def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.Port = PortRepository(db, self.name)
self.Vulnerability = VulnRepository(db, self.name)
self.CVE = CVERepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
class Report(ReportTemplate):
'''
Displays WHOIS records for domains and IPs.
'''
name = "WhoisReport"
markdown = ['##', '###', '`']
def __init__(self, db):
self.BaseDomain = BaseDomainRepository(db)
self.ScopeCIDR = ScopeCIDRRepository(db)
def run(self, args):
# Cidrs = self.CIDR.
results = []
domains = self.BaseDomain.all()
domain_data = {}
for d in domains:
if d.meta.get('whois', False):
domain_data[d.domain] = d.meta['whois']
cidr_data = {}
CIDRs = self.ScopeCIDR.all()
for c in CIDRs:
if c.meta.get('whois', False):
cidr_data[c.cidr] = c.meta['whois']
# pdb.set_trace()
domain_blacklist = [
'Please note: ', 'URL of the ICANN WHOIS', '>>>', 'Notes:',
'whitelisting here:', 'NOTICE: ', 'TERMS OF USE: ',
'by the following', 'to: (1) allow'
]
results.append("ARIN Registration")
for c in sorted(cidr_data.keys()):
results.append("\t" + c)
for l in cidr_data[c].split('\n'):
if ": " in l and l[0] != '#':
results.append('\t\t' + l)
results.append("Domain Registration")
for d in sorted(domain_data.keys()):
results.append("\t" + d.upper())
for l in domain_data[d].split('\n'):
if ": " in l:
clean = True
for b in domain_blacklist:
if b in l:
clean = False
if clean:
results.append('\t\t' + l)
self.process_output(results, args)
class Module(ToolTemplate):
name = "Whois"
binary_name = "whois"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.ScopeCidr = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument('-d', '--domain', help="Domain to query")
self.options.add_argument('-c', '--cidr', help="CIDR to query")
self.options.add_argument(
'-s',
'--rescan',
help="Rescan domains that have already been scanned",
action="store_true")
self.options.add_argument(
'--import_database',
help="Run WHOIS on all domains and CIDRs in database",
action="store_true")
def get_targets(self, args):
targets = []
if args.domain:
created, domain = self.BaseDomain.find_or_create(
domain=args.domain)
targets.append({'domain': domain.domain, 'cidr': ''})
elif args.cidr:
created, cidr = self.ScopeCIDR.find_or_create(cidr=args.cidr)
targets.append({'domain': '', 'cidr': cidr.cidr.split('/')[0]})
elif args.import_database:
if args.rescan:
domains = self.BaseDomain.all(scope_type="passive")
cidrs = self.ScopeCidr.all(scope_type="passive")
else:
domains = self.BaseDomain.all(scope_type="passive",
tool=self.name)
cidrs = self.ScopeCidr.all(scope_type="passive",
tool=self.name)
for domain in domains:
targets.append({'domain': domain.domain, 'cidr': ''})
for cidr in cidrs:
targets.append({'domain': '', 'cidr': cidr.cidr.split('/')[0]})
if args.output_path[0] == "/":
output_path = os.path.join(
self.base_config['PROJECT']['base_path'], args.output_path[1:])
else:
output_path = os.path.join(
self.base_config['PROJECT']['base_path'], args.output_path)
if not os.path.exists(output_path):
os.makedirs(output_path)
for t in targets:
t['output'] = os.path.join(output_path, t['domain'] + t['cidr'])
return targets
def build_cmd(self, args):
if not args.tool_args:
args.tool_args = ""
cmd = "bash -c \"" + self.binary + " {domain}{cidr} " + args.tool_args + "> {output}\" "
return cmd
def process_output(self, cmds):
display("Importing data to database")
for cmd in cmds:
if cmd['cidr']:
_, cidr = self.ScopeCidr.find_or_create(cidr=cmd['cidr'])
cidr.meta['whois'] = open(cmd['output']).read()
display(cidr.meta['whois'])
cidr.update()
elif cmd['domain']:
_, domain = self.BaseDomain.find_or_create(
domain=cmd['domain'])
domain.meta['whois'] = open(cmd['output']).read()
display(domain.meta['whois'])
domain.update()
self.BaseDomain.commit()
class Module(ModuleTemplate):
name = "Whois"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.ScopeCidr = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument('-d', '--domain', help="Domain to query")
self.options.add_argument('-c', '--cidr', help="CIDR to query")
self.options.add_argument('-t',
'--threads',
help='Number of threads to run',
default="1")
self.options.add_argument(
'-o',
'--output_path',
help=
"Path which will contain program output (relative to base_path in config",
default="whois")
self.options.add_argument(
'-s',
'--rescan',
help="Rescan domains that have already been scanned",
action="store_true")
self.options.add_argument(
'--import_database',
help="Run WHOIS on all domains and CIDRs in database",
action="store_true")
def run(self, args):
self.args = args
if not args.binary:
self.binary = which.run('whois')
else:
self.binary = which.run(args.binary)
if not self.binary:
print(
"whois binary not found. Please explicitly provide path with --binary"
)
if args.domain:
created, domain = self.BaseDomain.find_or_create(
domain=args.domain)
self.process_domains(domains=[domain], ips=[])
elif args.cidr:
created, cidr = self.ScopeCIDR.find_or_create(cidr=args.cidr)
self.process_domains(domains=[], ips=[domain])
elif args.import_database:
domains = self.BaseDomain.all()
cidrs = self.ScopeCidr.all()
self.process_domains(domains=domains, cidrs=cidrs)
self.ScopeCidr.commit()
def process_domains(self, domains, cidrs):
args = self.args
if args.output_path[0] == "/":
output_path = os.path.join(
self.base_config['PROJECT']['base_path'], args.output_path[1:])
else:
output_path = os.path.join(
self.base_config['PROJECT']['base_path'], args.output_path)
if not os.path.exists(output_path):
os.makedirs(output_path)
commands = []
for domain in domains:
name = domain.domain
file_path = os.path.join(output_path, "%s.txt" % name)
command_args = " "
cmd = shlex.split(self.binary + command_args + name)
commands.append([cmd, file_path, name])
for cidr in cidrs:
name = cidr.cidr.split('/')[0]
file_path = os.path.join(output_path, "%s.txt" % name)
command_args = " "
cmd = shlex.split(self.binary + command_args + name)
commands.append([cmd, file_path, cidr.cidr])
pool = ThreadPool(int(args.threads))
res = pool.map(run_cmd, commands)
print("Importing data to database")
res_d = {}
for r in res:
if r:
res_d[r[0]] = r[1]
domains = self.BaseDomain.all()
for d in domains:
if res_d.get(d.domain, False):
d.meta['whois'] = res_d[d.domain]
d.update()
pdb.set_trace()
for c in self.ScopeCidr.all():
if res_d.get(c.cidr, False):
c.meta['whois'] = res_d[c.cidr]
c.update()
class Module(ModuleTemplate):
"""
Ingests domains and IPs. Domains get ip info and cidr info, and IPs get
CIDR info.
"""
name = "Ingestor"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.CIDR = CIDRRepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument(
"-d",
"--import_domains",
help=
"Either domain to import or file containing domains to import. One per line",
)
self.options.add_argument(
"-i",
"--import_ips",
help=
"Either IP/range to import or file containing IPs and ranges, one per line.",
)
self.options.add_argument(
"-a",
"--active",
help="Set scoping on imported data as active",
action="store_true",
)
self.options.add_argument(
"-p",
"--passive",
help="Set scoping on imported data as passive",
action="store_true",
)
self.options.add_argument(
"-sc",
"--scope_cidrs",
help=
"Cycle through out of scope networks and decide if you want to add them in scope",
action="store_true",
)
self.options.add_argument(
"-sb",
"--scope_base_domains",
help=
"Cycle through out of scope base domains and decide if you want to add them in scope",
action="store_true",
)
self.options.add_argument("--descope",
help="Descope an IP, domain, or CIDR")
self.options.add_argument(
"-Ii",
"--import_database_ips",
help="Import IPs from database",
action="store_true",
)
self.options.add_argument(
"--force",
help="Force processing again, even if already processed",
action="store_true",
)
def run(self, args):
self.in_scope = args.active
self.passive_scope = args.passive
if args.descope:
if "/" in args.descope:
self.descope_cidr(args.descope)
elif check_string(args.descope):
pass
else:
self.descope_ip(args.descope)
# Check if in ScopeCIDR and remove if found
if args.import_ips:
try:
ips = open(args.import_ips)
for line in ips:
if line.strip():
if "/" in line or "-" in line:
self.process_cidr(line)
else:
self.process_ip(line.strip(), force_scope=True)
self.Domain.commit()
except IOError:
if "/" in args.import_ips or "-" in args.import_ips:
self.process_cidr(args.import_ips)
else:
self.process_ip(args.import_ips.strip(), force_scope=True)
self.Domain.commit()
if args.import_domains:
try:
domains = open(args.import_domains)
for line in domains:
if line.strip():
self.process_domain(line.strip())
self.Domain.commit()
except IOError:
self.process_domain(args.import_domains.strip())
self.Domain.commit()
if args.scope_base_domains:
base_domains = self.BaseDomain.all(in_scope=False,
passive_scope=False)
for bd in base_domains:
self.reclassify_domain(bd)
self.BaseDomain.commit()
def get_domain_ips(self, domain):
ips = []
try:
answers = dns.resolver.query(domain, "A")
for a in answers:
ips.append(a.address)
return ips
except:
return []
def process_domain(self, domain_str):
created, domain = self.Domain.find_or_create(
only_tool=True,
domain=domain_str,
in_scope=self.in_scope,
passive_scope=self.passive_scope,
)
if not created:
if (domain.in_scope != self.in_scope
or domain.passive_scope != self.passive_scope):
display(
"Domain %s already exists with different scoping. Updating to Active Scope: %s Passive Scope: %s"
% (domain_str, self.in_scope, self.passive_scope))
domain.in_scope = self.in_scope
domain.passive_scope = self.passive_scope
domain.update()
def process_ip(self, ip_str, force_scope=True):
created, ip = self.IPAddress.find_or_create(
only_tool=True,
ip_address=ip_str,
in_scope=self.in_scope,
passive_scope=self.passive_scope,
)
if not created:
if ip.in_scope != self.in_scope or ip.passive_scope != self.passive_scope:
display(
"IP %s already exists with different scoping. Updating to Active Scope: %s Passive Scope: %s"
% (ip_str, self.in_scope, self.passive_scope))
ip.in_scope = self.in_scope
ip.passive_scope = self.passive_scope
ip.update()
return ip
def process_cidr(self, line):
display("Processing %s" % line)
if "/" in line:
created, cidr = self.ScopeCIDR.find_or_create(cidr=line.strip())
if created:
display_new("Adding %s to scoped CIDRs in database" %
line.strip())
cidr.in_scope = True
cidr.update()
elif "-" in line:
start_ip, end_ip = line.strip().replace(" ", "").split("-")
if "." not in end_ip:
end_ip = ".".join(start_ip.split(".")[:3] + [end_ip])
cidrs = iprange_to_cidrs(start_ip, end_ip)
for c in cidrs:
created, cidr = self.ScopeCIDR.find_or_create(cidr=str(c))
if created:
display_new("Adding %s to scoped CIDRs in database" %
line.strip())
cidr.in_scope = True
cidr.update()
def scope_ips(self):
IPAddresses = self.IPAddress.all()
def reclassify_domain(self, bd):
if bd.meta.get("whois", False):
display_new("Whois data found for {}".format(bd.domain))
print(bd.meta["whois"])
res = raw_input(
"Should this domain be scoped (A)ctive, (P)assive, or (N)ot? [a/p/N] "
)
if res.lower() == "a":
bd.in_scope = True
bd.passive_scope = True
elif res.lower() == "p":
bd.in_scope = False
bd.passive_scope = True
else:
bd.in_scope = False
bd.passive_scope = False
bd.save()
else:
display_error(
"Unfortunately, there is no whois information for {}. Please populate it using the Whois module"
.format(bd.domain))
def descope_ip(self, ip):
ip = self.IPAddress.all(ip_address=ip)
if ip:
for i in ip:
display("Removing IP {} from scope".format(i.ip_address))
i.in_scope = False
i.passive_scope = False
i.update()
for d in i.domains:
in_scope_ips = [
ipa for ipa in d.ip_addresses
if ipa.in_scope or ipa.passive_scope
]
if not in_scope_ips:
display(
"Domain {} has no more scoped IPs. Removing from scope."
