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Mapped every skill to NIST CSF 2.0 subcategory IDs (GV/ID/PR/DE/RS/RC functions) based on subdomain and content analysis. Restores 11 skills corrupted during prior rebase, re-enriching with ATLAS, D3FEND, NIST AI RMF, and CSF 2.0 fields. All 754 skills now carry structured mappings for all 5 security frameworks: - MITRE ATT&CK (in tags) - MITRE ATLAS v5.5 (atlas_techniques) - MITRE D3FEND v1.3 (d3fend_techniques) - NIST AI RMF 1.0 (nist_ai_rmf) - NIST CSF 2.0 (nist_csf)
382 lines
13 KiB
Markdown
382 lines
13 KiB
Markdown
---
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name: analyzing-cobalt-strike-beacon-configuration
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description: Extract and analyze Cobalt Strike beacon configuration from PE files and memory dumps to identify C2 infrastructure,
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malleable profiles, and operator tradecraft.
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domain: cybersecurity
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subdomain: malware-analysis
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tags:
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- cobalt-strike
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- beacon
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- c2
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- malware-analysis
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- config-extraction
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- threat-hunting
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- red-team-tools
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version: '1.0'
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author: mahipal
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license: Apache-2.0
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nist_csf:
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- DE.AE-02
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- RS.AN-03
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- ID.RA-01
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- DE.CM-01
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---
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# Analyzing Cobalt Strike Beacon Configuration
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## Overview
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Cobalt Strike is a commercial adversary simulation tool widely abused by threat actors for post-exploitation operations. Beacon payloads contain embedded configuration data that reveals C2 server addresses, communication protocols, sleep intervals, jitter values, malleable C2 profile settings, watermark identifiers, and encryption keys. Extracting this configuration from PE files, shellcode, or memory dumps is critical for incident responders to map attacker infrastructure and attribute campaigns. The beacon configuration is XOR-encoded using a single byte (0x69 for version 3, 0x2e for version 4) and stored in a Type-Length-Value (TLV) format within the .data section.
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## When to Use
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- When investigating security incidents that require analyzing cobalt strike beacon configuration
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- When building detection rules or threat hunting queries for this domain
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- When SOC analysts need structured procedures for this analysis type
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- When validating security monitoring coverage for related attack techniques
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## Prerequisites
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- Python 3.9+ with `dissect.cobaltstrike`, `pefile`, `yara-python`
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- SentinelOne CobaltStrikeParser (`parse_beacon_config.py`)
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- Hex editor (010 Editor, HxD) for manual inspection
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- Understanding of PE file format and XOR encoding
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- Memory dump acquisition tools (Volatility3, WinDbg)
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- Network analysis tools (Wireshark) for C2 traffic correlation
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## Key Concepts
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### Beacon Configuration Structure
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Cobalt Strike beacons store their configuration as a blob of TLV (Type-Length-Value) entries within the .data section of the PE. Stageless beacons XOR the entire beacon code with a 4-byte key. The configuration blob itself uses a single-byte XOR key. Each TLV entry contains a 2-byte type identifier (e.g., 0x0001 for BeaconType, 0x0008 for C2Server), a 2-byte length, and variable-length data.
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### Malleable C2 Profiles
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The beacon configuration encodes the malleable C2 profile that dictates HTTP request/response transformations, including URI paths, headers, metadata encoding (Base64, NetBIOS), and data transforms. Analyzing these settings reveals how the beacon disguises its traffic to blend with legitimate web traffic.
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### Watermark and License Identification
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Each Cobalt Strike license embeds a unique watermark (4-byte integer) into generated beacons. Extracting the watermark can link multiple beacons to the same operator or cracked license. Known watermark databases maintained by threat intelligence providers map watermarks to specific threat actors or leaked license keys.
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## Workflow
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### Step 1: Extract Configuration with CobaltStrikeParser
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```python
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#!/usr/bin/env python3
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"""Extract Cobalt Strike beacon config from PE or memory dump."""
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import sys
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import json
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# Using SentinelOne's CobaltStrikeParser
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# pip install dissect.cobaltstrike
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from dissect.cobaltstrike.beacon import BeaconConfig
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def extract_beacon_config(filepath):
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"""Parse beacon configuration from file."""
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configs = list(BeaconConfig.from_path(filepath))
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if not configs:
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print(f"[-] No beacon configuration found in {filepath}")
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return None
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for i, config in enumerate(configs):
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print(f"\n[+] Beacon Configuration #{i+1}")
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print(f"{'='*60}")
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settings = config.as_dict()
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# Critical fields for incident response
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critical_fields = [
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"SETTING_C2_REQUEST",
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"SETTING_C2_RECOVER",
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"SETTING_PUBKEY",
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"SETTING_DOMAINS",
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"SETTING_BEACONTYPE",
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"SETTING_PORT",
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"SETTING_SLEEPTIME",
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"SETTING_JITTER",
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"SETTING_MAXGET",
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"SETTING_SPAWNTO_X86",
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"SETTING_SPAWNTO_X64",
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"SETTING_PIPENAME",
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"SETTING_WATERMARK",
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"SETTING_C2_VERB_GET",
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"SETTING_C2_VERB_POST",
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"SETTING_USERAGENT",
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"SETTING_PROTOCOL",
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]
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for field in critical_fields:
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value = settings.get(field, "N/A")
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print(f" {field}: {value}")
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return settings
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return None
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def extract_c2_indicators(config):
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"""Extract actionable C2 indicators from beacon config."""
