black formatting #20

Merged
pratyush merged 1 commits from black into master 2023-05-03 16:44:48 +02:00
3 changed files with 314 additions and 179 deletions

208
config.py
View File

@ -29,139 +29,205 @@
### ###
from supybot import conf, registry, ircutils from supybot import conf, registry, ircutils
try: try:
from supybot.i18n import PluginInternationalization from supybot.i18n import PluginInternationalization
_ = PluginInternationalization('SnoParser')
_ = PluginInternationalization("SnoParser")
except: except:
# Placeholder that allows to run the plugin on a bot # Placeholder that allows to run the plugin on a bot
# without the i18n module # without the i18n module
_ = lambda x: x _ = lambda x: x
#class ValidChannel(registry.string): # class ValidChannel(registry.string):
# """Value must be a valid channel""" # """Value must be a valid channel"""
# def setValue(self, v): # def setValue(self, v):
# if not (ircutils.isChannel(v)): # if not (ircutils.isChannel(v)):
# self.error() # self.error()
# registry.String.setValue(self, v) # registry.String.setValue(self, v)
def configure(advanced): def configure(advanced):
# This will be called by supybot to configure this module. advanced is # This will be called by supybot to configure this module. advanced is
# a bool that specifies whether the user identified themself as an advanced # a bool that specifies whether the user identified themself as an advanced
# user or not. You should effect your configuration by manipulating the # user or not. You should effect your configuration by manipulating the
# registry as appropriate. # registry as appropriate.
from supybot.questions import expect, anything, something, yn from supybot.questions import expect, anything, something, yn
conf.registerPlugin('SnoParser', True)
conf.registerPlugin("SnoParser", True)
SnoParser = conf.registerPlugin('SnoParser') SnoParser = conf.registerPlugin("SnoParser")
# This is where your configuration variables (if any) should go. For example: # This is where your configuration variables (if any) should go. For example:
# conf.registerGlobalValue(SnoParser, 'someConfigVariableName', # conf.registerGlobalValue(SnoParser, 'someConfigVariableName',
# registry.Boolean(False, _("""Help for someConfigVariableName."""))) # registry.Boolean(False, _("""Help for someConfigVariableName.""")))
#conf.registerNetworkValue(SnoParser, 'targetChannel', ValidChannel, # conf.registerNetworkValue(SnoParser, 'targetChannel', ValidChannel,
# ("", ("""Determines which channel the bot should send snolines"""))) # ("", ("""Determines which channel the bot should send snolines""")))
conf.registerNetworkValue(SnoParser, 'targetChannel', conf.registerNetworkValue(
registry.String("", ("""Determines which channel the bot should snolines example: `#snotices`"""))) SnoParser,
"targetChannel",
registry.String(
"",
("""Determines which channel the bot should snolines example: `#snotices`"""),
),
)
conf.registerGlobalValue(SnoParser, 'AutoVhost', conf.registerGlobalValue(
registry.String('libcasa/user/', ("""Configure the vhost eg. libcasa/user/$account"""))) SnoParser,
"AutoVhost",
registry.String(
"libcasa/user/", ("""Configure the vhost eg. libcasa/user/$account""")
),
)
conf.registerGlobalValue(SnoParser, 'preventHighlight', conf.registerGlobalValue(
registry.Boolean(True, ("""Toggles in channel highlights with ZWSP"""))) SnoParser,
"preventHighlight",
registry.Boolean(True, ("""Toggles in channel highlights with ZWSP""")),
)
conf.registerGlobalValue(SnoParser, 'debug', conf.registerGlobalValue(
registry.Boolean('false', SnoParser,
"debug",
registry.Boolean(
"false",
""" """
SnoParser: Verbose output. Note: there is a seperate debug option for the `whois` client. SnoParser: Verbose output. Note: there is a seperate debug option for the `whois` client.
""" """,
, private=True private=True,
)) ),
)
### ###
# REDIS related settings below: # REDIS related settings below:
### ###
conf.registerGroup(SnoParser, 'redis') conf.registerGroup(SnoParser, "redis")
conf.registerGlobalValue(SnoParser.redis, 'db1', conf.registerGlobalValue(
registry.Integer(1, SnoParser.redis,
"db1",
registry.Integer(
1,
""" """
Redis: Database number for counting of NICKNAMES. Redis: Database number for counting of NICKNAMES.
""" """,
, private=True private=True,
)) ),
conf.registerGlobalValue(SnoParser.redis, 'db2', )
registry.Integer(2, conf.registerGlobalValue(
SnoParser.redis,
"db2",
registry.Integer(
2,
""" """
Redis: Database number for counting of IP ADDRESSES. Redis: Database number for counting of IP ADDRESSES.