.format(d.domain))
d.in_scope = False
d.passive_scope = False
self.IPAddress.commit()
def descope_cidr(self, cidr):
CIDR = self.ScopeCIDR.all(cidr=cidr)
if CIDR:
for c in CIDR:
display("Removing {} from ScopeCIDRs".format(c.cidr))
c.delete()
cnet = IPNetwork(cidr)
for ip in self.IPAddress.all():
if IPAddress(ip.ip_address) in cnet:
self.descope_ip(ip.ip_address)
class Module(ModuleTemplate):
'''
Ingests domains and IPs. Domains get ip info and cidr info, and IPs get
CIDR info.
'''
name = "Ingestor"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.CIDR = CIDRRepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument(
'-f',
'--import_file',
help="File containing domains to import. One per line")
self.options.add_argument('-d',
'--domain',
help="Single domain to import")
self.options.add_argument(
'-i',
'--import_ips',
help="File containing IPs and ranges, one per line.")
self.options.add_argument('-Id',
'--import_database_domains',
help='Import domains from database',
action="store_true")
self.options.add_argument('-Ii',
'--import_database_ips',
help='Import IPs from database',
action="store_true")
self.options.add_argument(
'--force',
help="Force processing again, even if already processed",
action="store_true")
def run(self, args):
if args.import_file:
domains = open(args.import_file)
for line in domains:
if line.strip():
self.process_domain(line.strip(), force_scope=True)
self.Domain.commit()
if args.domain:
self.process_domain(args.domain, force_scope=True)
self.Domain.commit()
if args.import_database_domains:
if args.force:
domains = self.Domain.all()
else:
domains = self.Domain.all(tool=self.name)
for d in domains:
# pdb.set_trace()
self.process_domain(d.domain)
self.Domain.commit()
if args.import_ips:
try:
ips = open(args.import_ips)
for line in ips:
if line.strip():
if '/' in line or '-' in line:
self.process_cidr(line)
else:
self.process_ip(line.strip(), force_scope=True)
self.Domain.commit()
except IOError:
if '/' in args.import_ips or '-' in args.import_ips:
self.process_cidr(args.import_ips)
else:
self.process_ip(args.import_ips.strip(), force_scope=True)
self.Domain.commit()
if args.import_database_ips:
for ip in self.IPAddress.all():
self.process_ip(ip.ip_address)
self.Domain.commit()
def get_domain_ips(self, domain):
ips = []
try:
answers = dns.resolver.query(domain, 'A')
for a in answers:
ips.append(a.address)
return ips
except:
return []
def process_domain(self, domain_str, force_scope=False):
# First check if the root domain exists, and if it doesn't, add it
created, domain = self.Domain.find_or_create(
only_tool=True, domain=domain_str, force_in_scope=force_scope)
# if not created:
# # print("%s already processed, skipping." % domain_str)
# return
print("Processing %s" % domain_str)
# Next get ip addresses of domain
ips = self.get_domain_ips(domain_str)
for i in ips:
ip = self.process_ip(i, force_scope=force_scope)
domain.ip_addresses.append(ip)
domain.save()
def process_ip(self, ip_str, force_scope=False):
created, ip = self.IPAddress.find_or_create(only_tool=True,
ip_address=ip_str,
force_in_scope=force_scope)
if created:
print(" - Found New IP: %s" % ip_str)
res = self.check_private_subnets(ip_str)
if res:
cidr_data = res
else:
try:
res = IPWhois(ip_str).lookup_whois(get_referral=True)
except:
res = IPWhois(ip_str).lookup_whois()
cidr_data = []
for n in res['nets']:
if ',' in n['cidr']:
for cidr_str in n['cidr'].split(', '):
cidr_data.append([cidr_str, n['description']])
else:
cidr_data.append([n['cidr'], n['description']])
try:
cidr_data = [
cidr_d for cidr_d in cidr_data
if IPAddress(ip_str) in IPNetwork(cidr_d[0])
]
except:
pdb.set_trace()
cidr_len = len(IPNetwork(cidr_data[0][0]))
matching_cidr = cidr_data[0]
for c in cidr_data:
if len(IPNetwork(c[0])) < cidr_len:
matching_cidr = c
print("New CIDR found: %s - %s" %
(matching_cidr[1], matching_cidr[0]))
cidr = self.CIDR.find_or_create(only_tool=True,
cidr=matching_cidr[0],
org_name=matching_cidr[1])[1]
ip.cidr = cidr
ip.save()
# else:
# print(" - IP Already processed: %s" % ip_str)
return ip
def check_private_subnets(self, ip_str):
for cidr in private_subnets:
if IPAddress(ip_str) in cidr:
return ([str(cidr), 'Non-Public Subnet'], )
return False
def process_cidr(self, line):
if '/' in line:
print("Adding %s to scoped CIDRs" % line.strip())
self.ScopeCIDR.find_or_create(cidr=line.strip())
elif '-' in line:
start_ip, end_ip = line.strip().replace(' ', '').split('-')
if '.' not in end_ip:
end_ip = '.'.join(start_ip.split('.')[:3] + [end_ip])
cidrs = iprange_to_cidrs(start_ip, end_ip)
for c in cidrs:
print("Adding %s to scoped CIDRs" % str(c))
self.ScopeCIDR.find_or_create(cidr=str(c))
def __init__(self, db):
self.db = db
self.Port = PortRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.ScopeCidr = ScopeCIDRRepository(db, self.name)
class Module(ModuleTemplate):
'''
Ingests domains and IPs. Domains get ip info and cidr info, and IPs get
CIDR info.
'''
name = "Ingestor"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db,self.name)
self.IPAddress = IPRepository(db, self.name)
self.CIDR = CIDRRepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument('-d', '--import_domains', help="Either domain to import or file containing domains to import. One per line")
self.options.add_argument('-i', '--import_ips', help="Either IP/range to import or file containing IPs and ranges, one per line.")