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indicators = {
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"c2_domains": [],
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"c2_ips": [],
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"c2_urls": [],
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"user_agent": "",
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"named_pipes": [],
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"spawn_processes": [],
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"watermark": "",
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}
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if not config:
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return indicators
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# Extract C2 domains
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domains = config.get("SETTING_DOMAINS", "")
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if domains:
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for domain in str(domains).split(","):
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domain = domain.strip().rstrip("/")
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if domain:
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indicators["c2_domains"].append(domain)
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# Extract user agent
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indicators["user_agent"] = str(config.get("SETTING_USERAGENT", ""))
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# Extract named pipes
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pipe = config.get("SETTING_PIPENAME", "")
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if pipe:
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indicators["named_pipes"].append(str(pipe))
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# Extract spawn-to processes
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for arch in ["SETTING_SPAWNTO_X86", "SETTING_SPAWNTO_X64"]:
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proc = config.get(arch, "")
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if proc:
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indicators["spawn_processes"].append(str(proc))
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# Extract watermark
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indicators["watermark"] = str(config.get("SETTING_WATERMARK", ""))
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return indicators
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if __name__ == "__main__":
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if len(sys.argv) < 2:
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print(f"Usage: {sys.argv[0]} <beacon_file_or_dump>")
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sys.exit(1)
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config = extract_beacon_config(sys.argv[1])
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if config:
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indicators = extract_c2_indicators(config)
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print(f"\n[+] Extracted C2 Indicators:")
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print(json.dumps(indicators, indent=2))
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```
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### Step 2: Manual XOR Decryption of Beacon Config
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```python
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import struct
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def find_and_decrypt_config(data):
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"""Manually locate and decrypt beacon configuration."""
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# Cobalt Strike 4.x uses 0x2e as XOR key
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xor_keys = [0x2e, 0x69] # v4, v3
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for xor_key in xor_keys:
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# Search for the config magic bytes after XOR
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# Config starts with 0x0001 (BeaconType) XOR'd with key
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magic = bytes([0x00 ^ xor_key, 0x01 ^ xor_key,
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0x00 ^ xor_key, 0x02 ^ xor_key])
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offset = data.find(magic)
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if offset == -1:
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continue
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print(f"[+] Found config at offset 0x{offset:x} (XOR key: 0x{xor_key:02x})")
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# Decrypt the config blob (typically 4096 bytes)
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config_size = 4096
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encrypted = data[offset:offset + config_size]
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decrypted = bytes([b ^ xor_key for b in encrypted])
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# Parse TLV entries
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entries = parse_tlv(decrypted)
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return entries
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return None
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def parse_tlv(data):
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"""Parse Type-Length-Value configuration entries."""
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entries = {}
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offset = 0
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# TLV field type mapping
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field_names = {
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0x0001: "BeaconType",
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0x0002: "Port",
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0x0003: "SleepTime",
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0x0004: "MaxGetSize",
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0x0005: "Jitter",
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0x0006: "MaxDNS",
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0x0007: "Deprecated_PublicKey",
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0x0008: "C2Server",
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0x0009: "UserAgent",
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0x000a: "PostURI",
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0x000b: "Malleable_C2_Instructions",
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0x000c: "Deprecated_HttpGet_Metadata",
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0x000d: "SpawnTo_x86",
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0x000e: "SpawnTo_x64",
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0x000f: "CryptoScheme",
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0x001a: "Watermark",
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0x001d: "C2_HostHeader",
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0x0024: "PipeName",
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0x0025: "Year",
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0x0026: "Month",
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0x0027: "Day",
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0x0036: "ProxyHostname",
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}
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while offset + 6 <= len(data):
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entry_type = struct.unpack(">H", data[offset:offset+2])[0]
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entry_len_type = struct.unpack(">H", data[offset+2:offset+4])[0]
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entry_len = struct.unpack(">H", data[offset+4:offset+6])[0]
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if entry_type == 0:
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break
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value_start = offset + 6
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value_end = value_start + entry_len
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value_data = data[value_start:value_end]
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field_name = field_names.get(entry_type, f"Unknown_0x{entry_type:04x}")
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if entry_len_type == 1: # Short
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value = struct.unpack(">H", value_data[:2])[0]
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elif entry_len_type == 2: # Int
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value = struct.unpack(">I", value_data[:4])[0]
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elif entry_len_type == 3: # String/Blob
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value = value_data.rstrip(b'\x00').decode('utf-8', errors='replace')
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else:
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value = value_data.hex()
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entries[field_name] = value
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print(f" {field_name}: {value}")
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offset = value_end
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return entries
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```
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### Step 3: YARA Rule for Beacon Detection
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```python
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import yara
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cobalt_strike_rule = """
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rule CobaltStrike_Beacon_Config {
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meta:
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description = "Detects Cobalt Strike beacon configuration"
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author = "Malware Analysis Team"
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date = "2025-01-01"
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strings:
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// XOR'd config marker for CS 4.x (key 0x2e)
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$config_v4 = { 2e 2f 2e 2c }
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// XOR'd config marker for CS 3.x (key 0x69)
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$config_v3 = { 69 68 69 6b }
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// Common beacon strings
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$str_pipe = "\\\\.\\pipe\\" ascii wide
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$str_beacon = "beacon" ascii nocase
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$str_sleeptime = "sleeptime" ascii nocase
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// Reflective loader pattern
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$reflective = { 4D 5A 41 52 55 48 89 E5 }
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condition:
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($config_v4 or $config_v3) or
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(2 of ($str_*) and $reflective)
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}
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"""
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def scan_for_beacons(filepath):
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"""Scan file with YARA rules for Cobalt Strike beacons."""