""" """,
, private=True private=True,
)) ),
conf.registerGlobalValue(SnoParser.redis, 'host', )
registry.String('127.0.0.1', conf.registerGlobalValue(
SnoParser.redis,
"host",
registry.String(
"127.0.0.1",
""" """
Redis: IP address or hostname. Redis: IP address or hostname.
""" """,
, private=True private=True,
)) ),
conf.registerGlobalValue(SnoParser.redis, 'port', )
registry.Integer(6379, conf.registerGlobalValue(
SnoParser.redis,
"port",
registry.Integer(
6379,
""" """
Redis: Port. Redis: Port.
""" """,
, private=True private=True,
)) ),
conf.registerGlobalValue(SnoParser.redis, 'username', )
registry.String('', conf.registerGlobalValue(
SnoParser.redis,
"username",
registry.String(
"",
""" """
Redis: Username. This is optional and has not been tested. It is recommended to perform initial tests on a local instance with no username and password. Redis: Username. This is optional and has not been tested. It is recommended to perform initial tests on a local instance with no username and password.
""" """,
, private=True private=True,
)) ),
conf.registerGlobalValue(SnoParser.redis, 'password', )
registry.String('', conf.registerGlobalValue(
SnoParser.redis,
"password",
registry.String(
"",
""" """
Redis: Password. This is optional and has not been tested. It is recommended to perform initial tests on a local instance with no username and password. Redis: Password. This is optional and has not been tested. It is recommended to perform initial tests on a local instance with no username and password.
""" """,
)) ),
conf.registerGlobalValue(SnoParser.redis, 'timeout', )
registry.Integer(5, conf.registerGlobalValue(
SnoParser.redis,
"timeout",
registry.Integer(
5,
""" """
Redis: Socket Timeout. The developer does not know what to recommend here, but `5` seems to yield good results. Redis: Socket Timeout. The developer does not know what to recommend here, but `5` seems to yield good results.
""" """,
)) ),
)
### ###
## WHOIS related settings below: ## WHOIS related settings below:
### ###
conf.registerGroup(SnoParser, 'whois') conf.registerGroup(SnoParser, "whois")
conf.registerGlobalValue(SnoParser.whois, 'debug', conf.registerGlobalValue(
registry.Boolean('false', SnoParser.whois,
"debug",
registry.Boolean(
"false",
""" """
SnoParser: True: Very verbose console output. False: Mostly silent operation. SnoParser: True: Very verbose console output. False: Mostly silent operation.
""" """,
, private=True private=True,
)) ),
conf.registerGlobalValue(SnoParser.whois, 'sample', )
registry.String('', conf.registerGlobalValue(
SnoParser.whois,
"sample",
registry.String(
"",
""" """
SnoParser: This allows to set a testing IP address, if the plugin shall be evaluated on i.e. a local network. This will override all IP addresses from SNOTICES! SnoParser: This allows to set a testing IP address, if the plugin shall be evaluated on i.e. a local network. This will override all IP addresses from SNOTICES!
""" """,
, private=True private=True,
)) ),
conf.registerGlobalValue(SnoParser.whois, 'ttl', )
registry.Integer(3600, conf.registerGlobalValue(
SnoParser.whois,
"ttl",
registry.Integer(
3600,
""" """
SnoParser: How long to cache WHOIS entries for. SnoParser: How long to cache WHOIS entries for.
""" """,
, private=True private=True,
)) ),
conf.registerGroup(SnoParser.whois, 'redis') )
conf.registerGlobalValue(SnoParser.whois.redis, 'db', conf.registerGroup(SnoParser.whois, "redis")
registry.Integer(0, conf.registerGlobalValue(
SnoParser.whois.redis,
"db",
registry.Integer(
0,
""" """
Redis: Database number for WHOIS query caching. Redis: Database number for WHOIS query caching.