self.options.add_argument('-a', '--active', help='Set scoping on imported data as active', action="store_true")
self.options.add_argument('-p', '--passive', help='Set scoping on imported data as passive', action="store_true")
self.options.add_argument('-sc', '--scope_cidrs', help='Cycle through out of scope networks and decide if you want to add them in scope', action="store_true")
self.options.add_argument('-sb', '--scope_base_domains', help='Cycle through out of scope base domains and decide if you want to add them in scope', action="store_true")
self.options.add_argument('-Ii', '--import_database_ips', help='Import IPs from database', action="store_true")
self.options.add_argument('--force', help="Force processing again, even if already processed", action="store_true")
def run(self, args):
self.in_scope = args.active
self.passive_scope = args.passive
if args.import_ips:
try:
ips = open(args.import_ips)
for line in ips:
if line.strip():
if '/' in line or '-' in line:
self.process_cidr(line)
else:
self.process_ip(line.strip(), force_scope=True)
self.Domain.commit()
except IOError:
if '/' in args.import_ips or '-' in args.import_ips:
self.process_cidr(args.import_ips)
else:
self.process_ip(args.import_ips.strip(), force_scope=True)
self.Domain.commit()
if args.import_domains:
try:
domains = open(args.import_domains)
for line in domains:
if line.strip():
self.process_domain(line.strip())
self.Domain.commit()
except IOError:
self.process_domain(args.import_domains.strip())
self.Domain.commit()
if args.scope_base_domains:
base_domains = self.BaseDomain.all(in_scope=False, passive_scope=False)
for bd in base_domains:
self.reclassify_domain(bd)
self.BaseDomain.commit()
def get_domain_ips(self, domain):
ips = []
try:
answers = dns.resolver.query(domain, 'A')
for a in answers:
ips.append(a.address)
return ips
except:
return []
def process_domain(self, domain_str):
created, domain = self.Domain.find_or_create(only_tool=True, domain=domain_str, in_scope=self.in_scope, passive_scope=self.passive_scope)
if not created:
if domain.in_scope != self.in_scope or domain.passive_scope != self.passive_scope:
display("Domain %s already exists with different scoping. Updating to Active Scope: %s Passive Scope: %s" % (domain_str, self.in_scope, self.passive_scope))
domain.in_scope = self.in_scope
domain.passive_scope = self.passive_scope
domain.update()
def process_ip(self, ip_str, force_scope=True):
created, ip = self.IPAddress.find_or_create(only_tool=True, ip_address=ip_str, in_scope=in_scope, passive_scope=self.passive_scope)
if not created:
if ip.in_scope != self.in_scope or ip.passive_scope != self.passive_scope:
display("IP %s already exists with different scoping. Updating to Active Scope: %s Passive Scope: %s" % (ip_str, self.in_scope, self.passive_scope))
ip.in_scope = self.in_scope
ip.passive_scope = self.passive_scope
ip.update()
return ip
def process_cidr(self, line):
display("Processing %s" % line)
if '/' in line:
created, cidr = self.ScopeCIDR.find_or_create(cidr=line.strip())
if created:
display_new("Adding %s to scoped CIDRs in database" % line.strip())
cidr.in_scope = True
cidr.update()
elif '-' in line:
start_ip, end_ip = line.strip().replace(' ', '').split('-')
if '.' not in end_ip:
end_ip = '.'.join(start_ip.split('.')[:3] + [end_ip])
cidrs = iprange_to_cidrs(start_ip, end_ip)
for c in cidrs:
created, cidr = self.ScopeCIDR.find_or_create(cidr=str(c))
if created:
display_new("Adding %s to scoped CIDRs in database" % line.strip())
cidr.in_scope = True
cidr.update()
def scope_ips(self):
IPAddresses = self.IPAddress.all()
def reclassify_domain(self, bd):
if bd.meta.get('whois', False):
display_new("Whois data found for {}".format(bd.domain))
print(bd.meta['whois'])
res = raw_input("Should this domain be scoped (A)ctive, (P)assive, or (N)ot? [a/p/N] ")
if res.lower() == 'a':
bd.in_scope = True
bd.passive_scope = True
elif res.lower() == 'p':
bd.in_scope = False
bd.passive_scope = True
else:
bd.in_scope = False
bd.passive_scope = False
bd.save()
else:
display_error("Unfortunately, there is no whois information for {}. Please populate it using the Whois module".format(bd.domain))
class Module(ToolTemplate):
"""
Module for running nmap. Make sure to pass all nmap-specific arguments at the end, after --tool_args
"""
name = "Nmap"
binary_name = "nmap"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.Port = PortRepository(db, self.name)
self.Vulnerability = VulnRepository(db, self.name)
self.CVE = CVERepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument(
"--hosts",
help=
"Things to scan separated by a space. DO NOT USE QUOTES OR COMMAS",
nargs="+",
)
self.options.add_argument("--hosts_file", help="File containing hosts")
self.options.add_argument(
"-i",
"--hosts_database",
help="Use unscanned hosts from the database",
action="store_true",
)
self.options.add_argument("--rescan",
help="Overwrite files without asking",
action="store_true")
self.options.add_argument(
"--filename",
help="Output filename. By default will use the current timestamp.",
)
self.options.set_defaults(timeout=None)
def get_targets(self, args):
targets = []
if args.hosts:
if type(args.hosts) == list:
targets += args.hosts
else:
targets += [args.hosts]
if args.hosts_database:
if args.rescan:
targets += [
h.ip_address
for h in self.IPAddress.all(scope_type="active")
]
targets += [h.cidr for h in self.ScopeCIDR.all()]
else:
targets += [
h.ip_address
for h in self.IPAddress.all(tool=self.name,
scope_type="active")
]
targets += [h.cidr for h in self.ScopeCIDR.all(tool=self.name)]
if args.hosts_file:
targets += [
l for l in open(args.hosts_file).read().split("\n") if l
]
# Here we should deduplicate the targets, and ensure that we don't have IPs listed that also exist inside CIDRs
data = []
for t in targets:
ips = [str(i) for i in list(IPNetwork(t))]
data += ips
_, file_name = tempfile.mkstemp()
open(file_name, "w").write("\n".join(list(set(data))))
if args.output_path[0] == "/":
self.path = os.path.join(self.base_config["PROJECT"]["base_path"],
args.output_path[1:])
else:
self.path = os.path.join(self.base_config["PROJECT"]["base_path"],
args.output_path)
if not os.path.exists(self.path):
os.makedirs(self.path)
if args.filename:
output_path = os.path.join(self.path, args.filename)
else:
output_path = os.path.join(
self.path,
"nmap-scan-%s.xml" %
datetime.datetime.now().strftime("%Y.%m.%d-%H.%M.%S"),
)
return [{"target": file_name, "output": output_path}]
def build_cmd(self, args):
command = "sudo " + self.binary + " -oX {output} -iL {target} "
if args.tool_args:
command += args.tool_args
return command
def process_output(self, cmds):
self.import_nmap(cmds[0]["output"])
os.unlink(cmds[0]["target"])
def parseHeaders(self, httpHeaders):
bsHeaders = [
"Pragma",
"Expires",
"Date",
"Transfer-Encoding",
"Connection",
"X-Content-Type-Options",
"Cache-Control",
"X-Frame-Options",
"Content-Type",
"Content-Length",
"(Request type",
]
keepHeaders = {}
for i in range(0, len(httpHeaders)):
if httpHeaders[i].strip() != "" and httpHeaders[i].split(
":")[0].strip() not in " ".join(bsHeaders):
hName = httpHeaders[i].split(":")[0].strip()
hValue = "".join(httpHeaders[i].split(":")[1:]).strip()
keepHeaders[hName] = hValue
if keepHeaders == {}:
keepHeaders = ""
return keepHeaders
def import_nmap(
self,
filename): # domains={}, ips={}, rejects=[] == temp while no db
nFile = filename
try:
tree = ET.parse(nFile)
root = tree.getroot()
hosts = root.findall("host")
except:
print(nFile + " doesn't exist somehow...skipping")
return
tmpNames = []
tmpIPs = (
{}
) # tmpIps = {'127.0.0.1':['domain.com']} -- not really used; decided to just let nslookup take care of IP info
skip = []
for host in hosts:
hostIP = host.find("address").get("addr")
created, ip = self.IPAddress.find_or_create(ip_address=hostIP)
for hostname in host.findall("hostnames/hostname"):
hostname = hostname.get("name")
hostname = hostname.lower().replace("www.", "")
reHostname = re.search(
r"\d{1,3}\-\d{1,3}\-\d{1,3}\-\d{1,3}",
hostname) # attempt to not get PTR record
if not reHostname:
created, domain = self.Domain.find_or_create(
domain=hostname)
if ip not in domain.ip_addresses:
domain.ip_addresses.append(ip)
domain.save()
for port in host.findall("ports/port"):
if port.find("state").get("state"):
portState = port.find("state").get("state")
hostPort = port.get("portid")
portProto = port.get("protocol")
created, db_port = self.Port.find_or_create(
port_number=hostPort,
status=portState,
proto=portProto,
ip_address=ip,
)
if port.find("service") != None:
portName = port.find("service").get("name")
if portName == "http" and hostPort == "443":
portName = "https"
else:
portName = "Unknown"
if created:
db_port.service_name = portName
info = db_port.info
if not info:
info = {}
for script in port.findall(
"script"): # just getting commonName from cert
if script.get("id") == "ssl-cert":
db_port.cert = script.get("output")
cert_domains = self.get_domains_from_cert(
script.get("output"))
for hostname in cert_domains:
hostname = hostname.lower().replace("www.", "")
created, domain = self.Domain.find_or_create(
domain=hostname)
if created:
print("New domain found: %s" % hostname)
elif script.get("id") == "vulners":
print(
"Gathering vuln info for {} : {}/{}\n".format(
hostIP, portProto, hostPort))
self.parseVulners(script.get("output"), db_port)
elif script.get("id") == "banner":
info["banner"] = script.get("output")
elif script.get("id") == "http-headers":
httpHeaders = script.get("output")
httpHeaders = httpHeaders.strip().split("\n")
keepHeaders = self.parseHeaders(httpHeaders)
info["http-headers"] = keepHeaders
elif script.get("id") == "http-auth":
info["http-auth"] = script.get("output")
elif script.get("id") == "http-title":
info["http-title"] = script.get("output")
db_port.info = info
db_port.save()
self.IPAddress.commit()
def parseVulners(self, scriptOutput, db_port):
urls = re.findall("(https://vulners.com/cve/CVE-\d*-\d*)",
scriptOutput)
for url in urls:
vuln_refs = []
exploitable = False
cve = url.split("/cve/")[1]
vulners = requests.get("https://vulners.com/cve/%s" % cve).text
exploitdb = re.findall(
"https://www.exploit-db.com/exploits/\d{,7}", vulners)
for edb in exploitdb:
exploitable = True
if edb.split("/exploits/")[1] not in vuln_refs:
vuln_refs.append(edb.split("/exploits/")[1])
if not self.CVE.find(name=cve):
# print "Gathering CVE info for", cve
try:
res = json.loads(
requests.get("http://cve.circl.lu/api/cve/%s" %
cve).text)
cveDescription = res["summary"]
cvss = float(res["cvss"])
findingName = res["oval"][0]["title"]
if int(cvss) <= 3:
severity = 1
elif (int(cvss) / 2) == 5:
severity = 4
else:
severity = int(cvss) / 2
if not self.Vulnerability.find(name=findingName):
# print "Creating", findingName
created, db_vuln = self.Vulnerability.find_or_create(
name=findingName,
severity=severity,
description=cveDescription,
)
db_vuln.ports.append(db_port)
db_vuln.exploitable = exploitable
if vuln_refs:
db_vuln.exploit_reference = {"edb-id": vuln_refs}
db_vuln.save()
else:
# print "modifying",findingName
db_vuln = self.Vulnerability.find(name=findingName)
db_vuln.ports.append(db_port)
db_vuln.exploitable = exploitable
if vuln_refs:
db_vuln.exploitable = exploitable
if db_vuln.exploit_reference is not None:
if "edb-id" in db_vuln.exploit_reference:
for ref in vuln_refs:
if (ref not in db_vuln.
