Exemple #1
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def get_nslookup(domain):
    dns_query = Nslookup(dns_servers=['8.8.8.8'])
    try:
        ips_record = dns_query.dns_lookup(domain)
        return domain, ips_record.answer
    except Exception as e:
        return domain, e
Exemple #2
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    def __init__(self):

        # Set the object nslookup
        self.nslookup = Nslookup()

        # Store headers as dict
        self.headers = {
            "cookies" : []
        }
        # Store entire header string
        self.header_str = ""
        # Store top level domain
        self.tld = None
        # Store subdomain
        self.ext = None
        # Store url with extension
        self.url = None
        # Store the alexa position
        self.position = None
        # Store the http return code
        self.http_code = None
        # Store the nslookup IP address
        self.ip = None
        # Store full nslookup response
        self.ip_full = None
        # Store MX records for domain
        self.mx = []
Exemple #3
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def getmyip():
    domain = "myip.opendns.com"

    dns_query = Nslookup(dns_servers=["208.67.220.220"])

    ips_record = dns_query.dns_lookup(domain)

    #print(ips_record.response_full, ips_record.answer)

    if(len(ips_record.answer) == 0):
        print("Query My IP from opendns failed")

    return ips_record.answer[0]
Exemple #4
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    def __init__(self, config):
        self.target = config.domain
        self.output_file = config.output
        self.verbose_mode = config.verbose
        self.threads = config.threads

        if config.wordlist:
            self.candidates = config.wordlist.split(',')
        else:
            with open(args.file, 'r') as candidates_file:
                self.candidates = list(filter(bool, candidates_file.read().split('\n')))

        self.dns_query = Nslookup(dns_servers=["1.1.1.1"])  # set optional Cloudflare public DNS server
Exemple #5
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class Scanner:
    def __init__(self, config):
        self.target = config.domain
        self.output_file = config.output
        self.verbose_mode = config.verbose
        self.threads = config.threads

        if config.wordlist:
            self.candidates = config.wordlist.split(',')
        else:
            with open(args.file, 'r') as candidates_file:
                self.candidates = list(filter(bool, candidates_file.read().split('\n')))

        self.dns_query = Nslookup(dns_servers=["1.1.1.1"])  # set optional Cloudflare public DNS server

    def run(self):
        with ThreadPoolExecutor(max_workers=self.threads) as executor:
            resolver_futures = {executor.submit(self.resolve, subdomain): subdomain for subdomain in self.candidates}

            for future in futures.as_completed(resolver_futures):
                try:
                    data = future.result()
                    if self.verbose_mode:
                        print(f'{data["domain"]} - {",".join(data["answer"]) if len(data["answer"]) > 0 else "Not found"}')
                    else:
                        if len(data['answer']) > 0:
                            print(f'{data["domain"]} - {", ".join(data["answer"])}')
                except Exception as exc:
                    print(exc)

    def resolve(self, subdomain):
        domain = subdomain + '.' + self.target
        return {'domain': domain, 'answer': self.dns_query.dns_lookup(domain).answer}
def resolveIPFromDNS(hostname, DNSList):

    domain = hostname
    compiledList = []
    # set optional Cloudflare public DNS server
    for DNSIP in DNSList:
        dns_query = Nslookup(dns_servers=[DNSIP])

        ips_record = dns_query.dns_lookup(domain)

        soa_record = dns_query.soa_lookup(domain)

        tuple = (DNSIP, ips_record.answer)
        compiledList.append(tuple)
        tuple = ()

    return compiledList
Exemple #7
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def results_url(request):
    if 'href' in request.GET:
        href = request.GET['href']
        domain = urlparse(href).netloc
        data = whois.whois(domain)
        dns_query = Nslookup(dns_servers=["1.1.1.1"])
        ips_record = dns_query.dns_lookup(domain)
        ip_record = ips_record.answer[0]
        access_token = 'efd54bc59b7a42'  # For IP info query
        handler = ipinfo.getHandler(access_token)
        ip_address = ip_record
        details = handler.getDetails(ip_address)
        ip_country = details.country_name
        ip_org = details.org
    context = {
        'data': data,
        'ip_record': ip_record,
        'ip_country': ip_country,
        'ip_org': ip_org,
    }
    return render(request, "results_url.html", context)
def test(domain, dns_servers):
    domain_number, best_servers = domain.__len__(), []

