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mukul975
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- Add validated mitre_attack frontmatter to all 754 skills (286 distinct techniques), verified against MITRE ATT&CK v19.1 via the official mitreattack-python library: 0 revoked, deprecated, or invalid IDs - Curate precise per-skill technique IDs for forensics, malware-analysis, threat-intel, and red-team skills (e.g. DCSync -> T1003.006, Kerberoasting -> T1558.003, Pass-the-Ticket -> T1550.003) - Reconcile v19.1 tactic restructuring: Defense Evasion split into Stealth (TA0005) and Defense Impairment (TA0112); revoked T1562.* family and T1070.001/.002 remapped to active equivalents (T1685.*) - Normalize word-split tags across 35 skills (remove filename-derived stopword tags, add semantic cybersecurity tags) - Add api-reference.md for 3 skills that were missing it - Update README ATT&CK section with accurate v19.1 tactic distribution
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name, description, domain, subdomain, tags, version, author, license, nist_ai_rmf, atlas_techniques, nist_csf, mitre_attack
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| performing-hardware-security-module-integration | Integrate Hardware Security Modules (HSMs) using PKCS#11 interface for cryptographic key management, signing operations, and secure key storage with python-pkcs11, AWS CloudHSM, and YubiHSM2. | cybersecurity | cryptography |
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1.0 | mahipal | Apache-2.0 |
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Performing Hardware Security Module Integration
Overview
Hardware Security Modules (HSMs) provide tamper-resistant cryptographic key storage and operations. This skill covers integrating with HSMs via the PKCS#11 standard interface using python-pkcs11, performing key generation, signing, encryption, and verification operations, querying token and slot information, and validating HSM configuration for compliance with FIPS 140-2/3 requirements.
When to Use
- When conducting security assessments that involve performing hardware security module integration
- When following incident response procedures for related security events
- When performing scheduled security testing or auditing activities
- When validating security controls through hands-on testing
Prerequisites
- HSM device or software HSM (SoftHSM2 for testing)
- PKCS#11 shared library (.so/.dll) for the HSM vendor
- Python 3.9+ with
python-pkcs11 - Token initialized with SO PIN and user PIN
- For AWS CloudHSM:
cloudhsm-pkcs11provider configured
Steps
- Load PKCS#11 library and enumerate available slots and tokens
- Open session and authenticate with user PIN
- Generate RSA 2048-bit or EC P-256 key pairs on the HSM
- Perform signing and verification using on-device keys
- List all objects (keys, certificates) stored on the token
- Query mechanism list to verify supported algorithms
- Generate compliance report with key inventory and algorithm audit
Expected Output
- JSON report listing HSM slots, tokens, stored keys, supported mechanisms, and compliance status
- Signing test results with key metadata and algorithm details