info',
'ur@mom.com',
'your@e-mail',
'your@email.com',
r'<nothing/at\\mail.de>',
]
def sCleanEmail(s):
s = s.lower()
for elt in lAT_REPS:
s = s.replace(' ' + elt + ' ', '@').replace(elt, '@')
for elt in lDOT_REPS:
s = s.replace(elt, '.')
s = s.replace('(dash)', '-')
for elt in lNO_EMAIL:
s = s.replace(elt, '')
return s
lATS = ['abuse', 'email']
lINTS = ['ciissversion', 'uplinkbw', 'signingkeylifetime', 'memory']
lBOOLS = ['dnssec', 'dnsqname', 'aesni', 'autoupdate', 'dnslocalrootzone',
'sandbox', 'offlinemasterkey']
def aCleanContact(a):
# cleanups
for elt in lINTS:
if elt in a:
a[elt] = int(a[elt])
for elt in lBOOLS:
if elt not in a: continue
if a[elt] in ['y', 'yes', 'true', 'True']:
a[elt] = True
else:
a[elt] = False
for elt in lATS:
if elt not in a: continue
a[elt] = sCleanEmail(a[elt])
if 'url' in a.keys():
a['url'] = a['url'].rstrip('/')
if a['url'].startswith('http://'):
domain = a['url'].replace('http://', '')
elif a['url'].startswith('https://'):
domain = a['url'].replace('https://', '')
else:
domain = a['url']
a['url'] = 'https://' + domain
a.update({'fps': []})
return a
def bVerifyContact(a=None, fp=None, https_cafile=None):
global aFP_EMAIL
global tBAD_URLS
global lKNOWN_NODNS
global aTRUST_DB
global aTRUST_DB_INDEX
assert a
assert fp
assert https_cafile
keys = list(a.keys())
a = aCleanContact(a)
a['fp'] = fp
if 'email' not in keys:
a['email'] = ''
if 'ciissversion' not in keys:
aFP_EMAIL[fp] = a['email']
LOG.warn(f"{fp} 'ciissversion' not in {keys}")
return a
# test the url for fps and add it to the array
if 'proof' not in keys:
aFP_EMAIL[fp] = a['email']
LOG.warn(f"{fp} 'proof' not in {keys}")
return a
if aTRUST_DB_INDEX and fp in aTRUST_DB_INDEX.keys():
aCachedContact = aTRUST_DB_INDEX[fp]
if aCachedContact['email'] == a['email']:
LOG.info(f"{fp} in aTRUST_DB_INDEX")
return aCachedContact
if 'url' not in keys:
if 'uri' not in keys:
a['url'] = ''
aFP_EMAIL[fp] = a['email']
LOG.warn(f"{fp} url and uri not in {keys}")
return a
a['url'] = a['uri']
aFP_EMAIL[fp] = a['email']
LOG.debug(f"{fp} 'uri' but not 'url' in {keys}")
# drop through
domain = a['url'].replace('https://', '').replace('http://', '')
# domain should be a unique key for contacts?
if bdomain_is_bad(domain, fp):
LOG.warn(f"{domain} is bad - {a['url']}")
LOG.debug(f"{fp} is bad from {a}")
return a
ip = zResolveDomain(domain)
if ip == '':
aFP_EMAIL[fp] = a['email']
LOG.debug(f"{fp} {domain} does not resolve")
lKNOWN_NODNS.append(domain)
return a
if a['proof'] in ['dns-rsa']:
# only support uri for now
if False and ub_ctx:
fp_domain = fp + '.' + domain
if idns_validate(fp_domain,
libunbound_resolv_file='resolv.conf',
dnssec_DS_file='dnssec-root-trust',
) == 0:
pass
LOG.warn(f"{fp} proof={a['proof']} - assumed good")
a['fps'] = [fp]
