Features • Installation • Usage • Running `dnsx` • Wildcard • Notes • Join Discord
dnsx
is a fast and multi-purpose DNS toolkit designed for running various probes through the retryabledns library. It supports multiple DNS queries, user supplied resolvers, DNS wildcard filtering like shuffledns etc.
- Simple and Handy utility to query DNS records.
- A, AAAA, CNAME, PTR, NS, MX, TXT, SRV, SOA query support
- DNS Resolution / Brute-force support
- Custom resolver input support
- Multiple resolver format (TCP/UDP/DOH/DOT) support
- stdin and stdout support
- Automatic wildcard handling support
dnsx
requires go1.21 to install successfully. Run the following command to install the latest version:
go install -v github.com/projectdiscovery/dnsx/cmd/dnsx@latest
dnsx -h
This will display help for the tool. Here are all the switches it supports.
INPUT:
-l, -list string list of sub(domains)/hosts to resolve (file or stdin)
-d, -domain string list of domain to bruteforce (file or comma separated or stdin)
-w, -wordlist string list of words to bruteforce (file or comma separated or stdin)
QUERY:
-a query A record (default)
-aaaa query AAAA record
-cname query CNAME record
-ns query NS record
-txt query TXT record
-srv query SRV record
-ptr query PTR record
-mx query MX record
-soa query SOA record
-axfr query AXFR
-caa query CAA record
-any query ANY record
FILTER:
-re, -resp display dns response
-ro, -resp-only display dns response only
-rc, -rcode string filter result by dns status code (eg. -rcode noerror,servfail,refused)
PROBE:
-cdn display cdn name
-asn display host asn information
RATE-LIMIT:
-t, -threads int number of concurrent threads to use (default 100)
-rl, -rate-limit int number of dns request/second to make (disabled as default) (default -1)
UPDATE:
-up, -update update dnsx to latest version
-duc, -disable-update-check disable automatic dnsx update check
OUTPUT:
-o, -output string file to write output
-j, -json write output in JSONL(ines) format
-omit-raw, -or omit raw dns response from jsonl output
DEBUG:
-hc, -health-check run diagnostic check up
-silent display only results in the output
-v, -verbose display verbose output
-raw, -debug display raw dns response
-stats display stats of the running scan
-version display version of dnsx
OPTIMIZATION:
-retry int number of dns attempts to make (must be at least 1) (default 2)
-hf, -hostsfile use system host file
-trace perform dns tracing
-trace-max-recursion int Max recursion for dns trace (default 32767)
-resume resume existing scan
-stream stream mode (wordlist, wildcard, stats and stop/resume will be disabled)
CONFIGURATIONS:
-r, -resolver string list of resolvers to use (file or comma separated)
-wt, -wildcard-threshold int wildcard filter threshold (default 5)
-wd, -wildcard-domain string domain name for wildcard filtering (other flags will be ignored)
Filter active hostnames from the list of passive subdomains, obtained from various sources:
subfinder -silent -d hackerone.com | dnsx -silent
a.ns.hackerone.com
www.hackerone.com
api.hackerone.com
docs.hackerone.com
mta-sts.managed.hackerone.com
mta-sts.hackerone.com
resources.hackerone.com
b.ns.hackerone.com
mta-sts.forwarding.hackerone.com
events.hackerone.com
support.hackerone.com
Print A records for the given list of subdomains:
subfinder -silent -d hackerone.com | dnsx -silent -a -resp
www.hackerone.com [104.16.100.52]
www.hackerone.com [104.16.99.52]
hackerone.com [104.16.99.52]
hackerone.com [104.16.100.52]
api.hackerone.com [104.16.99.52]
api.hackerone.com [104.16.100.52]
mta-sts.forwarding.hackerone.com [185.199.108.153]
