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Anthropic-Cybersecurity-Skills/skills/implementing-soar-playbook-for-phishing/SKILL.md
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mukul975 886658219f Add MITRE Fight Fraud Framework (F3 v1.1) mappings to fraud-relevant skills
- Add mitre_f3 frontmatter block to 94 fraud-relevant skills (phishing,
  account takeover, banking malware, BEC, identity/KYC, payment/card fraud,
  money-mule/cash-out, ransomware extortion, DFIR, threat intel)
- Map each skill to F3 v1.1 tactics + precise technique IDs, including the
  two F3-specific tactics ATT&CK lacks: Positioning (FA0001) and
  Monetization (FA0002)
- All 123 F3 v1.1 technique IDs validated against the upstream STIX bundle
  (github.com/center-for-threat-informed-defense/fight-fraud-framework):
  0 invalid IDs, 0 invalid tactics, 0 name mismatches, no placeholder IDs
- mitre_f3 kept as a separate block from mitre_attack (F3 redefines several
  ATT&CK tactics for the fraud context)
- Add docs/mitre-f3-mapping.md schema reference
- Update README: F3 as the 6th framework, dedicated F3 section + badge
2026-06-20 16:06:04 +02:00

4.5 KiB

name, description, domain, subdomain, tags, version, author, license, nist_csf, mitre_attack, mitre_f3
name description domain subdomain tags version author license nist_csf mitre_attack mitre_f3
implementing-soar-playbook-for-phishing Automate phishing incident response using Splunk SOAR REST API to create containers, add artifacts, and trigger playbooks cybersecurity security-operations
soar
splunk-phantom
phishing
incident-response
1.0 mahipal Apache-2.0
DE.CM-01
RS.MA-01
GV.OV-01
DE.AE-02
T1078
T1190
T1059
T1566
T1598
version tactics techniques
1.1
reconnaissance
resource-development
initial-access
stealth
id name tactic source
T1598 Phishing for Information reconnaissance attack
id name tactic source
T1660 Phishing initial-access attack
id name tactic source
T1672 Email Spoofing stealth attack
id name tactic source
F1020.002 Create Fake Materials: Fake Website resource-development f3
id name tactic source
F1032 Impersonate Official initial-access f3

Implementing SOAR Playbook for Phishing

Overview

This skill implements a phishing incident response workflow using the Splunk SOAR (formerly Phantom) REST API. When a suspected phishing email is reported, the agent parses email headers and body, creates a SOAR container representing the incident, attaches artifacts containing indicators of compromise (sender address, URLs, IP addresses, file hashes), triggers an automated investigation playbook, and polls for action results.

Splunk SOAR orchestrates and automates security operations through playbooks that chain together investigative and response actions. The REST API at /rest/container, /rest/artifact, and /rest/playbook_run enables programmatic incident creation and automation triggering from external tools, email gateways, and SIEM alerts.

When to Use

  • When deploying or configuring implementing soar playbook for phishing capabilities in your environment
  • When establishing security controls aligned to compliance requirements
  • When building or improving security architecture for this domain
  • When conducting security assessments that require this implementation

Prerequisites

  • Python 3.9 or later with requests and email modules
  • Splunk SOAR instance (Cloud or On-Premises) with REST API access
  • SOAR API token with permissions to create containers and trigger playbooks
  • Network connectivity to SOAR instance on port 443
  • A configured phishing investigation playbook in SOAR

Steps

  1. Parse the phishing email: Read the email file (.eml format) and extract headers including From, To, Subject, Reply-To, Return-Path, Received, Message-ID, X-Mailer, and authentication results (SPF, DKIM, DMARC). Extract URLs and IP addresses from the email body.

  2. Authenticate to SOAR REST API: Use the API token in the ph-auth-token header to authenticate all REST API requests to the SOAR instance.

  3. Create a container: POST to /rest/container with the incident label, name, description, severity, and status. The container represents the phishing incident and receives a container ID in the response.

  4. Add email header artifacts: POST to /rest/artifact with container_id and CEF (Common Event Format) fields containing sender address (fromAddress), recipient (toAddress), subject, originating IP (sourceAddress), and Message-ID. Set run_automation to False for all but the last artifact.

  5. Add URL artifacts: For each URL extracted from the email body, create an artifact with CEF field requestURL and type url. These artifacts feed into URL reputation checks in the playbook.

  6. Trigger the playbook: POST to /rest/playbook_run with the playbook ID or name and the container ID. This initiates the automated investigation workflow.

  7. Poll action results: GET /rest/action_run filtered by container ID to monitor playbook progress. Poll until all actions reach a terminal state (success, failed, or cancelled).

  8. Compile response report: Aggregate playbook action results into a summary report with verdicts from URL reputation, domain reputation, IP geolocation, and email header analysis.

Expected Output

{
  "incident": {
    "container_id": 1542,
    "status": "new",
    "severity": "high",
    "artifacts_created": 5
  },
  "playbook": {
    "name": "phishing_investigate",
    "run_id": 892,
    "status": "success",
    "actions_completed": 8
  },
  "verdict": "malicious",
  "indicators": {
    "sender_domain_reputation": "malicious",
    "urls_flagged": 2,
    "spf_result": "fail",
    "dkim_result": "fail"
  }
}