Jie
What I have accomplished cannot be reversed
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中文 •
The English documentation was generated by GPT3.5
Analyze and scan traffic by using active crawler mode or passive proxy.
Please read the documentation carefully before using
Active Mode
Three built-in crawler modes are available:
Mode |
Corresponding Parameter |
crawlergo Crawler (Headless browser mode crawler) |
--craw c |
Default katana Crawler (Standard crawling mode using standard go http library to handle HTTP requests/responses) |
--craw k |
katana Crawler (Headless browser mode crawler) |
--craw kh |
When using headless mode, you can specify --show
to display the crawling process of the browser.
In active mode, you can enter the Security Copilot mode by specifying --copilot
, which will not exit after scanning, making it convenient to view the web results page.
./Jie web -t https://public-firing-range.appspot.com/ -p xss -o vulnerability_report.html --copilot
If the username and password for the web are not specified, a yhy/password
will be automatically generated, which can be viewed in the logs. For example, the following is the automatically generated one:
INFO [cmd:webscan.go(glob):55] Security Copilot web report authorized:yhy/3TxSZw8t8w
Passive Mode (Security Copilot)
Passive proxy is implemented through go-mitmproxy.
Security Copilot
Why is it called Security Copilot
? According to my idea, this is not just a vulnerability scanner, but also a comprehensive auxiliary tool.
After hanging the scanner, go through the website once. Even if there are no vulnerabilities, it should tell me the approximate information of this website (fingerprint, cdn, port information, sensitive information, API paths, subdomains, etc.), which helps in further exploration manually, assisting in vulnerability discovery, rather than just finishing the scan and considering it done, requiring manual reevaluation.
Certificate Download
HTTPS websites under passive proxy require installing certificates. The HTTPS certificate-related logic is compatible with mitmproxy,
and The certificate is automatically generated after the command is started for the first time, and the path is ~/.mitmproxy/mitmproxy-ca-cert.pem.
Install the root certificate. Installation steps can be found in the Python mitmproxy documentation: About Certificates.
Start
./Jie web --listen :9081 --web 9088 --user yhy --pwd 123 --debug
This will listen on port 9081, and the web interface (SecurityCopilot) will be open on port 9088.
Set the browser's proxy to 9081, or integrate with Burp.
Basic Usage
Configuration
Some configurations can be modified through Jie_config.yaml, or through the configuration interface of http://127.0.0.1:9088/
(changes made in the web interface will be updated in the configuration file in real-time).
./Jie web -h
Flags:
--copilot Blocking program, go to the default port 9088 to view detailed scan information.
In active mode, specify this parameter to block the program. After scanning, the program will not exit, and you can view information on the web port.
-h, --help help for web
--listen string use proxy resource collector, value is proxy addr, (example: 127.0.0.1:9080).
Proxy address listened to in passive mode, default is 127.0.0.1:9080
--np not run plugin.
Disable all plugins
-p, --plugin strings Vulnerable Plugin, (example: --plugin xss,csrf,sql,dir ...)
Specify the enabled plugins. Specify 'all' to enable all plugins.
--poc strings specify the nuclei poc to run, separated by ','(example: test.yml,./test/*).
Custom nuclei vulnerability template address
--pwd string Security Copilot web report authorized pwd.
Web page login password. If not specified, a random password will be generated.
--show specifies whether to show the browser in headless mode.
Whether to display the browser in active scanning mode
--user string Security Copilot web report authorized user, (example: yhy).]
Web page login username, default is yhy (default "yhy")
--web string Security Copilot web report port, (example: 9088)].
Web page port, default is 9088 (default "9088")
Global Flags:
--debug debug
-f, --file string target file
-o, --out string output report file(eg:vulnerability_report.html)
--proxy string proxy, (example: --proxy http://127.0.0.1:8080)
-t, --target string target
Download and Compile
Download the corresponding program from https://github.com/yhy0/Jie/releases/latest. The entire process is built automatically by Github Action, so
feel free to use it.
Linux/Mac
Simply execute make
to compile.
Windows
export CGO_ENABLED=1;go build -ldflags "-s -w" -o Jie main.go
Integration with Burp
Passive-scan-client Plugin (Strongly Recommended)
passive-scan-client
Freely select which scanner to use via three monitoring switches. Note: JavaScript and CSS should also go through the scanner to collect information.