""" """,
)) ),
)
# vim:set shiftwidth=4 tabstop=4 expandtab textwidth=79: # vim:set shiftwidth=4 tabstop=4 expandtab textwidth=79:

254
plugin.py
View File

@ -28,11 +28,23 @@
### ###
from supybot import utils, plugins, ircutils, callbacks, ircdb, conf, log, world, ircmsgs from supybot import (
utils,
plugins,
ircutils,
callbacks,
ircdb,
conf,
log,
world,
ircmsgs,
)
from supybot.commands import * from supybot.commands import *
try: try:
from supybot.i18n import PluginInternationalization from supybot.i18n import PluginInternationalization
_ = PluginInternationalization('SnoParser')
_ = PluginInternationalization("SnoParser")
except ImportError: except ImportError:
# Placeholder that allows to run the plugin on a bot # Placeholder that allows to run the plugin on a bot
# without the i18n module # without the i18n module
@ -49,19 +61,21 @@ from datetime import timedelta
from ipwhois import IPWhois from ipwhois import IPWhois
import ipwhois import ipwhois
class SnoParser(callbacks.Plugin): class SnoParser(callbacks.Plugin):
"""Parses the Server Notices from ErgoIRCd""" """Parses the Server Notices from ErgoIRCd"""
threaded = True threaded = True
def redis_connect_whois(self) -> redis.client.Redis: def redis_connect_whois(self) -> redis.client.Redis:
try: try:
redis_client_whois = redis.Redis( redis_client_whois = redis.Redis(
host = self.registryValue('redis.host'), host=self.registryValue("redis.host"),
port = self.registryValue('redis.port'), port=self.registryValue("redis.port"),
password = self.registryValue('redis.password'), password=self.registryValue("redis.password"),
username = self.registryValue('redis.username'), username=self.registryValue("redis.username"),
db = self.registryValue('whois.redis.db'), db=self.registryValue("whois.redis.db"),
socket_timeout = int(self.registryValue('redis.timeout')) socket_timeout=int(self.registryValue("redis.timeout")),
) )
ping = redis_client_whois.ping() ping = redis_client_whois.ping()
if ping is True: if ping is True:
@ -72,12 +86,12 @@ class SnoParser(callbacks.Plugin):
def redis_connect_nicks(self) -> redis.client.Redis: def redis_connect_nicks(self) -> redis.client.Redis:
try: try:
redis_client_nicks = redis.Redis( redis_client_nicks = redis.Redis(
host = self.registryValue('redis.host'), host=self.registryValue("redis.host"),
port = self.registryValue('redis.port'), port=self.registryValue("redis.port"),
password = self.registryValue('redis.password'), password=self.registryValue("redis.password"),
username = self.registryValue('redis.username'), username=self.registryValue("redis.username"),
db = self.registryValue('redis.db1'), db=self.registryValue("redis.db1"),
socket_timeout = int(self.registryValue('redis.timeout')) socket_timeout=int(self.registryValue("redis.timeout")),
) )
ping = redis_client_nicks.ping() ping = redis_client_nicks.ping()
if ping is True: if ping is True:
@ -88,12 +102,12 @@ class SnoParser(callbacks.Plugin):
def redis_connect_ips(self) -> redis.client.Redis: def redis_connect_ips(self) -> redis.client.Redis:
try: try:
redis_client_ips = redis.Redis( redis_client_ips = redis.Redis(
host = self.registryValue('redis.host'), host=self.registryValue("redis.host"),
port = self.registryValue('redis.port'), port=self.registryValue("redis.port"),
password = self.registryValue('redis.password'), password=self.registryValue("redis.password"),
username = self.registryValue('redis.username'), username=self.registryValue("redis.username"),
db = self.registryValue('redis.db2'), db=self.registryValue("redis.db2"),
socket_timeout = int(self.registryValue('redis.timeout')) socket_timeout=int(self.registryValue("redis.timeout")),
) )
ping = redis_client_ips.ping() ping = redis_client_ips.ping()
if ping is True: if ping is True:
@ -101,7 +115,6 @@ class SnoParser(callbacks.Plugin):
except redis.AuthenticationError: except redis.AuthenticationError:
print("Could not authenticate to Redis backend.") print("Could not authenticate to Redis backend.")
def __init__(self, irc): def __init__(self, irc):
super().__init__(irc) super().__init__(irc)
self.redis_client_whois = self.redis_connect_whois() self.redis_client_whois = self.redis_connect_whois()
@ -111,19 +124,19 @@ class SnoParser(callbacks.Plugin):
def whois_fresh(self, sourceip: str) -> dict: def whois_fresh(self, sourceip: str) -> dict:
"""Data from WHOIS backend (IANA or respective RIR).""" """Data from WHOIS backend (IANA or respective RIR)."""
asn = 0 asn = 0
subnet = '' subnet = ""
try: try:
whois = IPWhois(sourceip) whois = IPWhois(sourceip)
whoisres = whois.lookup_rdap(depth=1,retry_count=0) whoisres = whois.lookup_rdap(depth=1, retry_count=0)
results = whoisres results = whoisres
if self.registryValue('whois.debug'): if self.registryValue("whois.debug"):
print(results) print(results)
asn = whoisres['asn_registry'] asn = whoisres["asn_registry"]
country = whoisres['asn_country_code'] country = whoisres["asn_country_code"]
description = whoisres['asn_description'] description = whoisres["asn_description"]
whoisout = asn + ' ' + country + ' ' + description whoisout = asn + " " + country + " " + description
except ipwhois.exceptions.IPDefinedError: except ipwhois.exceptions.IPDefinedError:
whoisout = 'RFC 4291 (Local)' whoisout = "RFC 4291 (Local)"
response = whoisout response = whoisout
return response return response
@ -133,16 +146,20 @@ class SnoParser(callbacks.Plugin):
k = self.redis_client_whois.get(key) k = self.redis_client_whois.get(key)
# self = SnoParser() # self = SnoParser()
# val = self.redis_client_whois.get(key) # val = self.redis_client_whois.get(key)
val = k val = k
return val return val
def whois_set_cache(self, key: str, value: str) -> bool: def whois_set_cache(self, key: str, value: str) -> bool:
"""Data to Redis.""" """Data to Redis."""