aTRUST_DB_INDEX[fp] = a
return a
return True
# async
# If we keep a cache of FPs that we have gotten by downloading a URL
# we can avoid re-downloading the URL of other FP in the list of relays.
# If we paralelize the gathering of the URLs, we may have simultaneous
# gathers of the same URL from different relays, defeating the advantage
# of going parallel. The cache is global aDOMAIN_FPS.
def aVerifyContact(a=None, fp=None, https_cafile=None, timeout=20, host='127.0.0.1', port=9050, oargs=None):
global aFP_EMAIL
global tBAD_URLS
global lKNOWN_NODNS
global aDOMAIN_FPS
assert a
assert fp
assert https_cafile
r = bVerifyContact(a=a, fp=fp, https_cafile=https_cafile)
if r is not True:
return r
domain = a['url'].replace('https://', '').replace('http://', '').rstrip('/')
if domain in aDOMAIN_FPS.keys():
a['fps'] = aDOMAIN_FPS[domain]
return a
# LOG.debug(f"{len(keys)} contact fields for {fp}")
url = a['url'] + "/.well-known/tor-relay/rsa-fingerprint.txt"
if url in aDOMAIN_FPS.keys():
a['fps'] = aDOMAIN_FPS[url]
return a
if bAreWeConnected() is False:
raise SystemExit("we are not connected")
try:
if httpx:
LOG.debug(f"Downloading from {domain} for {fp}")
# await
o = oDownloadUrl(url, https_cafile,
timeout=timeout, host=host, port=port,
content_type='text/plain')
else:
LOG.debug(f"Downloading from {domain} for {fp}")
o = oDownloadUrl(url, https_cafile,
timeout=timeout, host=host, port=port,
content_type='text/plain')
# requests response: text "reason", "status_code"
except AttributeError as e:
LOG.exception(f"AttributeError downloading from {domain} {e}")
except CertificateError as e:
LOG.warn(f"CertificateError downloading from {domain} {e}")
tBAD_URLS.add(a['url'])
except TrustorError as e:
if e.args == "HTTP Errorcode 404":
aFP_EMAIL[fp] = a['email']
LOG.warn(f"TrustorError 404 from {domain} {e.args}")
else:
LOG.warn(f"TrustorError downloading from {domain} {e.args}")
tBAD_URLS.add(a['url'])
except (urllib3.exceptions.MaxRetryError, urllib3.exceptions.ProtocolError,) as e: # noqa
#
# maybe offline - not bad
LOG.warn(f"MaxRetryError downloading from {domain} {e}")
except (BaseException) as e:
LOG.error(f"Exception {type(e)} downloading from {domain} {e}")
else:
a = aContactFps(oargs, a, o, domain)
LOG.debug(f"Downloaded from {domain} {len(a['fps'])} FPs for {fp}")
aDOMAIN_FPS[domain] = a['fps']
url = a['url']
aDOMAIN_FPS[url] = a['fps']
return a
def aContactFps(oargs, a, o, domain):
global aFP_EMAIL
global tBAD_URLS
global lKNOWN_NODNS
global aDOMAIN_FPS
if hasattr(o, 'status'):
status_code = o.status
else:
status_code = o.status_code
if status_code >= 300:
aFP_EMAIL[fp] = a['email']
LOG.warn(f"Error from {domain} {status_code} {o.reason}")
# any reason retry?
tBAD_URLS.add(a['url'])
return a
if hasattr(o, 'text'):
data = o.text
else:
data = str(o.data, 'UTF-8')
l = data.upper().strip().split('\n')
LOG.debug(f"Downloaded from {domain} {len(l)} lines {len(data)} bytes")
if oargs.wellknown_output:
sdir = os.path.join(oargs.wellknown_output, domain,
'.well-known', 'tor-relay')
try:
if not os.path.isdir(sdir):
os.makedirs(sdir)
sfile = os.path.join(sdir, "rsa-fingerprint.txt")
with open(sfile, 'wt') as oFd:
oFd.write(data)
except Exception as e:
LOG.warn(f"Error wirting {sfile} {e}")
a['modified'] = int(time.time())
if not l:
LOG.warn(f"Downloaded from {domain} empty for {fp}")
else:
a['fps'] = [elt.strip() for elt in l if elt \
and len(elt) == 40 \
and not elt.startswith('#')]
LOG.info(f"Downloaded from {domain} {len(a['fps'])} FPs")
aDOMAIN_FPS[domain] = a['fps']
return a
def aParseContact(contact, fp):
"""
See the Tor ContactInfo Information Sharing Specification v2
https://nusenu.github.io/ContactInfo-Information-Sharing-Specification/
"""
a = {}
if not contact:
LOG.warn(f"null contact for {fp}")
LOG.debug(f"{fp} {contact}")