mta-sts.forwarding.hackerone.com [185.199.109.153]
mta-sts.forwarding.hackerone.com [185.199.110.153]
mta-sts.forwarding.hackerone.com [185.199.111.153]
a.ns.hackerone.com [162.159.0.31]
resources.hackerone.com [52.60.160.16]
resources.hackerone.com [3.98.63.202]
resources.hackerone.com [52.60.165.183]
resources.hackerone.com [read.uberflip.com]
mta-sts.hackerone.com [185.199.110.153]
mta-sts.hackerone.com [185.199.111.153]
mta-sts.hackerone.com [185.199.109.153]
mta-sts.hackerone.com [185.199.108.153]
gslink.hackerone.com [13.35.210.17]
gslink.hackerone.com [13.35.210.38]
gslink.hackerone.com [13.35.210.83]
gslink.hackerone.com [13.35.210.19]
b.ns.hackerone.com [162.159.1.31]
docs.hackerone.com [185.199.109.153]
docs.hackerone.com [185.199.110.153]
docs.hackerone.com [185.199.111.153]
docs.hackerone.com [185.199.108.153]
support.hackerone.com [104.16.51.111]
support.hackerone.com [104.16.53.111]
mta-sts.managed.hackerone.com [185.199.108.153]
mta-sts.managed.hackerone.com [185.199.109.153]
mta-sts.managed.hackerone.com [185.199.110.153]
mta-sts.managed.hackerone.com [185.199.111.153]
Extract A records for the given list of subdomains:
subfinder -silent -d hackerone.com | dnsx -silent -a -resp-only
104.16.99.52
104.16.100.52
162.159.1.31
104.16.99.52
104.16.100.52
185.199.110.153
185.199.111.153
185.199.108.153
185.199.109.153
104.16.99.52
104.16.100.52
104.16.51.111
104.16.53.111
185.199.108.153
185.199.111.153
185.199.110.153
185.199.111.153
Extract CNAME records for the given list of subdomains:
subfinder -silent -d hackerone.com | dnsx -silent -cname -resp
support.hackerone.com [hackerone.zendesk.com]
resources.hackerone.com [read.uberflip.com]
mta-sts.hackerone.com [hacker0x01.github.io]
mta-sts.forwarding.hackerone.com [hacker0x01.github.io]
events.hackerone.com [whitelabel.bigmarker.com]
Extract ASN records for the given list of subdomains:
subfinder -silent -d hackerone.com | dnsx -silent -asn
b.ns.hackerone.com [AS13335, CLOUDFLARENET, US]
a.ns.hackerone.com [AS13335, CLOUDFLARENET, US]
hackerone.com [AS13335, CLOUDFLARENET, US]
www.hackerone.com [AS13335, CLOUDFLARENET, US]
api.hackerone.com [AS13335, CLOUDFLARENET, US]
support.hackerone.com [AS13335, CLOUDFLARENET, US]
Probe using dns status code on given list of (sub)domains:
subfinder -silent -d hackerone.com | dnsx -silent -rcode noerror,servfail,refused
ns.hackerone.com [NOERROR]
a.ns.hackerone.com [NOERROR]
b.ns.hackerone.com [NOERROR]
support.hackerone.com [NOERROR]
resources.hackerone.com [NOERROR]
mta-sts.hackerone.com [NOERROR]
www.hackerone.com [NOERROR]
mta-sts.forwarding.hackerone.com [NOERROR]
docs.hackerone.com [NOERROR]
Extract subdomains from given network range using PTR
query:
echo 173.0.84.0/24 | dnsx -silent -resp-only -ptr
cors.api.paypal.com
trinityadminauth.paypal.com
cld-edge-origin-api.paypal.com
appmanagement.paypal.com
svcs.paypal.com
trinitypie-serv.paypal.com
ppn.paypal.com
pointofsale-new.paypal.com
pointofsale.paypal.com
slc-a-origin-pointofsale.paypal.com
fpdbs.paypal.com
Extract subdomains from given ASN using PTR
query:
echo AS17012 | dnsx -silent -resp-only -ptr
apiagw-a.paypal.com
notify.paypal.com
adnormserv-slc-a.paypal.com
a.sandbox.paypal.com
apps2.paypal-labs.com
pilot-payflowpro.paypal.com
www.paypallabs.com
paypal-portal.com
micropayments.paypal-labs.com
minicart.paypal-labs.com
Bruteforce subdomains for given domain or list of domains using d
and w
flag:
dnsx -silent -d facebook.com -w dns_worldlist.txt
blog.facebook.com
booking.facebook.com
api.facebook.com
analytics.facebook.com