duration = int(self.registryValue('whois.ttl')) duration = int(self.registryValue("whois.ttl"))
state = self.redis_client_whois.setex(key, timedelta(seconds=duration), value=value,) state = self.redis_client_whois.setex(
key,
timedelta(seconds=duration),
value=value,
)
return state return state
def whois_run(self, sourceip: str) -> dict: def whois_run(self, sourceip: str) -> dict:
@ -151,20 +168,22 @@ class SnoParser(callbacks.Plugin):
data = self.whois_get_cache(key=sourceip) data = self.whois_get_cache(key=sourceip)
if data is not None: if data is not None:
data = json.loads(data) data = json.loads(data)
if self.registryValue('whois.debug'): if self.registryValue("whois.debug"):
print("SNOPARSER DEBUG - WHOIS_RUN WITH CACHE: TRUE") print("SNOPARSER DEBUG - WHOIS_RUN WITH CACHE: TRUE")
print(data) print(data)
print(sourceip) print(sourceip)
return data return data
else: else:
data = self.whois_fresh(sourceip) data = self.whois_fresh(sourceip)
if self.registryValue('whois.debug'): if self.registryValue("whois.debug"):
print("SNOPARSER DEBUG - WHOIS_RUN WITH CACHE: FALSE") print("SNOPARSER DEBUG - WHOIS_RUN WITH CACHE: FALSE")
print(data) print(data)
print(sourceip) print(sourceip)
if data.startswith: if data.startswith:
if self.registryValue('whois.debug'): if self.registryValue("whois.debug"):
print("SNOPARSER DEBUG - WHOIS_RUN WITH CACHE: FALSE AND CORRECT STARTING CHARACTER") print(
"SNOPARSER DEBUG - WHOIS_RUN WITH CACHE: FALSE AND CORRECT STARTING CHARACTER"
)
print(data) print(data)
data = json.dumps(data) data = json.dumps(data)
state = self.whois_set_cache(key=sourceip, value=data) state = self.whois_set_cache(key=sourceip, value=data)
@ -172,8 +191,10 @@ class SnoParser(callbacks.Plugin):
if state is True: if state is True:
return json.loads(data) return json.loads(data)
else: else:
if self.registryValue('whois.debug'): if self.registryValue("whois.debug"):
print("SNOPARSER DEBUG _ WHOIS_RUN WITH CACHE: FALSE AND WRONG STARTING CHARACTER") print(
"SNOPARSER DEBUG _ WHOIS_RUN WITH CACHE: FALSE AND WRONG STARTING CHARACTER"
)
print(data) print(data)
return data return data
@ -183,24 +204,24 @@ class SnoParser(callbacks.Plugin):
data = self.redis_client_nicks.get(nickname) data = self.redis_client_nicks.get(nickname)
if data is not None: if data is not None:
if self.registryValue('debug'): if self.registryValue("debug"):
print("SNOPARSER DEBUG - NICK_RUN, SEEN: TRUE") print("SNOPARSER DEBUG - NICK_RUN, SEEN: TRUE")
print(nickname) print(nickname)
print(data) print(data)
self.redis_client_nicks.incrby(nickname,amount=1) self.redis_client_nicks.incrby(nickname, amount=1)
if data: if data:
decoded = data.decode('utf-8') decoded = data.decode("utf-8")
return decoded return decoded
else: else:
return 0 return 0
else: else:
if self.registryValue('debug'): if self.registryValue("debug"):
print("SNOPARSER DEBUG _ NICK_RUN, SEEN: FALSE") print("SNOPARSER DEBUG _ NICK_RUN, SEEN: FALSE")
print(nickname) print(nickname)
print(data) print(data)
self.redis_client_nicks.set(nickname,value='1') self.redis_client_nicks.set(nickname, value="1")
if data: if data:
decoded = data.decode('utf-8') decoded = data.decode("utf-8")
return decoded return decoded
else: else:
return 0 return 0
@ -211,24 +232,24 @@ class SnoParser(callbacks.Plugin):
data = self.redis_client_ips.get(ipaddress) data = self.redis_client_ips.get(ipaddress)
if data is not None: if data is not None:
if self.registryValue('debug'): if self.registryValue("debug"):
print("SNOPARSER DEBUG - IP_RUN, SEEN: TRUE") print("SNOPARSER DEBUG - IP_RUN, SEEN: TRUE")
print(ipaddress) print(ipaddress)
print(data) print(data)
self.redis_client_ips.incrby(ipaddress,amount=1) self.redis_client_ips.incrby(ipaddress, amount=1)
if data: if data:
decoded = data.decode('utf-8') decoded = data.decode("utf-8")
