بنقرة واحدة
analyzing-indicators-of-compromise
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التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
القائمة
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التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
استنادا إلى تصنيف SOC المهني
| name | analyzing-indicators-of-compromise |
| description | > |
Use this skill when:
Do not use this skill in isolation for high-stakes blocking decisions — always combine automated enrichment with analyst judgment, especially for shared infrastructure (CDNs, cloud providers).
requests and vt-py libraries, or SOAR platform with pre-built connectorsBefore enriching, classify each IOC:
evil[.]com), extract registered domain via tldextractDefang IOCs in documentation (replace . with [.] and :// with [://]) to prevent accidental clicks.
VirusTotal (file hash, URL, IP, domain):
import vt
client = vt.Client("YOUR_VT_API_KEY")
# File hash lookup
file_obj = client.get_object(f"/files/{sha256_hash}")
detections = file_obj.last_analysis_stats
print(f"Malicious: {detections['malicious']}/{sum(detections.values())}")
# Domain analysis
domain_obj = client.get_object(f"/domains/{domain}")
print(domain_obj.last_analysis_stats)
print(domain_obj.reputation)
client.close()
AbuseIPDB (IP addresses):
import requests
response = requests.get(
"https://api.abuseipdb.com/api/v2/check",
headers={"Key": "YOUR_KEY", "Accept": "application/json"},
params={"ipAddress": "1.2.3.4", "maxAgeInDays": 90}
)
data = response.json()["data"]
print(f"Confidence: {data['abuseConfidenceScore']}%, Reports: {data['totalReports']}")
MalwareBazaar (file hashes):
response = requests.post(
"https://mb-api.abuse.ch/api/v1/",
data={"query": "get_info", "hash": sha256_hash}
)
result = response.json()
if result["query_status"] == "ok":
print(result["data"][0]["tags"], result["data"][0]["signature"])
Query MISP for existing events matching the IOC:
from pymisp import PyMISP
misp = PyMISP("https://misp.example.com", "API_KEY")
results = misp.search(value="evil-domain.com", type_attribute="domain")
for event in results:
print(event["Event"]["info"], event["Event"]["threat_level_id"])
Check Shodan for IP context (hosting provider, open ports, banners) to identify if the IP belongs to bulletproof hosting or a legitimate cloud provider (false positive risk).
Apply a tiered decision framework:
Record findings in TIP/MISP with:
Export to STIX indicator object with confidence field set appropriately.
| Term | Definition |
|---|---|
| IOC | Indicator of Compromise — observable network or host artifact indicating potential compromise |
| Enrichment | Process of adding contextual data to a raw IOC from multiple intelligence sources |
| Defanging | Modifying IOCs (replacing . with [.]) to prevent accidental activation in documentation |
| False Positive Rate | Percentage of benign artifacts incorrectly flagged as malicious; critical for tuning block thresholds |
| Sinkhole | DNS server redirecting malicious domain lookups to a benign IP for detection without blocking traffic entirely |
| TTL | Time-to-live for an IOC in blocking controls; IP indicators should expire after 30 days, domains after 90 days |
Command injection testing methodology covering OS command injection, code injection, filter evasion, blind command injection, and shell-specific techniques for bash, PowerShell, and cmd.exe.
Multi-step exploit chaining methodology for combining low-severity findings into full compromise paths. Covers attack chain scoring, approval gates, and systematic approach to turning individual findings into complete attack paths.
Comprehensive privilege escalation methodology for Linux and Windows. Covers kernel exploits, SUID binaries, service misconfigurations, credential harvesting, and both local privilege escalation paths.
Comprehensive reconnaissance methodology covering OSINT, subdomain enumeration, technology fingerprinting, DNS reconnaissance, and attack surface mapping. Includes passive and active recon techniques with OPSEC considerations.
Comprehensive SQL injection testing methodology covering Union-based, Error-based, Blind (Boolean/Time-based), Stacked queries, and WAF bypass techniques. Includes database-specific payloads for MySQL, PostgreSQL, MSSQL, Oracle, SQLite, and NoSQL injection.
Comprehensive Server-Side Request Forgery (SSRF) testing methodology covering basic SSRF, blind SSRF, DNS rebinding, cloud metadata exploitation, and gopher/redis attacks. Includes bypass techniques and automation.