CyberChef is the ‘Cyber Swiss-Army Knife’ for Security Analysts created by GCHQ. The tool pretty much helps for tasks like data transformation, extraction, and manipulation all in your web-browser.
The tool itself used online or if you prefer to not to share your data with James Bond use my dockerized version: BenjiTrapp/boxed-cyberchef
If you’re brave and want to test all recipes with real malware you could do the following:
- Run my boxed-kali or a Kali/REMnuX instance on Kasm or your favorite sandbox solution
- Clone this folder
- Pick the recipe you’re interested in from below in the folder and copy it into your sandbox (for my boxed-kali docker cp will do the trick
docker cp ./recipe_X.zip $(docker ps | grep cyberchef | awk '{print $1}'):/tm p/infected_cyberchef_recipe.zip
) - Extract the malware sample. In tradition of using files like this the password is
infected
(you might find also inside another .zip which got probably the same password)
Useful Regular Expressions
Mastering regular expressions are key to making the most of data manipulation in CyberChef (or any DFIR work). Below are some regex’s that I keep coming back to. For a genuine overview take a look in the Pensive.
Extracting Encoded Data
- Extract Base64:
[a-zA-Z0-9+/=]{30,}
- Here ‘30’ is an arbitrary number that can be adjusted according to the script.
- Here ‘30’ is an arbitrary number that can be adjusted according to the script.
- Extract Hexadecimal:
[a-fA-F0-9]{10,}
- This could also be adjusted to {32} (MD5), {40} (SHA1), {64}, SHA256 to extract various hashes
- Extract Character Codes:
[\d]{2,3}(,|’)
- In this example it would extract character codes in the format (‘30, 40, 50, 60’)
Lookahead & Lookbehind
- Positive Lookbehind:
(?<=foo)(.*)
- Extract everything after ‘foo’ without including ‘foo’
- Positive Lookahead:
^.*(?=bar)
- Extract everything before ‘bar’ without including ‘bar’
- Lookahead/behind Combo:
(?<=')(.*?)(?=')
- Extract everything between ‘ and ‘
Working with APIs and CyberChef
CyberChef provides an operation HTTP Request (see Recipe 22) which allows HTTP requests to external resources. Due to Same Origin Policy (SOP) or lack of Cross-Origin Resource Sharing configuration many do not work. SOP is a security measure in modern browsers which prevents you from reading cross-site responses from servers which don’t explicitly allow it via CORS. Check out @GlassSec’s talk on CyberChef which includes tips to boot Chrome without web-security to enable HTTP requests to otherwise restricted APIs (like Virus Total)
CyberChef Recipes
Some example CyberChef recipes:
Recipe 1: Extract base64, raw inflate & beautify
Recipe 4: Group Policy Preference Password Decryption
Recipe 5: Using Loops and Labels
Recipe 6: Google ei Timestamps
Recipe 7: Multi-stage COM scriptlet to x86 assembly
Recipe 8: Extract hexadecimal, convert to hexdump for embedded PE file
Recipe 9: Reverse strings, character substitution, from base64
Recipe 10: Extract object from Squid proxy cache
Recipe 11: Extract GPS Coordinates to Google Maps URLs
Recipe 12: Big Number Processing
Recipe 13: Parsing DNS PTR records with Registers
Recipe 14: Decoding POSHC2 executables
Recipe 15: Parsing $MFT $SI Timestamps
Recipe 16: Decoding PHP gzinflate and base64 webshells
Recipe 17: Extracting shellcode from a Powershell Meterpreter Reverse TCP Script
Recipe 18: Recycle Bin Parser with Subsections and Merges
Recipe 19: Identify Obfuscated Base64 with Regular Expression Highlighting
Recipe 20: Using Yara rules with deobfuscated malicious scripts
Recipe 21: Inline deobfuscation of hex encoded VBE script attached to a malicious LNK file
Recipe 22: JA3 API search with HTTP Request and Registers
Recipe 24: Picking a random letter from a six-byte string
Recipe 25: Creating a Wifi QR code
Recipe 26: Extracting and Decoding a Multistage PHP Webshell
Recipe 27: Decoding an Auto Visitor PHP script
Recipe 28: De-obfuscation of Cobalt Strike Beacon using Conditional Jumps to obtain shellcode
Recipe 29: Log File Timestamp Manipulation with Subsections and Registers
Recipe 30: CharCode obfuscated PowerShell Loader for a Cobalt Strike beacon
Recipe 31: Deobfuscate encoded strings in .NET binary
Recipe 32: Extract malicious Gootkit DLL from obfuscated registry data
Recipe 33: Identify embedded URLs in Emotet PowerShell script
Recipe 34: Analysing OOXML Files for URLs
Recipe 35: Decrypting REvil PowerShell ransomware sample
Recipe 36: Create a CyberChef Password Generator
Recipe 37: From Sandbox zipped email to malicious URL
Recipe 38: Planes, Skulls and Envelopes - Live and Let PowerShell
Recipe 39: Decrypt GoldMax aka Sunshutte encrypted configuration files
Recipe 41: PHP mixed hexadecimal and octal encoding
Recipe 42: PHP Webshell with layered obfuscation
Recipe 43: Magento skimmer deobfuscation
Recipe 44: Decrypting JobCrypter Ransomware
Recipe 45: Sqiud Proxy Log Timestamp Conversion
Recipe 46: Tailoring your regex for the situation
Recipe 47: Trickbot Visual Basic script
Recipe 48: vjw0rm Emoji Madness
Recipe 49: Disassemble an EICAR test file
Recipe 50: Parse Security Descriptor Definition Language output
Recipe 52: Randomise list of items
Recipe 53: Olevba output to Powershell
Recipe 54: Windows Event ID 1029 Hashes
Recipe 55: Debofuscating BazarLoader aka TA551 maldoc
Recipe 56: Calculate and lookup JA3 or JA3S hash values from a PCAP
Recipe 57: Make a meme with CyberChef
Recipe 58: Extract IcedID second stage URL from a maldoc
Recipe 59: Parse Cobalt Strike beacon configuration
Recipe 60: Decode URLs protected by Microsoft Safelinks
Recipe 61: Extract second stage URLs from Qakbot Excel maldocs
Recipe 62: Emotet Maldoc to PowerShell
Recipe 63: Extract URLs from Dridex obfuscated VBS
Recipe 64: Convert Strings to VirusTotal Grep queries
Recipe 65: Deobfuscate MSF Venom PowerShell reverse shell payload
Recipe 66: Nested subsection example
Recipe 67: Converting a MSI ProductCode to Registry Installer ProductID
Recipe 68: Converting Java signed byte arrays
Recipe 69: Extracting DLL payload from a Bumblebee Powershell script
Recipe 70: Extracting endpoints from Android network security config
Recipe 1 - Extract base64, raw inflate and code beautify
A very common scenario: extract Base64, inflate, beautify the code. You may need to then do further processing or dynamic analysis depending on the next stage.
Filename: ahack.bat
Zipped File: cc9c6c38840af8573b8175f34e5c54078c1f3fb7c686a6dc49264a0812d56b54_183SnuOIVa.bin.gz
Sample: SHA256 cc9c6c38840af8573b8175f34e5c54078c1f3fb7c686a6dc49264a0812d56b54
Recipe Details
[{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]},{"op":"Generic Code Beautify","args":[]}]
Recipe 2 - Invoke-Obfuscation
CyberChef won’t be able to handle all types of Invoke-Obfuscation, but here is one that can be decoded.
Filename: Acknowledgement NUT-95-52619.eml
Zipped File: 1240695523bbfe3ed450b64b80ed018bd890bfa81259118ca2ac534c2895c835.bin.gz
Sample: SHA256 1240695523bbfe3ed450b64b80ed018bd890bfa81259118ca2ac534c2895c835
Recipe Details
[{"op":"Find / Replace","args":[{"option":"Regex","string":"\\^|\\\\|-|_|\\/|\\s"},"",true,false,true,false]},{"op":"Reverse","args":["Character"]},{"op":"Generic Code Beautify","args":[]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"http:"},"http://",true,false,true,false]},{"op":"Extract URLs","args":[false]},{"op":"Defang URL","args":[true,true,true,"Valid domains and full URLs"]}]
Recipe 3 - From CharCode
Malware and scripts often use Charcode to represent characters in order to evade from AV and EDR solutions. CyberChef eats this up.
Filename: 3431818-f71f60d10b1cbe034dc1be242c6efa5b9812f3c6.zip
Source: https://gist.github.com/jonmarkgo/3431818
Recipe Details
[{"op":"Regular expression","args":["User defined","([0-9]{2,3}(,\\s|))+",true,true,false,false,false,false,"List matches"]},{"op":"From Charcode","args":["Comma",10]},{"op":"Regular expression","args":["User defined","([0-9]{2,3}(,\\s|))+",true,true,false,false,false,false,"List matches"]},{"op":"From Charcode","args":["Space",10]}]
Recipe 4 - Group Policy Preference passwords
When a new GPP is created, there’s an associated XML file created in SYSVOL with the relevant configuration data and if there is a password provided, it is AES-256 bit encrypted. Microsoft published the AES Key, which can be used to decrypt passwords store in: \
Credit: @cyb3rops
Source 1: https://twitter.com/cyb3rops/status/1036642978167758848
Source 2: https://adsecurity.org/?p=2288
Recipe Details
[{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"To Hex","args":["None"]},{"op":"AES Decrypt","args":[{"option":"Hex","string":"4e9906e8fcb66cc9faf49310620ffee8f496e806cc057990209b09a433b66c1b"},{"option":"Hex","string":""},"CBC","Hex","Raw",{"option":"Hex","string":""}]},{"op":"Decode text","args":["UTF16LE (1200)"]}]
Recipe 5 - Using loops & labels
CyberChef can use labels to identify parts of the recipe and then loop back to perform operations multiple times. In this example, there are 29 rounds of Base64 encoding which are extracted and decoded.
Credit: @pmelson
Source File: hmCPDnHs.txt
Source 1: https://pastebin.com/hmCPDnHs
Source 2: https://twitter.com/pmelson/status/1078776229996752896
Also see more example of loops over Base64: https://twitter.com/QW5kcmV3/status/1079095274776289280 (Credit: @QW5kcmV3)
Recipe Details
[{"op":"Label","args":["top"]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]},{"op":"Jump","args":["top",28]},{"op":"Generic Code Beautify","args":[]}]
Recipe 6 - Google ei timestamp
Google uses its own timestamp, I call ei time, which it embeds in the URL.