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rules = yara.compile(source=cobalt_strike_rule)
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matches = rules.match(filepath)
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for match in matches:
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print(f"[+] YARA Match: {match.rule}")
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for string_match in match.strings:
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offset = string_match.instances[0].offset
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print(f" String: {string_match.identifier} at offset 0x{offset:x}")
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return matches
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```
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### Step 4: Network Traffic Correlation
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```python
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from dissect.cobaltstrike.c2 import HttpC2Config
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def analyze_c2_profile(beacon_config):
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"""Analyze malleable C2 profile from beacon configuration."""
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print("\n[+] Malleable C2 Profile Analysis")
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print("=" * 60)
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# HTTP GET configuration
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get_verb = beacon_config.get("SETTING_C2_VERB_GET", "GET")
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get_uri = beacon_config.get("SETTING_C2_REQUEST", "")
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print(f"\n HTTP GET Request:")
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print(f" Verb: {get_verb}")
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print(f" URI: {get_uri}")
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# HTTP POST configuration
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post_verb = beacon_config.get("SETTING_C2_VERB_POST", "POST")
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post_uri = beacon_config.get("SETTING_C2_POSTREQ", "")
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print(f"\n HTTP POST Request:")
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print(f" Verb: {post_verb}")
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print(f" URI: {post_uri}")
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# User Agent
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ua = beacon_config.get("SETTING_USERAGENT", "")
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print(f"\n User-Agent: {ua}")
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# Host header
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host = beacon_config.get("SETTING_C2_HOSTHEADER", "")
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print(f" Host Header: {host}")
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# Sleep and jitter for traffic pattern
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sleep_ms = beacon_config.get("SETTING_SLEEPTIME", 60000)
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jitter = beacon_config.get("SETTING_JITTER", 0)
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print(f"\n Sleep Time: {sleep_ms}ms")
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print(f" Jitter: {jitter}%")
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# Generate Suricata/Snort signatures
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print(f"\n[+] Suggested Network Signatures:")
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if ua:
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print(f' alert http any any -> any any (msg:"CS Beacon UA"; '
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f'content:"{ua}"; http_user_agent; sid:1000001; rev:1;)')
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if get_uri:
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print(f' alert http any any -> any any (msg:"CS Beacon URI"; '
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f'content:"{get_uri}"; http_uri; sid:1000002; rev:1;)')
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```
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## Validation Criteria
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- Beacon configuration successfully extracted from PE file or memory dump
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- C2 server domains/IPs correctly identified with port and protocol
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- Malleable C2 profile parameters decoded showing HTTP transforms
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- Watermark value extracted for attribution correlation
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- Sleep time and jitter values match observed network beacon intervals
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- YARA rules detect beacon in both packed and unpacked samples
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- Network signatures generated from extracted C2 profile
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## References
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- [SentinelOne CobaltStrikeParser](https://github.com/Sentinel-One/CobaltStrikeParser)
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- [dissect.cobaltstrike Library](https://github.com/fox-it/dissect.cobaltstrike)
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- [SentinelLabs Beacon Configuration Analysis](https://www.sentinelone.com/labs/the-anatomy-of-an-apt-attack-and-cobaltstrike-beacons-encoded-configuration/)
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- [Cobalt Strike Staging and Config Extraction](https://blog.securehat.co.uk/cobaltstrike/extracting-config-from-cobaltstrike-stager-shellcode)
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- [MITRE ATT&CK - Cobalt Strike S0154](https://attack.mitre.org/software/S0154/)
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