    for index, dns in enumerate(dns_servers):
        success_count, avg_ms = 0, 0
        print('---------------------------------')
        print('-------------', dns, '--------------')
        for d in domain:
            dns_query = None
            with Timeout(2, False):
                dns_query = Nslookup(dns_servers=[dns])
                if dns_query is not None:
                    ips_record = dns_query.dns_lookup(d)
                    server, r = ips_record.answer[0], ping(
                        ips_record.answer[0], timeout=1, size=40, count=10)
                    print(d, '-->', server, 'min: ', r.rtt_min_ms, 'max: ',
                          r.rtt_max_ms, 'avg: ', r.rtt_avg_ms)
                    avg_ms = avg_ms + r.rtt_max_ms
                    if r.rtt_avg_ms < 300:
                        success_count = success_count + 1

        print(
            'DNS: {}'.format(dns), '\n', 'Resolving Rate: {:.2f}%'.format(
                success_count / domain_number * 100), '\n',
            'Average Delay: {:.2f}'.format(avg_ms / success_count))
        if success_count == domain_number:
            best_servers.append([dns, avg_ms / success_count])
            print('Best Selected?', 'Yes!')
        else:
            print('Best Selected?', 'No')

    print('----------------Top Rank----------------')
    best_servers.sort(key=lambda x: x[1])
    for item in best_servers:
        print(item[0], '{:.2f}ms'.format(item[1]))
    print('----------------End Rank----------------')
Exemple #9
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def add(request):
    data = {}
    if request.method == 'POST':
        form = M.ScriptForm(request.POST)
        if form.is_valid():
            ok = True
            journal = ''
            url = form.cleaned_data.get("url")
            m = url_regexp.fullmatch(url)
            valid = validators.url('http://' + url)
            if m is None or not valid:
                ok = False
                journal += f'invalid url: {url}\n'
                data["message"] = 'Invalid URL'
                data["url"] = url
                data["ips"] = []
                data["journal"] = journal
                data["ok"] = False
                logging.info('Invalid URL %s', url)
            else:
                dns_query = Nslookup(dns_servers=["8.8.8.8", "1.1.1.1"])
                ips_record = dns_query.dns_lookup(url)
                ips = ips_record.answer
                for ip in ips:
                    query = ssh_query.format(ip, url)
                    process = subprocess.Popen(query,
                                               stdout=subprocess.PIPE,
                                               stderr=subprocess.PIPE,
                                               shell=True)
                    output = process.stdout.readlines()
                    err = process.stderr.readlines()
                    log = b"".join(bytes(x) for x in output)
                    log.strip()
                    log = log.decode('ascii')
                    err_log = b"".join(bytes(x) for x in err)
                    err_log.strip()
                    err_log = err_log.decode('ascii')
                    print(log, err_log)
                    if len(log) != 0 or len(err_log) != 0:
                        ok = False
                        journal += 'ERROR for IP {}\n'.format(ip)
                        journal += log + '\n'
                        journal += err_log + '\n'
                        break
                if ok:
                    data["message"] = 'Success!'
                    data["url"] = url
                    data["ips"] = ips
                    data["ok"] = True
                    ips_str = ''.join(str(elem) + ' ' for elem in ips)
                    logging.info('added hostname %s with IPs %s', url, ips_str)
                else:
                    data["message"] = 'ERROR!'
                    data["url"] = url
                    data["ips"] = ips
                    data["journal"] = journal
                    data["ok"] = False
                    ips_str = ''.join(str(elem) + ' ' for elem in ips)
                    logging.info(
                        'tried to add hostname %s with IPs %s, err: %s', url,
                        ips_str, log + '\n' + err_log)

    return render(request, 'sos/index.html', {'form': form, 'data': data})
Exemple #10
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from nslookup import Nslookup
import fileinput
import time

