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333 lines
21 KiB
Markdown
333 lines
21 KiB
Markdown
# Bug Bounties Methodology
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## Assets discoveries
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> So you were said that everything belonging to some company is inside the scope, and you want to figure out what this company actually owns.
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The goal of this phase is to obtain all the **companies owned by the main company** and then all the **assets** of these companies. To do so, we are going to:
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1. Find the acquisitions of the main company, this will give us the companies inside the scope.
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2. Find the ASN \(if any\) of each company, this will give us the IP ranges owned by each company
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3. Use reverse whois lookups to search for other entries \(organisation names, domains...\) related to the first one \(this can be done recursively\)
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4. Use other techniques like shodan `org`and `ssl`filters to search for other assets \(the `ssl` trick can be done recursively\).
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### Acquisitions
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First of all, we need to know which **other companies are owned by the main company**.
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One option is to visit [https://www.crunchbase.com/](https://www.crunchbase.com/), **search** for the **main company**, and **click** on "**acquisitions**". There you will see other companies acquired by the main one.
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Other option is to visit the **Wikipedia** page of the main company and search for **acquisitions**.
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> Ok, at this point you should know all the companies inside the scope. Lets figure out how to find their assets.
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### ASNs
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An autonomous system number \(**ASN**\) is a **unique number** assigned to an **autonomous system** \(AS\) by the **Internet Assigned Numbers Authority \(IANA\)**.
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An **AS** consists of **blocks** of **IP addresses** which have a distinctly defined policy for accessing external networks and are administered by a single organisation but may be made up of several operators.
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It's interesting to find if the **company have assigned any ASN** to find its **IP ranges.** It will be interested to perform a **vulnerability test** against all the **hosts** inside the **scope** and **look for domains** inside these IPs.
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****You can search by **company name**, by **IP** or by **domain** in [https://bgp.he.net/](https://bgp.he.net/).
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Depending on the region of the company this links could be useful to gather more data: [AFRINIC](https://www.afrinic.net/) \(Africa\), [Arin](https://www.arin.net/about/welcome/region/)\(North America\), [APNIC](https://www.apnic.net/) \(Asia\), [LACNIC](https://www.lacnic.net/) \(Latin America\), [RIPE NCC](https://www.ripe.net/) \(Europe\). Anyway, probably all the **useful information** \(IP ranges and Whois\) **appears already in the first link**.
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```bash
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#You can try "automate" this with amass, but it's not very recommended
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amass intel -org tesla
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amass intel -asn 8911,50313,394161
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```
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You can find the IP ranges of an organisation also using [http://asnlookup.com/](http://asnlookup.com/) \(it has free API\).
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### Looking for vulnerabilities
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At this point we known **all the assets inside the scope**, so if you are allowed you could launch some **vulnerability scanner** \(Nessus, OpenVAS\) over all the hosts.
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Also, you could launch some [**port scans**](pentesting/pentesting-network/#discovering-hosts-from-the-outside) ****or use services like **shodan** to find **open ports** and depending on what you find you should **take a look in this book to how to pentest several possible service running**.
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Also, It could be worth it to mention that you can also prepare some **default username** and **passwords** lists and try to **bruteforce** services with [https://github.com/x90skysn3k/brutespray](https://github.com/x90skysn3k/brutespray).
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## Domains
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> We know all the companies inside the scope and their assets, it's time to find the domains inside the scope.
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_Please, note that in the following purposed techniques you can also find subdomains and that information shouldn't be underrated._
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First of all you should look for the **main domain**\(s\) of each company. For example, for _Tesla Inc._ is going to be _tesla.com_.
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### Reverse DNS
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As you have found all the IP ranges of the domains you could try to perform **reverse dns lookups** on those **IPs to find more domains inside the scope**. Try to use some dns server of the victim or some well-known dns server \(1.1.1.1, 8.8.8.8\)
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```bash
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dnsrecon -r <DNS Range> -n <IP_DNS> #DNS reverse of all of the addresses
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dnsrecon -d facebook.com -r 157.240.221.35/24 #Using facebooks dns
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dnsrecon -r 157.240.221.35/24 -n 1.1.1.1 #Using cloudflares dns
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dnsrecon -r 157.240.221.35/24 -n 8.8.8.8 #Using google dns
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```
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For this to work, the administrator has to enable manually the PTR.