beta.facebook.com
apollo.facebook.com
ads.facebook.com
box.facebook.com
alpha.facebook.com
apps.facebook.com
connect.facebook.com
c.facebook.com
careers.facebook.com
code.facebook.com
Bruteforce targeted subdomain using single or multiple keyword input, as d
or w
flag supports file or comma separated keyword inputs:
dnsx -silent -d domains.txt -w jira,grafana,jenkins
grafana.1688.com
grafana.8x8.vc
grafana.airmap.com
grafana.aerius.nl
jenkins.1688.com
jenkins.airbnb.app
jenkins.airmap.com
jenkins.ahn.nl
jenkins.achmea.nl
jira.amocrm.com
jira.amexgbt.com
jira.amitree.com
jira.arrival.com
jira.atlassian.net
jira.atlassian.com
Values are accepted from stdin for all the input types (-list
, -domain
, -wordlist
). The -list
flag defaults to stdin
, but the same can be achieved for other input types by adding a -
(dash) as parameter:
cat domains.txt | dnsx -silent -w jira,grafana,jenkins -d -
grafana.1688.com
grafana.8x8.vc
grafana.airmap.com
grafana.aerius.nl
jenkins.1688.com
jenkins.airbnb.app
jenkins.airmap.com
jenkins.ahn.nl
jenkins.achmea.nl
jira.amocrm.com
jira.amexgbt.com
jira.amitree.com
jira.arrival.com
jira.atlassian.net
jira.atlassian.com
$ cat tld.txt
com
by
de
be
al
bi
cg
dj
bs
dnsx -d google.FUZZ -w tld.txt -resp
_ __ __
__| | _ __ ___ \ \/ /
/ _' || '_ \ / __| \ /
| (_| || | | |\__ \ / \
\__,_||_| |_||___//_/\_\ v1.1.2
projectdiscovery.io
google.de [142.250.194.99]
google.com [142.250.76.206]
google.be [172.217.27.163]
google.bs [142.251.42.35]
google.bi [216.58.196.67]
google.al [216.58.196.68]
google.by [142.250.195.4]
google.cg [142.250.183.131]
google.dj [142.250.192.3]
A special feature of dnsx
is its ability to handle multi-level DNS based wildcards, and do it so with a very reduced number of DNS requests. Sometimes all the subdomains will resolve, which leads to lots of garbage in the output. The way dnsx
handles this is by keeping track of how many subdomains point to an IP and if the count of the subdomains increase beyond a certain threshold, it will check for wildcards on all the levels of the hosts for that IP iteratively.
dnsx -l subdomain_list.txt -wd airbnb.com -o output.txt
It's possible to use the library directly in your golang programs. The following code snippets is an example of use in golang programs. Please refer to here for detailed package configuration and usage.
package main
import (
"fmt"
"github.com/projectdiscovery/dnsx/libs/dnsx"
)
func main() {
// Create DNS Resolver with default options
dnsClient, err := dnsx.New(dnsx.DefaultOptions)
if err != nil {
fmt.Printf("err: %v\n", err)
return
}
// DNS A question and returns corresponding IPs
result, err := dnsClient.Lookup("hackerone.com")
if err != nil {
fmt.Printf("err: %v\n", err)
return
}
for idx, msg := range result {
fmt.Printf("%d: %s\n", idx+1, msg)
}
// Query
rawResp, err := dnsClient.QueryOne("hackerone.com")
if err != nil {
fmt.Printf("err: %v\n", err)
return
}
fmt.Printf("rawResp: %v\n", rawResp)
jsonStr, err := rawResp.JSON()
if err != nil {
fmt.Printf("err: %v\n", err)
return
}
fmt.Println(jsonStr)
return
}
- As default,
dnsx
checks for A record. - As default
dnsx
uses Google, Cloudflare, Quad9 resolver. - Custom resolver list can be loaded using the
r
flag. - Domain name (
wd
) input is mandatory for wildcard elimination. - DNS record flag can not be used when using wildcard filtering.
- DNS resolution (
l
) and DNS brute-forcing (w
) can't be used together. - VPN operators tend to filter high DNS/UDP traffic, therefore the tool might experience packets loss (eg. Mullvad VPN)
dnsx
is made with 🖤 by the projectdiscovery team.