Setting Upstream Proxy in Burp (Not Recommended)
The traffic of the Upstream Proxy Intruder and Repeater modules will also go through the scanner.
This will cause all traffic from manual testing to go through the scanner, which may not be ideal. This should be done as needed.
Features
The plugins internally judge whether they have been scanned based on the traffic collected passively or actively (TODO Should the scanning plugin be executed in a certain order?).
- Website fingerprint information
- Aggregated display of URLs requested by each website
- Website domain information: cdn/waf/cloud, resolution records
- Jwt automatic blasting (todo generate dictionary automatically based on domain name)
- Sensitive information
- Active path scanning (bbscan rules, added a fingerprint field, when there is a fingerprint, only the corresponding rule will be scanned, for example, php websites will not scan springboot rules)
- Port information
- Collect domain names, IPs, APIs
Plugins
Some scans will recognize the language environment based on the collected fingerprint information to prevent invoking Java scanning plugins for PHP websites.
Directory Structure Scan
The scan
directory is the scan plugin library, and each directory's plugin handles different situations.
- PerFile: For each URL, including parameters, etc.
- PerFolder: For the directory of the URL, the directory will be accessed separately
- PerServer: For each domain, meaning a target is only scanned once
Plugin |
Description |
Default On |
Scope |
xss |
Semantic analysis, prototype pollution, DOM pollution point propagation analysis |
true |
PerFile |
sql |
Currently only implements some simple SQL injection detection |
true |
PerFile |
sqlmap |
Forward traffic to sqlmap via specified sqlmap API for injection detection |
false |
PerFile |
ssrf |
|
true |
PerFile |
jsonp |
|
true |
PerFile |
cmd |
Command execution |
true |
PerFile |
xxe |
|
true |
PerFile |
fastjson |
When a request is detected as json, it is patched with @a1phaboy's FastjsonScan scanner to detect fastjson; jackson is not implemented yet |
true |
PerFile |
bypass403 |
dontgo403 403 bypass detection |
true |
PerFile |
crlf |
crlf injection |
true |
PerFolder |
iis |
iis high version short filename guessing [iis7.5-10.x-ShortNameFuzz]( |
false |
PerFolder |
nginx-alias-traversal |
Directory traversal due to Nginx misconfiguration nginx |
true |
PerFolder |
log4j |
log4j vulnerability detection, currently only tests request headers |
true |
PerFolder |
bbscan |
bbscan rule directory scan |
true |
PerFolder PerServer (for rules that specify the root directory) |
portScan |
Use naabu to scan Top 1000 ports, then use fingerprintx to identify services |
false |
PerServer |
brute |
If service blasting is enabled, service blasting will be performed after scanning the port service is detected |
|
PerServer |
nuclei |
Integrated nuclei |
false |
PerServer |
archive |
Utilize https://web.archive.org/ to obtain historical url links (parameters) and then scan |
true |
PerServer |
poc |
poc module written in Go for detection. The poc module relies on fingerprint recognition, and scanning will only occur when the corresponding fingerprint is recognized. No pluginization anymore |
false |
PerServer |
Logical Vulnerabilities TODO
Add multiple user cookies for authorization detection (it seems better to write tests with Burp plugins themselves, so there seems to be no need to write them here).
Third-party Libraries
package main
import (
"github.com/logrusorgru/aurora"
"github.com/yhy0/Jie/SCopilot"
"github.com/yhy0/Jie/conf"
"github.com/yhy0/Jie/crawler"
"github.com/yhy0/Jie/pkg/output"
"github.com/yhy0/logging"
"net/url"
)
/**
@author: yhy
@since: 2023/12/28
@desc: //TODO
**/
func lib() {
logging.Logger = logging.New(conf.GlobalConfig.Debug, "", "Jie", true)
conf.Init()
conf.GlobalConfig.Http.Proxy = ""
conf.Global
Config.WebScan.Craw = "k"
conf.GlobalConfig.WebScan.Poc = nil
conf.GlobalConfig.Reverse.Host = "https://dig.pm/"
conf.GlobalConfig.Passive.WebPort = "9088"
conf.GlobalConfig.Passive.WebUser = "yhy"
conf.GlobalConfig.Passive.WebPass = "123456" // Remember to change to a strong password
// Enable all plugins
for k := range conf.Plugin {
// if k == "nuclei" || k == "poc" {
// continue
// }
conf.Plugin[k] = true
}
if conf.GlobalConfig.Passive.WebPort != "" {
go SCopilot.Init()
}
// Initialize crawler
crawler.NewCrawlergo(false)
go func() {
for v := range output.OutChannel {
// Show in SCopilot
if conf.GlobalConfig.Passive.WebPort != "" {
parse, err := url.Parse(v.VulnData.Target)
if err != nil {
logging.Logger.Errorln(err)
continue
}
msg := output.SCopilotData{
Target: v.VulnData.Target,
}
if v.Level == "Low" {
msg.InfoMsg = []output.PluginMsg{
{
Url: v.VulnData.Target,
Plugin: v.Plugin,
Result: []string{v.VulnData.Payload},
Request: v.VulnData.Request,
Response: v.VulnData.Response,
},
}
} else {
msg.VulMessage = append(msg.VulMessage, v)
}
output.SCopilot(parse.Host, msg)
logging.Logger.Infoln(aurora.Red(v.PrintScreen()).String())
}
logging.Logger.Infoln(aurora.Red(v.PrintScreen()).String())
}
}()
}
Vulnerability Exploitation (Still in Development, Low Priority)
Currently under development, even I need to look at the code for help information, detailed documentation will be written once it's done.