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You can also use a online tool for this info: [http://ptrarchive.com/](http://ptrarchive.com/)
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### Reverse Whois \(loop\)
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Inside a **whois** you can find a lot of interesting **information** like **organisation name**, **address**, **emails**, phone numbers... But which is even more interesting is that you can find **more assets related to the company** if you perform **reverse whois lookups by any of those fields** \(for example other whois registries where the same email appears\).
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You can use online tools like:
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* [https://viewdns.info/reversewhois/](https://viewdns.info/reversewhois/) - **Free**
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* [https://domaineye.com/reverse-whois](https://domaineye.com/reverse-whois) - **Free**
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* [https://www.reversewhois.io/](https://www.reversewhois.io/) - **Free**
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* \*\*\*\*[https://www.whoxy.com/](https://www.whoxy.com/) - **Free** web, not free API.
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* \*\*\*\*[http://reversewhois.domaintools.com/](http://reversewhois.domaintools.com/) - Not free
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* [https://drs.whoisxmlapi.com/reverse-whois-search](https://drs.whoisxmlapi.com/reverse-whois-search) - Not Free \(only **100 free** searches\)
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* [https://www.domainiq.com/](https://www.domainiq.com/) - Not Free
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You can automate this task using [**DomLink** ](https://github.com/vysecurity/DomLink)\(requires a whoxy API key\).
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You can also perform some automatic reverse whois discovery with [amass](https://github.com/OWASP/Amass): `amass intel -d tesla.com -whois`
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**Note that you can use this technique to discover more domain names every time you find a new domain.**
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### Trackers
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If find the **same ID of the same tracker** in 2 different pages you can suppose that **both pages** are **managed by the same team**.
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For example, if you see the same **Google Analytics ID** or the same **Adsense ID** on several pages.
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There are some pages that let you search by these trackers and more:
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* [**BuiltWith**](https://builtwith.com/)\*\*\*\*
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* \*\*\*\*[**Sitesleuth**](https://www.sitesleuth.io/)\*\*\*\*
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* \*\*\*\*[**Publicwww**](https://publicwww.com/)\*\*\*\*
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* \*\*\*\*[**SpyOnWeb**](http://spyonweb.com/)\*\*\*\*
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### **Favicon**
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Did you know that we can find related domains and sub domains to our target by looking for the same favicon icon hash? This is exactly what [favihash.py](https://github.com/m4ll0k/Bug-Bounty-Toolz/blob/master/favihash.py) tool made by [@m4ll0k2](https://twitter.com/m4ll0k2) does. Here’s how to use it:
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```text
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cat my_targets.txt | xargs -I %% bash -c 'echo "http://%%/favicon.ico"' > targets.txt
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python3 favihash.py -f https://target/favicon.ico -t targets.txt -s
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```
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Simply said, favihash will allow us to discover domains that have the same favicon icon hash as our target.
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### Other ways
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**Note that you can use this technique to discover more domain names every time you find a new domain.**
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#### Shodan
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As you already know the name of the organisation owning the IP space. You can search by that data in shodan using: `org:"Tesla, Inc."` Check the found hosts for new unexpected domains in the TLS certificate.
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You could access the **TLS certificate** of the main web page, obtain the **Organisation name** and then search for that name inside the **TLS certificates** of all the web pages known by **shodan** with the filter : `ssl:"Tesla Motors"`
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#### Google
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Go to the main page an find something that identifies the company, like the copyright \("Tesla © 2020"\). Search for that in google or other browsers to find possible new domains/pages.
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#### Assetfinder
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[**Assetfinder** ](https://github.com/tomnomnom/assetfinder)is a tool that look for **domains related** with a main domain and **subdomains** of them, pretty amazing.
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### Looking for vulnerabilities
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Check for some [domain takeover](pentesting-web/domain-subdomain-takeover.md#domain-takeover). Maybe some company is **using some a domain** but they **lost the ownership**. Just register it \(if cheap enough\) and let know the company.