return {}
# shlex?
lelts = contact.split(' ')
if not lelts:
LOG.warn(f"empty contact for {fp}")
LOG.debug(f"{fp} {contact}")
return {}
for elt in lelts:
if ':' not in elt:
if elt == 'DFRI':
# oddball
continue
# hoster:Quintex Alliance Consulting
LOG.warn(f"no : in {elt} for {contact} in {fp}")
return {}
(key , val,) = elt.split(':', 1)
if key == '':
continue
key = key.rstrip(':')
a[key] = val
a = aCleanContact(a)
return a
def aParseContactYaml(contact, fp):
"""
See the Tor ContactInfo Information Sharing Specification v2
https://nusenu.github.io/ContactInfo-Information-Sharing-Specification/
"""
l = [line for line in contact.strip().replace('"', '').split(' ')
if ':' in line]
LOG.debug(f"{fp} {len(l)} fields")
s = f'"{fp}":\n'
s += '\n'.join([f" {line}\"".replace(':', ': \"', 1)
for line in l])
oFd = StringIO(s)
a = safe_load(oFd)
return a
def oMainArgparser(_=None):
try:
from OpenSSL import SSL
lCAfs = SSL._CERTIFICATE_FILE_LOCATIONS
except:
lCAfs = []
CAfs = []
for elt in lCAfs:
if os.path.exists(elt):
CAfs.append(elt)
if not CAfs:
CAfs = ['']
parser = argparse.ArgumentParser(add_help=True,
epilog=__prolog__)
parser.add_argument('--https_cafile', type=str,
help="Certificate Authority file (in PEM)",
default=CAfs[0])
parser.add_argument('--proxy_host', '--proxy-host', type=str,
default='127.0.0.1',
help='proxy host')
parser.add_argument('--proxy_port', '--proxy-port', default=9050, type=int,
help='proxy control port')
parser.add_argument('--proxy_ctl', '--proxy-ctl',
default='/run/tor/control' if os.path.exists('/run/tor/control') else 9051,
type=str,
help='control socket - or port')
parser.add_argument('--torrc',
default='/etc/tor/torrc-defaults',
type=str,
help='torrc to check for suggestions')
parser.add_argument('--timeout', default=60, type=int,
help='proxy download connect timeout')
parser.add_argument('--good_nodes', type=str,
default=os.path.join(ETC_DIR, 'goodnodes.yaml'),
help="Yaml file of good info that should not be excluded")
parser.add_argument('--bad_nodes', type=str,
default=os.path.join(ETC_DIR, 'badnodes.yaml'),
help="Yaml file of bad nodes that should also be excluded")
parser.add_argument('--bad_on', type=str, default='Empty,NotGood',
help="comma sep list of conditions - Empty,NoEmail,NotGood")
parser.add_argument('--bad_contacts', type=str,
default=os.path.join(ETC_DIR, 'badcontacts.yaml'),
help="Yaml file of bad contacts that bad FPs are using")
parser.add_argument('--strict_nodes', type=str, default=0,
choices=['0', '1'],
help="Set StrictNodes: 1 is less anonymous but more secure, although some onion sites may be unreachable")
parser.add_argument('--wait_boot', type=int, default=120,
help="Seconds to wait for Tor to booststrap")
parser.add_argument('--points_timeout', type=int, default=0,
help="Timeout for getting introduction points - must be long >120sec. 0 means disabled looking for IPs")
parser.add_argument('--log_level', type=int, default=20,
help="10=debug 20=info 30=warn 40=error")
parser.add_argument('--bad_sections', type=str,
default='MyBadExit',
help="sections of the badnodes.yaml to use, comma separated, '' BROKEN")
parser.add_argument('--white_onions', type=str,
default='',
help="comma sep. list of onions to whitelist their introduction points - BROKEN")
parser.add_argument('--torrc_output', type=str,
default=os.path.join(ETC_DIR, 'torrc.new'),
help="Write the torrc configuration to a file")
parser.add_argument('--relays_output', type=str,
default=os.path.join(ETC_DIR, 'relays.json'),
help="Write the download relays in json to a file")
parser.add_argument('--wellknown_output', type=str,
default=os.path.join(ETC_DIR, 'https'),
help="Write the well-known files to a directory")
parser.add_argument('--good_contacts', type=str, default=os.path.join(ETC_DIR, 'goodcontacts.yaml'),
help="Write the proof data of the included nodes to a YAML file")