#enter a path of Domain List
infile = open('/home/crimson/Downloads/domains.txt', 'r')
filestr = infile.read()
words = filestr.split()

print("Started...")
dns_query = Nslookup(dns_servers=["8.8.8.8"])
print("DNS Server is Set to 8.8.8.8")

print("Querying Domains Please Wait...")
for domain in words:
    ips_record = dns_query.dns_lookup(domain)
    print(ips_record.response_full, ips_record.answer)

    time.sleep(1)

    dns_record = dns_query.soa_lookup(domain)
    print(dns_record.response_full, dns_record.answer)

    time.sleep(1)
    #1 second Gap Before querying
    pass

# Objet HTTP
urllib3.disable_warnings(urllib3.exceptions.InsecureRequestWarning)
http = urllib3.PoolManager()

# Bot telegram
bot = telebot.TeleBot(telegram_token)

# URL API
url_getip = "https://api.ipify.org?format=json"
request_ddns = "{0}/nic/update?hostname={1}&myip={2}"

# Set DNS server
# set optional Cloudflare public DNS server
dns_query = Nslookup(dns_servers=["1.1.1.1", "8.8.8.8"])

last_ip = ""
dns_update = 1

send_message("Start *Simple-DDNS*!")

while True:

    # Check IP Public
    try:
        ip_now = requestAPI(url_getip)["ip"]
    except Exception as e:
        print("Error check IP: {0}".format(e))
        time.sleep(5)
        continue
Exemple #12
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# get db connection cursor
cursor = conn.cursor()

# get list of ping monitors from the db
try:
    sql = "SELECT monitor_id,monitor_type,monitor_source FROM monitors WHERE monitor_type=%s AND monitor_state=%s"
    val = ('dns', 1)
    cursor.execute(sql, val)
except mysql.connector.Error as err:
    print(err)
    sys.exit(1)

results = cursor.fetchall()

dns_query = Nslookup()

for (monitor_id, monitor_type, monitor_source) in results:

    ips_record = dns_query.dns_lookup(monitor_source)
    #print(ips_record.response_full, ips_record.answer)

    if not ips_record.answer:
        # host unknown (e.g. domain name lookup error)
        # store result in the db as -1
        try:
            sql = "INSERT INTO monitor_results (monitor_id, monitor_type, monitor_source, monitor_result) VALUES (%s, %s, %s, %s)"
            val = (monitor_id, monitor_type, monitor_source, -1)
            cursor.execute(sql, val)
        except mysql.connector.Error as err:
            print(err)
# Signup for a free API key here: https://auth0.com/signals/api/signup
AUTH0_API_KEY = "PLACE YOUR AUTH0 API KEY HERE"

# If we don't have at least 1 argument, len = 1 is just the script name
if len(sys.argv) < 2:
    print("Usage: nslookup-geo.py DOMAIN.TO.LOOKUP [DNS.SERVER.TO.USE]")
    sys.exit()

# The domain to lookup
lookup_domain = sys.argv[1]

# If the length of argv is more than 2, meaning we have the script name,
# a domain to lookup and a DNS server to use.
if len(sys.argv) > 2:
    #TODO: Why is this not returning?
    dns_query = Nslookup(dns_servers=sys.argv[2])
else:
    dns_query = Nslookup()

dns_resp = dns_query.dns_lookup(lookup_domain)

