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opnsense_checkmk_agent.py
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opnsense_checkmk_agent.py
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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
# vim: set fileencoding=utf-8:noet
## Copyright 2024 Bashclub https://github.com/bashclub
## BSD-2-Clause
##
## Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
##
## 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
##
## 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
##
## THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
## THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
## BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
## GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
## LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
## OPNsense CheckMK Agent
## to install
## copy to /usr/local/etc/rc.syshook.d/start/99-checkmk_agent and chmod +x
##
## default config file /usr/local/etc/checkmk.conf
##
## for server-side implementation of
## * smartdisk - install the mkp from https://github.com/bashclub/checkmk-smart plugins os-smart
## * squid - install the mkp from https://exchange.checkmk.com/p/squid and forwarder -> listen on loopback active
## task types2
## speedtest|proxy|ssh|nmap|domain|blocklist
##
__VERSION__ = "1.2.8"
import sys
import os
import shlex
import glob
import re
import time
import json
import socket
import signal
import struct
import subprocess
import pwd
import threading
import ipaddress
import base64
import traceback
import syslog
import requests
import hashlib
from urllib3.connection import HTTPConnection
from urllib3.connectionpool import HTTPConnectionPool
from requests.adapters import HTTPAdapter
from cryptography import x509
from cryptography.hazmat.backends import default_backend as crypto_default_backend
from cryptography.hazmat.primitives import hashes
from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
from cryptography.hazmat.primitives.kdf.pbkdf2 import PBKDF2HMAC
from datetime import datetime
from xml.etree import cElementTree as ELementTree
from collections import Counter,defaultdict
from pprint import pprint
from socketserver import TCPServer,StreamRequestHandler
import unbound
unbound.RR_TYPE_TLSA = 52
unbound.RR_TYPE_SPF = unbound.RR_TYPE_TXT
from OpenSSL import SSL,crypto
from binascii import b2a_hex
from datetime import datetime
SCRIPTPATH = os.path.abspath(__file__)
SYSHOOK_METHOD = re.findall("rc\.syshook\.d\/(start|stop)/",SCRIPTPATH)
BASEDIR = "/usr/local/check_mk_agent"
VARDIR = "/var/lib/check_mk_agent"
CHECKMK_CONFIG = "/usr/local/etc/checkmk.conf"
MK_CONFDIR = os.path.dirname(CHECKMK_CONFIG)
LOCALDIR = os.path.join(BASEDIR,"local")
PLUGINSDIR = os.path.join(BASEDIR,"plugins")
SPOOLDIR = os.path.join(VARDIR,"spool")
TASKDIR = os.path.join(BASEDIR,"tasks")
TASKFILE_KEYS = "service|type|interval|interface|disabled|ipaddress|hostname|domain|port|piggyback|sshoptions|options|tenant"
TASKFILE_REGEX = re.compile(f"^({TASKFILE_KEYS}):\s*(.*?)(?:\s+#|$)",re.M)
MAX_SIMULATAN_THREADS = 4
for _dir in (BASEDIR, VARDIR, LOCALDIR, PLUGINSDIR, SPOOLDIR, TASKDIR):
if not os.path.exists(_dir):
try:
os.mkdir(_dir)
except:
pass
os.environ["MK_CONFDIR"] = MK_CONFDIR
os.environ["MK_LIBDIR"] = BASEDIR
os.environ["MK_VARDIR"] = BASEDIR
class object_dict(defaultdict):
def __getattr__(self,name):
return self[name] if name in self else ""
def etree_to_dict(t):
d = {t.tag: {} if t.attrib else None}
children = list(t)
if children:
dd = object_dict(list)
for dc in map(etree_to_dict, children):
for k, v in dc.items():
dd[k].append(v)
d = {t.tag: {k:v[0] if len(v) == 1 else v for k, v in dd.items()}}
if t.attrib:
d[t.tag].update(('@' + k, v) for k, v in t.attrib.items())
if t.text:
text = t.text.strip()
if children or t.attrib:
if text:
d[t.tag]['#text'] = text
else:
d[t.tag] = text
return d
def log(message,prio="notice"):
priority = {
"crit" :syslog.LOG_CRIT,
"err" :syslog.LOG_ERR,
"warning" :syslog.LOG_WARNING,
"notice" :syslog.LOG_NOTICE,
"info" :syslog.LOG_INFO,
}.get(str(prio).lower(),syslog.LOG_DEBUG)
syslog.openlog(ident="checkmk_agent",logoption=syslog.LOG_PID | syslog.LOG_NDELAY,facility=syslog.LOG_DAEMON)
syslog.syslog(priority,message)
def pad_pkcs7(message,size=16):
_pad = size - (len(message) % size)
if type(message) == str:
return message + chr(_pad) * _pad
else:
return message + bytes([_pad]) * _pad
class NginxConnection(HTTPConnection):
def __init__(self):