exploit_reference["edb-id"]):
db_vuln.exploit_reference[
"edb-id"].append(ref)
else:
db_vuln.exploit_reference[
"edb-id"] = vuln_refs
else:
db_vuln.exploit_reference = {
"edb-id": vuln_refs
}
db_vuln.save()
if not self.CVE.find(name=cve):
created, db_cve = self.CVE.find_or_create(
name=cve,
description=cveDescription,
temporal_score=cvss)
db_cve.vulnerabilities.append(db_vuln)
db_cve.save()
else:
db_cve = self.CVE.find(name=cve)
db_cve.vulnerabilities.append(db_vuln)
db_cve.save()
self.Vulnerability.commit()
self.CVE.commit()
except:
print(
"something went wrong with the vuln/cve info gathering"
)
if vulners:
print(
"Vulners report was found but no exploit-db was discovered"
)
# "Affected vulners items"
# print vulners
print("Affected CVE")
print(cve)
pass
else:
db_cve = self.CVE.find(name=cve)
for db_vulns in db_cve.vulnerabilities:
if db_port not in db_vulns.ports:
db_vulns.ports.append(db_port)
return
def get_domains_from_cert(self, cert):
# Shamelessly lifted regex from stack overflow
regex = r"(?:[a-zA-Z0-9](?:[a-zA-Z0-9\-]{,61}[a-zA-Z0-9])?\.)+[a-zA-Z]{2,6}"
domains = list(
set([d for d in re.findall(regex, cert) if "*" not in d]))
return domains
class Module(ModuleTemplate):
name = "DNSRecon"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument('-d','--domain', help="Target domain for dnsRecon")
self.options.add_argument('-f', '--file', help="Import domains from file")
self.options.add_argument('-i', '--import_database', help="Import domains from database", action="store_true")
self.options.add_argument('-o', '--output_path', help="Relative path (to the base directory) to store dnsRecon XML output", default="dnsReconFiles")
self.options.add_argument('-x', '--dns_recon_file', help="dnsRecon XML output name")
self.options.add_argument('-r', '--range', help="Range to scan for PTR records")
self.options.add_argument('-R', '--import_range', help="Import CIDRs from in-scope ranges in database", action="store_true")
self.options.add_argument('--threads', help="Number of threads to use", default="10")
self.options.add_argument('--force', help="Force overwrite", action="store_true")
self.options.add_argument('--import_output_xml', help="Import XML file")
self.options.add_argument('--import_output_json', help="Import json file")
def run(self, args):
# pdb.set_trace()
if not args.binary:
self.binary = which.run('dnsrecon')
else:
self.binary = which.run(args.binary)
if not self.binary:
print("Dnsrecon binary not found. Please explicitly provide path with --binary")
if args.output_path[0] == "/":
self.path = os.path.join(self.base_config['PROJECT']['base_path'], args.output_path[1:] )
else:
self.path = os.path.join(self.base_config['PROJECT']['base_path'], args.output_path)
if not os.path.exists(self.path):
os.makedirs(self.path)
if args.domain:
created, domain = self.BaseDomain.find_or_create(domain=args.domain)
self.process_domain(domain, args)
self.BaseDomain.commit()
elif args.file:
domains = open(args.file).read().split('\n')
for d in domains:
if d:
created, domain = self.BaseDomain.find_or_create(domain=d)
self.process_domain(domain, args)
self.BaseDomain.commit()
elif args.import_database:
domains = self.BaseDomain.all()
for domain in domains:
self.process_domain(domain, args)
self.BaseDomain.commit()
elif args.range:
self.process_range(args.range, args)
self.BaseDomain.commit()
elif args.import_range:
cidrs = self.ScopeCIDR.all()
for cidr in cidrs:
self.process_range(cidr.cidr, args)
self.BaseDomain.commit()
elif args.import_output_json:
data = open(args.import_output_json).read()
self.process_data(data, args, data_type="json")
self.BaseDomain.commit()
elif args.import_output_xml:
data = open(args.import_output_xml).read()
self.process_data(data, args, data_type="json")
self.BaseDomain.commit()
else:
print("You need to supply some options to do something.")
def process_domain(self, domain_obj, args):
domain = domain_obj.domain
print("Processing %s" % domain)
if args.dns_recon_file:
dns_recon_file = os.path.join(self.path,args.dnsReconFile)
else:
dns_recon_file = os.path.join(self.path,domain+".json")
if os.path.isfile(dns_recon_file):
if not args.force:
answered = False
while answered == False:
rerun = raw_input("Would you like to [r]un dnsRecon again and overwrite the file, [p]arse the file, or change the file [n]ame? ")
if rerun.lower() == 'r':
answered = True
elif rerun.lower() == 'p':
answered = True
return dnsReconFile
elif rerun.lower() == 'n':
new = False
while new == False:
newFile = raw_input("enter a new file name: ")
if not os.path.exists(os.path.join(self.path,newFile)):
dns_recon_file = os.path.join(path,newFile)
answered = True
new = True
else:
print "That file exists as well"
command = self.binary
if args.threads:
command += " --threads %s " % args.threads
command += " -d {} -j {} ".format(domain, dns_recon_file)
subprocess.Popen(command, shell=True).wait()
try:
res = json.loads(open(dns_recon_file).read())
domain_obj.dns = {'data':res}
domain_obj.save()
self.process_data(res, args, data_type='json')
except IOError:
print("DnsRecon for %s failed." % domain)
return None
def process_data(self, data, args, data_type="json"):
if data_type == "xml":
tree = ET.fromstring(data)
root = tree.getroot()
records = root.findall("record")
else:
records = data
for record in data:
created = False
domain = ""
if record.get("type") == "A":
created, domain = self.Domain.find_or_create(domain=record.get("name").lower().replace("www.",""))
if record.get("type") == "A" :
domain = record.get("name").lower().replace("www.","")
#ip = record.get("address") #take what nslookup(get_domain_ip) says instead
elif record.get("type") == "MX":
domain = record.get("exchange").lower().replace("www.","")
elif record.get("type") == "SRV":
domain = record.get("target").lower().replace("www.","")
if domain:
created, domain_obj = self.Domain.find_or_create(domain=domain)
if created:
print("New domain found: " + domain)
def process_range(self, cidr, args):
print("Processing %s" % cidr)
if args.dns_recon_file:
dns_recon_file = os.path.join(self.path,args.dnsReconFile)
else:
dns_recon_file = os.path.join(self.path,cidr.replace('/', '_')+".json")
if os.path.isfile(dns_recon_file):
if not args.force:
answered = False
while answered == False:
rerun = raw_input("Would you like to [r]un dnsRecon again and overwrite the file, [p]arse the file, or change the file [n]ame? ")
if rerun.lower() == 'r':
answered = True
elif rerun.lower() == 'p':
answered = True
return dnsReconFile
elif rerun.lower() == 'n':
new = False
while new == False:
newFile = raw_input("enter a new file name: ")
if not os.path.exists(os.path.join(self.path,newFile)):
dns_recon_file = os.path.join(path,newFile)
answered = True
new = True
else:
print "That file exists as well"
command = self.binary
if args.threads:
command += " --threads %s " % args.threads
command += " -s -r {} -j {} ".format(cidr, dns_recon_file)
subprocess.Popen(command, shell=True).wait()
try:
res = json.loads(open(dns_recon_file).read())
for r in res[1:]:
domain = r['name']
created, domain_obj = self.Domain.find_or_create(domain=domain)
if created:
print("New domain found: %s" % domain)
self.process_data(res, args, data_type='json')
except IOError:
print("DnsRecon for %s failed." % domain)
return None
class Module(ModuleTemplate):
'''
The Shodan module will either iterate through Shodan search results from net:<cidr>
for all scoped CIDRs, or a custom search query. The resulting IPs and ports will be
added to the database, along with a dictionary object of the API results.