# had to do a length check, because nothing is returned if there is no result
if len(dns_resp.answer) > 0:
    lookup_ip = dns_resp.answer[0]
else:
    print(f"Unable to get IP Address for {lookup_domain}")
    sys.exit()


def ipgeo_lookup():
    """
Exemple #14
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def resolve_domain(domain, dns_servers=[]):
    lookuper = Nslookup(dns_servers=dns_servers)
    return lookuper.dns_lookup(domain).answer
Exemple #15
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    def __init__(self, url):
        parsed_url = urlparse(
            url
        )  # The structure of the parsed url is: scheme://netloc/path;parameters?query#fragment
        # Attributes based on the whole url
        self.url = parsed_url.geturl()
        count = Counter(self.url)
        self.url_num_dot = count['.']
        self.url_num_hyphen = count['-']
        self.url_num_underline = count['_']
        self.url_num_slash = count['/']
        self.url_num_quest = count['?']
        self.url_num_equ = count['=']
        self.url_num_at = count['@']
        self.url_num_amp = count['&']
        self.url_num_excl = count['!']
        self.url_num_spaces = count[' ']
        self.url_num_tilde = count['~']
        self.url_num_comma = count[',']
        self.url_num_plus = count['+']
        self.url_num_ast = count['*']
        self.url_num_pound = count['#']
        self.url_num_doll = count['$']
        self.url_num_perc = count['%']
        self.url_length = len(self.url)
        url_email_addresses = self.get_email(self.url)
        self.url_emails = True if url_email_addresses else False
        # self.url_num_emails = len(url_email_addresses)

        # Attributes based on the domain part of the url
        self.domain = parsed_url.netloc
        count = Counter(self.domain)
        self.dom_num_dot = count['.']
        self.dom_num_hyphen = count['-']
        self.dom_num_underline = count['_']
        self.dom_num_slash = count['/']
        self.dom_num_quest = count['?']
        self.dom_num_equ = count['=']
        self.dom_num_at = count['@']
        self.dom_num_amp = count['&']
        self.dom_num_excl = count['!']
        self.dom_num_spaces = count[' ']
        self.dom_num_tilde = count['~']
        self.dom_num_comma = count[',']
        self.dom_num_plus = count['+']
        self.dom_num_ast = count['*']
        self.dom_num_pound = count['#']
        self.dom_num_doll = count['$']
        self.dom_num_perc = count['%']
        self.dom_num_vowels = count['a'] + count['e'] + count['i'] + count[
            'o'] + count['u']
        self.dom_length = len(self.domain)
        self.dom_is_ip = self.is_ipaddress(parsed_url.netloc)
        self.dom_contains_server_or_client = True if "server" in self.domain.lower(
        ) or "client" in self.domain.lower() else False
        self.dom_spf = None  # We are currently not using this feature

        # Attributes based on the directory part of the url
        self.directory = self.get_directory(parsed_url.path)
        count = Counter(self.directory)
        self.dir_num_dot = count['.']
        self.dir_num_hyphen = count['-']
        self.dir_num_underline = count['_']
        self.dir_num_slash = count['/']
        self.dir_num_quest = count['?']
        self.dir_num_equ = count['=']
        self.dir_num_at = count['@']
        self.dir_num_amp = count['&']
        self.dir_num_excl = count['!']
        self.dir_num_spaces = count[' ']
        self.dir_num_tilde = count['~']
        self.dir_num_comma = count[',']
        self.dir_num_plus = count['+']
        self.dir_num_ast = count['*']
        self.dir_num_pound = count['#']
        self.dir_num_doll = count['$']
        self.dir_num_perc = count['%']
        self.dir_length = len(self.directory)

        # Attributes based on the file_name part of the url
        self.file_name = self.get_file_name(parsed_url.path)
        # we could also test for the file extension
        count = Counter(self.file_name)
        self.file_num_dot = count['.']
        self.file_num_hyphen = count['-']
        self.file_num_underline = count['_']
        self.file_num_slash = count['/']
        self.file_num_quest = count['?']
        self.file_num_equ = count['=']
        self.file_num_at = count['@']
        self.file_num_amp = count['&']
        self.file_num_excl = count['!']
        self.file_num_spaces = count[' ']
        self.file_num_tilde = count['~']
        self.file_num_comma = count[',']
        self.file_num_plus = count['+']
        self.file_num_ast = count['*']
        self.file_num_pound = count['#']
        self.file_num_doll = count['$']
        self.file_num_perc = count['%']
        self.file_length = len(self.file_name)