Due to most of the vulnerability exploitation tools being written in Java and supporting different Java versions, setting up the environment is too cumbersome and frustrating, so Jie has been redefined.
Jie: A comprehensive and powerful vulnerability scanning and exploitation tool.
The current version (1.0.0) supports exploitation of the following vulnerabilities
A Powerful security assessment and utilization tools
Usage:
Jie [command]
Available Commands:
apollo apollo scan && exp
fastjson fastjson scan && exp
help Help about any command
log4j log4j scan && exp
other other scan && exp bb:BasicBrute、swagger:Swagger、nat:NginxAliasTraversal、dir:dir)
s2 Struts2 scan && exp
shiro Shiro scan && exp
web Run a web scan task
weblogic WebLogic scan && exp
Flags:
--debug debug
-f, --file string target file
-h, --help help for Jie
-o, --out string output report file(eg:vulnerability_report.html)
--proxy string proxy, (example: --proxy http://127.0.0.1:8080)
-t, --target string target
Use "Jie [command] --help" for more information about a command.
For example, Shiro key vulnerability exploitation:
# Without specifying -m, it defaults to blasting the key and exploitation chain
Jie shiro -t http://127.0.0.1
# Exploitation
Jie Shiro -t http://127.0.0.1 -m exp -k 213123 -g CCK2 -e spring -km CBC --cmd whoami
Where various tools by other researchers have been stitched together, some of which are included in the description of scanning and exploiting vulnerabilities. If anything is missing, you can contact me to add it.
More vulnerability exploitation will be supported later.
https://jie.fireline.fun/
References
Crawlers
crawlergo
katana
Passive Scan Proxy
https://github.com/lqqyt2423/go-mitmproxy
Xss
Semantic analysis, prototype pollution, DOM pollution point propagation analysis
https://github.com/w-digital-scanner/w13scan
https://github.com/ac0d3r/xssfinder
https://github.com/kleiton0x00/ppmap
SQL Injection
Extracted code related to detection from sqlmap
POC
Detection through fingerprint recognition
todo Not embedding the nuclei's yml files, changing to download and update online from the official website
https://github.com/projectdiscovery/nuclei
Some of the POCs in xray are written improperly, causing parsing problems, which need to be corrected.
For example:
response.status == 200 && response.headers["content-type"] == "text/css" && response.body.bcontains(b"$_GET['css']")
content-type should be Content-Type
But it seems there is a parsing problem.
Do not use xray's POC, only use nuclei's yml files
Together with the need for organization to prevent duplicate scanning, nuclei-template's POCs are enough.
Vulnerability Scanners
https://github.com/wrenchonline/glint
https://github.com/veo/vscan
Some Other Vulnerabilities
https://github.com/mazen160/secrets-patterns-db
https://github.com/pingc0y/URLFinder
Fastjson
https://github.com/a1phaboy/FastjsonScan
Fingerprinting
https://github.com/w-digital-scanner/w13scan
https://github.com/SleepingBag945/dddd
License
This code is distributed under the AGPL-3.0 license. See LICENSE in this directory.
Acknowledgments
Thanks to the open source works and blogs of various masters, as well as JetBrains' support for a series of easy-to-use IDEs for this project.
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