return decoded return decoded
else: else:
return 0 return 0
else: else:
if self.registryValue('debug'): if self.registryValue("debug"):
print("SNOPARSER DEBUG _ IP_RUN, SEEN: FALSE") print("SNOPARSER DEBUG _ IP_RUN, SEEN: FALSE")
print(ipaddress) print(ipaddress)
print(data) print(data)
self.redis_client_ips.set(ipaddress,value='1') self.redis_client_ips.set(ipaddress, value="1")
if data: if data:
decoded = data.decode('utf-8') decoded = data.decode("utf-8")
return decoded return decoded
else: else:
return 0 return 0
@ -239,15 +260,14 @@ class SnoParser(callbacks.Plugin):
""" """
data = self.whois_get_cache(key=ipaddress) data = self.whois_get_cache(key=ipaddress)
decoded_data = data.decode('utf-8') decoded_data = data.decode("utf-8")
ttl = self.redis_client_whois.ttl(ipaddress) ttl = self.redis_client_whois.ttl(ipaddress)
count = self.redis_client_ips.get(ipaddress) count = self.redis_client_ips.get(ipaddress)
decoded_count = count.decode('utf-8') decoded_count = count.decode("utf-8")
print('SnoParser manual query: ', data, ' ', ttl) print("SnoParser manual query: ", data, " ", ttl)
irc.reply(f'{decoded_data} - Count: {decoded_count} - Remaining: {ttl}s') irc.reply(f"{decoded_data} - Count: {decoded_count} - Remaining: {ttl}s")
ipquery = wrap(ipquery, ['ip'])
ipquery = wrap(ipquery, ["ip"])
def doNotice(self, irc, msg): def doNotice(self, irc, msg):
(target, text) = msg.args (target, text) = msg.args
@ -256,15 +276,17 @@ class SnoParser(callbacks.Plugin):
# server notices CONNECT, KILL, XLINE, NICK, ACCOUNT, OPER, QUIT, # server notices CONNECT, KILL, XLINE, NICK, ACCOUNT, OPER, QUIT,
text = ircutils.stripFormatting(text) text = ircutils.stripFormatting(text)
# if 'CONNECT' in text: # if 'CONNECT' in text:
RE_CLICONN = re.compile(r"^-CONNECT- Client connected \[(.+)\] \[u\:~(.+)\] \[h\:(.+)\] \[ip\:(.+)\] \[r\:(.+)\]$") RE_CLICONN = re.compile(
r"^-CONNECT- Client connected \[(.+)\] \[u\:~(.+)\] \[h\:(.+)\] \[ip\:(.+)\] \[r\:(.+)\]$"
)
couple = RE_CLICONN.match(text) couple = RE_CLICONN.match(text)
# check `if couple:` ie was there a match even? if yes proceed # check `if couple:` ie was there a match even? if yes proceed
if couple: if couple:
nickname = couple.group(1) nickname = couple.group(1)
username = couple.group(2) username = couple.group(2)
host = couple.group(3) host = couple.group(3)
if self.registryValue('whois.sample'): if self.registryValue("whois.sample"):
ip = self.registryValue('whois.sample') ip = self.registryValue("whois.sample")
else: else:
ip = couple.group(4) ip = couple.group(4)
realname = couple.group(5) realname = couple.group(5)
@ -273,12 +295,23 @@ class SnoParser(callbacks.Plugin):
nick_seen = self.nick_run(nickname=nickname) nick_seen = self.nick_run(nickname=nickname)
whois = self.whois_run(sourceip=ip) whois = self.whois_run(sourceip=ip)
snote_dict = {'notice': 'connect', 'nickname': nickname, 'username': username, 'host': host, 'ip': ip, 'realname': realname, 'ipCount': ip_seen, 'nickCount': nick_seen} snote_dict = {
"notice": "connect",
"nickname": nickname,
"username": username,
"host": host,
"ip": ip,
"realname": realname,
"ipCount": ip_seen,
"nickCount": nick_seen,
}
repl = f"\x02\x1F{snote_dict['notice']} \x0F\x11\x0303==>>\x0F \x02Nick:\x0F {snote_dict['nickname']} \x02Username:\x0F {snote_dict['username']} \x02Hostname:\x0F {snote_dict['host']} \x02IP:\x0F {snote_dict['ip']} {whois} \x02Realname:\x0F {snote_dict['realname']} \x02IPcount:\x0F {snote_dict['ipCount']} \x02NickCount:\x0F {snote_dict['nickCount']}" repl = f"\x02\x1F{snote_dict['notice']} \x0F\x11\x0303==>>\x0F \x02Nick:\x0F {snote_dict['nickname']} \x02Username:\x0F {snote_dict['username']} \x02Hostname:\x0F {snote_dict['host']} \x02IP:\x0F {snote_dict['ip']} {whois} \x02Realname:\x0F {snote_dict['realname']} \x02IPcount:\x0F {snote_dict['ipCount']} \x02NickCount:\x0F {snote_dict['nickCount']}"