super().__init__("localhost")
def connect(self):
self.sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
self.sock.connect("/var/run/nginx_status.sock")
class NginxConnectionPool(HTTPConnectionPool):
def __init__(self):
super().__init__("localhost")
def _new_conn(self):
return NginxConnection()
class NginxAdapter(HTTPAdapter):
## deprecated
def get_connection(self, url, proxies=None):
return NginxConnectionPool()
def get_connection_with_tls_context(self, request, verify, proxies=None, cert=None):
return NginxConnectionPool()
def check_pid(pid):
try:
os.kill(pid,0)
return True
except OSError: ## no permission check currently root
return False
class checkmk_handler(StreamRequestHandler):
def handle(self):
with self.server._mutex:
try:
_strmsg = self.server.do_checks(remote_ip=self.client_address[0])
except Exception as e:
raise
_strmsg = str(e).encode("utf-8")
try:
self.wfile.write(_strmsg)
except:
pass
class checkmk_checker(object):
_available_sysctl_list = []
_available_sysctl_temperature_list = []
_ipaccess_log = {}
_certificate_timestamp = 0
_check_cache = {}
_datastore_mutex = threading.RLock()
_datastore = object_dict()
def encrypt_msg(self,message,password='secretpassword'):
SALT_LENGTH = 8
KEY_LENGTH = 32
IV_LENGTH = 16
PBKDF2_CYCLES = 10_000
#SALT = b"Salted__"
SALT = os.urandom(SALT_LENGTH)
_backend = crypto_default_backend()
_kdf_key = PBKDF2HMAC(
algorithm = hashes.SHA256(),
length = KEY_LENGTH + IV_LENGTH,
salt = SALT,
iterations = PBKDF2_CYCLES,
backend = _backend
).derive(password.encode("utf-8"))
_key, _iv = _kdf_key[:KEY_LENGTH],_kdf_key[KEY_LENGTH:]
_encryptor = Cipher(
algorithms.AES(_key),
modes.CBC(_iv),
backend = _backend
).encryptor()
message = message.encode("utf-8")
message = pad_pkcs7(message)
_encrypted_message = _encryptor.update(message) + _encryptor.finalize()
return pad_pkcs7(b"03",10) + SALT + _encrypted_message
def decrypt_msg(self,message,password='secretpassword'):
SALT_LENGTH = 8
KEY_LENGTH = 32
IV_LENGTH = 16
PBKDF2_CYCLES = 10_000
message = message[10:] # strip header
SALT = message[:SALT_LENGTH]
message = message[SALT_LENGTH:]
_backend = crypto_default_backend()
_kdf_key = PBKDF2HMAC(
algorithm = hashes.SHA256(),
length = KEY_LENGTH + IV_LENGTH,
salt = SALT,
iterations = PBKDF2_CYCLES,
backend = _backend
).derive(password.encode("utf-8"))
_key, _iv = _kdf_key[:KEY_LENGTH],_kdf_key[KEY_LENGTH:]
_decryptor = Cipher(
algorithms.AES(_key),
modes.CBC(_iv),
backend = _backend
).decryptor()
_decrypted_message = _decryptor.update(message)
try:
return _decrypted_message.decode("utf-8").strip()
except UnicodeDecodeError:
return ("invalid key")
def _expired_lastaccesed(self,remote_ip):
_now = time.time()
_lastaccess = self._ipaccess_log.get(remote_ip,0)
_ret = True
if _lastaccess + self.expire_inventory > _now:
_ret = False
for _ip, _time in self._ipaccess_log.items():
if _time + self.expire_inventory < _now:
del self._ipaccess_log[_ip]
self._ipaccess_log[remote_ip] = _now
return _ret
def do_checks(self,debug=False,remote_ip=None,**kwargs):
self._getosinfo()
_errors = []
_failed_sections = []
_lines = ["<<<check_mk>>>"]
_lines.append("AgentOS: {os}".format(**self._info))
_lines.append(f"Version: {__VERSION__}")
_lines.append("Hostname: {hostname}".format(**self._info))
## only tenant data
if remote_ip in self.tenants.keys():
_secret = self.tenants.get(remote_ip,None)
_lines += self.taskrunner.get_data(tenant=remote_ip)[1:] ## remove number of tasks
_lines.append("")
if _secret:
return self.encrypt_msg("\n".join(_lines),password=_secret)
return "\n".join(_lines).encode("utf-8")
if self.onlyfrom:
_lines.append("OnlyFrom: {0}".format(",".join(self.onlyfrom)))
_lines.append(f"LocalDirectory: {LOCALDIR}")
_lines.append(f"PluginsDirectory: {PLUGINSDIR}")
_lines.append(f"AgentDirectory: {MK_CONFDIR}")
_lines.append(f"SpoolDirectory: {SPOOLDIR}")
for _check in dir(self):
if _check.startswith("check_"):
_name = _check.split("_",1)[1]
if _name in self.skipcheck:
continue
try:
_lines += getattr(self,_check)()
except:
_failed_sections.append(_name)
_errors.append(traceback.format_exc())
if os.path.isdir(PLUGINSDIR):
for _plugin_file in glob.glob(f"{PLUGINSDIR}/**",recursive=True):
if os.path.isfile(_plugin_file) and os.access(_plugin_file,os.X_OK):
try:
_cachetime = int(_plugin_file.split(os.path.sep)[-2])
except:
_cachetime = 0
try:
if _cachetime > 0:
_lines.append(self._run_cache_prog(_plugin_file,_cachetime))
else:
_lines.append(self._run_prog(_plugin_file))
except:
_errors.append(traceback.format_exc())
if self._expired_lastaccesed(remote_ip):
try:
_lines += self.do_inventory()
except:
_errors.append(traceback.format_exc())
_lines.append("<<<local:sep(0)>>>")
for _check in dir(self):
if _check.startswith("checklocal_"):
_name = _check.split("_",1)[1]
if _name in self.skipcheck:
continue
try:
_lines += getattr(self,_check)()
except:
_failed_sections.append(_name)
_errors.append(traceback.format_exc())
if os.path.isdir(LOCALDIR):
for _local_file in glob.glob(f"{LOCALDIR}/**",recursive=True):
if os.path.isfile(_local_file) and os.access(_local_file,os.X_OK):
try:
_cachetime = int(_local_file.split(os.path.sep)[-2])
except:
_cachetime = 0
try:
if _cachetime > 0:
_lines.append(self._run_cache_prog(_local_file,_cachetime))
else:
_lines.append(self._run_prog(_local_file))
except:
_errors.append(traceback.format_exc())
if os.path.isdir(SPOOLDIR):
_now = time.time()
for _filename in glob.glob(f"{SPOOLDIR}/*"):
_maxage = re.search("^(\d+)_",_filename)
if _maxage:
_maxage = int(_maxage.group(1))
_mtime = os.stat(_filename).st_mtime
if _now - _mtime > _maxage:
continue
with open(_filename) as _f:
_lines.append(_f.read())
_lines += self.taskrunner.get_data()
_lines.append("")
if debug:
sys.stdout.write("\n".join(_errors))
sys.stdout.flush()
if _failed_sections:
_lines.append("<<<check_mk>>>")
_lines.append("FailedPythonPlugins: {0}".format(",".join(_failed_sections)))
if self.encrypt and not debug:
return self.encrypt_msg("\n".join(_lines),password=self.encrypt)
return "\n".join(_lines).encode("utf-8")
def do_zabbix_output(self):
self._getosinfo()
_regex_convert = re.compile("^(?P<status>[0-3P])\s(?P<servicename>\".*?\"|\w+)\s(?P<metrics>[\w=.;|]+| -)\s(?P<details>.*)")
_json = []
for _check in dir(self):
if _check.startswith("checklocal_"):
_name = _check.split("_",1)[1]
if _name in self.skipcheck:
continue
try:
for _line in getattr(self,_check)():
try:
_entry = _regex_convert.search(_line).groupdict()
_entry["servicename"] = _entry["servicename"].strip('"')
_json.append(_entry)
except:
raise
except:
raise
return json.dumps(_json)
def _get_storedata(self,section,key):
with self._datastore_mutex:
return self._datastore.get(section,{}).get(key)
def _set_storedata(self,section,key,value):
with self._datastore_mutex:
if section not in self._datastore:
self._datastore[section] = object_dict()
self._datastore[section][key] = value
def _getosinfo(self):
_info = json.load(open("/usr/local/opnsense/version/core","r"))
_changelog = json.load(open("/usr/local/opnsense/changelog/index.json","r"))
_config_modified = os.stat("/conf/config.xml").st_mtime
try:
_default_version = {'series': _info.get("product_series"), 'version': _info.get("product_version"), 'date': time.strftime('%B %d, %Y')}
_latest_series = dict(map(lambda x: (x.get("series"),x),_changelog))
_latest_versions = dict(map(lambda x: (x.get("version"),x),_changelog))
_latest_firmware = _latest_series.get(_info.get("product_series"),_default_version)
_current_firmware = _latest_versions.get(_info.get("product_version").split("_")[0],_default_version).copy()
_current_firmware["age"] = int(time.time() - time.mktime(time.strptime(_current_firmware.get("date"),"%B %d, %Y")))
_current_firmware["version"] = _info.get("product_version")
except:
#raise
_latest_firmware = {}
_current_firmware = {}
_mayor_upgrade = None
try:
_upgrade_json = json.load(open("/tmp/pkg_upgrade.json","r"))
_upgrade_packages = dict(map(lambda x: (x.get("name"),x),_upgrade_json.get("upgrade_packages")))
_mayor_upgrade = _upgrade_json.get("upgrade_major_version")
_current_firmware["version"] = _upgrade_packages.get("opnsense").get("current_version")
_latest_firmware["version"] = _upgrade_packages.get("opnsense").get("new_version")
except:
_current_firmware["version"] = _current_firmware["version"].split("_")[0]
_latest_firmware["version"] = _current_firmware["version"] ## fixme ## no upgradepckg error on opnsense ... no new version
self._info = {
"os" : _info.get("product_name"),
"os_version" : _current_firmware.get("version","unknown"),
"version_age" : _current_firmware.get("age",0),
"config_age" : int(time.time() - _config_modified) ,
"last_configchange" : time.strftime("%H:%M %d.%m.%Y",time.localtime(_config_modified)),
"product_series" : _info.get("product_series"),
"latest_version" : (_mayor_upgrade if _mayor_upgrade else _latest_firmware.get("version","unknown")),
"latest_date" : _latest_firmware.get("date",""),
"hostname" : self._run_prog("hostname").strip(" \n")