Source: https://bitofhex.com/2018/05/29/cyberchef/
Recipe Details
[{"op":"From Base64","args":["A-Za-z0-9-_=",true]},{"op":"To Hex","args":["None"]},{"op":"Take bytes","args":[0,8,false]},{"op":"Swap endianness","args":["Hex",4,true]},{"op":"From Base","args":[16]},{"op":"From UNIX Timestamp","args":["Seconds (s)"]}]
Recipe 7 - COM scriptlet to disassembled x86 assembly
This is an eleven-stage decoded COM scriptlet that uses Base64, Gunzip, RegEx, and Disassemble x86 instructions.
Credit: @JohnLaTwC
Filename: 41a6e22ec6e60af43269f4eb1eb758c91cf746e0772cecd4a69bb5f6faac3578.txt
Source 2: https://twitter.com/JohnLaTwC/status/1062419803304976385
Recipe Details
[{"op":"Regular expression","args":["","[A-Za-z0-9=/]{40,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Remove null bytes","args":[]},{"op":"Regular expression","args":["User defined","[A-Za-z0-9+/=]{40,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Gunzip","args":[]},{"op":"Regular expression","args":["User defined","[A-Za-z0-9+/=]{40,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"To Hex","args":["Space"]},{"op":"Remove whitespace","args":[true,true,true,true,true,false]},{"op":"Disassemble x86","args":["32","Full x86 architecture",16,0,true,true]}]
Recipe 8 - Extract hexadecimal, convert to hexdump for embedded PE file
This file has an embedded PE file (SHA 256: 26fac1d4ea12cdceac0d64ab9694d0582104b3c84d7940a4796c1df797d0fdc2, R5Sez8PH.exe, VT: 54/70). Using CyberChef, we can regex hexadecimal and the convert to a more easily viewable hexdump.
Source 1: https://pastebin.com/R5Sez8PH (sorry: no longer available!)
Source 2: https://twitter.com/ScumBots/status/1081949877272276992
Recipe Details
[{"op":"Regular expression","args":["User defined","[a-fA-F0-9]{200,}",true,true,false,false,false,false,"List matches"]},{"op":"From Hex","args":["Auto"]},{"op":"To Hexdump","args":[16,false,false]}]
Recipe 9 - Reverse strings, character substitution, from base64
A blob of base64 with some minor bytes to be substituted. Original decoding done by @pmelson in Python and converted to CyberChef.
Credit: @pmelson
Source 1: https://pastebin.com/RtjrweYF / RtjrweYF.txt
Source 2: https://twitter.com/pmelson/status/1076893022758100998
Recipe Details
[{"op":"Reverse","args":["Character"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"%"},"A",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"×"},"T",true,false,false,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"÷"},"V",true,false,false,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"To Hexdump","args":[16,false,false]}]
Recipe 10 - Extract object from Squid proxy cache
Don’t manually carve out your Squid cache objects. Simply upload the file to CyberChef. This recipe will search for the magic bytes 0x0D0A0D0A, extract everything after. It then gzip decompresses the object for download.
Source: 00000915 (output should be TrueCrypt_Setup_7.1a.exe with SHA256 e95eca399dfe95500c4de569efc4cc77b75e2b66a864d467df37733ec06a0ff2)
Recipe Details
[{"op":"To Hex","args":["None"]},{"op":"Regular expression","args":["User defined","(?<=0D0A0D0A).*$",true,false,false,false,false,false,"List matches"]},{"op":"From Hex","args":["Auto"]},{"op":"Gunzip","args":[]}]
Recipe 11 - Extract GPS Coordinates to Google Maps URLs
If you need to quickly triage where a photo was taken and you’re lucky enought to have embedded GPS latitude and longitudes then use this recipe to quickly make a usable Google Maps URL to identify the location.
Recipe Details
[{"op":"Extract EXIF","args":[]},{"op":"Regular expression","args":["User defined","((?<=GPSLatitude:).*$)|((?<=GPSLongitude: ).*$)",true,true,false,false,false,false,"List matches"]},{"op":"Find / Replace","args":[{"option":"Extended (\\n, \\t, \\x...)","string":"\\n"},",",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":" "},"https://maps.google.com/?q=",true,false,true,false]}]
Recipe 12 - Big Number Processing
CyberChef can handle massive numbers. Here we can use a simple recipe to change a 38-digit X509SerialNumber to its hexadecimal equivalent X.509 certificate serial number. Then we can regex the hexadecimal and insert a colon to transform it to the correct format.
Credit: @QW5kcmV3
Source: https://twitter.com/QW5kcmV3/status/949437437473968128
Recipe Details
[{"op":"To Base","args":[16]},{"op":"Regular expression","args":["User defined","[a-f0-9]{2,2}",true,true,false,false,false,false,"List matches"]},{"op":"Find / Replace","args":[{"option":"Extended (\\n, \\t, \\x...)","string":"\\n"},":",true,false,true,false]}]
Recipe 13 - Parsing DNS PTR records with Registers
IP addresses in DNS PTR records are stored as least significant octet first. For example: 167.139.44.10.in-addr.arpa would relate to IP address of 10.44.139.167. Using CyberChef’s registers we can allocate each octet to a memory register (or variable if it’s easier to think of it that way). These can then be reversed to re-order the IP address. A find/replace tidies up the rest of the record. This could be reversed it you wanted to translate ‘regular’ IP addresses to search in DNS PTR records.
Recipe Details
[{"op":"Fork","args":["\\n","\\n",false]},{"op":"Register","args":["(\\d{1,3}).(\\d{1,3}).(\\d{1,3}).(\\d{1,3})",true,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"$R0.$R1.$R2.$R3"},"$R3.$R2.$R1.$R0",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":".in-addr.arpa"},"",true,false,true,false]}]
Recipe 14 - Decoding POSHC2 executables
PoshC2 is a proxy aware C2 framework that utilises Powershell to aid penetration testers with red teaming, post-exploitation and lateral movement. The dropper is based on PowerShell and consists of a PowerShell script which is double Base64 encoded and compressed. Extracting the strings can be done with CyberChef as detailed below. Depending on the settings and customisation of the executable you may need to adjust your recipe.
Credit: @a_tweeter_user
Source: https://twitter.com/a_tweeter_user/status/1100751236687642624
Source: posh.zip
Recipe Details
[{"op":"Strings","args":["All",4,"Alphanumeric + punctuation (A)",false]},{"op":"Remove null bytes","args":[]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+=]{200,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Remove null bytes","args":[]},{"op":"Regular expression","args":["User defined","[a-z0-9/\\\\+=]{100,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]}]
Recipe 15 - Parsing $MFT $SI Timestamps
CyberChef can do just about anything with data. Here are raw hex bytes from a $MFT entry. By selecting certain bytes, and using various functions of CyberChef I can parse any part of the data as needed. This recipe will extract and parse the $SI timestamps. Encase no more!
Recipe Details
[{"op":"Take bytes","args":[160,64,false]},{"op":"Regular expression","args":["User defined",".{16}",true,true,true,false,false,false,"List matches with capture groups"]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Swap endianness","args":["Hex",10,true]},{"op":"Remove whitespace","args":[true,true,true,true,true,false]},{"op":"Windows Filetime to UNIX Timestamp","args":["Nanoseconds (ns)","Hex"]},{"op":"From UNIX Timestamp","args":["Nanoseconds (ns)"]},{"op":"Merge","args":[]},{"op":"Register","args":["(.*)\\n(.*)\\n(.*)\\n(.*)",true,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"$R0"},"$SI Creation Time: $R0",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"$R1"},"$SI Modified Time: $R1",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"$R2"},"$SI MFT Change Time: $R2",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"$R3"},"$SI Access Time: $R3",false,false,true,false]}]
Recipe 16 - Decoding PHP gzinflate and base64 webshells
Webshells come in all shapes and sizes. For PHP webshells the combination of gzinflate and base64 can be used to obfuscate the eval data. In this example, there are 21 rounds of compression and base64 that we can quickly parse out using labels and loops.
Recipe Details
[{"op":"Label","args":["start"]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9=/+]{10,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Raw Inflate","args":[0,0,"Block",false,false]},{"op":"Jump","args":["start",21]}]
Recipe 17 - Extracting shellcode from a Powershell Meterpreter Reverse TCP script
Often seen in @pmelson’s Pastbin bot @scumbots, this peels away multiple layers of an encoded Powershell script to display the shellcode. From here you could extract PUSH statements to try and identify the IP address & port, but you’ll get too many false positives. So you’re better off using a tool like scdbg (see: http://sandsprite.com/blogs/index.php?uid=7&pid=152)
Source: https://twitter.com/ScumBots/status/1121854255898472453
Source: https://pastebin.com/9DnD6t6W / 9DnD6t6W.txt
Recipe Details
[{"op":"Regular expression","args":["User defined","[a-zA-Z0-9=/+]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Remove null bytes","args":[]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9=/+]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Gunzip","args":[]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9=/+]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"To Hex","args":["None"]},{"op":"Disassemble x86","args":["32","Full x86 architecture",16,0,true,true]}]
Recipe 18 - Recycle Bin Parser with Subsections and Merges
Subsections and Merges are powerful tools in CyberChef that allow the application of ingredients to a selection of data rather than the whole input file. This section can then be merged together to continue on the whole input. In an awesome piece of work @GlassSec has created a Windows Recycle Bin parser using CyberChef indicating the possibilities of these functions is endless.