return parser
def vwrite_good_contacts(oargs):
global aTRUST_DB
good_contacts_tmp = oargs.good_contacts + '.tmp'
with open(good_contacts_tmp, 'wt') as oFYaml:
yaml.dump(aTRUST_DB, oFYaml)
oFYaml.close()
if os.path.exists(oargs.good_contacts):
bak = oargs.good_contacts +'.bak'
os.rename(oargs.good_contacts, bak)
os.rename(good_contacts_tmp, oargs.good_contacts)
LOG.info(f"Wrote {len(list(aTRUST_DB.keys()))} good contact details to {oargs.good_contacts}")
def vwrite_badnodes(oargs, oBAD_NODES, slen):
if oargs.bad_nodes:
tmp = oargs.bad_nodes +'.tmp'
bak = oargs.bad_nodes +'.bak'
with open(tmp, 'wt') as oFYaml:
yaml.dump(oBAD_NODES, oFYaml)
LOG.info(f"Wrote {slen} to {oargs.bad_nodes}")
oFYaml.close()
if os.path.exists(oargs.bad_nodes):
os.rename(oargs.bad_nodes, bak)
os.rename(tmp, oargs.bad_nodes)
def vwrite_goodnodes(oargs, oGOOD_NODES, ilen):
if oargs.good_nodes:
tmp = oargs.good_nodes +'.tmp'
bak = oargs.good_nodes +'.bak'
with open(tmp, 'wt') as oFYaml:
yaml.dump(oGOOD_NODES, oFYaml)
LOG.info(f"Wrote {ilen} good relays to {oargs.good_nodes}")
oFYaml.close()
if os.path.exists(oargs.good_nodes):
os.rename(oargs.good_nodes, bak)
os.rename(tmp, oargs.good_nodes)
def lget_onionoo_relays(oargs):
import requests
adata = {}
if oargs.relays_output and os.path.exists(oargs.relays_output):
# and less than a day old?
LOG.info(f"Getting OO relays from {oargs.relays_output}")
try:
with open(oargs.relays_output, 'rt') as ofd:
sdata = ofd.read()
adata = json.loads(sdata)
except Exception as e:
LOG.error(f"Getting data relays from {oargs.relays_output}")
adata = {}
if not adata:
surl = "https://onionoo.torproject.org/details"
LOG.info(f"Getting OO relays from {surl}")
sCAfile = oargs.https_cafile
assert os.path.exists(sCAfile), sCAfile
if True:
try:
o = oDownloadUrl(surl, sCAfile,
timeout=oargs.timeout,
host=oargs.proxy_host,
port=oargs.proxy_port,
content_type='')
if hasattr(o, 'text'):
sdata = o.text
else:
sdata = str(o.data, 'UTF-8')
except Exception as e:
# simplejson.errors.JSONDecodeError
# urllib3.exceptions import ConnectTimeoutError, NewConnectionError
# (urllib3.exceptions.MaxRetryError, urllib3.exceptions.ProtocolError,)
LOG.exception(f"JSON error {e}")
return []
else:
LOG.debug(f"Downloaded {surl} {len(sdata)} bytes")
adata = json.loads(sdata)
else:
odata = requests.get(surl, verify=sCAfile)
try:
adata = odata.json()
except Exception as e:
# simplejson.errors.JSONDecodeError
LOG.exception(f"JSON error {e}")
return []
else:
LOG.debug(f"Downloaded {surl} {len(adata)} relays")
sdata = repr(adata)
if oargs.relays_output:
try:
with open(oargs.relays_output, 'wt') as ofd:
ofd.write(sdata)
except Exception as e:
LOG.warn(f"Error {oargs.relays_output} {e}")
else:
LOG.debug(f"Wrote {oargs.relays_output} {len(sdata)} bytes")
lonionoo_relays = [r for r in adata["relays"] if 'fingerprint' in r.keys()]
return lonionoo_relays
def vsetup_logging(log_level, logfile='', stream=sys.stdout):
global LOG
add = True
try:
if 'COLOREDLOGS_LEVEL_STYLES' not in os.environ:
os.environ['COLOREDLOGS_LEVEL_STYLES'] = 'spam=22;debug=28;verbose=34;notice=220;warning=202;success=118,bold;error=124;critical=background=red'
# https://pypi.org/project/coloredlogs/
import coloredlogs
except ImportError:
coloredlogs = False
# stem fucks up logging
# from stem.util import log
logging.getLogger('stem').setLevel(30)
logging._defaultFormatter = logging.Formatter(datefmt='%m-%d %H:%M:%S')
logging._defaultFormatter.default_time_format = '%m-%d %H:%M:%S'
logging._defaultFormatter.default_msec_format = ''
kwargs = dict(level=log_level,
force=True,
format='%(levelname)s %(message)s')
if logfile:
add = logfile.startswith('+')
sub = logfile.startswith('-')
if add or sub:
logfile = logfile[1:]
kwargs['filename'] = logfile
if coloredlogs:
# https://pypi.org/project/coloredlogs/
aKw = dict(level=log_level,
logger=LOG,
stream=stream,