'''
name = "ShodanImport"
def __init__(self, db):
self.db = db
self.Port = PortRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.ScopeCidr = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument('-k',
'--api_key',
help='API Key for accessing Shodan')
self.options.add_argument('-s',
'--search',
help="Custom search string")
self.options.add_argument('-i',
'--import_db',
help="Import scoped IPs from the database",
action="store_true")
self.options.add_argument('--rescan',
help="Rescan CIDRs already processed",
action="store_true")
def run(self, args):
if not args.api_key:
display_error("You must supply an API key to use shodan!")
return
if args.search:
ranges = [args.search]
if args.import_db:
ranges = []
if args.rescan:
ranges += [
"net:{}".format(c.cidr) for c in self.ScopeCidr.all()
]
else:
ranges += [
"net:{}".format(c.cidr)
for c in self.ScopeCidr.all(tool=self.name)
]
api = shodan_api.Shodan(args.api_key)
for r in ranges:
time.sleep(1)
# pdb.set_trace()
results = api.search(r)
display("{} results found for: {}".format(results['total'], r))
for res in results['matches']:
ip_address_str = res['ip_str']
port_str = res['port']
transport = res['transport']
display("Processing IP: {} Port: {}/{}".format(
ip_address_str, port_str, transport))
created, IP = self.IPAddress.find_or_create(
ip_address=ip_address_str)
created, port = self.Port.find_or_create(ip_address=IP,
port_number=port_str,
proto=transport)
port.meta['shodan_data'] = res
port.save()
self.IPAddress.commit()
class Report(ReportTemplate):
"""
Displays WHOIS records for domains and IPs.
"""
name = "WhoisReport"
markdown = ["##", "###", "`"]
def __init__(self, db):
self.BaseDomain = BaseDomainRepository(db)
self.ScopeCIDR = ScopeCIDRRepository(db)
def run(self, args):
# Cidrs = self.CIDR.
results = []
if args.scope != "all":
domains = self.BaseDomain.all(scope_type=args.scope)
else:
domains = self.BaseDomain.all()
domain_data = {}
for d in domains:
if d.meta.get("whois", False):
domain_data[d.domain] = d.meta["whois"]
cidr_data = {}
CIDRs = self.ScopeCIDR.all()
for c in CIDRs:
if c.meta.get("whois", False):
cidr_data[c.cidr] = c.meta["whois"]
# pdb.set_trace()
domain_blacklist = [
"Please note: ",
"URL of the ICANN WHOIS",
">>>",
"Notes:",
"whitelisting here:",
"NOTICE: ",
"TERMS OF USE: ",
"by the following",
"to: (1) allow",
]
results.append("ARIN Registration")
for c in sorted(cidr_data.keys()):
results.append("\t" + c)
for l in cidr_data[c].split("\n"):
if ": " in l and l[0] != "#":
results.append("\t\t" + l)
results.append("Domain Registration")
for d in sorted(domain_data.keys()):
results.append("\t" + d.upper())
for l in domain_data[d].split("\n"):
if ": " in l:
clean = True
for b in domain_blacklist:
if b in l:
clean = False
if clean:
results.append("\t\t" + l)
self.process_output(results, args)
def __init__(self, db):
self.BaseDomain = BaseDomainRepository(db)
self.ScopeCIDR = ScopeCIDRRepository(db)
class Module(ModuleTemplate):
name = "Nmap"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.Port = PortRepository(db, self.name)
self.Vulnerability = VulnRepository(db, self.name)
self.CVE = CVERepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument(
'--hosts',
help=
"Things to scan separated by a space. DO NOT USE QUOTES OR COMMAS",
nargs='+')
self.options.add_argument('--hosts_file', help="File containing hosts")
self.options.add_argument('--hosts_database',
help="Use unscanned hosts from the database",
action="store_true")
self.options.add_argument('--import_file', help="Import nmap XML file")
self.options.add_argument('-A',
help="OS and service info",
action="store_true")
self.options.add_argument(
'-o',
'--output_path',
help="Relative directory to store Nmap XML output name",
default="nmap")
self.options.add_argument('-nf',
'--nFile',
help="Nmap XML output name")
self.options.add_argument(
'-T',
'--timing',
help="Set timing template (higher is faster)",
default="4",
type=str)
self.options.add_argument(
'--scripts',
help="Nmap scripts",
default=
'ssl-cert,http-headers,http-methods,http-auth,http-title,http-robots.txt,banner'
)
self.options.add_argument(
'-p',
help="Comma separate ports to scan",
default=
"21,22,23,25,80,110,443,467,587,8000,8080,8081,8082,8443,8008,1099,5005,9080,8880,8887,7001,7002,16200"
)
self.options.add_argument('-Pn',
help="Disable ping",
action="store_true",
default=False)
self.options.add_argument('-sS',
help='Syn scan (default)',
action="store_true",
default=True)
self.options.add_argument('-sT',
help='TCP scan',
action="store_true",
default=False)
self.options.add_argument('-sU',
help='UDP scan',
action="store_true",
default=False)
self.options.add_argument('-OS',
help='Enable OS detection',
action="store_true",
default=False)
self.options.add_argument("--open",
help="Only show open ports",
action="store_true",
default=False)
self.options.add_argument("--top_ports", help="Only check X top ports")
self.options.add_argument("--force",
help="Overwrite files without asking",
action="store_true")
self.options.add_argument(
'--interactive',
help="Prompt to store domains not in Base Domains already",
default=False,
action="store_true")
self.options.add_argument(
'--internal',
help="Store domains not in Base Domains already",
action="store_true")
def run(self, args):
if args.binary:
if os.path.exists(args.binary):
command = args.binary + " "
else:
exit("Specified binary doesn't exist. Quitting now")
else:
if not which.run('nmap'):
exit("Nmap is not globally accessible. Quitting now")
else:
command = "nmap "
if args.output_path[0] == "/":
self.path = os.path.join(self.base_config['PROJECT']['base_path'],
args.output_path[1:])
else:
self.path = os.path.join(self.base_config['PROJECT']['base_path'],
args.output_path)
if not os.path.exists(self.path):
os.makedirs(self.path)
file_name = ""
if args.hosts:
if type(args.hosts) == list:
hosts = args.hosts
else:
hosts = [args.hosts]
_, file_name = tempfile.mkstemp()
open(file_name, 'w').write('\n'.join(hosts))
elif args.hosts_database:
hosts = [h.ip_address for h in self.IPAddress.all(tool=self.name)]
hosts += [h.cidr for h in self.ScopeCIDR.all(tool=self.name)]
_, file_name = tempfile.mkstemp()
open(file_name, 'w').write('\n'.join(hosts))
elif args.hosts_file:
file_name = args.hosts_file
if file_name:
self.execute_nmap(args, file_name, command)
elif args.import_file:
self.import_nmap(args.import_file, args)
def execute_nmap(self, args, host_file, command):
if args.nFile:
nFile = os.path.join(self.path, args.nFile)
else:
nFile = os.path.join(self.path, "nmap-scan.xml")
# if type(hosts) == list:
# nFile = os.path.join(self.path,"nmaped_"+",".join(hosts).replace("/","_"))
# else:
# nFile = os.path.join(self.path,"nmaped_"+hosts.replace("/","_").replace(" ",","))
if os.path.isfile(nFile) and not args.force:
print(nFile, "exists.")
answered = False
while answered == False:
rerun = raw_input(
"Would you like to [r]un nmap again and overwrite the file, [p]arse the file, or change the file [n]ame? "
)
if rerun.lower() == 'r':
answered = True
elif rerun.lower() == 'p':
answered = True
return nFile
elif rerun.lower() == 'n':
new = False
while new == False:
newFile = raw_input("enter a new file name: ")
if not os.path.exists(path + newFile):
nFile = path + newFile
answered = True
new = True
else:
print("That file exists as well")
else:
"Please enter \'r\' to run nmap, \'p\' to parse the file"
if args.sS and args.sT:
technique = "-sT "
else:
technique = "-sS "
if args.sU:
technique += "-sU "
if args.A:
technique += "-A "
command += technique
command += "-T" + str(args.timing) + " "
if args.Pn:
command += "-Pn "
if args.open:
command += "--open "
if args.top_ports:
command += "--top-ports %s " % args.top_ports
if args.OS:
command += "-O "
command += "--script " + args.scripts + " "
command += "-p " + args.p + " "
command += " -iL %s " % host_file
command += "-oX " + nFile
if (args.sS and not args.sT) or args.OS:
if os.geteuid() != 0:
#exit("You need to have root privileges to run a Syn scan and OS detection.\nPlease try again, this time using 'sudo'. Exiting.")