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If you find any **domain with an IP different** from the ones you already found in the assets discovery, you should perform a **basic vulnerability scan** \(using Nessus or OpenVAS\) and some [**port scan**](pentesting/pentesting-network/#discovering-hosts-from-the-outside) with **nmap/masscan/shodan**. Depending on which services are running you can find in **this book some tricks to "attack" them**.
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_Note that sometimes the domain is hosted inside an IP that is not controlled by the client, so it's not in the scope, be careful._
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## Subdomains
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> We know all the companies inside the scope, all the assets of each company and all the domains related to the companies.
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It's time to find all the possible subdomains of each found domain.
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### DNS
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Let's try to get **subdomains** from the **DNS** records. We should also try for **Zone Transfer** \(If vulnerable, you should report it\).
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```bash
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dnsrecon -a -d tesla.com
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```
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### OSINT
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The fastest way to obtain a lot of subdomains is search in external sources. I'm not going to discuss which sources are the bests and how to use them, but you can find here several utilities: [https://pentester.land/cheatsheets/2018/11/14/subdomains-enumeration-cheatsheet.html](https://pentester.land/cheatsheets/2018/11/14/subdomains-enumeration-cheatsheet.html)
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The most used tools are [**Amass**](https://github.com/OWASP/Amass)**,** [**subfinder**](https://github.com/projectdiscovery/subfinder)**,** [**findomain**](https://github.com/Edu4rdSHL/findomain/)**,** [**OneForAll**](https://github.com/shmilylty/OneForAll/blob/master/README.en.md)**,** [**assetfinder**](https://github.com/tomnomnom/assetfinder) ****and [**Subvenkon**](https://github.com/CoffeeJunkiee/Subvenkon), I would recommend to start using them configuring the API keys, and then start testing other tools or possibilities.
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```bash
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amass enum [-active] [-ip] -d tesla.com
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./subfinder-linux-amd64 -d tesla.com [-silent]
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./findomain-linux -t tesla.com [--quiet]
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python3 oneforall.py --target tesla.com [--dns False] [--req False] run
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assetfinder --subs-only <domain>
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```
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Another possibly interesting tool is [**gau**](https://github.com/lc/gau)**.** It fetches known URLs from AlienVault's Open Threat Exchange, the Wayback Machine, and Common Crawl for any given domain.
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#### [chaos.projectdiscovery.io](https://chaos.projectdiscovery.io/#/)
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This project offers for **free all the subdomains related to bug-bounty programs**. You can access this data also using [chaospy](https://github.com/dr-0x0x/chaospy) or even access the scope used by this project [https://github.com/projectdiscovery/chaos-public-program-list](https://github.com/projectdiscovery/chaos-public-program-list)
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You could also find subdomains scrapping the web pages and parsing them \(including JS files\) searching for subdomains using [SubDomainizer](https://github.com/nsonaniya2010/SubDomainizer) or [subscraper](https://github.com/Cillian-Collins/subscraper).
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#### RapidDNS
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Quickly find subdomains using [RapidDNS](https://rapiddns.io/) API \(from [link](https://twitter.com/Verry__D/status/1282293265597779968)\):
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```text
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rapiddns(){
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curl -s "https://rapiddns.io/subdomain/$1?full=1" \
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| grep -oP '_blank">\K[^<]*' \
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| grep -v http \
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| sort -u
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}
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```
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#### Shodan
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You found **dev-int.bigcompanycdn.com**, make a Shodan query like the following:
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* http.html:”dev-int.bigcompanycdn.com”
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* http.html:”https://dev-int-bigcompanycdn.com”
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### DNS Brute force
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Let's try to find new **subdomains** brute-forcing DNS servers using possible subdomain names.
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The most recommended tools for this are [**massdns**](https://github.com/blechschmidt/massdns)**,** [**gobuster**](https://github.com/OJ/gobuster)**,** [**aiodnsbrute**](https://github.com/blark/aiodnsbrute) ****and ****[**shuffledns**](https://github.com/projectdiscovery/shuffledns). The first one is faster but more prone to errors \(you should always check for **false positives**\) and the second one **is more reliable** \(always use gobuster\).
