asyncwhois
| Python utility for WHOIS and RDAP queries.
import asyncio
from pprint import pprint
import asyncwhois
# pick a domain
domain = 'bitcoin.org'
# domain could also be a URL; asyncwhois uses tldextract to parse the URL
# domain = 'https://www.google.com?q=asyncwhois'
# basic example
query_string, parsed_dict = asyncwhois.whois(domain)
# query_string # The semi-free text output from the whois server
# parsed_dict # A dictionary of key:values extracted from `query_string`
# asyncio example
loop = asyncio.get_event_loop()
query_string, parsed_dict = loop.run_until_complete(asyncwhois.aio_whois(domain))
pprint(parsed_dict)
"""
{created: datetime.datetime(2008, 8, 18, 13, 19, 55),
dnssec: 'unsigned',
domain_name: 'bitcoin.org',
expires: datetime.datetime(2029, 8, 18, 13, 19, 55),
name_servers: ['dns1.registrar-servers.com', 'dns2.registrar-servers.com'],
registrant_address: 'P.O. Box 0823-03411',
registrant_city: 'Panama',
registrant_country: 'PA',
registrant_name: 'WhoisGuard Protected',
registrant_organization: 'WhoisGuard, Inc.',
registrant_state: 'Panama',
registrant_zipcode: '',
registrar: 'NAMECHEAP INC',
status: ['clientTransferProhibited '
'https://icann.org/epp#clientTransferProhibited'],
updated: datetime.datetime(2019, 11, 24, 13, 58, 35, 940000)}
...
"""
# support for IPv4, IPv6, and ASNs too
ipv4 = "8.8.8.8"
query_string, parsed_dict = asyncwhois.whois(ipv4)
pprint(parsed_dict)
"""
{abuse_address: None,
abuse_email: '[email protected]',
abuse_handle: 'ABUSE5250-ARIN',
abuse_name: 'Abuse',
abuse_phone: '+1-650-253-0000',
abuse_rdap_ref: 'https://rdap.arin.net/registry/entity/ABUSE5250-ARIN',
cidr: '8.8.8.0/24',
net_handle: 'NET-8-8-8-0-2',
net_name: 'GOGL',
net_range: '8.8.8.0 - 8.8.8.255',
net_type: 'Direct Allocation',
org_address: '1600 Amphitheatre Parkway',
org_city: 'Mountain View',
org_country: 'US',
org_id: 'GOGL',
...
"""
The whodap project is used behind the scenes to perform RDAP queries.
domain = "https://google.com"
query_string, parsed_dict = asyncwhois.rdap(domain)
# OR with asyncio
query_string, parsed_dict = loop.run_until_complete(asyncwhois.aio_rdap(domain))
# Reusable client (caches the RDAP bootstrap server list, so it is faster for doing multiple calls)
client = asyncwhois.DomainClient()
for domain in ["google.com", "tesla.coffee", "bitcoin.org"]:
query_string, parsed_dict = client.rdap(domain)
# query_string, parsed_dict = await client.aio_rdap(domain)
# Using a proxy or need to configure something HTTP related? Try reconfiguring the client:
whodap_client = whodap.DNSClient.new_client(
httpx_client=httpx.Client(proxies="https://proxy:8080")
)
# whodap_client = await whodap.DNSClient.new_aio_client(httpx_client=httpx.AsyncClient(proxies="https://proxy:8080"))
client = asyncwhois.DomainClient(whodap_client=whodap_client)
SOCKS proxies are supported for WHOIS and RDAP queries.