Source: https://gist.github.com/glassdfir/f30957b314ec39a8aa319420a29ffc76
Credit: https://twitter.com/GlassSec
Recipe Details
[{"op":"Conditional Jump","args":["^(\\x01|\\x02)",true,"Error",10]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^(\\x02.{23})(....)"},"$1",false,false,false,false]},{"op":"Subsection","args":["^.{24}(.*)",true,true,false]},{"op":"Decode text","args":["UTF16LE (1200)"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^(.*)."},"\\nDeleted File Path: $1",false,false,false,false]},{"op":"Merge","args":[]},{"op":"Subsection","args":["^.{16}(.{8})",false,true,false]},{"op":"Swap endianness","args":["Raw",8,true]},{"op":"To Hex","args":["None"]},{"op":"Windows Filetime to UNIX Timestamp","args":["Seconds (s)","Hex"]},{"op":"From UNIX Timestamp","args":["Seconds (s)"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^(.* UTC)"},"\\nFile Deletion Time: $1",true,false,true,false]},{"op":"Merge","args":[]},{"op":"Subsection","args":["^.{8}(.{8})",true,true,false]},{"op":"To Hex","args":["None"]},{"op":"Swap endianness","args":["Hex",8,true]},{"op":"From Base","args":[16]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^(.*)"},"\\nDeleted File Size: $1 bytes",true,false,true,true]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^.{8}"},"******** WINDOWS RECYCLE BIN METADATA ********",true,false,false,false]},{"op":"Jump","args":["Do Nothing",10]},{"op":"Label","args":["Error"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^.*$"},"This doesn't look like a Recycle Bin file to me ",true,false,true,false]},{"op":"Label","args":["Do Nothing"]}]
Recipe 19 - Identify Obfuscated Base64 with Regular Expression Highlighting
Less of a recipe and more of a technique. Using the ‘highlight’ function of the regular expression ingredient can clearly bring out where base64 data has been broken up with non-traditional base64 character set. Here the sequence ‘@<!’ is used to obfuscate and disrupt automated encoding conversion. Looking further down the script, the sequence is substituted with ‘A’, which can then be inserted with a Find/Replace prior to the extraction. This continues for multiple rounds until a domain of interest is revealed (along with an executable prior).
Source: https://pastebin.com/TmJsB0Nv & https://twitter.com/pmelson/status/1167065236907659264
Recipe Details
[{"op":"Find / Replace","args":[{"option":"Simple string","string":"@<!"},"A",true,false,true,false]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{20,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{50,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"@<!"},"A",true,false,true,false]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{50,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]}]
Recipe 20 - Using Yara rules with deobfuscated malicious scripts
Although not the most convenient way, CyberChef does provide the ability to run a yara rule over the output of a recipe. You could combine this by using the multiple inputs function to scan a larger number of files.
Source: https://twitter.com/ScumBots/status/1168528510681538560 & https://pastebin.com/r40SXe7V
Recipe Details
[{"op":"Regular expression","args":["User defined","\\(.*\\);",true,false,false,false,false,false,"List matches"]},{"op":"Find / Replace","args":[{"option":"Regex","string":",|\\(|\\);"}," ",true,false,true,false]},{"op":"From Charcode","args":["Space",10]},{"op":"YARA Rules","args":["rule SuspiciousPowerShell {\n meta:\n description = \"Testing Yara on Cyberchef for Powershell\"\n strings:\n $a1 = \"[System.Reflection.Assembly]\" ascii\n $a2 = \"IEX\" ascii nocase\n $a3 = \"powershell.exe -w hidden -ep bypass -enc\" ascii\n condition:\n 2 of them\n}",true,true,true,true]}]
Recipe 21 - Inline deobfuscation of hex encoded VBE script attached to a malicious LNK file
This recipe extracts a VBE payload from a Microsoft Shortcut File (LNK) and then decodes the hex strings in-line using subsections.
Source: malicious.lnk.bin
Recipe Details
[{"op":"Microsoft Script Decoder","args":[]},{"op":"Subsection","args":["(?<=\\(\\\")(.*?)(?=\\\"\\))",true,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"From Hex","args":["Auto"]}]
Recipe 22 - JA3 API search with HTTP Request and Registers
Using the HTTP Request function and Registers we can enrich out data with that from an API or external resource. Here we are searching against three JA3 hashes for any known bad.
Source: Input hashes: 1aa7bf8b97e540ca5edd75f7b8384bfa, 1be3ecebe5aa9d3654e6e703d81f6928, and b386946a5a44d1ddcc843bc75336dfce
Recipe Details
[{"op":"Comment","args":["https://ja3er.com/search/hash"]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Register","args":["(.*)",true,false,false]},{"op":"HTTP request","args":["GET","https://ja3er.com/search/$R0","","Cross-Origin Resource Sharing",false]},{"op":"JSON Beautify","args":[" ",false]}]
Recipe 23 - Defeating DOSfuscation embedded in a malicious DOC file with Regular Expression capture groups
This malicious DOC file is downloaded straight from Hybrid-Analysis. We gunzip it out, select the dosfuscation with a regular expression, then select the critical section that is being used with the ‘set’ function. This section is deobfuscated with a reverse for loop with a step of three. So once selected we reverse the string and use regular expression capture groups to select every third character. This is great work from Hack eXPlorer on YouTube. Go there and watch!
Source: Untitled-11232018-659370.doc.bin.gz
Credit: Adapted from Hack eXPlorer’s video Hiding Malicious code using windows CMD - Dosfuscation
Recipe Details
[{"op":"Gunzip","args":[]},{"op":"Regular expression","args":["User defined","c:\\\\.*\"",true,true,false,false,false,false,"List matches"]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"^"},"",true,false,true,false]},{"op":"Regular expression","args":["User defined","(?<=9ojB\\=)(.*?)(?=\\) )",true,true,false,false,false,false,"List matches"]},{"op":"Reverse","args":["Character"]},{"op":"Regular expression","args":["User defined","(.)..",true,true,false,false,false,false,"List capture groups"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\n"},"",true,false,true,false]},{"op":"Extract URLs","args":[false]},{"op":"Extract domains","args":[true]}]
Recipe 24 - Picking a random letter from a six-byte string
Credit: Adapted from Steve Thompson
Recipe Details
[{"op":"Register","args":["(.*)",true,false,false]},{"op":"HTTP request","args":["GET","https://www.random.org/integers/?num=1&min=1&max=6&col=1&base=10&format=plain&rnd=new","","Cross-Origin Resource Sharing",false]},{"op":"Register","args":["(.)",true,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(.)"},"$R0",true,false,true,false]},{"op":"Regular expression","args":["User defined","(.){$R1}",true,true,false,false,false,false,"List capture groups"]},{"op":"Head","args":["Line feed",1]}]
Recipe 25 - Creating a WiFi QR code
Either for ease of letting your mates access your guest wifi, or for any Red Team that needs to add tempting convenience to a rogue access point! Using the create QR Code function to allow Android or iOS devices to logon to your Wifi.
Background: https://github.com/zxing/zxing/wiki/Barcode-Contents#wi-fi-network-config-android-ios-11
Recipe Details
Generate_QR_Code('PNG',5,2,'Medium')
Recipe 26 - Extracting and Decoding a Multistage PHP Webshell
Decoding a Webshell documented by SANS entirely within Cyberchef using regex, ROT13, HTTP Request, Registers and more!
Credit: https://twitter.com/thebluetoob
Recipe Details
[{"op":"Regular expression","args":["User defined","(?<=')(.*?)(?=')",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"ROT13","args":[true,true,13]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]},{"op":"ROT13","args":[true,true,13]},{"op":"Extract URLs","args":[false]},{"op":"Register","args":["(.*)",true,false,false]},{"op":"HTTP request","args":["GET","$R0","","Cross-Origin Resource Sharing",false]},{"op":"Strings","args":["Single byte",4,"Alphanumeric + punctuation (A)",false]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+=/]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Regular expression","args":["User defined","(?<=')(.*?)(?=')",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]},{"op":"ROT13","args":[true,true,13]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+=/]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]}]
Recipe 27 - Decoding an Auto Visitor PHP script
Decoding an auto visitor script written in PHP within Cyberchef using regex, ROT13, multiple decompression algorithms, and subsections! The key point to consider is there are two variables using different rounds of obfuscation. You have a couple of options: work in multiple CyberChef windows to get the end result, or, as below, use subsections and greg for each variable to manipulate each independently and get both deobfuscated outputs in the one script. You can shorten the recipe further by using loops to jump the multiple rounds of Raw Inflate.
Credit: Original script provided by @NtSetDefault, original Cyberchef recipe(s) created by @thebluetoob
Recipe Details
[{"op":"Regular expression","args":["User defined","(?<=')(.*?)(?=')",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"ROT13","args":[true,true,13]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]},{"op":"ROT13","args":[true,true,13]},{"op":"Subsection","args":["(?<=\\$Fadly.*?\")(.*?)(?=\\\")",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"URL Decode","args":[]},{"op":"From HTML Entity","args":[]},{"op":"Merge","args":[]},{"op":"Subsection","args":["(?<=\\$Gans.*?\")(.*?)(?=\\\")",true,true,false]},{"op":"Reverse","args":["Character"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Label","args":["jump"]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]},{"op":"Jump","args":["jump",2]},{"op":"Zlib Inflate","args":[0,0,"Adaptive",false,false]},{"op":"Zlib Inflate","args":[0,0,"Adaptive",false,false]}]
Recipe 28 - De-obfuscation of Cobalt Strike Beacon using Conditional Jumps to obtain shellcode
Choose your poison with this ingenious script from @0xtornado which determines which type of obfuscation your beacon script has via CyberChef conditional jumps to parse out the shellcode. First the code looks for a simple regex ‘bxor’ to then jump to the appropriate section of the recipe. Else it parses out the second type. Using CyberChef ‘tabs’ you can load up two different scripts and get out your data. Impress your colleagues and friendly red team or local APT crew!
Credit: https://twitter.com/0xtornado/status/1255866333545316352
Recipe Details
[{"op":"Conditional Jump","args":["bxor",false,"Decode_Shellcode",10]},{"op":"Label","args":["Decode_beacon"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Gunzip","args":[]},{"op":"Label","args":["Decode_Shellcode"]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"XOR","args":[{"option":"Decimal","string":"35"},"Standard",false]}]
Recipe 29 - Log File Timestamp Manipulation with Subsections and Registers
Not everyone thinks of CyberChef as a tool for log file analysis. But its handy if you have to transpose, reformat or maniulate a log file to suit your purpose. Here, we have an Apache log file with a timestamp that doesn’t lead to useful temporal analysis with other log files: the date format is not sortable, its enclosed in square brackets and it’s in UTC +1 not a standard UTC. Using Subsections, Registers and Transpose Date and Time we can change the formatting of the timestamp and move the column around to be able to combine it with other data. Awesome!