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For this action you will need some common subdomains lists like:
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* [https://gist.github.com/jhaddix/86a06c5dc309d08580a018c66354a056](https://gist.github.com/jhaddix/86a06c5dc309d08580a018c66354a056)
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* [https://github.com/pentester-io/commonspeak](https://github.com/pentester-io/commonspeak)
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For **massdns** you will need to pass as argument the file will all the **possible well formed subdomains** you want to bruteforce:
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```bash
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sed 's/$/.domain.com/' subdomains.txt > bf-subdomains.txt
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./massdns -r resolvers.txt -w /tmp/results.txt bf-subdomains.txt
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grep -E "tesla.com. [0-9]+ IN A .+" /tmp/results.txt
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```
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{% code title="Gobuster bruteforcing dns" %}
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```bash
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gobuster dns -d mysite.com -t 50 -w subdomains.txt
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```
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{% endcode %}
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### VHosts
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#### IP VHosts
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You can find some VHosts in IPs using [HostHunter](https://github.com/SpiderLabs/HostHunter)
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#### Brute Force
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If you suspect that some subdomain can be hidden in a web server you could try to brute force it:
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```bash
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gobuster vhost -u https://mysite.com -t 50 -w subdomains.txt
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wfuzz -c -w /usr/share/wordlists/SecLists/Discovery/DNS/subdomains-top1million-20000.txt --hc 400,404,403 -H "Host: FUZZ.example.com" -u http://example.com -t 100
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#From https://github.com/allyshka/vhostbrute
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vhostbrute.py --url="example.com" --remoteip="10.1.1.15" --base="www.example.com" --vhosts="vhosts_full.list"
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```
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### DNS Brute Force v2
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Once you have finished looking for subdomains you can use [**dnsgen** ](https://github.com/ProjectAnte/dnsgen)and [**altdns**](https://github.com/infosec-au/altdns) to generate possible permutations of the discovered subdomains and use again **massdns** and **gobuster** to search new domains.
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### Buckets Brute Force
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While looking for **subdomains** keep an eye to see if it is **pointing** to any type of **bucket**, and in that case [**check the permissions**](pentesting/pentesting-web/buckets/)**.**
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Also, as at this point you will know all the domains inside the scope, try to [**brute force possible bucket names and check the permissions**](pentesting/pentesting-web/buckets/).
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### Looking for vulnerabilities
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Check for possible [**subdomain takeovers**](pentesting-web/domain-subdomain-takeover.md#subdomain-takeover).
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If the **subdomain** is pointing to some **S3 bucket**, [**check the permissions**](pentesting/pentesting-web/buckets/).
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If you find any **subdomain with an IP different** from the ones you already found in the assets discovery, you should perform a **basic vulnerability scan** \(using Nessus or OpenVAS\) and some [**port scan**](pentesting/pentesting-network/#discovering-hosts-from-the-outside) with **nmap/masscan/shodan**. Depending on which services are running you can find in **this book some tricks to "attack" them**.
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_Note that sometimes the subdomain is hosted inside an IP that is not controlled by the client, so it's not in the scope, be careful._
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## Web servers hunting
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> We have found all the companies and their assets and we know IP ranges, domains and subdomains inside the scope. It's time to search for web servers.
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In the previous steps probably you have already perform some **recon to the IPs and domains discovered**, so you may **already found all the possible web servers**. However, if you haven't we are now going to see some **fast tricks to search for web servers** inside the scope.
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Please, note that this will be **oriented to search for web apps**, you should **perform the vulnerability** and **port scanning** also \(**if allowed** by the scope\).
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A **fast method** to discover **ports open** related to **web** servers using [**masscan** can be found here](pentesting/pentesting-network/#http-port-discovery).
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Another friendly tool to look for web servers is [**httprobe**](https://github.com/tomnomnom/httprobe) **and** [**fprobe**](https://github.com/theblackturtle/fprobe). You just pass a list of domains and it will try to connect to port 80 \(http\) and 443 \(https\). You can additional indicate to try other ports:
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```bash
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cat /tmp/domains.txt | httprobe #Test all domains inside the file for port 80 and 443
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cat /tmp/domains.txt | httprobe -p http:8080 -p https:8443 #Check port 80, 443 and 8080 and 8443
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```
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### Screenshots
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Now that you have discovered **all the web servers** running in the scope \(in **IPs** of the company and all the **domains** and **subdomains**\) you probably **don't know where to start**. So, let's make it simple and start just taking screenshots of all of them. Just **taking a look** to the **main page** of all of them you could find **weird** endpoints more **prone** to be **vulnerable**.