import whodap
tor_host = "localhost"
tor_port = 9050
# WHOIS
query_string, parsed_dict = asyncwhois.whois(
"8.8.8.8", proxy_url=f"socks5://{tor_host}:{tor_port}"
)
# RDAP
import httpx
from httpx_socks import SyncProxyTransport, AsyncProxyTransport # EXTERNAL DEPENDENCY for SOCKS Proxies
transport = SyncProxyTransport.from_url(f"socks5://{tor_host}:{tor_port}")
httpx_client = httpx.Client(transport=transport)
whodap_client = whodap.IPv6Client.new_client(httpx_client=httpx_client)
query_string, parsed_dict = asyncwhois.rdap('2001:4860:4860::8888', whodap_client=whodap_client)
transport = AsyncProxyTransport.from_url(f"socks5://{tor_user}:{tor_pw}@{tor_host}:{tor_port}")
async with httpx.AsyncClient(transport=transport) as httpx_client:
whodap_client = await whodap.DNSClient.new_aio_client(httpx_client=httpx_client)
query_string, parsed_dict = await asyncwhois.aio_rdap('bitcoin.org', whodap_client=whodap_client)
Function/Object | Description |
---|---|
DomainClient |
Reusable client for WHOIS or RDAP domain queries |
NumberClient |
Reusable client for WHOIS or RDAP ipv4/ipv6 queries |
ASNClient |
Reusable client for RDAP asn queries |
whois |
WHOIS entrypoint for domain, ipv4, or ipv6 queries |
rdap |
RDAP entrypoint for domain, ipv4, ipv6, or asn queries |
aio_whois |
async counterpart to whois |
aio_rdap |
async counterpart to rdap |
whois_ipv4 |
[DEPRECATED] WHOIS lookup for ipv4 addresses |
whois_ipv6 |
[DEPRECATED] WHOIS lookup for ipv6 addresses |
rdap_domain |
[DEPRECATED] RDAP lookup for domain names |
rdap_ipv4 |
[DEPRECATED] RDAP lookup for ipv4 addresses |
rdap_ipv6 |
[DEPRECATED] RDAP lookup for ipv6 addresses |
rdap_asn |
[DEPRECATED] RDAP lookup for Autonomous System Numbers |
aio_whois_domain |
[DEPRECATED] async counterpart to whois_domain |
aio_whois_ipv4 |
[DEPRECATED] async counterpart to whois_ipv4 |
aio_whois_ipv6 |
[DEPRECATED] async counterpart to whois_ipv6 |
aio_rdap_domain |
[DEPRECATED] async counterpart to rdap_domain |
aio_rdap_ipv4 |
[DEPRECATED] async counterpart to rdap_ipv4 |
aio_rdap_ipv6 |
[DEPRECATED] async counterpart to rdap_ipv6 |
aio_rdap_asn |
[DEPRECATED] async counterpart to rdap_asn |
Parsed output not what you expected? Unfortunately, "the format of responses [from a WHOIS server] follow a semi-free text format". Therefore, situations will arise where this module does not support parsing the output from a specific server, and you may find yourself needing more control over how parsing happens. Fortunately, you can create customized parsers to suit your needs.
Example: This is a snippet of the output from running the "whois google.be" command.
Domain: google.be
Status: NOT AVAILABLE
Registered: Tue Dec 12 2000
Registrant:
Not shown, please visit www.dnsbelgium.be for webbased whois.
Registrar Technical Contacts:
Organisation: MarkMonitor Inc.
Language: en
Phone: +1.2083895740
Fax: +1.2083895771
Registrar:
Name: MarkMonitor Inc.
Website: http://www.markmonitor.com
Nameservers:
ns2.google.com
ns1.google.com
ns4.google.com
ns3.google.com
Keys:
Flags:
clientTransferProhibited
...
In this case, the "name servers" are listed on separate lines. The default BaseParser regexes won't find all of these server names. In order to accommodate this extra step, the "parse" method was overwritten within the parser subclass as seen below:
class RegexBE(BaseParser):
_be_expressions = { # the base class (BaseParser) will handle these regexes
BaseKeys.CREATED: r'Registered: *(.+)',
BaseKeys.REGISTRAR: r'Registrar:\n.+Name: *(.+)',
BaseKeys.REGISTRANT_NAME: r'Registrant:\n *(.+)'
}
def __init__(self):
super().__init__()
self.update_reg_expressions(self._be_expressions)
def parse(self, blob: str) -> Dict[str, Any]:
# run base class parsing for other keys
parsed_output = super().parse(blob)
# custom parsing is needed to extract all the name servers
ns_match = re.search(r"Name servers: *(.+)Keys: ", blob, re.DOTALL)
if ns_match:
parsed_output[BaseKeys.NAME_SERVERS] = [m.strip() for m in ns_match.group(1).split('\n') if m.strip()]
return parsed_output