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
# if 'XLINE' in text and 'temporary' in text: # if 'XLINE' in text and 'temporary' in text:
RE_XLINE = re.compile(r"^-XLINE- (.+) \[(.+)\] added temporary \((.+)\) (K-Line|D-Line) for (.+)$") RE_XLINE = re.compile(
r"^-XLINE- (.+) \[(.+)\] added temporary \((.+)\) (K-Line|D-Line) for (.+)$"
)
couple = RE_XLINE.match(text) couple = RE_XLINE.match(text)
if couple: if couple:
who = couple.group(1) who = couple.group(1)
@ -286,30 +319,50 @@ class SnoParser(callbacks.Plugin):
duration = couple.group(3) duration = couple.group(3)
which_line = couple.group(4) which_line = couple.group(4)
host_or_ip = couple.group(5) host_or_ip = couple.group(5)
snote_dict = {'notice': 'tempban', 'who': who, 'operator': who_operator, 'duration': duration, 'type': which_line, 'target': host_or_ip} snote_dict = {
"notice": "tempban",
"who": who,
"operator": who_operator,
"duration": duration,
"type": which_line,
"target": host_or_ip,
}
repl = f"\x02\x1FNOTICE: {snote_dict['notice']}\x0F \x11\x0303 X_X \x0F \x02BannedBy:\x0F {snote_dict['who']} \x02BannedByOper:\x0F {snote_dict['operator']} \x02Duration:\x0F {snote_dict['duration']} \x02XLINE Type:\x0F {snote_dict['type']} \x02Nick:\x0F {snote_dict['target']}" repl = f"\x02\x1FNOTICE: {snote_dict['notice']}\x0F \x11\x0303 X_X \x0F \x02BannedBy:\x0F {snote_dict['who']} \x02BannedByOper:\x0F {snote_dict['operator']} \x02Duration:\x0F {snote_dict['duration']} \x02XLINE Type:\x0F {snote_dict['type']} \x02Nick:\x0F {snote_dict['target']}"
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
# WHY THE FUCK IS IT elif ?? # WHY THE FUCK IS IT elif ??
elif 'XLINE' in text and 'temporary' not in text and 'removed' not in text: elif "XLINE" in text and "temporary" not in text and "removed" not in text:
perm_xline_regex = "^-XLINE- (.+) \[(.+)\] added (D-Line|K-Line) for (.+)$" perm_xline_regex = (
"^-XLINE- (.+) \[(.+)\] added (D-Line|K-Line) for (.+)$"
)
couple = re.match(perm_xline_regex, text) couple = re.match(perm_xline_regex, text)
who = couple.group(1) who = couple.group(1)
who_operator = couple.group(2) who_operator = couple.group(2)
which_line = couple.group(3) which_line = couple.group(3)
host_or_ip = couple.group(4) host_or_ip = couple.group(4)
snote_dict = {'notice': 'Permaban', 'who': who, 'operator': who_operator, 'type': which_line, 'target': host_or_ip} snote_dict = {
"notice": "Permaban",
"who": who,
"operator": who_operator,
"type": which_line,
"target": host_or_ip,
}
repl = f"\x02\x1FNOTICE: {snote_dict['notice']} \x0F \x11\x0303 X_X \x0F \x02BannedBy:\x0F {snote_dict['who']} \x02BannedByOper:\x0F {snote_dict['operator']} \x02XLINE Type:\x0F {snote_dict['type']} \x02Host/IP:\x0F {snote_dict['target']}" repl = f"\x02\x1FNOTICE: {snote_dict['notice']} \x0F \x11\x0303 X_X \x0F \x02BannedBy:\x0F {snote_dict['who']} \x02BannedByOper:\x0F {snote_dict['operator']} \x02XLINE Type:\x0F {snote_dict['type']} \x02Host/IP:\x0F {snote_dict['target']}"
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
elif 'XLINE' in text and 'removed' in text: elif "XLINE" in text and "removed" in text:
unxlineregex = "^-XLINE- (.+) removed (D-Line|K-Line) for (.+)$" unxlineregex = "^-XLINE- (.+) removed (D-Line|K-Line) for (.+)$"
couple = re.match(unxlineregex, text) couple = re.match(unxlineregex, text)
who = couple.group(1) who = couple.group(1)
which_line = couple.group(2) which_line = couple.group(2)
host_or_ip = couple.group(3) host_or_ip = couple.group(3)
snote_dict = {'notice': 'unxline', 'who': who, 'type': which_line, 'target': host_or_ip} snote_dict = {
"notice": "unxline",
"who": who,
"type": which_line,
"target": host_or_ip,
}