}
if os.path.exists("/usr/local/opnsense/version/core.license"):
self._info["business_expire"] = datetime.strptime(json.load(open("/usr/local/opnsense/version/core.license","r")).get("valid_to","2000-01-01"),"%Y-%m-%d")
@staticmethod
def ip2int(ipaddr):
return struct.unpack("!I",socket.inet_aton(ipaddr))[0]
@staticmethod
def int2ip(intaddr):
return socket.inet_ntoa(struct.pack("!I",intaddr))
def pidof(self,prog,default=None):
_allprogs = re.findall("(\w+)\s+(\d+)",self._run_prog("ps ax -c -o command,pid"))
return int(dict(_allprogs).get(prog,default))
def _config_reader(self,config=""):
_config = ELementTree.parse("/conf/config.xml")
_root = _config.getroot()
return etree_to_dict(_root).get("opnsense",{})
@staticmethod
def get_common_name(certrdn):
try:
return next(filter(lambda x: x.oid == x509.oid.NameOID.COMMON_NAME,certrdn)).value.strip()
except:
return str(certrdn)
def _certificate_parser(self):
self._certificate_timestamp = time.time()
self._certificate_store = {}
for _cert in self._config_reader().get("cert"):
try:
_certpem = base64.b64decode(_cert.get("crt"))
_x509cert = x509.load_pem_x509_certificate(_certpem,crypto_default_backend())
_cert["not_valid_before"] = _x509cert.not_valid_before_utc.timestamp()
_cert["not_valid_after"] = _x509cert.not_valid_after_utc.timestamp()
_cert["serial"] = _x509cert.serial_number
_cert["common_name"] = self.get_common_name(_x509cert.subject)
_cert["issuer"] = self.get_common_name(_x509cert.issuer)
except:
pass
self._certificate_store[_cert.get("refid")] = _cert
def _get_certificate(self,refid):
if time.time() - self._certificate_timestamp > 3600:
self._certificate_parser()
return self._certificate_store.get(refid)
def _get_certificate_by_cn(self,cn,caref=None):
if time.time() - self._certificate_timestamp > 3600:
self._certificate_parser()
if caref:
_ret = filter(lambda x: x.get("common_name") == cn and x.get("caref") == caref,self._certificate_store.values())
else:
_ret = filter(lambda x: x.get("common_name") == cn,self._certificate_store.values())
try:
return next(_ret)
except StopIteration:
return {}
def get_opnsense_ipaddr(self):
try:
_ret = {}
for _if,_ip,_mask in re.findall("^([\w_]+):\sflags=(?:8943|8051|8043|8863).*?inet\s([\d.]+)\snetmask\s0x([a-f0-9]+)",self._run_prog("ifconfig"),re.DOTALL | re.M):
_ret[_if] = "{0}/{1}".format(_ip,str(bin(int(_mask,16))).count("1"))
return _ret
except:
return {}
def get_opnsense_interfaces(self):
_ifs = {}
for _name,_interface in self._config_reader().get("interfaces",{}).items():
if _interface.get("enable") != "1":
continue
_desc = _interface.get("descr")
_ifs[_interface.get("if","_")] = _desc if _desc else _name.upper()
try:
_wgserver = self._config_reader().get("OPNsense").get("wireguard").get("server").get("servers").get("server")
if type(_wgserver) == dict:
_wgserver = [_wgserver]
_ifs.update(
dict(
map(
lambda x: ("wg{}".format(x.get("instance")),"Wireguard_{}".format(x.get("name").strip().replace(" ","_"))),
_wgserver
)
)
)
except:
pass
return _ifs
def checklocal_firmware(self):
if self._info.get("os_version") != self._info.get("latest_version"):
return ["1 Firmware update_available=1|last_updated={version_age:.0f}|apply_finish_time={config_age:.0f} Version {os_version} ({latest_version} available {latest_date}) Config changed: {last_configchange}".format(**self._info)]
return ["0 Firmware update_available=0|last_updated={version_age:.0f}|apply_finish_time={config_age:.0f} Version {os_version} Config changed: {last_configchange}".format(**self._info)]
def checklocal_business(self):
if self._info.get("business_expire"):
_days = (self._info.get("business_expire") - datetime.now()).days
_date = self._info.get("business_expire").strftime("%d.%m.%Y")
return [f'P "Business Licence" expiredays={_days};;;30;60; Licence Expire: {_date}']
return []
def check_label(self):
_ret = ["<<<labels:sep(0)>>>"]
_dmsg = self._run_prog("dmesg",timeout=10)
if _dmsg.lower().find("hypervisor:") > -1:
_ret.append('{"cmk/device_type":"vm"}')
return _ret
def check_net(self):
_now = int(time.time())
_opnsense_ifs = self.get_opnsense_interfaces()
_ret = ["<<<statgrab_net>>>"]
_interface_data = []
_interface_data = self._run_prog("/usr/bin/netstat -i -b -d -n -W -f link").split("\n")
_header = _interface_data[0].lower()
_header = _header.replace("pkts","packets").replace("coll","collisions").replace("errs","error").replace("ibytes","rx").replace("obytes","tx")
_header = _header.split()
_interface_stats = dict(
map(
lambda x: (x.get("name"),x),