Credit: @gazambelli
Recipe Details
[{"op":"Fork","args":["\\n","\\n",false]},{"op":"Subsection","args":["\\[.*\\+0100\\]",true,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\[|\\]"},"",true,false,true,false]},{"op":"Translate DateTime Format","args":["Standard date and time","DD/MMM/YYYY:HH:mm:ss ZZ","Etc/GMT-1","YYYY-MM-DDTHH:mm:ss ZZ","UTC"]},{"op":"Merge","args":[]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Register","args":["(.*)(\\d{4}-.*\\+0000)(.*)",true,false,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"$R0$R1$R2"},"$R1 $R0 $R2",true,false,true,false]}]
Recipe 30 - CharCode obfuscated PowerShell loader for a Cobalt Strike beacon
A variant on the standard PowerShell loader for Cobalt Strike. Here the first layer of obfuscation is a GZipped blob split into two CharCode arrays. The end result is up to you: disassembly, strings, extract IP, or parse UserAgent. Choose your own adventure.
Source: @scumbots & https://pastebin.com/raw/mUFM4fcQ
Recipe Details
[{"op":"Regular expression","args":["User defined","\\d{1,3}",true,true,false,false,false,false,"List matches"]},{"op":"From Charcode","args":["Line feed",10]},{"op":"Gunzip","args":[]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"XOR","args":[{"option":"Decimal","string":"35"},"Standard",false]},{"op":"Strings","args":["Single byte",5,"All printable chars (A)",false]}]
Recipe 31 - Deobfuscate encoded strings in .NET binary
The SolarWinds malicious .dll contained obfuscated strings using compression and base64. Rather than lose the context in your analysis, we can do a quick de-obfuscation in-line by selecting the strings with a Subsection and then converting. The result is a function that becomes readable with context and avoids a potentially error-prone cut and paste.
Credit: @cybercdh & @Shadow0pz
Source: https://twitter.com/cybercdh/status/1338885244246765569 & https://twitter.com/Shadow0pz/status/1338911469480661000
Recipe Details
[{"op":"Subsection","args":["(?<=\\(\\\")(.*)(?=\\\"\\))",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]}]
Recipe 32 - Extract malicious Gootkit DLL from obfuscated registry data
Gootkit stores a DLL inside the registry as encoded PowerShell. CyberChef makes mince meat of this so-called ‘fileless’ malware. A handy recipe provided by @StefanKelm puts the ‘file’ back in ‘fileless’ (yes, I thought of that one myself, we are up to recipe 32 my friends…).
Source: https://github.com/StefanKelm/cyberchef-recipes
Recipe Details
[{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]}]
Recipe 33 - Identify embedded URLs in Emotet PowerShell script
Using the powerful operation of Registers, a handy recipe from @Cryptolaemus1 extracts obfuscated URLs from the PowerShell from an Emotet malicious document. Here capture groups are used to grab the find/replace string which de-obfuscates the URLs. Awesome stuff.
Credit: @Cryptolaemus and @NtRaiseException()
Source: https://twitter.com/Cryptolaemus1/status/1319357369902649344
Recipe Details
[{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"'\\)?\\+\\(?'"},"",true,false,true,false]},{"op":"Register","args":["\\(+'(=[\\w\\d]*)'\\)+,'/'\\)",true,false,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"$R0"},"/",true,false,true,false]},{"op":"Register","args":["\\/(.)http",true,false,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"$R1"},"\\n",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"'"},"\\n",true,false,true,false]},{"op":"Extract URLs","args":[false]}]
Recipe 34 - Analysing OOXML Files for URLs
Didier Stevens demonstrates the amazing simplicity and usefulness of CyberChef by extracting URLs from OOXML documents (e.g. .docx files). By unzipping the file and filtering out the ‘known good’ the remaining URLs can be inspected. Don’t forget to defang to avoid any unnecessary clicks or operational security mistakes. Combine with CyberChef ‘tabs’ functionality and you could analyse a batch of files.
Credit: @DidierStevens
Source: https://isc.sans.edu/diary/27020
Recipe Details
[{"op":"Unzip","args":["",false]},{"op":"Extract URLs","args":[false]},{"op":"Filter","args":["Line feed","http://schemas\\.openxmlformats\\.org/",true]},{"op":"Filter","args":["Line feed","http://schemas\\.microsoft\\.com/",true]},{"op":"Filter","args":["Line feed","http://purl\\.org/",true]},{"op":"Filter","args":["Line feed","http://www\\.w3\\.org/",true]},{"op":"Defang URL","args":[true,true,true,"Valid domains and full URLs"]}]
Recipe 35 - Decrypting REvil PowerShell ransomware sample
An AES encrypted PowerShell ransomware script is no match for CyberChef. Here were can convert the Base64 to hex, extract the IV and Key into registers and use them to decrypt the blob. Once decrypted we can examine the data and identify a PE file 1925 bytes into the decrypted blob. Extracting this we can then use other tools to identify its behaviour including detonation or static analysis.
Further Info: Powershell Dropping a REvil Ransomware
Recipe Details
[{"op":"Subsection","args":["(?<=\\\")([a-zA-Z0-9+/=]{20,})(?=\\\")",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"To Hex","args":["None",0]},{"op":"Merge","args":[]},{"op":"Register","args":["(?<=\\\")([a-fA-F0-9]{32})(?=\\\")",true,false,false]},{"op":"Register","args":["(?<=\\\")([a-fA-F0-9]{64})(?=\\\")",true,false,false]},{"op":"Regular expression","args":["User defined","[a-f0-9]{100,}",true,true,false,false,false,false,"List matches"]},{"op":"AES Decrypt","args":[{"option":"Hex","string":"$R1"},{"option":"Hex","string":"$R0"},"CBC","Hex","Raw",{"option":"Hex","string":""},""]},{"op":"Regular expression","args":["User defined","[a-f0-9]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Hex","args":["Auto"]},{"op":"Drop bytes","args":[0,1925,false]},{"op":"SHA2","args":["256",64,160]}]
Recipe 36 - Create a CyberChef Password Generator
Tiny cheat here, as the bulk of the work is being done by an API. But it’s a good example to remind you the HTTP Requests operation can be a super powerful way of augmenting CyberChef. Here I made a little ‘input form’ in the CyberChef input pane, and use regular expressions to capture the key paramters for the API call into Registers. A little text massage, and you can have a quick and easy generator as you need it. Saved as a recipe for when you need to deliver a quick new password to a new user.
Recipe Details
[{"op":"Register","args":["(?<=number:\\s)(.*)",true,false,false]},{"op":"Register","args":["(?<=words:\\s)(.*)",true,false,false]},{"op":"Register","args":["(?<=length:\\s)(.*)",true,false,false]},{"op":"HTTP request","args":["GET","https://makemeapassword.ligos.net/api/v1/passphrase/plain?pc=$R0&wc=$R1&sp=y&maxCh=$R2","","Cross-Origin Resource Sharing",false]},{"op":"Find / Replace","args":[{"option":"Regex","string":" "},"-",true,false,true,false]}]
Recipe 37 - From Sandbox zipped email to malicious URL
Most sandboxes deliver a zipped file with the generic password ‘infected’. Why risk extracting out to your desktop when you can extract the contents in CyberChef? Here we have an email .eml
file which includes an OLE2 file attachment. Strings
identifies Base64 which is then extracted and decoded to pull out the second stage.
Source: Any.run
Recipe Details
[{"op":"Unzip","args":["infected",false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\n"},"",true,false,true,false]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{400,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Strings","args":["16-bit littleendian",400,"Null-terminated strings (U)",false]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{2000,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Extract URLs","args":[false]},{"op":"Defang URL","args":[true,true,true,"Valid domains and full URLs"]}]
Recipe 38 - Planes, Skulls and Envelopes - Live and Let PowerShell
A substitution is a substitution. It can be letter for letter, letter for number, or letter for…skull? Here the obfuscation may initially look more confusing but its actually no different to other types. Find/Replce, Subsection, From Base64…all a standard day out for CyberChef. I’ve reversed the first section to enable extraction of the url, then continue with the deobfuscation.
Source: any.run
Credit: https://twitter.com/neonprimetime/status/1365351048525791232
Recipe Details
[{"op":"Find / Replace","args":[{"option":"Regex","string":"☠"},"B",true,false,true,false]},{"op":"Subsection","args":["[a-zA-Z0-9+/=]{300,}",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Reverse","args":["Character"]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"_✉✈_"},"A",true,false,true,false]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{300,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]}]
Recipe 39 - Decrypt GoldMax aka Sunshutte encrypted configuration files
GoldMax aka Sunshuttle drops an encrypted configuration file when it executes. In the RE analysis by Microsoft and Fireeye the algorithm and keys were identified and published, making it a breeze to decrypt with CyberChef.
Source 1: https://www.microsoft.com/security/blog/2021/03/04/goldmax-goldfinder-sibot-analyzing-nobelium-malware/
Source 2: https://www.fireeye.com/blog/threat-research/2021/03/sunshuttle-second-stage-backdoor-targeting-us-based-entity.html
Recipe Details
[{"op":"From Base64","args":["A-Za-z0-9-_",true]},{"op":"AES Decrypt","args":[{"option":"UTF8","string":"hz8l2fnpvp71ujfy8rht6b0smouvp9k8"},{"option":"Hex","string":"00000000000000000000000000000000"},"CFB","Raw","Raw",{"option":"Hex","string":""}]},{"op":"Subsection","args":["[a-zA-Z0-9+/=]{50,}",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Merge","args":[]},{"op":"Drop bytes","args":[0,16,false]},{"op":"Take bytes","args":[0,120,false]},{"op":"Register","args":["(^.*?)\\|(.*?)\\|(.*?)\\|(.*)\\|(.*)",true,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":".*"},"MD5 of Execution Time:\\t\\t\\t$R0\\nLower/Upper Limit for Sleep Time:\\t$R1\\nUtilize “blend-in” traffic requests:\\t$R2\\nEnd execution timestamp:\\t\\t$R2\\nUser-agent for HTTPS requests:\\t\\t$R4",false,false,false,false]}]
Recipe 40 - Morse Code Madness
Yes, there is a morse code operation in CyberChef. Yes, you may need to use it one day. Sadly this wasn’t malware but still CyberChef does the job. Thanks to @pmelson and @cyber__sloth for this entry.