fmt='%(levelname)s %(message)s'
)
coloredlogs.install(**aKw)
if logfile:
oHandler = logging.FileHandler(logfile)
LOG.addHandler(oHandler)
LOG.info(f"CSetting log_level to {log_level} {stream}")
else:
logging.basicConfig(**kwargs)
if add and logfile:
oHandler = logging.StreamHandler(stream)
LOG.addHandler(oHandler)
LOG.info(f"SSetting log_level to {log_level!s}")
def vwritefinale(oargs, lNotInaRELAYS_DB):
if len(lNotInaRELAYS_DB):
LOG.warn(f"{len(lNotInaRELAYS_DB)} relays from stem were not in onionoo.torproject.org")
LOG.info(f"For info on a FP, use: https://nusenu.github.io/OrNetStats/w/relay/<FP>.html")
LOG.info(f"For info on relays, use: https://onionoo.torproject.org/details")
# https://onionoo.torproject.org/details
LOG.info(f"although it's often broken")
def bProcessContact(b, texclude_set, aBadContacts, iFakeContact=0):
global aTRUST_DB
global aTRUST_DB_INDEX
sofar = ''
fp = b['fp']
# need to skip urllib3.exceptions.MaxRetryError
if not b or 'fps' not in b or not b['fps'] or not b['url']:
LOG.warn(f"{fp} did NOT VERIFY {sofar}")
LOG.debug(f"{fp} {b} {sofar}")
# If it's giving contact info that doesnt check out
# it could be a bad exit with fake contact info
texclude_set.add(fp)
aBadContacts[fp] = b
return None
if fp not in b['fps']:
LOG.warn(f"{fp} the FP IS NOT in the list of fps {sofar}")
# assume a fp is using a bogus contact
texclude_set.add(fp)
aBadContacts[fp] = b
return False
LOG.info(f"{fp} GOOD {b['url']} {sofar}")
# add our contact info to the trustdb
aTRUST_DB[fp] = b
for elt in b['fps']:
aTRUST_DB_INDEX[elt] = b
return True
def bCheckFp(relay, sofar, lConds, texclude_set, lNotInaRELAYS_DB):
global aTRUST_DB
global aTRUST_DB_INDEX
if not is_valid_fingerprint(relay.fingerprint):
LOG.warn('Invalid Fingerprint: %s' % relay.fingerprint)
return None
fp = relay.fingerprint
if aRELAYS_DB and fp not in aRELAYS_DB.keys():
LOG.warn(f"{fp} not in aRELAYS_DB")
lNotInaRELAYS_DB += [fp]
if not relay.exit_policy.is_exiting_allowed():
if sEXCLUDE_EXIT_KEY == sEXCLUDE_EXIT_KEY:
pass # LOG.debug(f"{fp} not an exit {sofar}")
else:
pass # LOG.warn(f"{fp} not an exit {sofar}")
# return None
# great contact had good fps and we are in them
if fp in aTRUST_DB_INDEX.keys():
# a cached entry
return None
if type(relay.contact) == bytes:
# dunno
relay.contact = str(relay.contact, 'UTF-8')
# fail if the contact is empty
if ('Empty' in lConds and not relay.contact):
LOG.info(f"{fp} skipping empty contact - Empty {sofar}")
texclude_set.add(fp)
return None
contact = sCleanEmail(relay.contact)
# fail if the contact has no email - unreliable
if ('NoEmail' in lConds and relay.contact and
('@' not in contact and 'email:' not in contact)):
LOG.info(f"{fp} skipping contact - NoEmail {contact} {sofar}")
LOG.debug(f"{fp} {relay.contact} {sofar}")
texclude_set.add(fp)
return None
# fail if the contact does not pass
if ('NotGood' in lConds and relay.contact and
('ciissversion:' not in relay.contact)):
LOG.info(f"{fp} skipping no ciissversion in contact {sofar}")
LOG.debug(f"{fp} {relay.contact} {sofar}")
texclude_set.add(fp)
return None
# fail if the contact does not have url: to pass
if relay.contact and 'url' not in relay.contact:
LOG.info(f"{fp} skipping unfetchable contact - no url {sofar}")
LOG.debug(f"{fp} {relay.contact} {sofar}")
if ('NotGood' in lConds): texclude_set.add(fp)
return None
return True
def oMainPreamble(lArgs):
global aTRUST_DB
global aTRUST_DB_INDEX
parser = oMainArgparser()
oargs = parser.parse_args(lArgs)
vsetup_logging(oargs.log_level)
if bAreWeConnected() is False:
raise SystemExit("we are not connected")
sFile = oargs.torrc
if sFile and os.path.exists(sFile):
icheck_torrc(sFile, oargs)
sFile = oargs.good_contacts
if sFile and os.path.exists(sFile):
try:
with open(sFile, 'rt') as oFd:
aTRUST_DB = safe_load(oFd)
LOG.info(f"{len(aTRUST_DB.keys())} trusted contacts from {sFile}")