        # Attributes based on the query part of the url
        self.param_string = parsed_url.query  # there is a discrepancy with the data (from the paper) and the way urlparse parses the url
        self.params = parse_qs(self.param_string)
        count = Counter(self.param_string)
        self.params_num_dot = count['.']
        self.params_num_hyphen = count['-']
        self.params_num_underline = count['_']
        self.params_num_slash = count['/']
        self.params_num_quest = count['?']
        self.params_num_equ = count['=']
        self.params_num_at = count['@']
        self.params_num_amp = count['&']
        self.params_num_excl = count['!']
        self.params_num_spaces = count[' ']
        self.params_num_tilde = count['~']
        self.params_num_comma = count[',']
        self.params_num_plus = count['+']
        self.params_num_ast = count['*']
        self.params_num_pound = count['#']
        self.params_num_doll = count['$']
        self.params_num_perc = count['%']
        self.params_length = len(self.param_string)
        self.params_tld_present = self.get_tld(self.param_string)
        # find out if there is a tld in the param_string variabe
        self.params_nums = len(self.params)

        # Attributes based on TLD (top level domain)
        try:
            self.tld = tld.get_tld(self.url)
            self.tld_length = len(self.tld)
        except Exception as e:
            l = parsed_url.netloc.split(".")
            self.tld = l if l else None
            self.tld_length = len(self.tld) if self.tld else -1

        # # Attributes based on WHOIS
        # For some reason the command whois prints the error to stdin so we need to catch that in case whois returns nothing
        f = io.StringIO()  # we are going to store stdout in the variable f
        with redirect_stdout(f):
            self.whois_record = whois(parsed_url.netloc)
        out = f.getvalue()  # get the string from f into out
        error_pattern = re.compile(r'\bError.*')
        x = [i for i in out.split('\n') if error_pattern.match(i)]
        if len(x) > 0: print("There was an error in whois")
        # WHOIS_FOUND = True if self.dom_record else False

        # Get IP address
        dns_query = Nslookup(dns_servers=["1.1.1.1"])
        start = time.time()
        dns_error = False
        try:
            ip_record = dns_query.dns_lookup(parsed_url.netloc)
        except e:
            # The dns lookup returned an error
            dns_error = True
            ip_record = None
        roundtrip = time.time() - start
        self.time_response = None if dns_error else roundtrip
        if self.dom_is_ip:
            self.ip = parsed_url.netloc
        else:
            # If the domain is not in IP format find the IP address
            self.ip = ip_record.answer[
                0] if ip_record and ip_record.answer else None

        # Get info from IP address and WHOIS server stuff
        self.num_resolved_ips = len(ip_record.answer) if ip_record else None
        obj = ipwhois.IPWhois(self.ip) if self.ip else None
        # Store the info from the IPWhois object

        # rdap some times returns better  results than whois but most papers use whois data
        # self.dom_record = obj.lookup_rdap()
        self.dom_record = obj.lookup_whois(
        ) if obj else None  # The only downside (also with rdap) is that we don't get expiration date
        self.asn_ip = self.dom_record['asn'] if obj and (
            'asn' in self.dom_record.keys()) else None

        # TODO: calculate the time in days correctly
        # I think that by "Domain activation time" they mean the time that the domain has been active
        # So we need to get the current date and time and see the difference
        if self.dom_record:
            datetime_pattern = re.compile(
                r'(\d{1,2}/\d{1,2}/\d{4})|(\d{4}-\d{1,2}-\d{1,2})')
            self.dom_activation_date = self.get_activation_date(
                self.dom_record
            )  # this would have to change if we move from whois to rdap
            self.dom_activation_date = datetime.datetime.strptime(
                datetime_pattern.search(self.dom_activation_date).group(),
                '%Y-%m-%d')
            self.dom_activation_date = datetime.datetime.now(
            ) - self.dom_activation_date
            self.dom_activation_date = self.dom_activation_date.days
        else:
            self.dom_activation_date = None
        self.dom_expiration_date = self.whois_record.expiration_date if type(
            self.whois_record.expiration_date
        ) != list else self.whois_record.expiration_date[0]
        if self.dom_expiration_date:
            self.dom_expiration_date = self.dom_expiration_date - datetime.datetime.now(
            )
            self.dom_expiration_date = self.dom_expiration_date.days
        self.ttl = None  # TODO: get ttl_hostname
        self.num_name_servers = None  # TODO: get nameservers
        # self.dom_country = self.dom_record.country