Source: https://pastebin.com/raw/PvLuparz
Recipe: https://twitter.com/cyber__sloth/status/1367904890157211654
Recipe Details
[{"op":"From Binary","args":["Space",8]},{"op":"From Morse Code","args":["Space","Forward slash"]},{"op":"Reverse","args":["Character"]},{"op":"ROT13","args":[true,true,false,13]}]
Recipe 41 - PHP mixed hexadecimal and octal encoding
What do we want? Mixed encoding with both hexadecimal and octal in the one set! When do we want it? Now!
Source: https://twitter.com/JCyberSec_/status/1368963598475739137
Recipe Details
[{"op":"Fork","args":["\\n","\\n",false]},{"op":"Subsection","args":["\\\\x[a-fA-F0-9]{2}",true,true,false]},{"op":"From Hex","args":["\\x"]},{"op":"Merge","args":[]},{"op":"Subsection","args":["\\\\\\d{3}",true,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\\\"},"",true,false,true,false]},{"op":"From Octal","args":["Space"]}]
Recipe 42 - PHP Webshell with layered obfuscation
This multi-layered webshell is a good case for subsections and jumps. You can break it into parts or complete it (as below) in a single CyberChef recipe.
Recipe Details
[{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Subsection","args":["(?<=\\\\x)([a-fA-F0-9]{2})",true,true,false]},{"op":"From Hex","args":["\\x"]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\\\x"},"",true,false,true,false]},{"op":"Subsection","args":["[a-zA-Z0-9+/=]{30,}=",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]},{"op":"From HTML Entity","args":[]},{"op":"Merge","args":[]},{"op":"Subsection","args":["[a-zA-Z0-9+/=]{30,}",true,true,false]},{"op":"Reverse","args":["Character"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Label","args":["decompress"]},{"op":"Zlib Inflate","args":[0,0,"Adaptive",false,false]},{"op":"Raw Inflate","args":[0,0,"Adaptive",false,false]},{"op":"Jump","args":["decompress",3]},{"op":"ROT13","args":[true,true,false,13]}]
Recipe 43 - Magento skimmer deobfuscation
Let’s face it, no-one likes to deobfuscate JavaScript. Looking at this mess of an obfuscation we probably don’t need to do much to get the key info as the encoding is simple. With regex in a couple of Subsections we can deobfuscate ‘in-line’ quickly and get to the key data (i.e exfil domains) immediately. Then, we pass the full script for complete analysis to the new team member to finish while you get lunch…
Source: https://twitter.com/unmaskparasites/status/1370151988285992960
Recipe Details
[{"op":"Subsection","args":["(?<=\\\")([\\w\\\\]+)(?=\\\")",true,true,false]},{"op":"From Hex","args":["\\x"]},{"op":"Merge","args":[]},{"op":"Subsection","args":["(?<=\\\")([a-f0-9\\$]+)(?=\\\")",true,true,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"$"},",",true,false,true,false]},{"op":"From Hex","args":["Comma"]}]
Recipe 44 - Decrypting JobCrypter Ransomware
JobCrypter is a .NET ransomware that uses SMTP as a C2 channel. This allows an asute professional the ability to decrypt files if they have captured email traffic as the communication is not encrypted. Full analysis of this ransomware is available at Yoroi, and @malwarelab_eu provides two related recipes to decrypt files. The first uses the captured email C2 traffic to derive the encryption key, and the second applies that key to encrypted data. I particularly like the use of ‘comments’ in the recipes which allow a clear understanding of the recipe! Kudos!
Source: https://twitter.com/malwarelab_eu/status/1383732397510828033
Recipe 1 Details
[{"op":"Comment","args":["JobCrypter Ransomware Decryptor\n\nExtracts encryption key (96 digits) from captured email traffic\n\nDerive 3DES key as K1+K2+K1 (Keyring Option 2, see https://en.wikipedia.org/wiki/Triple_DES#Keying_options)"]},{"op":"Regular expression","args":["User defined","[0-9]{96}",true,true,false,false,false,false,"List matches"]},{"op":"MD5","args":[]},{"op":"Register","args":["([a-f0-9]{16})([a-f0-9]{16})",true,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"$R0$R1"},"$R0$R1$R0",true,false,true,false]}]
Recipe 2 Details
[{"op":"Comment","args":["JobCrypter Ransomware Decryptor\n\nExtracts Base64-encoded 3DES-encrypted data from encrypted .txt files and decrypts the original data"]},{"op":"Regular expression","args":["User defined","[A-Za-z0-9+/=]{32,}",false,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Triple DES Decrypt","args":[{"option":"Hex","string":"ebd3ff58ec8ebf688e6c918a95622b9febd3ff58ec8ebf68"},{"option":"Hex","string":""},"ECB","Raw","Raw"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Render Image","args":["Raw"],"disabled":true}]
Recipe 45 - Sqiud Proxy Log Timestamp Conversion
The brother of Recipe 29, and cousin of Recipe 10, here we convert squid Unix millisecond timestamp format to ISO 8601 (or whatever our choosing). A fork and subsection to isolate the timestamp and translate date and time format for the conversion. Adding .SSS
keeps the fractional millisecond precision. Don’t forget to ‘merge’ it all back if you want to continue cooking up a storm later in this recipe.
Sample Data: https://www.linuxquestions.org/questions/linux-server-73/sample-squid-proxy-log-files-837345/
Recipe Details
[{"op":"Fork","args":["\\n","\\n",false]},{"op":"Subsection","args":["^(.*?)(?=\\s)",true,true,false]},{"op":"Translate DateTime Format","args":["UNIX timestamp (seconds)","X.SSS","UTC","YYYY-MM-DDTHH:mm:ss.SSS","UTC"]}]
Recipe 46 - Tailoring your regex for the situation
Here’s a pretty standard script deobfuscation. You’ll get some VBS script with comma separated URLs that are cycled through to download a second stage. If you want to extract the URLs, normally you’d use the ‘Extract URLs’ operation which give us 99% of what we want. Except the operation also picks up the trailing '.Split('');$name
which looks ugly and not as easily cut and pasted or defanged.
Now the ‘Extract URLs’ function simply works via a regular expression, which takes into accout all the legitimate reserved characters of a URL as per the RFC. The trailing '
(where we want it to end) is included, so we get more than we wanted. But using the built in regular expression for URLs (screenshot two) and adding the '
into the negation in the syntax we can tailor the regex to our needs and get the perfect outcome!
Source: https://app.any.run/tasks/b6d9a548-722c-4066-9448-11a966be2a73/
Recipe Details
[{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Regular expression","args":["User defined","\\d{2,3}",true,true,false,false,false,false,"List matches"]},{"op":"From Charcode","args":["Line feed",10]},{"op":"Extract URLs","args":[false],"disabled":true},{"op":"Regular expression","args":["URL","([A-Za-z]+://)([-\\w]+(?:\\.\\w[-\\w]*)+)(:\\d+)?(/[^.!,?\"<>\\[\\]{}\\s\\x7F-\\xFF]*(?:[.!,?]+[^.!,?'\"<>\\[\\]{}\\s\\x7F-\\xFF]+)*)?",true,true,false,false,false,false,"List matches"]},{"op":"Split","args":[",","\\n"]}]
Recipe 47 - Trickbot Visual Basic script
The malware author here has attempted to fool automated analysis by slicing the recognisable Base64 encoded PE header into character codes. Using a filter to remove junk, subsection and standard regular expressions we can extract the base64 and the DLL the script is hiding.
Recipe Details
[{"op":"Filter","args":["Line feed","^'",true]},{"op":"Subsection","args":["(?<=\\()(\\d{2,3})(?=\\))",true,true,false]},{"op":"From Charcode","args":["Space",10]},{"op":"Merge","args":[]},{"op":"Regular expression","args":["User defined","(?<=\\()([a-zA-Z0-9+/=]{1}?)(?=\\))|[a-zA-Z0-9+/=]{20,}",true,true,false,false,false,false,"List matches"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\n"},"",true,false,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"SHA2","args":["256",64,160]}]
Recipe 48 - vjw0rm Emoji Madness
“Emojis, so hot right now”, says the meme (see recipe 38 for proof) but this interesting sample found by TomU through his ongoing research into DESKTOP-group
has a few tricks up its sleeve. Apart from emoji obfuscation, it downloads a snippet of code from pastee.ee
which has the final key to its de-obfuscation. But it’s no match for his CyberChef recipe. I’ve slighted edited to use a subsection and done a find/replace directly with the emoji values as these can be pasted easily into CyberChef. For those playing at home, the extra snippet of code that helps with the deobfuscation is also available in the sample zip.
Source: https://twitter.com/c_APT_ure/status/1362146658117701632
[{"op":"Subsection","args":["\\\\x[a-fA-F0-9]{2}",true,true,false]},{"op":"From Hex","args":["Auto"]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Regex","string":"☽☂|☚☎"},"",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"'"},"\"",true,false,true,false]}]
Recipe 49 - Disassemble an EICAR test file
The EICAR test file has a standard known structure of a 16 bit DOS program. Using CyberChef we can take any valid EICAR test file and break it down to its assembly. Here we use subsections (are we getting the idea that subsections are awesome yet?) and use it to capture and manipulate sections that we require. CyberChef can produce disassembly in 16, 32 or 64 bit and voilà! We’ve got the correct output. With thanks to Nintechnet blog for breaking down the EICAR file and helping me to understand the structure.
Source: https://blog.nintechnet.com/anatomy-of-the-eicar-antivirus-test-file/
[{"op":"Subsection","args":["(.*)(\\$.*\\$)(.*)",true,false,false]},{"op":"To Hex","args":["None",0]},{"op":"Disassemble x86","args":["16","Full x86 architecture",16,0,true,false]},{"op":"Merge","args":[]},{"op":"Subsection","args":[".*(\\$.*\\$)",true,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^"},"db\\t\\t\\t\\t",true,false,true,false]},{"op":"Merge","args":[]},{"op":"Subsection","args":[".*\\$(.*)",true,true,false]},{"op":"To Hex","args":["None",0]},{"op":"Disassemble x86","args":["16","Full x86 architecture",16,0,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^"},"\\n",true,false,false,false]}]
Recipe 50 - Parse Security Descriptor Definition Language output
If there is one thing that is definately ‘All Greek to me’ it’s Security Descriptor Definition Language (SDDL). Thankfully, @cnotin has created a fantastic recipe to parse SDDL output to make it much easier to understand, read, and interpret. I also like the extensive use of Comments (something that I’m always advocating, but often not implementing!) Kudos!