# reverse lookup of fps to contacts
# but...
for (k, v,) in aTRUST_DB.items():
if 'modified' not in v.keys():
v['modified'] = int(time.time())
aTRUST_DB_INDEX[k] = v
if 'fps' in aTRUST_DB[k].keys():
for fp in aTRUST_DB[k]['fps']:
if fp in aTRUST_DB_INDEX:
continue
aTRUST_DB_INDEX[fp] = v
LOG.info(f"{len(aTRUST_DB_INDEX.keys())} good relays from {sFile}")
except Exception as e:
LOG.exception(f"Error reading YAML TrustDB {sFile} {e}")
return oargs
def oStemController(oargs):
if os.path.exists(oargs.proxy_ctl):
controller = oGetStemController(log_level=oargs.log_level, sock_or_pair=oargs.proxy_ctl)
else:
port =int(oargs.proxy_ctl)
controller = oGetStemController(log_level=oargs.log_level, sock_or_pair=port)
vwait_for_controller(controller, oargs.wait_boot)
elt = controller.get_conf('UseMicrodescriptors')
if elt != '0':
LOG.error('"UseMicrodescriptors 0" is required in your /etc/tor/torrc. Exiting.')
controller.set_conf('UseMicrodescriptors', 0)
# does it work dynamically?
return 2
elt = controller.get_conf(sEXCLUDE_EXIT_KEY)
if elt and elt != '{??}':
LOG.warn(f"{sEXCLUDE_EXIT_KEY} is in use already")
return controller
def tWhitelistSet(oargs, controller):
twhitelist_set = set()
twhitelist_set.update(set(lYamlGoodNodes(oargs.good_nodes)))
LOG.info(f"lYamlGoodNodes {len(twhitelist_set)} EntryNodes from {oargs.good_nodes}")
t = set()
if sGOOD_ROOT in oGOOD_NODES and 'Relays' in oGOOD_NODES[sGOOD_ROOT] and \
'IntroductionPoints' in oGOOD_NODES[sGOOD_ROOT]['Relays'].keys():
t = set(oGOOD_NODES[sGOOD_ROOT]['Relays']['IntroductionPoints'])
w = set()
if sGOOD_ROOT in oGOOD_NODES and 'Services' in oGOOD_NODES[sGOOD_ROOT].keys():
w = set(oGOOD_NODES[sGOOD_ROOT]['Services'])
twhitelist_set.update(w)
if len(w) > 0:
LOG.info(f"Whitelist {len(t)} relays from Services")
w = set()
if 'Onions' in oGOOD_NODES[sGOOD_ROOT].keys():
# Provides the descriptor for a hidden service. The **address** is the
# '.onion' address of the hidden service
w = set(oGOOD_NODES[sGOOD_ROOT]['Onions'])
if oargs.white_onions:
w.update(oargs.white_onions.split(','))
if oargs.points_timeout > 0:
LOG.info(f"{len(w)} services will be checked from IntroductionPoints")
t.update(lIntroductionPoints(controller, w, itimeout=oargs.points_timeout))
if len(t) > 0:
LOG.info(f"IntroductionPoints {len(t)} relays from {len(w)} IPs for onions")
twhitelist_set.update(t)
return twhitelist_set
def tExcludeSet(oargs):
texclude_set = set()
if oargs.bad_nodes and os.path.exists(oargs.bad_nodes):
if False and oargs.bad_sections:
# BROKEN
sections = oargs.bad_sections.split(',')
texclude_set = set(lYamlBadNodes(oargs.bad_nodes,
lWanted=sections,
section=sEXCLUDE_EXIT_KEY))
LOG.info(f"Preloaded {len(texclude_set)} bad fps")
return texclude_set
# async
def iMain(lArgs):
global aTRUST_DB
global aTRUST_DB_INDEX
global oBAD_NODES
global oGOOD_NODES
global lKNOWN_NODNS
global aRELAYS_DB
global aRELAYS_DB_INDEX
global tBAD_URLS
oargs = oMainPreamble(lArgs)
controller = oStemController(oargs)
twhitelist_set = tWhitelistSet(oargs, controller)
texclude_set = tExcludeSet(oargs)
ttrust_db_index = aTRUST_DB_INDEX.keys()