[
dict(zip(_header,_ifdata.split()))
for _ifdata in _interface_data[1:] if _ifdata
]
)
)
_ifconfig_out = self._run_prog("ifconfig -m -v -f inet:cidr,inet6:cidr")
_ifconfig_out += "END" ## fix regex
self._all_interfaces = object_dict()
self._carp_interfaces = object_dict()
for _interface, _data in re.findall("^(?P<iface>[\w.]+):\s(?P<data>.*?(?=^\w))",_ifconfig_out,re.DOTALL | re.MULTILINE):
_interface_dict = object_dict()
_interface_dict.update(_interface_stats.get(_interface,{}))
_interface_dict["interface_name"] = _opnsense_ifs.get(_interface,_interface)
_interface_dict["up"] = "false"
#if _interface.startswith("vmx"): ## vmware fix 10GBe (as OS Support)
# _interface_dict["speed"] = "10000"
_interface_dict["systime"] = _now
for _key, _val in re.findall("^\s*(\w+)[:\s=]+(.*?)$",_data,re.MULTILINE):
if _key == "description":
_interface_dict["interface_name"] = re.sub("_\((lan|wan|opt\d+)\)$","",_val.strip().replace(" ","_"))
if _key == "groups":
_interface_dict["groups"] = _val.strip().split()
if _key == "ether":
_interface_dict["phys_address"] = _val.strip()
if _key == "status" and _val.strip() == "active":
_interface_dict["up"] = "true"
if _interface.startswith("wg") and _interface_dict.get("flags",0) & 0x01:
_interface_dict["up"] = "true"
if _key == "flags":
_interface_dict["flags"] = int(re.findall("^[a-f\d]+",_val)[0],16)
## hack pppoe no status active or pppd pid
if _interface.lower().startswith("pppoe") and _interface_dict["flags"] & 0x10 and _interface_dict["flags"] & 0x1:
_interface_dict["up"] = "true"
## http://web.mit.edu/freebsd/head/sys/net/if.h
## 0x1 UP
## 0x2 BROADCAST
## 0x8 LOOPBACK
## 0x10 POINTTOPOINT
## 0x40 RUNNING
## 0x100 PROMISC
## 0x800 SIMPLEX
## 0x8000 MULTICAST
if _key == "media":
_match = re.search("\((?P<speed>\d+G?)[Bb]ase(?:.*?<(?P<duplex>.*?)>)?",_val)
if _match:
_interface_dict["speed"] = _match.group("speed").replace("G","000")
_interface_dict["duplex"] = _match.group("duplex")
if _key == "inet":
_match = re.search("^(?P<ipaddr>[\d.]+)\/(?P<cidr>\d+).*?(?:vhid\s(?P<vhid>\d+)|$)",_val,re.M)
if _match:
_cidr = _match.group("cidr")
_ipaddr = _match.group("ipaddr")
_vhid = _match.group("vhid")
if not _vhid:
_interface_dict["cidr"] = _cidr ## cidr wenn kein vhid
## fixme ipaddr dict / vhid dict
if _key == "inet6":
_match = re.search("^(?P<ipaddr>[0-9a-f:]+)\/(?P<prefix>\d+).*?(?:vhid\s(?P<vhid>\d+)|$)",_val,re.M)
if _match:
_ipaddr = _match.group("ipaddr")
_prefix = _match.group("prefix")
_vhid = _match.group("vhid")
if not _vhid:
_interface_dict["prefix"] = _prefix
## fixme ipaddr dict / vhid dict
if _key == "carp":
_match = re.search("(?P<status>MASTER|BACKUP)\svhid\s(?P<vhid>\d+)\sadvbase\s(?P<base>\d+)\sadvskew\s(?P<skew>\d+)",_val,re.M)
if _match:
_carpstatus = _match.group("status")
_vhid = _match.group("vhid")
self._carp_interfaces[_vhid] = (_interface,_carpstatus)
_advbase = _match.group("base")
_advskew = _match.group("skew")
## fixme vhid dict
if _key == "id":
_match = re.search("priority\s(\d+)",_val)
if _match:
_interface_dict["bridge_prio"] = _match.group(1)
if _key == "member":
_member = _interface_dict.get("member",[])
_member.append(_val.split()[0])
_interface_dict["member"] = _member
if _key == "Opened":
try:
_pid = int(_val.split(" ")[-1])
if check_pid(_pid):
_interface_dict["up"] = "true"
except ValueError:
pass
_flags = _interface_dict.get("flags")
if _flags and (_flags & 0x2 or _flags & 0x10 or _flags & 0x80): ## nur broadcast oder ptp .. und noarp
self._all_interfaces[_interface] = _interface_dict
else:
continue
#if re.search("^[*]?(pflog|pfsync|lo)\d?",_interface):
# continue
if not _opnsense_ifs.get(_interface):
continue
for _key,_val in _interface_dict.items():
if _key in ("mtu","ipackets","ierror","idrop","rx","opackets","oerror","tx","collisions","drop","interface_name","up","systime","phys_address","speed","duplex"):
if type(_val) in (str,int,float):
_sanitized_interface = _interface.replace(".","_")
_ret.append(f"{_sanitized_interface}.{_key} {_val}")
return _ret
def checklocal_services(self):
_phpcode = '<?php require_once("config.inc");require_once("system.inc"); require_once("plugins.inc"); require_once("util.inc"); foreach(plugins_services() as $_service) { printf("%s;%s;%s\n",$_service["name"],$_service["description"],service_status($_service));} ?>'
_proc = subprocess.Popen(["php"], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.DEVNULL,encoding="utf-8")
_data,_ = _proc.communicate(input=_phpcode,timeout=15)
_services = []