repl = f"\x02\x1FNOTICE: {snote_dict['notice']} \x0F\x11\x0303 :=D\x0F \x02UnbannedBy:\x0F {snote_dict['who']} \x02XLINE type:\x0F {snote_dict['type']} \x02Host/IP:\x0F {snote_dict['target']}" repl = f"\x02\x1FNOTICE: {snote_dict['notice']} \x0F\x11\x0303 :=D\x0F \x02UnbannedBy:\x0F {snote_dict['who']} \x02XLINE type:\x0F {snote_dict['type']} \x02Host/IP:\x0F {snote_dict['target']}"
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
if 'KILL' in text: if "KILL" in text:
killregex = "^-KILL- (.+) \[(.+)\] killed (\d) clients with a (KLINE|DLINE) \[(.+)\]$" killregex = "^-KILL- (.+) \[(.+)\] killed (\d) clients with a (KLINE|DLINE) \[(.+)\]$"
couple = re.match(killregex, text) couple = re.match(killregex, text)
who = couple.group(1) who = couple.group(1)
@ -317,49 +370,69 @@ class SnoParser(callbacks.Plugin):
clients = couple.group(3) clients = couple.group(3)
which_line = couple.group(4) which_line = couple.group(4)
nick = couple.group(5) nick = couple.group(5)
snote_dict = {'notice': 'kill', 'who': who, 'operator': who_operator, "client": clients, 'type': which_line, 'nick': nick} snote_dict = {
"notice": "kill",
"who": who,
"operator": who_operator,
"client": clients,
"type": which_line,
"nick": nick,
}
repl = f"\x02\x1FNOTICE: {snote_dict['notice']} \x0F\x11\x0303☠\x0F \x02KilledBy:\x0F {snote_dict['who']} \x02KilledByOper:\x0F {snote_dict['operator']} \x02NumofClientsAffected:\x0F {snote_dict['client']} \x02XLINE Type:\x0F {snote_dict['type']} \x02Nick:\x0F {snote_dict['nick']}" repl = f"\x02\x1FNOTICE: {snote_dict['notice']} \x0F\x11\x0303☠\x0F \x02KilledBy:\x0F {snote_dict['who']} \x02KilledByOper:\x0F {snote_dict['operator']} \x02NumofClientsAffected:\x0F {snote_dict['client']} \x02XLINE Type:\x0F {snote_dict['type']} \x02Nick:\x0F {snote_dict['nick']}"
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
if 'NICK' in text and 'changed nickname to' in text: if "NICK" in text and "changed nickname to" in text:
nickregex = "^-NICK- (.+) changed nickname to (.+)$" nickregex = "^-NICK- (.+) changed nickname to (.+)$"
couple = re.match(nickregex, text) couple = re.match(nickregex, text)
old_nick = couple.group(1) old_nick = couple.group(1)
new_nick = couple.group(2) new_nick = couple.group(2)
snote_dict = {'notice': 'nick change', 'old_nick': old_nick, 'new_nick': new_nick} snote_dict = {
"notice": "nick change",
"old_nick": old_nick,
"new_nick": new_nick,
}
repl = f"\x02\x1FNOTICE: {snote_dict['notice']} ==> {snote_dict['old_nick']} changed their nick to {snote_dict['new_nick']}" repl = f"\x02\x1FNOTICE: {snote_dict['notice']} ==> {snote_dict['old_nick']} changed their nick to {snote_dict['new_nick']}"
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
if 'QUIT' in text and 'exited' in text: if "QUIT" in text and "exited" in text:
quitregex = "^-QUIT- (.+) exited the network$" quitregex = "^-QUIT- (.+) exited the network$"
couple = re.match(quitregex, text) couple = re.match(quitregex, text)
nick = couple.group(1) nick = couple.group(1)
snote_dict = {'notice': 'quit', 'nick': nick} snote_dict = {"notice": "quit", "nick": nick}
repl = f"\x02\x1FNOTICE: quit nick: {nick} has exited the network" repl = f"\x02\x1FNOTICE: quit nick: {nick} has exited the network"
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
if 'ACCOUNT' in text and 'registered account' in text: if "ACCOUNT" in text and "registered account" in text:
accregex = "^-ACCOUNT- Client \[(.*)\] registered account \[(.*)\] from IP (.*)$" accregex = "^-ACCOUNT- Client \[(.*)\] registered account \[(.*)\] from IP (.*)$"
couple = re.match(accregex, text) couple = re.match(accregex, text)
hostmask = couple.group(1) hostmask = couple.group(1)
account = couple.group(2) account = couple.group(2)
ip = couple.group(3) ip = couple.group(3)
snote_dict = {'notice': 'accreg', 'hostmask': hostmask, 'account': account, 'ip': ip} snote_dict = {
"notice": "accreg",