tdns_urls = set()
iFakeContact = 0
iTotalContacts = 0
aBadContacts = {}
lNotInaRELAYS_DB = []
iR = 0
relays = controller.get_server_descriptors()
lqueue = []
socksu = f"socks5://{oargs.proxy_host}:{oargs.proxy_port}"
for relay in relays:
iR += 1
fp = relay.fingerprint = relay.fingerprint.upper()
sofar = f"G:{len(aTRUST_DB.keys())} U:{len(tdns_urls)} F:{iFakeContact} BF:{len(texclude_set)} GF:{len(ttrust_db_index)} TC:{iTotalContacts} #{iR}"
lConds = oargs.bad_on.split(',')
r = bCheckFp(relay, sofar, lConds, texclude_set, lNotInaRELAYS_DB)
if r is not True: continue
# if it has a ciissversion in contact we count it in total
iTotalContacts += 1
# only proceed if 'NotGood' not in lConds:
if 'NotGood' not in lConds: continue
# fail if the contact does not have url: to pass
a = aParseContact(relay.contact, fp)
if not a:
LOG.warn(f"{fp} contact did not parse {sofar}")
texclude_set.add(fp)
continue
if 'url' in a and a['url']:
# fail if the contact uses a url we already know is bad
if a['url'] in tBAD_URLS:
LOG.info(f"{fp} skipping in tBAD_URLS {a['url']} {sofar}")
LOG.debug(f"{fp} {a} {sofar}")
texclude_set.add(fp)
continue
domain = a['url'].replace('https://', '').replace('http://', '')
# fail if the contact uses a domain we already know does not resolve
if domain in lKNOWN_NODNS:
# The fp is using a contact with a URL we know is bogus
LOG.info(f"{fp} skipping in lKNOWN_NODNS {a} {sofar}")
LOG.debug(f"{fp} {relay} {sofar}")
texclude_set.add(fp)
continue
# drop through
if 'dns-rsa' in relay.contact.lower():
# skip if the contact uses a dns-rsa url we dont handle
target = f"{fp}.{domain}"
LOG.info(f"skipping 'dns-rsa' {target} {sofar}")
tdns_urls.add(target)
continue
if 'proof:uri-rsa' in relay.contact.lower():
if domain in aDOMAIN_FPS.keys(): continue
a['fp'] = fp
if httpx:
lqueue.append(asyncio.create_task(
aVerifyContact(a=a,
fp=fp,
https_cafile=oargs.https_cafile,
timeout=oargs.timeout,
host=oargs.proxy_host,
port=oargs.proxy_port,
oargs=oargs)))
else:
b = aVerifyContact(a=a,
fp=fp,
https_cafile=oargs.https_cafile,
timeout=oargs.timeout,
host=oargs.proxy_host,
port=oargs.proxy_port,
oargs=oargs)
r = bProcessContact(b, texclude_set, aBadContacts, iFakeContact)
if r is False:
iFakeContact += 1
if httpx:
# for b in asyncio.as_completed(lqueue):
for b in lqueue:
# r = await b
r = b
r = bProcessContact(r, texclude_set, aBadContacts, iFakeContact)
if r is False:
iFakeContact += 1
elif r is True:
# iGoodContact += 1
pass
LOG.info(f"Filtered {len(twhitelist_set)} whitelisted relays")
texclude_set = texclude_set.difference(twhitelist_set)
# accept the dns-rsa urls for now until we test them
texclude_set = texclude_set.difference(tdns_urls)
LOG.info(f"{len(list(aTRUST_DB.keys()))} good contacts out of {iTotalContacts}")
if oargs.torrc_output and texclude_set:
with open(oargs.torrc_output, 'wt') as oFTorrc:
oFTorrc.write(f"{sEXCLUDE_EXIT_KEY} {','.join(texclude_set)}\n")
oFTorrc.write(f"{sINCLUDE_EXIT_KEY} {','.join(aTRUST_DB_INDEX.keys())}\n")
oFTorrc.write(f"{sINCLUDE_GUARD_KEY} {','.join(oGOOD_NODES[sGOOD_ROOT]['EntryNodes'])}\n")
LOG.info(f"Wrote tor configuration to {oargs.torrc_output}")