for _service in _data.strip().split("\n"):
_services.append(_service.split(";"))
_num_services = len(_services)
_stopped_services = list(filter(lambda x: x[2] != '1',_services))
_num_stopped = len(_stopped_services)
_num_running = _num_services - _num_stopped
_stopped_services = ", ".join(map(lambda x: x[1],_stopped_services))
if _num_stopped > 0:
return [f"2 Services running_services={_num_running:.0f}|stopped_service={_num_stopped:.0f} Services: {_stopped_services} not running"]
return [f"0 Services running_services={_num_running:.0f}|stopped_service={_num_stopped:.0f} All Services running"]
def checklocal_carpstatus(self):
#sysctl net.inet.carp.demotion #TODO
_ret = []
_virtual = self._config_reader().get("virtualip")
if not _virtual:
return []
_virtual = _virtual.get("vip")
if not _virtual:
return []
if type(_virtual) != list:
_virtual = [_virtual]
for _vip in _virtual:
if _vip.get("mode") != "carp":
continue
_vhid = _vip.get("vhid")
_ipaddr = _vip.get("subnet")
_interface, _carpstatus = self._carp_interfaces.get(_vhid,(None,None))
_carpstatus_num = 1 if _carpstatus == "MASTER" else 0
_interface_name = self._all_interfaces.get(_interface,{}).get("interface_name",_interface)
if int(_vip.get("advskew")) < 50:
_status = 0 if _carpstatus == "MASTER" else 1
else:
_status = 0 if _carpstatus == "BACKUP" else 1
if not _interface:
continue
_ret.append(f"{_status} \"CARP: {_interface_name}@{_vhid}\" master={_carpstatus_num} {_carpstatus} {_ipaddr} ({_interface})")
return _ret
def check_dhcp(self):
if not os.path.exists("/var/dhcpd/var/db/dhcpd.leases"):
return []
_ret = ["<<<isc_dhcpd>>>"]
_ret.append("[general]\nPID: {0}".format(self.pidof("dhcpd",-1)))
_dhcpleases = open("/var/dhcpd/var/db/dhcpd.leases","r").read()
## FIXME
#_dhcpleases_dict = dict(map(lambda x: (self.ip2int(x[0]),x[1]),re.findall(r"lease\s(?P<ipaddr>[0-9.]+)\s\{.*?.\n\s+binding state\s(?P<state>\w+).*?\}",_dhcpleases,re.DOTALL)))
_dhcpleases_dict = dict(re.findall(r"lease\s(?P<ipaddr>[0-9.]+)\s\{.*?.\n\s+binding state\s(?P<state>active).*?\}",_dhcpleases,re.DOTALL))
_dhcpconf = open("/var/dhcpd/etc/dhcpd.conf","r").read()
_ret.append("[pools]")
for _subnet in re.finditer(r"subnet\s(?P<subnet>[0-9.]+)\snetmask\s(?P<netmask>[0-9.]+)\s\{.*?(?:pool\s\{.*?\}.*?)*}",_dhcpconf,re.DOTALL):
#_cidr = bin(self.ip2int(_subnet.group(2))).count("1")
#_available = 0
for _pool in re.finditer("pool\s\{.*?range\s(?P<start>[0-9.]+)\s(?P<end>[0-9.]+).*?\}",_subnet.group(0),re.DOTALL):
#_start,_end = self.ip2int(_pool.group(1)), self.ip2int(_pool.group(2))
#_ips_in_pool = filter(lambda x: _start < x[0] < _end,_dhcpleases_dict.items())
#pprint(_dhcpleases_dict)
#pprint(sorted(list(map(lambda x: (self._int2ip(x[0]),x[1]),_ips_in_pool))))
#_available += (_end - _start)
_ret.append("{0}\t{1}".format(_pool.group(1),_pool.group(2)))
#_ret.append("DHCP_{0}/{1} {2}".format(_subnet.group(1),_cidr,_available))
_ret.append("[leases]")
for _ip in sorted(_dhcpleases_dict.keys()):
_ret.append(_ip)
return _ret
def check_squid(self):
_squid_config = self._config_reader().get("OPNsense",{}).get("proxy",{})
if _squid_config.get("general",{}).get("enabled") != "1":
return []
_ret = ["<<<squid>>>"]
_port = _squid_config.get("forward",{}).get("port","3128")
try:
_response = requests.get(f"http://127.0.0.1:{_port}/squid-internal-mgr/5min",timeout=0.2)
if _response.status_code == 200:
_ret += _response.text.split("\n")
except:
pass
return _ret
def checklocal_pkgaudit(self):
try:
_data = json.loads(self._run_cache_prog("pkg audit -F --raw=json-compact -q",cachetime=360,ignore_error=True))
_vulns = _data.get("pkg_count",0)
if _vulns > 0:
_packages = ", ".join(_data.get("packages",{}).keys())
return [f"1 Audit issues={_vulns} Pkg: {_packages} vulnerable"]
raise
except:
pass
return ["0 Audit issues=0 OK"]
@staticmethod
def _read_from_openvpnsocket(vpnsocket,cmd):
_sock = socket.socket(socket.AF_UNIX,socket.SOCK_STREAM)
try:
_sock.connect(vpnsocket)
assert (_sock.recv(4096).decode("utf-8")).startswith(">INFO")
cmd = cmd.strip() + "\n"
_sock.send(cmd.encode("utf-8"))
_data = ""
while True:
_socket_data = _sock.recv(4096).decode("utf-8")
_data += _socket_data
if _data.strip().endswith("END") or _data.strip().startswith("SUCCESS:") or _data.strip().startswith("ERROR:"):
break
return _data
finally:
if _sock:
_sock.send("quit\n".encode("utf-8"))
_sock.close()
_sock = None
return ""
def _get_traffic(self,modul,interface,totalbytesin,totalbytesout):
_hist_data = self._get_storedata(modul,interface)