"hostmask": hostmask,
"account": account,
"ip": ip,
}
repl = f"\x02\x1FNOTICE: accreg -> [{account}] was registered by hostmask [{hostmask}] from IP {ip}" repl = f"\x02\x1FNOTICE: accreg -> [{account}] was registered by hostmask [{hostmask}] from IP {ip}"
# Trigger HS SET # Trigger HS SET
self._setvhost(irc, msg, account) self._setvhost(irc, msg, account)
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
if 'ACCOUNT' in text and 'registered account' in text and 'SAREGISTER' in text: if (
"ACCOUNT" in text
and "registered account" in text
and "SAREGISTER" in text
):
accregex = "^-ACCOUNT- Operator \[(.*)\] registered account \[(.*)\] with SAREGISTER$" accregex = "^-ACCOUNT- Operator \[(.*)\] registered account \[(.*)\] with SAREGISTER$"
couple = re.match(accregex, text) couple = re.match(accregex, text)
oper = couple.group(1) oper = couple.group(1)
account = couple.group(2) account = couple.group(2)
snote_dict = {'notice': 'sareg', 'oper': oper, 'account': account} snote_dict = {"notice": "sareg", "oper": oper, "account": account}
repl = f"\x02\x1FNOTICE: sareg -> [{account}] was registered by operator [{oper}]" repl = f"\x02\x1FNOTICE: sareg -> [{account}] was registered by operator [{oper}]"
self._setvhost(irc, msg, account) self._setvhost(irc, msg, account)
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
if 'OPER' in text and 'Client opered up' in text: if "OPER" in text and "Client opered up" in text:
operregex = "^-OPER- Client opered up \[(.*)\, \ (.*)\]$" operregex = "^-OPER- Client opered up \[(.*)\, \ (.*)\]$"
couple = re.match(operregex, text) couple = re.match(operregex, text)
hostmask = couple.group(1) hostmask = couple.group(1)
@ -367,41 +440,36 @@ class SnoParser(callbacks.Plugin):
print(couple) print(couple)
snote_dict = {'notice': 'opered', 'hostmask': hostmask, 'oper': oper} snote_dict = {"notice": "opered", "hostmask": hostmask, "oper": oper}
repl = f"\x02\x1FNOTICE:\x0F [{hostmask}] opered up as [{oper}]." repl = f"\x02\x1FNOTICE:\x0F [{hostmask}] opered up as [{oper}]."
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
if 'OPER' in text and 'Client deopered' in text: if "OPER" in text and "Client deopered" in text:
operregex = "^-OPER- Client deopered \[(.*)\]" operregex = "^-OPER- Client deopered \[(.*)\]"
couple = re.match(operregex, text) couple = re.match(operregex, text)
account = couple.group(1) account = couple.group(1)
snote_dict = {'notice': 'deopered', 'name': account} snote_dict = {"notice": "deopered", "name": account}
repl = f"\x02\x1FNOTICE:\x0F [{account}] opered down." repl = f"\x02\x1FNOTICE:\x0F [{account}] opered down."
self._sendSnotice(irc, msg, repl) self._sendSnotice(irc, msg, repl)
# Post Registration # Post Registration
def _setvhost(self, irc, msg, account): def _setvhost(self, irc, msg, account):
arg = ['SET'] arg = ["SET"]
arg.append(account) arg.append(account)
vhost = self.registryValue('AutoVhost') vhost = self.registryValue("AutoVhost")
arg.append(f'{vhost}{account}') arg.append(f"{vhost}{account}")
irc.sendMsg(msg=ircmsgs.IrcMsg(command='HS', irc.sendMsg(msg=ircmsgs.IrcMsg(command="HS", args=arg))
args=arg))
# Send formatted SNO to channel # Send formatted SNO to channel
def _sendSnotice(self, irc, msg, repl): def _sendSnotice(self, irc, msg, repl):
try: try:
channel = self.registryValue('targetChannel') channel = self.registryValue("targetChannel")
if irc.isChannel(channel): if irc.isChannel(channel):
irc.queueMsg(msg=ircmsgs.IrcMsg(command='NOTICE', irc.queueMsg(msg=ircmsgs.IrcMsg(command="NOTICE", args=(channel, repl)))
args=(channel, repl)))
# what sort of exception does one raise # what sort of exception does one raise
except: except:
pass pass

View File

@ -1,3 +1,4 @@
async-timeout==4.0.2
dnspython==2.0.0 dnspython==2.0.0
ipwhois==1.2.0 ipwhois==1.2.0
redis==3.5.3 redis==4.5.4