command = "sudo " + command
scan = subprocess.Popen(command, shell=True).wait()
self.import_nmap(nFile, args)
return nFile
def parseHeaders(self, httpHeaders):
bsHeaders = [
'Pragma', 'Expires', 'Date', 'Transfer-Encoding', 'Connection',
'X-Content-Type-Options', 'Cache-Control', 'X-Frame-Options',
'Content-Type', 'Content-Length', '(Request type'
]
keepHeaders = {}
for i in range(0, len(httpHeaders)):
if httpHeaders[i].strip() != '' and httpHeaders[i].split(
":")[0].strip() not in " ".join(bsHeaders):
hName = httpHeaders[i].split(":")[0].strip()
hValue = "".join(httpHeaders[i].split(":")[1:]).strip()
keepHeaders[hName] = hValue
if keepHeaders == {}:
keepHeaders = ""
return keepHeaders
def import_nmap(self, filename,
args): #domains={}, ips={}, rejects=[] == temp while no db
nFile = filename
try:
tree = ET.parse(nFile)
root = tree.getroot()
hosts = root.findall("host")
except:
print(nFile + " doesn't exist somehow...skipping")
return domains, ips, rejects #needs to be changed for db
tmpNames = []
tmpIPs = {
} #tmpIps = {'127.0.0.1':['domain.com']} -- not really used; decided to just let nslookup take care of IP info
skip = []
for host in hosts:
hostIP = host.find("address").get("addr")
created, ip = self.IPAddress.find_or_create(ip_address=hostIP)
for hostname in host.findall("hostnames/hostname"):
hostname = hostname.get("name")
hostname = hostname.lower().replace("www.", "")
reHostname = re.search(
r"\d{1,3}\-\d{1,3}\-\d{1,3}\-\d{1,3}",
hostname) #attempt to not get PTR record
if not reHostname and not args.internal:
created, domain = self.Domain.find_or_create(
domain=hostname)
if ip not in domain.ip_addresses:
domain.ip_addresses.append(ip)
domain.save()
elif not reHostname and args.internal:
created, domain = self.Domain.find_or_create(
domain=hostname)
if ip not in domain.ip_addresses:
domain.ip_addresses.append(ip)
domain.save()
#else:
# print("IP hostname found? %s" % hostname)
for port in host.findall("ports/port"):
if port.find("state").get("state"):
portState = port.find("state").get("state")
hostPort = port.get("portid")
portProto = port.get("protocol")
created, db_port = self.Port.find_or_create(
port_number=hostPort,
status=portState,
proto=portProto,
ip_address=ip)
if port.find("service") != None:
portName = port.find("service").get("name")
if portName == "http" and hostPort == "443":
portName = "https"
else:
portName = "Unknown"
if created:
db_port.service_name = portName
info = db_port.info
if not info:
info = {}
for script in port.findall(
"script"): #just getting commonName from cert
if script.get("id") == "ssl-cert":
db_port.cert = script.get('output')
cert_domains = self.get_domains_from_cert(
script.get('output'))
for hostname in cert_domains:
hostname = hostname.lower().replace("www.", "")
created, domain = self.Domain.find_or_create(
domain=hostname)
if created:
print("New domain found: %s" % hostname)
elif script.get("id") == "vulners":
print(
"Gathering vuln info for {} : {}/{}\n".format(
hostIP, portProto, hostPort))
self.parseVulners(script.get("output"), db_port)
elif script.get("id") == "banner":
info["banner"] = script.get("output")
elif script.get("id") == "http-headers":
httpHeaders = script.get("output")
httpHeaders = httpHeaders.strip().split("\n")
keepHeaders = self.parseHeaders(httpHeaders)
info["http-headers"] = keepHeaders
elif script.get("id") == "http-auth":
info['http-auth'] = script.get("output")
elif script.get("id") == "http-title":
info['http-title'] = script.get("output")
db_port.info = info
db_port.save()
self.IPAddress.commit()
def parseVulners(self, scriptOutput, db_port):
urls = re.findall('(https://vulners.com/cve/CVE-\d*-\d*)',
scriptOutput)
for url in urls:
vuln_refs = []
exploitable = False
cve = url.split("/cve/")[1]
vulners = requests.get("https://vulners.com/cve/%s" % cve).text
exploitdb = re.findall(
'https://www.exploit-db.com/exploits/\d{,7}', vulners)
for edb in exploitdb:
exploitable = True
if edb.split("/exploits/")[1] not in vuln_refs:
vuln_refs.append(edb.split("/exploits/")[1])
if not self.CVE.find(name=cve):
#print "Gathering CVE info for", cve
try:
res = json.loads(
requests.get('http://cve.circl.lu/api/cve/%s' %
cve).text)
cveDescription = res['summary']
cvss = float(res['cvss'])
findingName = res['oval'][0]['title']
if int(cvss) <= 3:
severity = 1
elif (int(cvss) / 2) == 5:
severity = 4
else:
severity = int(cvss) / 2
if not self.Vulnerability.find(name=findingName):
#print "Creating", findingName
created, db_vuln = self.Vulnerability.find_or_create(
name=findingName,
severity=severity,
description=cveDescription)
db_vuln.ports.append(db_port)
db_vuln.exploitable = exploitable
if vuln_refs:
db_vuln.exploit_reference = {'edb-id': vuln_refs}
db_vuln.save()
else:
#print "modifying",findingName
db_vuln = self.Vulnerability.find(name=findingName)
db_vuln.ports.append(db_port)
db_vuln.exploitable = exploitable
if vuln_refs:
db_vuln.exploitable = exploitable
if db_vuln.exploit_reference is not None:
if 'edb-id' in db_vuln.exploit_reference:
for ref in vuln_refs:
if ref not in db_vuln.exploit_reference[
'edb-id']:
db_vuln.exploit_reference[
'edb-id'].append(ref)
else:
db_vuln.exploit_reference[
'edb-id'] = vuln_refs
else:
db_vuln.exploit_reference = {
'edb-id': vuln_refs
}
db_vuln.save()
if not self.CVE.find(name=cve):
created, db_cve = self.CVE.find_or_create(
name=cve,
description=cveDescription,
temporal_score=cvss)
db_cve.vulnerabilities.append(db_vuln)
db_cve.save()
else:
db_cve = self.CVE.find(name=cve)
db_cve.vulnerabilities.append(db_vuln)
db_cve.save()
self.Vulnerability.commit()
self.CVE.commit()
except:
print(
"something went wrong with the vuln/cve info gathering"
)
if vulners:
print(
"Vulners report was found but no exploit-db was discovered"
)
#"Affected vulners items"
#print vulners
print("Affected CVE")
print(cve)
pass
else:
db_cve = self.CVE.find(name=cve)
for db_vulns in db_cve.vulnerabilities:
if db_port not in db_vulns.ports:
db_vulns.ports.append(db_port)
return
def get_domains_from_cert(self, cert):
# Shamelessly lifted regex from stack overflow
regex = r'(?:[a-zA-Z0-9](?:[a-zA-Z0-9\-]{,61}[a-zA-Z0-9])?\.)+[a-zA-Z]{2,6}'
domains = list(
set([d for d in re.findall(regex, cert) if '*' not in d]))
return domains
#!/usr/bin/python
from armory import initialize_database
from armory import get_config_options
from database.repositories import BaseDomainRepository, DomainRepository, IPRepository, CIDRRepository, UserRepository, CredRepository, VulnRepository, PortRepository, UrlRepository, ScopeCIDRRepository
config = get_config_options()
db = initialize_database(config)
Domains = DomainRepository(db, "Shell Client")
BaseDomains = BaseDomainRepository(db, "Shell Client")
IPAddresses = IPRepository(db, "Shell Client")
CIDRs = CIDRRepository(db, "Shell Client")
Users = UserRepository(db, "Shell Client")
Creds = CredRepository(db, "Shell Client")
Vulns = VulnRepository(db, "Shell Client")
Ports = PortRepository(db, "Shell Client")
Urls = UrlRepository(db, "Shell Client")
ScopeCIDRs = ScopeCIDRRepository(db, "Shell Client")
print("Make sure to use this script with ipython and -i")
print(" ipython -i shell.py")
print("Available database modules: Domains, BaseDomains, IPAddresses,")
print(" CIDRs, Users, Creds, Vulns, Services, Ports, Urls, ScopeCIDRs")
class Module(ToolTemplate):
name = "DNSRecon"
binary_name = "dnsrecon"
"""
This module runs DNSRecon on a domain or set of domains. This will extract found DNS entries.
It can also run over IP ranges, looking for additional domains in the PTR records.
"""
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument('-d','--domain', help="Target domain for dnsRecon")
self.options.add_argument('-f', '--file', help="Import domains from file")
self.options.add_argument('-i', '--import_database', help="Import domains from database", action="store_true")
self.options.add_argument('-r', '--range', help="Range to scan for PTR records")
self.options.add_argument('-R', '--import_range', help="Import CIDRs from in-scope ranges in database", action="store_true")
self.options.add_argument('--rescan', help="Rescan domains already scanned", action="store_true")
# self.options.add_argument('--import_output_xml', help="Import XML file")
# self.options.add_argument('--import_output_json', help="Import json file")
def get_targets(self, args):
targets = []
if args.domain:
created, domain = self.BaseDomain.find_or_create(domain=args.domain, passive_scope=True)
targets.append(domain.domain)
elif args.file:
domains = open(args.file).read().split('\n')
for d in domains:
if d:
created, domain = self.BaseDomain.find_or_create(domain=d, passive_scope=True)
targets.append(domain.domain)
elif args.import_database:
domains = self.BaseDomain.all(scope_type="passive", tool=self.name)
for domain in domains:
targets.append(domain.domain)
elif args.range:
targets.append(args.range)
elif args.import_range:
cidrs = self.ScopeCIDR.all(tool=self.name)
for cidr in cidrs:
targets.append(cidr.cidr)
if args.output_path[0] == "/":
self.path = os.path.join(self.base_config['PROJECT']['base_path'], args.output_path[1:] )
else:
self.path = os.path.join(self.base_config['PROJECT']['base_path'], args.output_path)
if not os.path.exists(self.path):
os.makedirs(self.path)
res = []
for t in targets:
res.append({'target':t, 'output':os.path.join(self.path, t.replace("/", "_") + ".json")})
return res
def build_cmd(self, args):
command = self.binary
if args.domain or args.file or args.import_database:
command += " -d {target} -j {output} "
else:
command += " -s -r {target} -j {output} "
if args.tool_args:
command += args.tool_args
return command
def process_output(self, cmds):
for c in cmds:
target = c['target']
output_path = c['output']
try:
res = json.loads(open(output_path).read())
except IOError:
display_error("DnsRecon failed for {}".format(target))
if " -d " in res[0]['arguments']:
created, dbrec = self.Domain.find_or_create(domain=target)
dbrec.dns = res
dbrec.save()
for record in res:
domain = None
if record.get("type") == "A" or record.get("type") == "PTR":
domain = record.get("name").lower().replace("www.","")
elif record.get("type") == "MX":
domain = record.get("exchange").lower().replace("www.","")
elif record.get("type") == "SRV" or record.get("type" == "NS"):
domain = record.get("target").lower().replace("www.","")
elif record.get("type") == "SOA":
domain = record.get("mname").lower().replace("www.","")
if domain:
created, domain_obj = self.Domain.find_or_create(domain=domain)
self.Domain.commit()
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
class Module(ToolTemplate):
name = "Whois"
binary_name = "whois"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.ScopeCidr = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument("-d", "--domain", help="Domain to query")
self.options.add_argument("-c", "--cidr", help="CIDR to query")
self.options.add_argument(
"-s",
"--rescan",
help="Rescan domains that have already been scanned",
action="store_true",
)
self.options.add_argument(
"-a",
"--all_data",
help="Scan all data in database, regardless of scope",
action="store_true",
)
self.options.add_argument(
"-i",
"--import_database",
help="Run WHOIS on all domains and CIDRs in database",
action="store_true",
)
def get_targets(self, args):
targets = []
if args.domain:
created, domain = self.BaseDomain.find_or_create(
domain=args.domain)
targets.append({"domain": domain.domain, "cidr": ""})
elif args.cidr:
created, cidr = self.ScopeCIDR.find_or_create(cidr=args.cidr)
targets.append({"domain": "", "cidr": cidr.cidr.split("/")[0]})
elif args.import_database:
if args.all_data:
scope_type = ""
else:
scope_type = "passive"
if args.rescan:
domains = self.BaseDomain.all(scope_type=scope_type)
cidrs = self.ScopeCidr.all()
else:
domains = self.BaseDomain.all(scope_type=scope_type,
tool=self.name)
cidrs = self.ScopeCidr.all(tool=self.name)
for domain in domains:
targets.append({"domain": domain.domain, "cidr": ""})
for cidr in cidrs:
targets.append({"domain": "", "cidr": cidr.cidr.split("/")[0]})
if args.output_path[0] == "/":
output_path = os.path.join(
self.base_config["PROJECT"]["base_path"], args.output_path[1:])
else:
output_path = os.path.join(
self.base_config["PROJECT"]["base_path"], args.output_path)
if not os.path.exists(output_path):
os.makedirs(output_path)
for t in targets:
t["output"] = os.path.join(output_path, t["domain"] + t["cidr"])
return targets
def build_cmd(self, args):
if not args.tool_args:
args.tool_args = ""
cmd = ('bash -c "' + self.binary + " {domain}{cidr} " +
args.tool_args + '> {output}" ')
return cmd
def process_output(self, cmds):
display("Importing data to database")
for cmd in cmds:
if cmd["cidr"]:
_, cidr = self.ScopeCidr.find_or_create(cidr=cmd["cidr"])
cidr.meta["whois"] = open(cmd["output"]).read()
display(cidr.meta["whois"])
cidr.update()
elif cmd["domain"]:
_, domain = self.BaseDomain.find_or_create(
domain=cmd["domain"])
domain.meta["whois"] = open(cmd["output"]).read()
display(domain.meta["whois"])
domain.update()
self.BaseDomain.commit()
class Module(ModuleTemplate):
name = "Nessus"
def __init__(self, db):
self.db = db
self.BaseDomain = BaseDomainRepository(db, self.name)
self.Domain = DomainRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.Port = PortRepository(db, self.name)
self.Vulnerability = VulnRepository(db, self.name)
self.CVE = CVERepository(db, self.name)
self.ScopeCIDR = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument(
"--import_file",
help="Import separated Nessus files separated by a space. DO NOT USE QUOTES OR COMMAS",
nargs="+",
)
self.options.add_argument(
"--interactive",
help="Prompt to store domains not in Base Domains already",
action="store_true",
)
self.options.add_argument(
"--internal",
help="Store domains not in Base Domains already",
action="store_true",
)
self.options.add_argument(
"--launch",
help="Launch Nessus scan using Actively scoped IPs and domains in the database",
action="store_true",
)
self.options.add_argument(
"--job_name", help="Job name inside Nessus", default="Armory Job"
)
self.options.add_argument("--username", help="Nessus Username")
self.options.add_argument("--password", help="Nessus Password")
self.options.add_argument(
"--host", help="Hostname:Port of Nessus web interface (ie localhost:8835"
)
self.options.add_argument("--uuid", help="UUID of Nessus Policy to run")
self.options.add_argument("--policy_id", help="Policy ID to use")
self.options.add_argument("--folder_id", help="ID for folder to store job in")
self.options.add_argument(
"--download",
help="Download Nessus job from server and import",
action="store_true",
)
self.options.add_argument("--job_id", help="Job ID to download and import")
self.options.add_argument(
"--output_path",
help="Path to store downloaded file (Default: Nessus)",
default=self.name,
)
def run(self, args):
if args.import_file:
for nFile in args.import_file:
self.process_data(nFile, args)
elif args.launch:
if (
not args.username
and not args.password
and not args.host
and not args.uuid
and not args.policy_id
and not args.folder_id
):
display_error(
"You must supply a username, password, and host to launch a Nessus job"
)
else:
n = NessusRequest(
args.username,
args.password,
args.host,
uuid=args.uuid,
policy_id=args.policy_id,
folder_id=args.folder_id,
)
ips = [
ip.ip_address
for ip in self.IPAddress.all(scope_type="active", tool=self.name)
]
cidrs = [cidr.cidr for cidr in self.ScopeCIDR.all(tool=self.name)]
domains = [
domain.domain
for domain in self.Domain.all(scope_type="active", tool=self.name)
]
targets = ", ".join(merge_ranges(ips + cidrs) + domains)
res = n.launch_job(targets, args.job_name)
display("New Nessus job launched with ID {}".format(res))
display(
"Remember this number! You'll need it to download the job once it is done."
)
elif args.download:
if (
not args.username
and not args.password
and not args.host
and not args.job_id
):
display_error(
"You must supply host, username, password and job_id to download a report to import"
)
else:
n = NessusRequest(
args.username,
args.password,
args.host,
proxies={"https": "127.0.0.1:8080"},
)
if args.output_path[0] == "/":
output_path = os.path.join(
self.base_config["PROJECT"]["base_path"], args.output_path[1:]
)
else:
output_path = os.path.join(
self.base_config["PROJECT"]["base_path"], args.output_path
)
if not os.path.exists(output_path):
os.makedirs(output_path)
output_path = os.path.join(
output_path, "Nessus-export-{}.nessus".format(int(time.time()))
)
n.export_file(args.job_id, output_path)
self.process_data(output_path, args)
def nessCheckPlugin(self, tag):
nessPlugins = [
"10759",
"77026",
"20089",
"56984",
"71049",
"70658",
"40984",
"11411",
]
pluginID = tag.get("pluginID")
if pluginID in nessPlugins:
# print pluginID + " is in the list"
if pluginID == "10759":
if tag.find("plugin_output") is not None:
return (
tag.find("plugin_output").text.split("\n\n")[3].strip()
) # returns IP for Web Server HTTP Header INternal IP disclosure
else:
return ""
if pluginID == "77026":
if tag.find("plugin_output") is not None:
return (
tag.find("plugin_output").text.split("\n\n")[3].strip()
) # Microsoft Exchange Client Access Server Information Disclosure (IP addy)
else:
return ""
if pluginID == "71049" or pluginID == "70658":
output = ""
if tag.find("plugin_output") is not None:
tmp = tag.find("plugin_output").text.split(":")[
1
] # SSH Weak MAC & CBC Algorithms Enabled
# print "#"*5
tmp = tmp.split("\n\n")[1].replace(" ", "")
# print "#"*5
output = tmp.split("\n")
# print ", ".join(output)
return ", ".join(output)
if pluginID == "56984":
if tag.find("plugin_output") is not None:
tmp = (
tag.find("plugin_output")
.text.split("This port supports ")[1]
.strip()
) # SSL / TLS Versions Supported
tmp = tmp.split("/")
bad = []
for i in tmp:
# print i
if "SSLv" in i:
bad.append(i)
elif "TLSv1.0" in i:
bad.append(i)
if bad != []:
return ", ".join(bad).rstrip(".")