_slot = int(time.time())
_slot -= _slot%60
_hist_slot = 0
_traffic_in = _traffic_out = 0
if _hist_data:
_hist_slot,_hist_bytesin, _hist_bytesout = _hist_data
_traffic_in = int(totalbytesin -_hist_bytesin) / max(1,_slot - _hist_slot)
_traffic_out = int(totalbytesout - _hist_bytesout) / max(1,_slot - _hist_slot)
if _hist_slot != _slot:
self._set_storedata(modul,interface,(_slot,totalbytesin,totalbytesout))
return max(0,_traffic_in),max(0,_traffic_out)
@staticmethod
def _get_dpinger_gateway(gateway):
_path = "/var/run/dpinger_{0}.sock".format(gateway)
if os.path.exists(_path):
_sock = socket.socket(socket.AF_UNIX,socket.SOCK_STREAM)
try:
_sock.connect(_path)
_data = _sock.recv(1024).decode("utf-8").strip()
_name, _rtt, _rttsd, _loss = re.findall("(\S+)\s(\d+)\s(\d+)\s(\d+)$",_data)[0]
assert _name.strip() == gateway
return int(_rtt)/1_000_000.0,int(_rttsd)/1_000_000.0, int(_loss)
except:
raise
return -1,-1,-1
def checklocal_gateway(self):
_ret = []
_gateways = self._config_reader().get("OPNsense",{}).get("Gateways")
if not _gateways:
_gateways = self._config_reader().get("gateways")
if not _gateways:
return []
_gateway_items = _gateways.get("gateway_item",[])
if type(_gateway_items) != list:
_gateway_items = [_gateway_items] if _gateway_items else []
_interfaces = self._config_reader().get("interfaces",{})
_ipaddresses = self.get_opnsense_ipaddr()
for _gateway in _gateway_items:
if type(_gateway.get("descr")) != str:
_gateway["descr"] = _gateway.get("name")
if _gateway.get("monitor_disable") == "1" or _gateway.get("disabled") == "1":
continue
_interface = _interfaces.get(_gateway.get("interface"),{})
_gateway["realinterface"] = _interface.get("if")
if _gateway.get("ipprotocol") == "inet":
_gateway["ipaddr"] = _ipaddresses.get(_interface.get("if"))
else:
_gateway["ipaddr"] = ""
_gateway["rtt"], _gateway["rttsd"], _gateway["loss"] = self._get_dpinger_gateway(_gateway.get("name"))
_gateway["status"] = 0
if _gateway.get("loss") > 0 or _gateway.get("rtt") > 100:
_gateway["status"] = 1
if _gateway.get("loss") > 90 or _gateway.get("loss") == -1:
_gateway["status"] = 2
_ret.append("{status} \"Gateway {descr}\" rtt={rtt}|rttsd={rttsd}|loss={loss} Gateway on Interface: {realinterface} {gateway}".format(**_gateway))
return _ret
def checklocal_openvpn(self):
_ret = []
_cfr = self._config_reader().get("openvpn")
_cfn = self._config_reader().get("OPNsense").get("OpenVPN") ##TODO new Connections
if type(_cfr) != dict:
return _ret
if "openvpn-csc" in _cfr.keys():
_cso = _cfr.get("openvpn-csc") ## pre v23.7
else:
_cso = _cfn.get("Overwrites")
if type(_cso) == dict:
_cso = _cso.get("Overwrite")
_monitored_clients = {}
if type(_cso) == dict:
_cso = [_cso]
if type(_cso) == list:
_monitored_clients = dict(map(lambda x: (x.get("common_name").upper(),dict(x,current=[])),_cso))
_now = time.time()
_vpnclient = _cfr.get("openvpn-client",[])
_vpnserver = _cfr.get("openvpn-server",[])
if type(_vpnserver) != list:
_vpnserver = [_vpnserver] if _vpnserver else []
if type(_vpnclient) != list:
_vpnclient = [_vpnclient] if _vpnclient else []
for _server in _vpnserver + _vpnclient:
if _server.get("disable") == '1':
continue ## FIXME OK/WARN/SKIP
## server_tls, p2p_shared_key p2p_tls
_server["name"] = _server.get("description").strip() if _server.get("description") else "OpenVPN_{protocoll}_{local_port}".format(**_server)
_caref = _server.get("caref")
_server_cert = self._get_certificate(_server.get("certref"))
_server["status"] = 3
_server["expiredays"] = 0
_server["expiredate"] = "no certificate found"
if _server_cert:
_notvalidafter = _server_cert.get("not_valid_after",0)
_server["expiredays"] = int((_notvalidafter - _now) / 86400)
_server["expiredate"] = time.strftime("Cert Expire: %d.%m.%Y",time.localtime(_notvalidafter))
if _server["expiredays"] < 61:
_server["status"] = 2 if _server["expiredays"] < 31 else 1
else:
_server["expiredate"] = "\\n" + _server["expiredate"]
_server["type"] = "server" if _server.get("local_port") else "client"
if _server.get("mode") in ("p2p_shared_key","p2p_tls"):
_unix = "/var/etc/openvpn/{type}{vpnid}.sock".format(**_server)
try:
_server["bytesin"], _server["bytesout"] = self._get_traffic("openvpn",
"SRV_{name}".format(**_server),
*(map(lambda x: int(x),re.findall("bytes\w+=(\d+)",self._read_from_openvpnsocket(_unix,"load-stats"))))
)
_laststate = self._read_from_openvpnsocket(_unix,"state 1").strip().split("\r\n")[-2]
_timestamp, _server["connstate"], _data = _laststate.split(",",2)