oFTorrc.close()
if oargs.bad_contacts and aBadContacts:
# for later analysis
with open(oargs.bad_contacts, 'wt') as oFYaml:
yaml.dump(aBadContacts, oFYaml)
oFYaml.close()
if oargs.good_contacts != '' and aTRUST_DB:
vwrite_good_contacts(oargs)
oBAD_NODES[oBAD_ROOT][sEXCLUDE_EXIT_KEY]['BadExit'] = list(texclude_set)
oBAD_NODES[oBAD_ROOT][sEXCLUDE_DOMAINS] = lKNOWN_NODNS
vwrite_badnodes(oargs, oBAD_NODES, str(len(texclude_set)))
oGOOD_NODES['GoodNodes']['Relays']['ExitNodes'] = list(aTRUST_DB_INDEX.keys())
# EntryNodes are readony
vwrite_goodnodes(oargs, oGOOD_NODES, len(aTRUST_DB_INDEX.keys()))
vwritefinale(oargs, lNotInaRELAYS_DB)
retval = 0
try:
logging.getLogger('stem').setLevel(30)
if texclude_set:
try:
LOG.info(f"{sEXCLUDE_EXIT_KEY} {len(texclude_set)} net bad exit relays")
controller.set_conf(sEXCLUDE_EXIT_KEY, list(texclude_set))
except (Exception, stem.InvalidRequest, stem.SocketClosed,) as e: # noqa
LOG.error(f"Failed setting {sEXCLUDE_EXIT_KEY} bad exit relays in Tor {e}")
LOG.debug(repr(texclude_set))
retval += 1
if aTRUST_DB_INDEX.keys():
l = [elt for elt in aTRUST_DB_INDEX.keys() if len (elt) == 40]
try:
LOG.info(f"{sINCLUDE_EXIT_KEY} {len(l)} good relays")
controller.set_conf(sINCLUDE_EXIT_KEY, l)
except (Exception, stem.InvalidRequest, stem.SocketClosed) as e: # noqa
LOG.error(f"Failed setting {sINCLUDE_EXIT_KEY} good exit nodes in Tor {e}")
LOG.debug(repr(l))
retval += 1
if 'EntryNodes' in oGOOD_NODES[sGOOD_ROOT].keys():
try:
LOG.info(f"{sINCLUDE_GUARD_KEY} {len(oGOOD_NODES[sGOOD_ROOT]['EntryNodes'])} guard nodes")
# FixMe for now override StrictNodes it may be unusable otherwise
controller.set_conf(sINCLUDE_GUARD_KEY,
oGOOD_NODES[sGOOD_ROOT]['EntryNodes'])
except (Exception, stem.InvalidRequest, stem.SocketClosed,) as e: # noqa
LOG.error(f"Failed setting {sINCLUDE_GUARD_KEY} guard nodes in Tor {e}")
LOG.debug(repr(list(oGOOD_NODES[sGOOD_ROOT]['EntryNodes'])))
retval += 1
cur = controller.get_conf('StrictNodes')
if oargs.strict_nodes and int(cur) != oargs.strict_nodes:
LOG.info(f"OVERRIDING StrictNodes to {oargs.strict_nodes}")
controller.set_conf('StrictNodes', oargs.strict_nodes)
else:
LOG.info(f"StrictNodes is set to {cur}")
except KeyboardInterrupt:
return 0
except Exception as e:
LOG.exception(str(e))
retval = 2
finally:
# wierd we are getting stem errors during the final return
# with a traceback that doesnt correspond to any real flow
# File "/usr/lib/python3.9/site-packages/stem/control.py", line 2474, in set_conf
# self.set_options({param: value}, False)
logging.getLogger('stem').setLevel(40)
try:
for elt in controller._event_listeners:
controller.remove_event_listener(elt)
controller.close()
except Exception as e:
LOG.warn(str(e))
sys.stdout.write("dns-rsa domains:\n" +'\n'.join(tdns_urls) +'\n')
return retval
if __name__ == '__main__':
try:
# i = asyncio.run(iMain(sys.argv[1:]))
i = iMain(sys.argv[1:])
except IncorrectPassword as e:
LOG.error(e)
i = 1
except KeyboardInterrupt:
i = 0
except Exception as e:
LOG.exception(e)
i = 2
sys.exit(i)
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