        self.url_shortened = False  # TODO: determine if the url has been shortened

        self.tls_ssl_cert = False  # it gets updated in the fetch_page function
        page = self.fetch_page(url)
        self.content = page.content
        self.headers = page.headers

        self.scheme = parsed_url.scheme
        self.params = parsed_url.params
        self.fragments = parsed_url.fragment
        self.port = parsed_url.port

        # TODO: add a flag to know if we want to collect info from google or not since we don't need it all the time (because of rule-based or during crawling)
        self.url_google_indx = False  # we are currently not using this feature
        self.dom_google_indx = False  # we are currently not using this feature
        self.num_mx_servers = None
Exemple #16
0
class Headers:

    def __init__(self):

        # Set the object nslookup
        self.nslookup = Nslookup()

        # Store headers as dict
        self.headers = {
            "cookies" : []
        }
        # Store entire header string
        self.header_str = ""
        # Store top level domain
        self.tld = None
        # Store subdomain
        self.ext = None
        # Store url with extension
        self.url = None
        # Store the alexa position
        self.position = None
        # Store the http return code
        self.http_code = None
        # Store the nslookup IP address
        self.ip = None
        # Store full nslookup response
        self.ip_full = None
        # Store MX records for domain
        self.mx = []

    # Accept the header stream from pycurl
    def display_header(self, header_line):
        header_line = header_line.decode('iso-8859-1')

        # Append the line to string
        self.header_str = self.header_str + header_line

        # Ignore all lines without a colon
        if ':' not in header_line:
            return

        # Break the header line into header name and value
        h_name, h_value = header_line.split(':', 1)

        # Remove whitespace that may be present
        h_name = h_name.strip()
        h_value = h_value.strip()
        h_name = h_name.lower() # Convert header names to lowercase
        # If line is cookie then append to cookies
        if h_name == 'set-cookie': self.headers['cookies'].append(h_value)
        # Append all other Header name and value.
        else: self.headers[h_name] = h_value

    # Get the http code from header string
    def get_http_return_code(self):
        first_line = self.header_str.split("\n")[0]
        if re.search(r' [\d]{3,}', first_line):
            self.http_code = re.search(r' [\d]{3,}', first_line).group(0)

    # Get the IP from nslookup
    def get_ip(self):
        try:
            # Set the uri with subdomain
            if "www." in self.url: uri = "www." + self.tld
            else: uri = self.tld
            print("-- Looking up IP for: " + uri)
            ip_rec = self.nslookup.dns_lookup(uri)
            if len(ip_rec.answer):
                self.ip = ip_rec.answer[0]
            #if len(ip_rec.response_full):
                #self.ip_full = ip_rec.response_full[0]
        except Exception as e:
            traceback.print_exc()
            logger.error("-- Error getting nslookup for: " + uri)
            logger.error(traceback.format_exc())

    # Get MX records as array
    def get_mx_records(self):
        # Set the uri with subdomain
        if "www." in self.url: uri = "www." + self.tld
        else: uri = self.tld
        print("-- Looking up MX for: " + uri)
        try:
            mx = dns.resolver.query(uri, 'MX')
            if len(mx):
                for item in mx:
                    #print(item.exchange)
                    self.mx.append(str(item.exchange))
        except Exception as e:
            #traceback.print_exc()
            logger.error("-- Error getting MX for: " + uri)
            logger.error(traceback.format_exc())
Exemple #17
0
# © 2021 Reischl Franz
# Regularly checks internet connectivity

