https://github.com/jorhelp/Ingram

网络摄像头漏洞扫描工具 | Webcam vulnerability scanning tool
https://github.com/jorhelp/Ingram

camera cctv cve-2017-7921 cve-2020-25078 cve-2021-33044 cve-2021-36260 dahua dlink hack hikvision

Last synced: 21 days ago
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网络摄像头漏洞扫描工具 | Webcam vulnerability scanning tool

• Host: GitHub
• URL: https://github.com/jorhelp/Ingram
• Owner: jorhelp
• License: gpl-3.0
• Created: 2022-05-17T11:35:15.000Z (over 2 years ago)
• Default Branch: master
• Last Pushed: 2024-11-19T16:26:13.000Z (23 days ago)
• Last Synced: 2024-11-19T17:31:08.374Z (23 days ago)
• Topics: camera, cctv, cve-2017-7921, cve-2020-25078, cve-2021-33044, cve-2021-36260, dahua, dlink, hack, hikvision
• Language: Python
• Homepage:
• Size: 299 KB
• Stars: 1,775
• Watchers: 41
• Forks: 280
• Open Issues: 67
• Metadata Files:
  • Readme: README.en.md
  • License: LICENSE

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• awesome-hacking-lists - jorhelp/Ingram - 网络摄像头漏洞扫描工具 | Webcam vulnerability scanning tool (Python)

README

        


    





    

    

    

    

    

    



English | [简体中文](https://github.com/jorhelp/Ingram/blob/master/README.md)

## Intro

This is a web camera device vulnerability scanning tool, which already supports Hikvision, Dahua and other devices



    



## Installation

**Please run it under Linux or Mac. Please make sure you have installed Python >= 3.8, but 3.11 is not recommended.**

+ Firstly, clone this repo:

```bash

git clone https://github.com/jorhelp/Ingram.git

```

+ Then, go to the repo dir, create a virtual environment and activate it:

```bash

cd Ingram

pip3 install virtualenv

python3 -m virtualenv venv

source venv/bin/activate

```

+ After that, install dependencies:

```bash

pip3 install -r requirements.txt

```

So far, it has been installed!

## Run

+ Since it is configured in a virtual environment, pls activate the virtual environment before each running

+ You need to prepare an target file, let's name it `input`, which contains the targets that will be scanned. The content of `input` file can be:

```

# use '#' to comment

# single ip

192.168.0.1

# ip with a port

192.168.0.2:80

# ip segment ('/')

192.168.0.0/16

# ip segment ('-')

192.168.0.0-192.168.255.255

```

+ With the `input` file, let's start scanning:

```bash

python3 run_ingram.py -i input -o output

```

+ If you specified the port like: `x.x.x.x:80`, then the port 80 will be scanned, otherwise common ports will be scanned(defined in `Ingram/config.py`). And you can also override it with the `-p` argument such as:

```bash

python3 run_ingram.py -i input -o output -p 80 81 8000

```

+ The number of coroutines can be controlled by the `-t` argument:

```bash

python3 run_ingram.py -i input -o output -t 500

```

+ all arguments：

```

optional arguments:

  -h, --help            show this help message and exit

  -i IN_FILE, --in_file IN_FILE

                        the targets will be scan

  -o OUT_DIR, --out_dir OUT_DIR

                        the dir where results will be saved

  -p PORTS [PORTS ...], --ports PORTS [PORTS ...]

                        the port(s) to detect

  -t TH_NUM, --th_num TH_NUM

                        the processes num

  -T TIMEOUT, --timeout TIMEOUT

                        requests timeout

  -D, --disable_snapshot

                        disable snapshot

  --debug

```

## Port scanner

+ We can use powerful port scanner to obtain active hosts, thereby reducing the scanning range of Ingram and improving the running speed. The specific method is to organize the result file of the port scanner into the format of `ip:port` and use it as the input file of Ingram

+ Here is a brief demonstration of masscan as an example (the detailed usage of masscan will not be repeated here).

+ First, use masscan to scan the surviving host on port 80 or 8000-8008 (you sure can change the port anything else if you want): `masscan -p80,8000-8008 -iL INPUT -oL OUTPUT --rate 8000`

+ After masscan is done, sort out the result file: `grep 'open' OUTPUT | awk '{printf"%s:%s\n", $4, $3}' > input`

+ Then: `python run_ingram.py -i input -o output`

## Output

```bash

.

├── not_vulnerable.csv

├── results.csv

├── snapshots

└── log.txt

```

+ `results.csv` contains the vulnerable devices: `ip,port,device-type,user,password,vul`: 



    



+ `not_vulnerable.csv` contains the not vulnerable devices

+ `snapshots` contains some snapshots of a part of devices (not all device can have a snapshot!!!):  



    



## Warning

This tool is for security testing only, it is strictly prohibited to use it for illegal purposes, and the consequences have nothing to do with this team.

## Thanks & Reference

Thanks to [Aiminsun](https://github.com/Aiminsun/CVE-2021-36260) for CVE-2021-36260  

Thanks to [chrisjd20](https://github.com/chrisjd20/hikvision_CVE-2017-7921_auth_bypass_config_decryptor) for hidvision config file decryptor  

Thanks to [mcw0](https://github.com/mcw0/DahuaConsole) for DahuaConsole