A malicious DNS server for executing DNS Rebinding attacks on the fly. whonow
lets you specify DNS responses and rebind rules dynamically using domain requests themselves.
# respond to DNS queries for this domain with 52.23.194.42 the first time
# it is requested and then 192.168.1.1 every time after that
A.52.23.194.42.1time.192.168.1.1.forever.rebind.network
# respond first with 52.23.194.42, then 192.168.1.1 the next five times,
# and then start all over again (1, then 5, forever...)
A.52.23.194.42.1time.192.168.1.1.5times.repeat.rebind.network
What's great about dynamic DNS Rebinding rules is that you don't have to spin up your own malicious DNS server to start exploiting the browser's Same-origin policy. Instead, everyone can share the same public whonow
server running on port 53 of rebind.network
.
Note: You should include UUIDs (e.g. a06a5856-1fff-4415-9aa2-823230b05826
) as a subdomain in each DNS lookup to a whonow
server. These have been omitted from examples in this README for brevity, but assume requests to *.rebind.network
should be *.a06a5856-1fff-4415-9aa2-823230b05826.rebind.network
. See the Gotchas section for more info as to why.
The beauty of whonow
is that you can define the behavior of DNS responses via subdomains in the domain name itself. Using only a few simple keywords: A
, (n)times
, forever
, and repeat
, you can define complex and powerful DNS behavior.
A.<ip-address>.<rule>[.<ip-address>.<rule>[.<ip-address>.<rule>]][.uuid/random-string].example.com
A
: The type of DNS request. Currently onlyA
records are supported, butAAAA
should be coming soon.<ip-address>
: an ipv4 (ipv6 coming soon) address with each octet seprated by a period (e.g.192.168.1.1
.<rule>
: One of three rules(n)time[s]
: The number of times the DNS server should reply with the previous IP address. Accepts both plural and singular strings (e.g.1time, 3times, 5000times
)forever
: Respond with the previous IP address forever.repeat
: Repeat the entire set of rules starting from the beginning.
[uuid/random-string]
: A random string to keep DNS Rebind attacks against the same IP addresses separate from each other. See Gotchas for more info.example.com
: A domain name you have pointing to awhonow
nameserver, like the publicly availablerebind.network:53
whonow
instance.
Rules can be chained together to form complex response behavior.
# always respond with 192.168.1.1. This isn't really DNS rebinding
# but it still works
A.192.168.1.1.forever.rebind.network
# alternate between localhost and 10.0.0.1 forever
A.127.0.0.1.1time.10.0.0.1.1time.repeat.rebind.network
# first respond with 192.168.1.1 then 192.168.1.2. Now respond 192.168.1.3 forever.
A.192.168.1.1.1time.192.168.1.2.2times.192.168.1.3.forever.rebind.network
# respond with 52.23.194.42 the first time, then whatever `whonow --default-address`
# is set to forever after that (default: 127.0.0.1)
A.52.23.194.42.1time.rebind.network
Each label [subdomain] may contain zero to 63 characters... The full domain name may not exceed the length of 253 characters in its textual representation. (from the DNS Wikipedia page)
Additionally, there may not be more than 127 labels/subdomains.
Each unique domain name request to whonow
creates a small state-saving program in the server's RAM. The next time that domain name is requested the program counter increments and the state may be mutated. All unique domain names are their own unique program instances. To avoid clashing with other users or having your domain name program's state inadvertently incremented you should add a UUID subdomain after your rule definitions. That UUID should never be reused.
# this
A.127.0.0.1.1time.10.0.0.1.1time.repeat.8f058b82-4c39-4dfe-91f7-9b07bcd7fbd4.rebind.network
# not this
A.127.0.0.1.1time.10.0.0.1.1time.repeat.rebind.network
The program state associated with each unique domain name is stored by whonow
in RAM. To avoid running out of RAM an upper-bound is placed on the number of unique domains who's program state can be managed at the same time. By default, this value is set to 10,000,000, but can be configured with the --max-ram-domains
. Once this limit is reached, domain names and their saved program state will be removed in the order they were added (FIFO).
To run your own whonow
server in the cloud use your domain name provider's admin panel to configure a custom nameserver pointing to your VPS. Then install whonow
on that VPS and make sure it's running on port 53 (the default DNS port) and that port 53 is accessible to the Internet.
# install
npm install --cli -g whonow@latest
# run it!
whonow --port 53
If that ☝ is too much trouble, feel free to just use the public whonow
server running on port 53 of rebind.network
.🌐.
$ whonow --help
usage: whonow [-h] [-v] [-p PORT] [-d DEFAULT_ANSWER] [-b MAX_RAM_DOMAINS]
A malicious DNS server for executing DNS Rebinding attacks on the fly.
Optional arguments:
-h, --help Show this help message and exit.
-v, --version Show program's version number and exit.
-p PORT, --port PORT What port to run the DNS server on (default: 53).
-d DEFAULT_ANSWER, --default-answer DEFAULT_ANSWER
The default IP address to respond with if no rule is
found (default: "127.0.0.1").
-b MAX_RAM_DOMAINS, --max-ram-domains MAX_RAM_DOMAINS
The number of domain name records to store in RAM at
once. Once the number of unique domain names queried
surpasses this number domains will be removed from
memory in the order they were requested. Domains that
have been removed in this way will have their program
state reset the next time they are queried (default:
10000000).
A whonow
server must be running on localhost:15353
to perform the tests in test.js
# in one terminal
whonow -p 15353
# in another terminal
cd path/to/node_modules/whonow
npm test