Source: https://twitter.com/cnotin/status/1387002797175021569
[{"op":"Comment","args":["subsection for the content before the ACE strings"]},{"op":"Subsection","args":["(.*?)\\(.*",false,true,false]},{"op":"Comment","args":["Each \"G:\" and \"D:\" on its own line"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"([GD]):"},"\\n$1:",true,false,true,false]},{"op":"Comment","args":["add separator"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"$"},"\\n######\\n",true,false,false,false]},{"op":"Merge","args":[]},{"op":"Comment","args":["subsection for the ACE strings"]},{"op":"Subsection","args":["######\\n(.*)",false,true,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":")("},"\\n",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\)$"},"",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^\\("},"",true,false,true,false]},{"op":"Comment","args":["Add space between each permission or flag bigram"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"([A-Z]{2})"},"$1 ",true,false,true,false]},{"op":"Comment","args":["Insert table header"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^"},"Type;Flags;Permissions;ObjectType;Inherited ObjectType;Trustee\\n",false,false,true,false]},{"op":"To Table","args":[";","\\n",true,"ASCII"]},{"op":"Merge","args":[]}]
Recipe 51 - Base-45 decoder
Base 45 is another type of encoding related to Base64 et al. Here Tomasz Zieliński has done amazing work in writing a CyberChef recipe for this encoding. Plus the recipe is heavily commented so you can see what is happening where! Awesome.
Credit: https://gist.github.com/tomekziel
Source: https://gist.github.com/tomekziel/eaaabd55f2d244adf5fcf7db4db0387f
Recipe Details
[{"op":"Comment","args":["CYBERCHEF BASE-45 DECODER\n\nTomasz Zielinski (tomasz.zielinski@gmail.com)\npublic domain\n"]},{"op":"Conditional Jump","args":["^(...)+$",false,"multiply3",10]},{"op":"Comment","args":["Flow for case with number of input characters that not divide by 3"]},{"op":"Comment","args":["\nSTEP 1\nReplace BASE-45 alphabet with numeric values\nhttps://datatracker.ietf.org/doc/html/draft-faltstrom-base45-04"]},{"op":"Substitute","args":["0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ $%*+\\-./:","\\x00\\x01\\x02\\x03\\x04\\x05\\x06\\x07\\x08\\x09\\x0a\\x0b\\x0c\\x0d\\x0e\\x0f\\x10\\x11\\x12\\x13\\x14\\x15\\x16\\x17\\x18\\x19\\x1a\\x1b\\x1c\\x1d\\x1e\\x1f\\x20\\x21\\x22\\x23\\x24\\x25\\x26\\x27\\x28\\x29\\x2a\\x2b\\x2c"]},{"op":"Comment","args":["STEP 2\nIf the length of vector is not divisible by 3, add 0 as last value"]},{"op":"To Decimal","args":["Space",false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"((\\d+ \\d+ \\d+[ ]*)+)(\\d+ \\d+[ ]*)*"},"$1/$3_",false,false,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"((\\d)+[ ]*)_$"},"$1 0",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"[ _]*$|/"},"",true,false,true,false]},{"op":"Comment","args":["Take three-number sequences and prepare multiplication by 1, 45, and 2025"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(\\d+) (\\d+) (\\d+){0,1}"},"$1\\n$2 45\\n$3 2025\\n",true,false,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Multiply","args":["Space"]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Regex","string":"NaN"},"",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\n"}," ",true,false,true,false]},{"op":"Comment","args":["Sum sequences of three numbers"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(\\d+) (\\d+) (\\d+)"},"$1 $2 $3\\n",true,false,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Sum","args":["Space"]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Regex","string":"NaN"},"",true,false,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"To Base","args":[16]},{"op":"Find / Replace","args":[{"option":"Regex","string":"NaN"},"",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^(\\w\\w\\w)$"},"0$1",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^(\\w\\w)$"},"00$1",true,false,false,false]},{"op":"Comment","args":["Split a number to two bytes (effectively DIV256 and MOD256)"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(\\w\\w)(\\w\\w)"},"$1\\n$2",true,false,true,false]},{"op":"Merge","args":[]},{"op":"Comment","args":["Change hex to chars"]},{"op":"Fork","args":["\\n","",false]},{"op":"Merge","args":[]},{"op":"Comment","args":["Special case, last byte is malformed as two bytes, remove unnecessary 0"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"00(\\w\\w)$"},"$1",true,false,true,false]},{"op":"From Hex","args":["Line feed"]},{"op":"Jump","args":["end",10]},{"op":"Label","args":["multiply3"]},{"op":"Comment","args":["Flow for case with number of input characters that divide by 3"]},{"op":"Substitute","args":["0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ $%*+\\-./:","\\x00\\x01\\x02\\x03\\x04\\x05\\x06\\x07\\x08\\x09\\x0a\\x0b\\x0c\\x0d\\x0e\\x0f\\x10\\x11\\x12\\x13\\x14\\x15\\x16\\x17\\x18\\x19\\x1a\\x1b\\x1c\\x1d\\x1e\\x1f\\x20\\x21\\x22\\x23\\x24\\x25\\x26\\x27\\x28\\x29\\x2a\\x2b\\x2c"]},{"op":"To Decimal","args":["Space",false]},{"op":"Comment","args":["Take three-number sequences and prepare multiplication by 1, 45, and 2025"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(\\d+) (\\d+) (\\d+){0,1}"},"$1\\n$2 45\\n$3 2025\\n",true,false,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Multiply","args":["Space"]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Regex","string":"NaN"},"",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\n"}," ",true,false,true,false]},{"op":"Comment","args":["Sum sequences of three numbers"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(\\d+) (\\d+) (\\d+)"},"$1 $2 $3\\n",true,false,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Sum","args":["Space"]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Regex","string":"NaN"},"",true,false,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"To Base","args":[16]},{"op":"Find / Replace","args":[{"option":"Regex","string":"NaN"},"",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^(\\w\\w\\w)$"},"0$1",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^(\\w\\w)$"},"00$1",true,false,false,false]},{"op":"Comment","args":["Split a number to two bytes (effectively DIV256 and MOD256)"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(\\w\\w)(\\w\\w)"},"$1\\n$2",true,false,true,false]},{"op":"Comment","args":["Change hex to chars"]},{"op":"From Hex","args":["Line feed"]},{"op":"Merge","args":[]},{"op":"Fork","args":["\\n","",false]},{"op":"Merge","args":[]},{"op":"Label","args":["end"]}]
Recipe 52 - Randomise list of items
Here we can use the operation Pseudo-Random Number Generator to create a random hexadecimal value. Prior to that we save are items in registers. Then we can join them together and sort by the randomised hex values. Sure, it’s probably not cryptographically perfect and make NSA eggheads eyes bleed but ¯_(ツ)_/¯.
Recipe Details
[{"op":"Find / Replace","args":[{"option":"Regex","string":","},"\\n",true,false,true,false]},{"op":"Sort","args":["Line feed",false,"Alphabetical (case insensitive)"]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Register","args":["([\\s\\S]*)",true,false,false]},{"op":"Pseudo-Random Number Generator","args":[32,"Hex"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(.*)"},"$1 $R0",false,false,true,false]},{"op":"Merge","args":[]},{"op":"Sort","args":["Line feed",false,"Numeric (hexadecimal)"]},{"op":"Regular expression","args":["User defined","(?<=\\s)\\w+$",true,true,false,false,false,false,"List matches"]}]
Recipe 53 - Olevba output to Powershell
With thanks to @James_inthe_box for this RustyBuer maldoc and recipe. Taking the output from Olevba we can regex, convert, loop and decode until we reach out PowerShell with its IOC goodies.
Credit: https://twitter.com/James_inthe_box
Recipe Details
[{"op":"Regular expression","args":["User defined","\\d\\d+\\)(,|\\n)",true,true,false,false,false,false,"List matches"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\)|,"},"",true,false,true,false]},{"op":"From Charcode","args":["Line feed",10]},{"op":"Label","args":["base64loop"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Jump","args":["base64loop",1]}]
Recipe 54 - Windows Event ID 1029 Hashes
Windows event logs. Love them? Hate them? Do you see event IDs in your dreams? Well rest easier with this smart recipe from Mike Peterson at nullsec.us who researched at Windows Event ID 1029 in the Microsoft-Windows-TerminalServices-RDPClient/Operational.evtx log. Lovingly placed in the log is this curious entry similar to: Base64(SHA256(UserName)) is = s8v7wS1UMkc0myytGIXeX2MWh9ojpi4aKwRwbOwFS5U=-
which is a hashed & encoded entry of the username used for the RDP connection on computer initiating the connection. Read more at the blog. As it is hashed it’s not easily reverseable. But if you have a ‘suspect’ account(s) then you can use this recipe to test your hypothesis.
Credit: https://nullsec.us/windows-event-id-1029-hashes/
Recipe Details
[{"op":"Decode text","args":["UTF-8 (65001)"]},{"op":"Encode text","args":["UTF-16LE (1200)"]},{"op":"SHA2","args":["256",64,160]},{"op":"From Hex","args":["Space"]},{"op":"To Base64","args":["A-Za-z0-9+/="]}]
Recipe 55 - Debofuscating BazarLoader aka TA551 maldoc
A recipe worthy of two screenshots! Here the maldoc uses a simple find/replace to further obfuscate base64 encoded & reversed data. Here within lies the URI for the next stage of malware goodness (or badness, depending on your profession, and point of view). Once you’ve identified the ‘out of place data’ (screenshot one), you can then modify your recipe to suit your needs.