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To perform the proposed idea you can use [**EyeWitness**](https://github.com/FortyNorthSecurity/EyeWitness), [**HttpScreenshot**](https://github.com/breenmachine/httpscreenshot), ****[**Aquatone**](https://github.com/michenriksen/aquatone)**,** [**shutter**](https://shutter-project.org/downloads/) ****or [**webscreenshot**](https://github.com/maaaaz/webscreenshot)**.**
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## Recapitulation 1
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> Congratulations! At this point you have already perform all the basic enumeration. Yes, it's basic because a lot more enumeration can be done \(will see more tricks later\).
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> Do you know that the BBs experts recommends to spend only 10-15mins in this phase? But don't worry, one you have practice you will do this even faster than that.
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So you have already:
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1. Found all the **companies** inside the scope
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2. Found all the **assets** belonging to the companies \(and perform some vuln scan if in scope\)
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3. Found all the **domains** belonging to the companies
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4. Found all the **subdomains** of the domains \(any subdomain takeover?\)
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5. Found all the **web servers** and took a **screenshot** of them \(anything weird worth a deeper look?\)
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Then, it's time for the real Bug Bounty hunt! In this methodology I'm **not going to talk about how to scan hosts** \(you can see a [guide for that here](pentesting/pentesting-network/)\), how to use tools like Nessus or OpenVas to perform a **vuln scan** or how to **look for vulnerabilities** in the services open \(this book already contains tons of information about possible vulnerabilities on a lot of common services\). **But, don't forget that if the scope allows it, you should give it a try.**
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## **Bug hunting OSINT related information**
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Now that we have built the list of assets of our scope it's time to search for some OSINT low-hanging fruits.
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### Api keys leaks in github
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* [https://github.com/hisxo/gitGraber](https://github.com/hisxo/gitGraber)
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* [https://github.com/eth0izzle/shhgit](https://github.com/eth0izzle/shhgit)
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* [https://github.com/techgaun/github-dorks](https://github.com/techgaun/github-dorks)
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* [https://github.com/michenriksen/gitrob](https://github.com/michenriksen/gitrob)
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* [https://github.com/eth0izzle/shhgit](https://github.com/eth0izzle/shhgit)
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* [https://github.com/anshumanbh/git-all-secrets](https://github.com/anshumanbh/git-all-secrets)
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* [https://github.com/awslabs/git-secrets](https://github.com/awslabs/git-secrets)
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* [https://github.com/kootenpv/gittyleaks](https://github.com/kootenpv/gittyleaks)
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* [https://github.com/dxa4481/truffleHog](https://github.com/dxa4481/truffleHog)
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**Dorks**: _AWS\_SECRET\_ACCESS\_KEY, API KEY, API SECRET, API TOKEN… ROOT PASSWORD, ADMIN PASSWORD, COMPANYNAME SECRET, COMPANYNAME ROOT, GCP SECRET, AWS SECRET, “username password” extension:sql, “private” extension:pgp..._
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#### More Github Dorks
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* extension:pem private
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* extension:ppk private
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* extension:sql mysql dump password
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* extension:json api.forecast.io
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* extension:json mongolab.com
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* extension:yaml mongolab.com
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* extension:ica \[WFClient\] Password=
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* extension:avastlic “support.avast.com”
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* extension:js jsforce conn.login
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* extension:json googleusercontent client\_secret
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## [**Pentesting Web Methodology**](pentesting/pentesting-web/)\*\*\*\*
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Anyway, the **majority of the vulnerabilities** found by bug hunters resides inside **web applications**, so at this point I would like to talk about a **web application testing methodology**, and you can [**find this information here**](pentesting/pentesting-web/).
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## Recapitulation 2
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> Congratulations! The testing has finished! I hope you have find some vulnerabilities.
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At this point you should have already read the Pentesting Web Methodology and applied it to the scope.
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As you can see there is a lot of different vulnerabilities to search for.
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**If you have find any vulnerability thanks to this book, please reference the book in your write-up.**
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