if _server["connstate"] == "CONNECTED":
_data = _data.split(",")
_server["vpn_ipaddr"] = _data[1]
_server["remote_ipaddr"] = _data[2]
_server["remote_port"] = _data[3]
_server["source_addr"] = _data[4]
_server["status"] = 0 if _server["status"] == 3 else _server["status"]
_ret.append('{status} "OpenVPN Connection: {name}" connections_ssl_vpn=1;;|if_in_octets={bytesin}|if_out_octets={bytesout}|expiredays={expiredays} Connected {remote_ipaddr}:{remote_port} {vpn_ipaddr} {expiredate}\Source IP: {source_addr}'.format(**_server))
else:
if _server["type"] == "client":
_server["status"] = 2
_ret.append('{status} "OpenVPN Connection: {name}" connections_ssl_vpn=0;;|if_in_octets={bytesin}|if_out_octets={bytesout}|expiredays={expiredays} {connstate} {expiredate}'.format(**_server))
else:
_server["status"] = 1 if _server["status"] != 2 else 2
_ret.append('{status} "OpenVPN Connection: {name}" connections_ssl_vpn=0;;|if_in_octets={bytesin}|if_out_octets={bytesout}|expiredays={expiredays} waiting on Port {local_port}/{protocol} {expiredate}'.format(**_server))
except:
_ret.append('2 "OpenVPN Connection: {name}" connections_ssl_vpn=0;;|expiredays={expiredays}|if_in_octets=0|if_out_octets=0 Server down Port:/{protocol} {expiredate}'.format(**_server))
continue
else:
if not _server.get("maxclients"):
_max_clients = ipaddress.IPv4Network(_server.get("tunnel_network")).num_addresses -2
if _server.get("topology_subnet") != "yes":
_max_clients = max(1,int(_max_clients/4)) ## p2p
_server["maxclients"] = _max_clients
try:
_unix = "/var/etc/openvpn/{type}{vpnid}.sock".format(**_server)
try:
_server["bytesin"], _server["bytesout"] = self._get_traffic("openvpn",
"SRV_{name}".format(**_server),
*(map(lambda x: int(x),re.findall("bytes\w+=(\d+)",self._read_from_openvpnsocket(_unix,"load-stats"))))
)
_server["status"] = 0 if _server["status"] == 3 else _server["status"]
except:
_server["bytesin"], _server["bytesout"] = 0,0
raise
_number_of_clients = 0
_now = int(time.time())
_response = self._read_from_openvpnsocket(_unix,"status 2")
for _client_match in re.finditer("^CLIENT_LIST,(.*?)$",_response,re.M):
_number_of_clients += 1
_client_raw = list(map(lambda x: x.strip(),_client_match.group(1).split(",")))
_client = {
"server" : _server.get("name"),
"common_name" : _client_raw[0],
"remote_ip" : _client_raw[1].rsplit(":",1)[0], ## ipv6
"vpn_ip" : _client_raw[2],
"vpn_ipv6" : _client_raw[3],
"bytes_received" : int(_client_raw[4]),
"bytes_sent" : int(_client_raw[5]),
"uptime" : _now - int(_client_raw[7]),
"username" : _client_raw[8] if _client_raw[8] != "UNDEF" else _client_raw[0],
"clientid" : int(_client_raw[9]),
"cipher" : _client_raw[11].strip("\r\n")
}
if _client["username"].upper() in _monitored_clients:
_monitored_clients[_client["username"].upper()]["current"].append(_client)
_server["clientcount"] = _number_of_clients
_ret.append('{status} "OpenVPN Server: {name}" connections_ssl_vpn={clientcount};;{maxclients}|if_in_octets={bytesin}|if_out_octets={bytesout}|expiredays={expiredays} {clientcount}/{maxclients} Connections Port:{local_port}/{protocol} {expiredate}'.format(**_server))
except:
_ret.append('2 "OpenVPN Server: {name}" connections_ssl_vpn=0;;{maxclients}|expiredays={expiredays}|if_in_octets=0|if_out_octets=0 Server down Port:{local_port}/{protocol} {expiredate}'.format(**_server))
for _client in _monitored_clients.values():
_current_conn = _client.get("current",[])
if _client.get("disable") == 1:
continue
if not _client.get("description"):
_client["description"] = _client.get("common_name")
_client["description"] = _client["description"].strip(" \r\n")
_client["expiredays"] = 0
_client["expiredate"] = "no certificate found"
_client["status"] = 3
_cert = self._get_certificate_by_cn(_client.get("common_name"))
if _cert:
_notvalidafter = _cert.get("not_valid_after")
_client["expiredays"] = int((_notvalidafter - _now) / 86400)
_client["expiredate"] = time.strftime("Cert Expire: %d.%m.%Y",time.localtime(_notvalidafter))
if _client["expiredays"] < 61:
_client["status"] = 2 if _client["expiredays"] < 31 else 1
else:
_client["expiredate"] = "\\n" + _client["expiredate"]
if _current_conn:
_client["uptime"] = max(map(lambda x: x.get("uptime"),_current_conn))
_client["count"] = len(_current_conn)
_client["bytes_received"], _client["bytes_sent"] = self._get_traffic("openvpn",
"CL_{description}".format(**_client),
sum(map(lambda x: x.get("bytes_received"),_current_conn)),
sum(map(lambda x: x.get("bytes_sent"),_current_conn))