Credit: Kostas
Recipe Details
[{"op":"Find / Replace","args":[{"option":"Simple string","string":"za67t"},"",true,false,true,false]},{"op":"Generic Code Beautify","args":[]},{"op":"Subsection","args":["[A-Za-z0-9+/=]{450,}",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Merge","args":[]},{"op":"Subsection","args":["(?<=\\)e\\()(.*?)(?=\\n)",true,true,false]},{"op":"Reverse","args":["Character"]},{"op":"Merge","args":[]},{"op":"Extract URLs","args":[false]},{"op":"Defang URL","args":[true,true,true,"Valid domains and full URLs"]}]
Recipe 56 - Calculate and lookup JA3 or JA3S hash values from a PCAP
Available in v9.30+ a modern update to Recipe 22. Filter a PCAP for the Client/Server Hello and extract the bytes. From here, pass it through the JA3 operation, into a register and then lookup via an API request to ja3er.com. Try out some PCAPs from the amazing www.malware-traffic-analysis.net.
Recipe Details
[{"op":"Regular expression","args":["User defined","16030[13].+",true,true,false,false,false,false,"List matches"]},{"op":"JA3 Fingerprint","args":["Hex","Hash digest"]},{"op":"Register","args":["(.*)",true,false,false]},{"op":"HTTP request","args":["GET","https://ja3er.com/search/$R0","","Cross-Origin Resource Sharing",false]},{"op":"JSON Beautify","args":[" ",false]}]
Recipe 57 - Make a meme with CyberChef
Yes, with Add Text to Image
this can be done. Yes, with Add Test to Image
this should be done. Go. Do it now.
Credit: Ignis
Recipe Details
[{"op":"HTTP request","args":["GET","https://static.flag.farm/img/2ju3gf.jpg.b64","","Cross-Origin Resource Sharing",false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Render Image","args":["Raw"]},{"op":"Add Text To Image","args":["Making memes normally","Right","None",0,150,32,"Roboto",0,0,0,255]},{"op":"Add Text To Image","args":["Making Memes with","Right","None",0,450,32,"Roboto",0,0,0,255]},{"op":"Add Text To Image","args":["Cyberchef","None","None",550,490,32,"Roboto",0,0,0,255]}]
Recipe 58 - Extract IcedID second stage URL from a maldoc
IcedID, also known as Bokbot, is a prolific threat, known for sending out waves of malicious documents. Here @Max_Mal_ provides a quick way to extract the second stage URL from the maldoc without executing it. By unzipping the .docx and a little regex magic we can extract the URL in plain text.
Source: Max_Malyutin
Recipe Details
[{"op":"Unzip","args":["",false]},{"op":"Regular expression","args":["User defined","(?<=Target\\=\\\")(.*)(?=\\\"\\sTargetMode\\=)",true,true,false,false,false,false,"List matches"]}]
Recipe 59 - Parse Cobalt Strike beacon configuration
In the category of ‘Things you probably shouldn’t do in CyberChef but should try anyway’ is parsing a Cobalt Strike beacon configuration file. @notwhickey has done a mammoth task of parsing the structure in CyberChef, and his blog goes into excellent detail into how this can be achieved. Definately take the time to have a read as you can learn some cool tips and tricks that could apply to other problems. You may need to adjust various XOR parameters to account for different formats as in my sample. Amazing stuff!
Source: Cobalt Strike beacon configuration parsing with CyberChef
Recipe Details
[{"op":"To Hex","args":["None",0]},{"op":"Register","args":["([\\s\\S]*)",true,false,false]},{"op":"Regular expression","args":["User defined","(^(?:.*?)ffffff)",true,true,false,false,false,false,"List matches"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(..)"},"$1\\n",true,false,true,false]},{"op":"Add line numbers","args":[]},{"op":"Tail","args":["Line feed",1]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(\\d+)"},"$1 4",true,false,true,false]},{"op":"Divide","args":["Space"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"([0–9\\.]+)"},"$1 2",true,false,true,false]},{"op":"Sum","args":["Space"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\..*"},"",true,false,true,false]},{"op":"Register","args":["(\\d+)",true,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":".*"},"CLEAR",true,false,true,true]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"CLEARCLEAR"},"$R0",true,false,true,false]},{"op":"Register","args":["(?:[0–9a-f][0–9a-f]){$R1}(.*)",true,false,true]},{"op":"Find / Replace","args":[{"option":"Regex","string":".*"},"CLEAR",true,false,true,true]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"CLEARCLEAR"},"$R2",true,false,true,false]},{"op":"From Hex","args":["Auto"]},{"op":"Drop bytes","args":[0,4,false]},{"op":"XOR","args":[{"option":"Hex","string":"$R2"},"Standard",false],"disabled":true},{"op":"XOR","args":[{"option":"Hex","string":"2e"},"Standard",false]},{"op":"To Hex","args":["Space",0]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(.*)"},"$1 00 08 00 03 01 00 ZZ ZZ ZZ ZZ 00 09 00 03 00 80 ZZ ZZ ZZ ZZ 00 0a 00 03 00 40 ZZ ZZ ZZ ZZ 00 0c 00 03 01 00 ZZ ZZ ZZ ZZ 00 0d 00 03 01 00 ZZ ZZ ZZ ZZ 00 0e 00 03 00 40 ZZ ZZ ZZ ZZ 00 0f 00 03 00 80 ZZ ZZ ZZ ZZ 00 1a 00 03 00 10 ZZ ZZ ZZ ZZ 00 1b 00 03 00 10 ZZ ZZ ZZ ZZ 00 1d 00 03 00 40 ZZ ZZ ZZ ZZ 00 1e 00 03 00 40 ZZ ZZ ZZ ZZ 00 20 00 03 00 80 ZZ ZZ ZZ ZZ 00 21 00 03 00 40 ZZ ZZ ZZ ZZ 00 22 00 03 00 40 ZZ ZZ ZZ ZZ 00 23 00 01 00 02 ZZ ZZ ZZ ZZ 00 24 00 01 00 02 ZZ ZZ ZZ ZZ 00 02 00 01 00 02 ZZ ZZ ZZ ZZ 00 05 00 01 00 02 ZZ ZZ ZZ ZZ 00 06 00 01 00 02 ZZ ZZ ZZ ZZ 00 10 00 01 00 02 ZZ ZZ ZZ ZZ 00 11 00 01 00 02 ZZ ZZ ZZ ZZ 00 12 00 01 00 02 ZZ ZZ ZZ ZZ 00 14 00 02 00 04 ZZ ZZ ZZ ZZ 00 03 00 02 00 04 ZZ ZZ ZZ ZZ 00 13 00 02 00 04 ZZ ZZ ZZ ZZ",true,false,true,false]},{"op":"Register","args":["(?:00 08 00 03 01 00)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 09 00 03 00 80)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 0a 00 03 00 40)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 0c 00 03 01 00)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 0d 00 03 01 00)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 0e 00 03 00 40)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 0f 00 03 00 80)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 1a 00 03 00 10)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 1b 00 03 00 10)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 1d 00 03 00 40)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 1e 00 03 00 40)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 20 00 03 00 80)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 21 00 03 00 40)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 22 00 03 00 40)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 23 00 01 00 02)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 24 00 01 00 02)((?:.*?)(?=00)|(?: ZZ ZZ ZZ ZZ))",true,false,true]},{"op":"Register","args":["(?:00 02 00 01 00 02 )((?:[0–9A-F]{2}\\s){2}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Register","args":["(?:00 05 00 01 00 02 )((?:[0–9A-F]{2}\\s){2}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Register","args":["(?:00 06 00 01 00 02 )((?:[0–9A-F]{2}\\s){2}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Register","args":["(?:00 10 00 01 00 02 )((?:[0–9A-F]{2}\\s){2}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Register","args":["(?:00 11 00 01 00 02 )((?:[0–9A-F]{2}\\s){2}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Register","args":["(?:00 12 00 01 00 02 )((?:[0–9A-F]{2}\\s){2}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Register","args":["(?:00 14 00 02 00 04 )((?:[0–9A-F]{2}\\s){2}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Register","args":["(?:00 03 00 02 00 04 )((?:[0–9A-F]{2}\\s){2}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Register","args":["(?:00 13 00 02 00 04 )((?:[0–9A-F]{2}\\s){4}|(?:ZZ ZZ ZZ ZZ))",true,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":".*"},"CLEAR",true,false,true,true]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"CLEARCLEAR"},"7b 0a 22 43 32 20 53 65 72 76 65 72 22 3a $R3 2c 0a 22 55 73 65 72 20 41 67 65 6e 74 22 3a $R4 2c 0a 22 48 54 54 50 20 4d 65 74 68 6f 64 20 50 61 74 68 20 32 22 3a $R5 2c 0a 22 48 65 61 64 65 72 20 31 22 3a $R6 2c 0a 22 48 65 61 64 65 72 20 32 22 3a $R7 2c 0a 22 49 6e 6a 65 63 74 69 6f 6e 20 50 72 6f 63 65 73 73 22 3a $R8 2c 0a 22 50 69 70 65 20 4e 61 6d 65 22 3a $R9 2c 0a 22 4d 65 74 68 6f 64 20 31 22 3a $R10 2c 0a 22 4d 65 74 68 6f 64 20 32 22 3a $R11 2c 0a 22 53 70 61 77 6e 20 54 6f 20 78 38 36 22 3a $R12 2c 0a 22 53 70 61 77 6e 20 54 6f 20 78 36 34 22 3a $R13 2c 0a 22 50 72 6f 78 79 20 48 6f 73 74 6e 61 6d 65 22 3a $R14 2c 0a 22 50 72 6f 78 79 20 55 73 65 72 6e 61 6d 65 22 3a $R15 2c 0a 22 50 72 6f 78 79 20 50 61 73 73 77 6f 72 64 22 3a $R16 2c 0a 22 50 72 6f 78 79 20 41 63 63 65 73 73 20 54 79 70 65 22 3a $R17 2c 0a 22 43 72 65 61 74 65 52 65 6d 6f 74 65 54 68 72 65 61 64 22 3a $R18 2c 0a 22 50 6f 72 74 22 3a $R19 2c 0a 22 4a 69 74 74 65 72 22 3a $R20 2c 0a 22 4d 61 78 20 44 4e 53 22 3a $R21 2c 0a 22 59 65 61 72 22 3a $R22 2c 0a 7d",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"ZZ ZZ ZZ ZZ"},"4e 55 4c 4c",true,false,true,false]},{"op":"From Hex","args":["Auto"]}]
Recipe 60 - Decode URLs protected by Microsoft Safelinks
Safe Links is a feature in Defender for Office 365 that provides URL scanning and rewriting of inbound email messages in mail flow, and time-of-click verification of URLs and links in email messages, Teams and Office 365 apps.