else:
return ""
else:
return ""
if pluginID == "40984": # browsable web dirs
if tag.find("plugin_output") is not None:
tmp = (
tag.find("plugin_output")
.text.split("The following directories are browsable :")[1]
.strip()
)
directories = tmp.split("\n")
return "\n".join(directories)
if pluginID == "11411": # Backup Files Disclosure
if tag.find("plugin_output") is not None:
urls = []
tmp = (
tag.find("plugin_output")
.text.split(
"It is possible to read the following backup files :"
)[1]
.strip()
)
tmpUrls = tmp.split("\n")
for url in tmpUrls:
if "URL" in url:
urls.append(url.split(":")[1].lstrip())
if urls:
return "\n".join(urls)
else:
return ""
if pluginID == "20089": # F5 cookie
if tag.find("plugin_output") is not None:
f5Output = []
cookieVal = []
output = tag.find("plugin_output").text.strip().split("\n")
for line in output:
# print line
line = line.split(":")
for i, item in enumerate(line):
item = item.strip()
if "Cookie" in item:
cabbage = line.pop(i)
tmp = line.pop(i)
tmp.strip()
cookieVal.append(tmp)
else:
item = "".join(item)
f5Output.append(item)
f5Output = " : ".join(f5Output)
f5Output = f5Output.replace(" : : ", ", ")
f5Output += " [" + ", ".join(cookieVal) + "]"
c = 0
tmpF5Output = f5Output.split()
for i, letter in enumerate(tmpF5Output):
if letter == ":":
c += 1
if (c % 2) == 0:
tmpF5Output[i] = " "
return "".join(tmpF5Output).replace("[", " [")
else:
return ""
else:
return False
def getVulns(self, ip, ReportHost):
"""Gets vulns and associated services"""
for tag in ReportHost.iter("ReportItem"):
exploitable = False
cves = []
vuln_refs = {}
proto = tag.get("protocol")
port = tag.get("port")
svc_name = tag.get("svc_name").replace("?", "")
tmpPort = proto + "/" + port
if tmpPort.lower() == "tcp/443":
portName = "https"
elif tmpPort.lower() == "tcp/80":
portName = "http"
elif svc_name == "www":
plugin_name = tag.get("pluginName")
if "tls" in plugin_name.lower() or "ssl" in plugin_name.lower():
portName = "https"
else:
portName = "http"
else:
portName = svc_name
if "general" not in portName:
created, db_port = self.Port.find_or_create(
port_number=port, status="open", proto=proto, ip_address_id=ip.id
)
if db_port.service_name == "http":
if portName == "https":
db_port.service_name = portName
elif db_port.service_name == "https":
pass
else:
db_port.service_name = portName
db_port.save()
if tag.get("pluginID") == "56984":
severity = 1
elif tag.get("pluginID") == "11411":
severity = 3
else:
severity = int(tag.get("severity"))
findingName = tag.get("pluginName")
description = tag.find("description").text
if tag.find("solution") is not None and tag.find("solution") != "n/a":
solution = tag.find("solution").text
else:
solution = "No Remediation From Nessus"
nessCheck = self.nessCheckPlugin(tag)
if nessCheck:
if not db_port.info:
db_port.info = {findingName: nessCheck}
else:
db_port.info[findingName] = nessCheck
db_port.save()
if tag.find("exploit_available") is not None:
# print "\nexploit avalable for", findingName
exploitable = True
metasploits = tag.findall("metasploit_name")
if metasploits:
vuln_refs["metasploit"] = []
for tmp in metasploits:
vuln_refs["metasploit"].append(tmp.text)
edb_id = tag.findall("edb-id")
if edb_id:
vuln_refs["edb-id"] = []
for tmp in edb_id:
vuln_refs["edb-id"].append(tmp.text)
tmpcves = tag.findall("cve")
for c in tmpcves:
if c.text not in cves:
cves.append(c.text)
if not self.Vulnerability.find(name=findingName):
created, db_vuln = self.Vulnerability.find_or_create(
name=findingName,
severity=severity,
description=description,
remediation=solution,
)
db_vuln.ports.append(db_port)
db_vuln.exploitable = exploitable
if exploitable == True:
print("\nexploit avalable for", findingName)
print()
if vuln_refs:
db_vuln.exploit_reference = vuln_refs
else:
db_vuln = self.Vulnerability.find(name=findingName)
db_vuln.ports.append(db_port)
db_vuln.exploitable = exploitable
if vuln_refs:
if db_vuln.exploit_reference is not None:
for key in vuln_refs.keys():
if key not in db_vuln.exploit_reference.keys():
db_vuln.exploit_reference[key] = vuln_refs[key]
else:
for ref in vuln_refs[key]:
if ref not in db_vuln.exploit_reference[key]:
db_vuln.exploit_reference[key].append(ref)
else:
db_vuln.exploit_reference = vuln_refs
for cve in cves:
if not self.CVE.find(name=cve):
# print "Gathering CVE information for", cve
try:
res = json.loads(
requests.get(
"http://cve.circl.lu/api/cve/%s" % cve
).text
)
cveDescription = res["summary"]
cvss = float(res["cvss"])
except:
cveDescription = None
cvss = None
if not self.CVE.find(name=cve):
created, db_cve = self.CVE.find_or_create(
name=cve,
description=cveDescription,
temporal_score=cvss,
)
db_cve.vulnerabilities.append(db_vuln)
else:
db_cve = self.CVE.find(name=cve)
if (
db_cve.description is None
and cveDescription is not None
):
db_cve.description = cveDescription
if db_cve.temporal_score is None and cvss is not None:
db_cve.temporal_score = cvss
db_cve.vulnerabilities.append(db_vuln)
def process_data(self, nFile, args):
print("Reading", nFile)
tree = ET.parse(nFile)
root = tree.getroot()
skip = []
for ReportHost in root.iter("ReportHost"):
os = []
hostname = ""
hostIP = ""
for HostProperties in ReportHost.iter("HostProperties"):
for tag in HostProperties:
if tag.get("name") == "host-ip":
hostIP = tag.text
if tag.get("name") == "host-fqdn":
hostname = tag.text.lower()
hostname = hostname.replace("www.", "")
if tag.get("name") == "operating-system":
os = tag.text.split("\n")
if hostIP: # apparently nessus doesn't always have an IP to work with...
if hostname:
display(
"Gathering Nessus info for {} ( {} )".format(hostIP, hostname)
)
else:
display("Gathering Nessus info for {}".format(hostIP))
created, ip = self.IPAddress.find_or_create(ip_address=hostIP)
if hostname:
if not args.internal:
created, domain = self.Domain.find_or_create(domain=hostname)
if ip not in domain.ip_addresses:
ip.save()
domain.ip_addresses.append(ip)
domain.save()
else:
created, domain = self.Domain.find_or_create(domain=hostname)
if ip not in domain.ip_addresses:
domain.ip_addresses.append(ip)
domain.update()
if os:
for o in os:
if not ip.OS:
ip.OS = o
else:
if o not in ip.OS.split(" OR "):
ip.OS += " OR " + o
self.getVulns(ip, ReportHost)
self.IPAddress.commit()
return
class Module(ModuleTemplate):
"""
The Shodan module will either iterate through Shodan search results from net:<cidr>
for all scoped CIDRs, or a custom search query. The resulting IPs and ports will be
added to the database, along with a dictionary object of the API results.
"""
name = "ShodanImport"
def __init__(self, db):
self.db = db
self.Port = PortRepository(db, self.name)
self.IPAddress = IPRepository(db, self.name)
self.ScopeCidr = ScopeCIDRRepository(db, self.name)
def set_options(self):
super(Module, self).set_options()
self.options.add_argument("-k",
"--api_key",
help="API Key for accessing Shodan")
self.options.add_argument(
"-s", "--search", help="Custom search string (will use credits)")
self.options.add_argument(
"-i",
"--import_db",
help="Import scoped IPs from the database",
action="store_true",
)
self.options.add_argument("--rescan",
help="Rescan CIDRs already processed",
action="store_true")
self.options.add_argument("--fast",
help="Use 'net' filter. (May use credits)",
action="store_true")
self.options.add_argument(
"--cidr_only",
help="Import only CIDRs from database (not individual IPs)",
action="store_true",
)
def run(self, args):
if not args.api_key:
display_error("You must supply an API key to use shodan!")
return
if args.search:
ranges = [args.search]
if args.import_db:
ranges = []
if args.rescan:
if args.fast:
ranges += [
"net:{}".format(c.cidr) for c in self.ScopeCidr.all()
]
else:
cidrs = [c.cidr for c in self.ScopeCidr.all()]
for c in cidrs:
ranges += [str(i) for i in IPNetwork(c)]
if not args.cidr_only:
ranges += [
"{}".format(i.ip_address)
for i in self.IPAddress.all(scope_type="active")
]
else:
if args.fast:
ranges += [
"net:{}".format(c.cidr)
for c in self.ScopeCidr.all(tool=self.name)
]
else:
cidrs = [
c.cidr for c in self.ScopeCidr.all(tool=self.name)
]
for c in cidrs:
ranges += [str(i) for i in IPNetwork(c)]
if not args.cidr_only:
ranges += [
"{}".format(i.ip_address)
for i in self.IPAddress.all(scope_type="active",
tool=self.name)
]
api_host_url = "https://api.shodan.io/shodan/host/{}?key={}"
api_search_url = (
"https://api.shodan.io/shodan/host/search?key={}&query={}&page={}")
for r in ranges:
time.sleep(1)
if ":" in r:
display("Doing Shodan search: {}".format(r))
try:
results = json.loads(
requests.get(api_search_url.format(args.api_key, r,
1)).text)
if results.get("error") and "request timed out" in results[
"error"]:
display_warning(
"Timeout occurred on Shodan's side.. trying again in 5 seconds."
)
results = json.loads(
requests.get(
api_search_url.format(args.api_key, r,
1)).text)
except Exception as e:
display_error("Something went wrong: {}".format(e))
next
total = len(results["matches"])
matches = []
i = 1
while total > 0:
display("Adding {} results from page {}".format(total, i))
matches += results["matches"]
i += 1
try:
time.sleep(1)
results = json.loads(
requests.get(
api_search_url.format(args.api_key, r,
i)).text)
if (results.get("error")
and "request timed out" in results["error"]):
display_warning(
"Timeout occurred on Shodan's side.. trying again in 5 seconds."
)
results = json.loads(
requests.get(
api_search_url.format(args.api_key, r,
1)).text)
total = len(results["matches"])
except Exception as e:
display_error("Something went wrong: {}".format(e))
total = 0
pdb.set_trace()
for res in matches:
ip_str = res["ip_str"]
port_str = res["port"]
transport = res["transport"]
display("Processing IP: {} Port: {}/{}".format(
ip_str, port_str, transport))
created, IP = self.IPAddress.find_or_create(
ip_address=ip_str)
IP.meta["shodan_data"] = results
created, port = self.Port.find_or_create(
ip_address=IP, port_number=port_str, proto=transport)
if created:
svc = ""
if res.get("ssl", False):
svc = "https"
elif res.get("http", False):
svc = "http"
else:
svc = ""
port.service_name = svc
port.meta["shodan_data"] = res
port.save()
else:
try:
results = json.loads(
requests.get(api_host_url.format(r,
args.api_key)).text)
except Exception as e:
display_error("Something went wrong: {}".format(e))
next
# pdb.set_trace()
if results.get("data", False):
display("{} results found for: {}".format(
len(results["data"]), r))
for res in results["data"]:
ip_str = res["ip_str"]
port_str = res["port"]
transport = res["transport"]
display("Processing IP: {} Port: {}/{}".format(
ip_str, port_str, transport))
created, IP = self.IPAddress.find_or_create(
ip_address=ip_str)
IP.meta["shodan_data"] = results
created, port = self.Port.find_or_create(
ip_address=IP,
port_number=port_str,
proto=transport)
if created:
svc = ""
if res.get("ssl", False):
svc = "https"
elif res.get("http", False):
svc = "http"
else:
svc = ""
port.service_name = svc
port.meta["shodan_data"] = res
port.save()
self.IPAddress.commit()