from time import sleep

from nslookup import Nslookup
from datetime import datetime, timedelta
import os

if __name__ == '__main__':
    DOMAIN_TO_CHECK = 'orf.at'
    DNS_LIWEST = '192.168.0.1'  # Router gateway, has ISP DNS entries
    DNS_GOOGLE = '8.8.8.8'
    LOG_FILE = 'internet.log'

    dns_query_liwest = Nslookup(dns_servers=[DNS_LIWEST])
    dns_query_google = Nslookup(dns_servers=[DNS_GOOGLE])

    if not os.path.exists(LOG_FILE):
        # Create log file
        file = open(LOG_FILE, 'w')
        file.write('status\tfrom\tduration\n')
        file.close()

    print('status\tfrom\tduration')
    last_change = datetime.now()
    last_status = 'none'

    while True:
        ips_record = dns_query_liwest.dns_lookup(DOMAIN_TO_CHECK)
        internet_connection = len(ips_record.answer) > 0
Exemple #18
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def getDNSARecords(domain):
    # CONFIGURE DNS RESOLVER
    # Modify the following line. Defaults to Cloudflare and Google. Multiple are included for redundancy, but only one is required.
    dns_query = Nslookup(dns_servers=["1.1.1.1", "1.0.0.1", "8.8.8.8", "8.8.4.4"])
    a_records = dns_query.dns_lookup(domain)
    return a_records.answer
Exemple #19
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#!/usr/bin/env python3

from requests import get, put
from nslookup import Nslookup

"""
    Cloudflare DDNS Updater
    Using a UDP query just like a dig command

    PEP8 compliant
    "Simple is better than complex."
"""

#  a litte bit faster than HTTP request
[current_ip := _ for _ in Nslookup(dns_servers=['208.67.222.222'])
    .dns_lookup('myip.opendns.com').answer]

api_url = ('https://api.cloudflare.com/client/v4/zones/'
           '__REPLACE__/dns_records/'
           '__REPLACE__/')
token = 'Bearer __PUT YOUR TOKEN HERE__'
auth_header = {'Authorization': token, 'Content-Type': 'application/json'}
data = {'type': 'A',
        'name': '__REPLACE__',
        'content': current_ip,
        'ttl': 1,
        'proxied': True}

#  there's no need to import json module
get_ip_cloudflare = get(api_url, headers=auth_header).json()
ip_on_cloudflare = get_ip_cloudflare['result']['content']
Exemple #20
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import logging
from config import dnslist, name_file


logging.basicConfig(format='%(message)s', level=logging.INFO)

f1=[]
with open(name_file, encoding='utf-8') as file:
  for domain in file:
    domain = domain.strip('\n').strip().encode('idna').decode('utf-8')
    f1.append(domain)
    f1.append('www.'+domain)


for dns in dnslist:
  dns_query = Nslookup(dns_servers=[dns])
  not_black=[]
  broken=[]
  for domain in f1:
    ips_record = dns_query.dns_lookup(domain)
    domain = domain.encode('idna').decode('idna')
    if len(ips_record.answer) > 0:
      if '127.0.0.1' not in ips_record.answer:
        not_black.append(domain)
      else: pass
    else:
      if domain not in broken:
        broken.append(domain)
      else: pass

  if len(broken)>0 or len(not_black)>0:
Exemple #21
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import decouple as decouple
import discord
import discord.ext
import os
from b import DSC_TOKEN

from discord.ext import commands
from nslookup import Nslookup

client = commands.Bot(command_prefix=["!", "?", "%"])
domain = "pipi-pupu.sytes.net"
dns_query = Nslookup()

# TODO REMOVE TOKEN BEFORE GITHUB
TOKEN = DSC_TOKEN


@client.event
async def on_ready():
    print('Hello!')


@client.command()
async def gametime(ctx):
    await ctx.send('Game time: 6:30pm PST')


# Valheim Server
@client.command()
async def vserver(ctx):
    ips_record = dns_query.dns_lookup(domain)