Source 1: @WikiJM
Source 2: https://docs.microsoft.com/en-us/microsoft-365/security/office-365-security/safe-links?view=o365-worldwide
[{"op":"Split","args":["?","\\n"]},{"op":"Split","args":["&","\\n"]},{"op":"Split","args":["=","\\n"]},{"op":"Regular expression","args":["User defined","url\\s([^\\s]+)",true,true,false,false,false,false,"List capture groups"]},{"op":"URL Decode","args":[]}]
Recipe 61 - Extract second stage URLs from Qakbot Excel maldocs
Qbot? Qakbot? Who cares? With this short and sweet recipe we can extract the malicious URLs from Qakbot Excel maldocs. Pivot from here to other log sources like proxy logs, sysmon, EDR, DNS…you’ve got all those right?
Credit: @cluster25_io
Source: https://twitter.com/cluster25_io/status/1468248610814971916
Recipe Details
[{"op":"Unzip","args":["",false]},{"op":"Strings","args":["16-bit littleendian",10,"All printable chars (U)",false]},{"op":"Filter","args":["Line feed","^\\\"",false]},{"op":"Find / Replace","args":[{"option":"Extended (\\n, \\t, \\x...)","string":"\\x00"},"",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"[\"& ,]"},"",true,false,true,false]}]
Recipe 62 - Emotet Maldoc to PowerShell
Emotet is back! Gianni Amato has whipped up a great recipe using unzip, filter, regex and some other tricks to extract and deobfuscate the embedded PowerShell. A fantastic learning recipe. Great work.
Credit: @guelfoweb
Source: https://twitter.com/guelfoweb/status/1468959342514749451
Recipe Details
[{"op":"Unzip","args":["",false]},{"op":"XML Beautify","args":["\\t"]},{"op":"Filter","args":["Line feed","<w:t>.*?<\\/w:t>",false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"3-"},"",true,false,true,false]},{"op":"From HTML Entity","args":[]},{"op":"Regular expression","args":["User defined","(?:[A-Za-z0-9+/]{4})*(?:[A-Za-z0-9+/]{2}==|[A-Za-z0-9+/]{3}==)",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Reverse","args":["Character"]}]
Recipe 63 - Extract URLs from Dridex obfuscated VBS
Let’s switch to Dridex, and smash their VBS obfuscation with this excellent submission from @Kostastsale. Using subsection the full recipe is kept for any further analysis, but a simple ‘Extract URLs’ lets us see the (unsurprising) Discord destination.
Credit: @Kostastsale
Source: https://twitter.com/Kostastsale/status/1475375446430609411
Recipe Details
[{"op":"Find / Replace","args":[{"option":"Simple string","string":"+1-1"},"",true,false,true,false]},{"op":"Subsection","args":["chr\\((\\d+)\\)",false,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"From Charcode","args":["Space",10]},{"op":"Merge","args":[]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"chr("},"",true,true,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(\\)\\s&\\s|\\\"\\s&\\s\\\"|\\\"\\s&\\s|\\\")"},"",true,false,true,false]},{"op":"Extract URLs","args":[false]},{"op":"Defang URL","args":[true,true,true,"Valid domains and full URLs"]}]
Recipe 64 - Convert Strings to VirusTotal Grep queries
Straight forward recipe for converting Strings to the syntax used for VT Grep queries. VirusTotal Syntax Reference
Credit: @th3_protoCOL
Source: https://twitter.com/th3_protoCOL/status/1505288686560186369
Recipe Details
[{"op":"To Hex","args":["Space",0]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^"},"content:{",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"$"},"}",true,false,true,false]}]
Recipe 65 - Deobfuscate MSF Venom PowerShell reverse shell payload
Regular contributor @thebluetoob cooks a storm here with all the hallmarks of a seasoned CyberChef veteran: Registers, eye-bleeding regex, and a solid understanding of ‘getting it done’ in CyberChef. Kudos!
Credit: @thebluetoob
Recipe Details
[{"op":"Regular expression","args":["User defined","[a-zA-Z0-9=/+]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Register","args":["\\'\\'\\)\\-f\\'\\'([a-zA-Z0-9+=\\/])\\'\\'[\\,\\'\\)]{3}([a-zA-Z0-9+=\\/])?[\\'\\)\\,]{1,5}([a-zA-Z0-9+=\\/])?.*?\\[",true,false,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\{[\\'\\+0]*?}"},"$R0",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\{[\\'\\+1]*?}"},"$R1",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\{[\\'\\+2]*?}"},"$R2",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Simple string","string":"''+''"},"",true,false,true,false]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9=/+]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"Gunzip","args":[]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9=/+]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"From Base64","args":["A-Za-z0-9+/=",true]},{"op":"To Hex","args":["None",0]}]
Recipe 66 - Nested subsection example
Nested subsections is a feature available in versions >= 9.46.0. If you have a layered obfuscation and use two subsections you can merge the second layer only without losing your first subsection later. The below recipe is a contrived example and is explained in this Twitter thread.
Recipe Details with nested subsection
[{"op":"Subsection","args":["[a-zA-Z0-9+/=]{100,}",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true,false]},{"op":"Subsection","args":["\\\".*\\\"",true,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\\""},"",true,false,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true,false]},{"op":"Merge","args":[false]},{"op":"From Hex","args":["Auto"]}]
Recipe details on older versions
[{"op":"Subsection","args":["[a-zA-Z0-9+/=]{100,}",true,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true,false]},{"op":"Subsection","args":["\\\".*\\\"",true,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"\\\""},"",true,false,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true,false]},{"op":"Merge","args":[]},{"op":"Subsection","args":["[a-fA-F0-9]{100,}",true,true,false]},{"op":"From Hex","args":["Auto"]}]
Recipe 67 - Converting a MSI ProductCode to Registry Installer ProductID
MSI files have a master ProductCode GUID for each installer file. This will be referenced in the registry at HKEY_LOCAL_MACHINE\SOFTWARE\Classes\Installer\Products\ with a ProductID. That original ProductCode GUID undergoes a simple transformation that we can do in CyberChef. If you have a malicious .msi file you could look up the corresponding ProductCode, calculate the ProductID and hunt in the registry for artifacts. Try it with the string: {6732E1E0-6629-4B92-A25F-40377D162D15}
. Good luck!
Source: https://www.advancedinstaller.com/msi-registration-productid.html
Recipe Details
[{"op":"Find / Replace","args":[{"option":"Regex","string":"\\}|\\{|-"},"",true,false,true,false]},{"op":"Subsection","args":["^(\\w{8})",true,true,false]},{"op":"Reverse","args":["Character"]},{"op":"Merge","args":[true]},{"op":"Subsection","args":["^\\w{8}(\\w{4})",true,true,false]},{"op":"Reverse","args":["Character"]},{"op":"Merge","args":[true]},{"op":"Subsection","args":["^\\w{8}\\w{4}(\\w{4})",true,true,false]},{"op":"Reverse","args":["Character"]},{"op":"Merge","args":[true]},{"op":"Subsection","args":["(\\w{16})$",true,true,false]},{"op":"Reverse","args":["Character"]},{"op":"Swap endianness","args":["Hex",8,false]},{"op":"Merge","args":[true]},{"op":"Remove whitespace","args":[true,true,true,true,true,false]},{"op":"To Upper case","args":["All"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^"},"HKEY_LOCAL_MACHINE\\SOFTWARE\\Classes\\Installer\\Products\\",true,false,true,false]}]
Recipe 68 - Converting Java signed byte arrays
Java uses signed integers so character codes need to be converted to unsigned values before we can use the ‘From Character Code’ operation. Here we extract the byte array from a Java Neo-ReGeorg webshell and conver the data to its class file. From there we can save off the class file and decompile for further analysis.
Source: https://github.com/L-codes/Neo-reGeorg
Recipe Details
[{"op":"Regular expression","args":["User defined","(?<=\\{)([\\-\\d,]+)(?=\\})",true,true,false,false,false,false,"List matches"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"(-\\d+)"},"$1 256",true,false,true,false]},{"op":"Find / Replace","args":[{"option":"Regex","string":","},"\\n",true,false,true,false]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Sum","args":["Space"]},{"op":"Merge","args":[true]},{"op":"From Charcode","args":["Line feed",10]}]
Recipe 69 - Extracting DLL payload from a Bumblebee Powershell script
Bumblebee, the apparent successor to Bazarloader, comes in swinging with a large PowerShell payload containing 113 Base64 blobs. Convert, decompress, substitute, regex-fu, substitute. All in a days work to extra the DLL payload with CyberChef.
[{"op":"Decode text","args":["UTF-16LE (1200)"]},{"op":"Regular expression","args":["User defined","[a-zA-Z0-9+/=]{30,}",true,true,false,false,false,false,"List matches"]},{"op":"Fork","args":["\\n","\\n",false]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^."},"H",true,false,true,false]},{"op":"From Base64","args":["A-Za-z0-9+/=",true,false]},{"op":"Gunzip","args":[]},{"op":"Merge","args":[true]},{"op":"Regular expression","args":["User defined","(?<=0\\n*x)([a-f0-9]{2})(?=,|\\))",true,true,false,false,false,false,"List matches"]},{"op":"From Hex","args":["Auto"]},{"op":"Find / Replace","args":[{"option":"Regex","string":"^."},"M",true,false,false,false]}]
Recipe 70 - Extracting endpoints from Android network security config
The Network Security Configuration feature lets you customize your app’s network security settings in a safe, declarative configuration file without modifying app code. These settings can be configured for specific domains and for a specific app. This recipe can be used to extract some endpoints that can help in your recon:
Credit: https://www.linkedin.com/in/isdebuggerpresent
[{"op":"Regular expression","args":["User defined","includeSubdomains\\=\\\"\\w+\\\"\\>(?<lista>.*)\\<",true,true,false,false,false,false,"List capture groups"]},{"op":"Unique","args":["Line feed",false]}]
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Static Malware Analysis with OLE Tools and CyberChef
Analyzing obfuscated Powershell with shellcode
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