Notes - MCS
Robust Software
Notes - MCS
Robust Software
  • Robust Software
  • Secure Software Design Principles
    • Motivation
    • Secure and Resilient/Robust Software
    • Best Practices for Resilient Applications
    • Designing Applications for Security and Resilience
    • Architecture for the Web/Cloud
  • Software Security Lifecycle
    • Motivation
    • Secure Development Lifecycle
    • Software Security Touchpoints
    • Software Assurance Forum for Excellence in Code (SAFECode)
    • Secure SW Lifecycle Processes Summary
    • Adaptations of the Secure Software Lifecycle
    • Assessing the Secure Software Lifecycle
    • Recommendations
  • Software Quality Attributes
    • Motivation
    • Software Quality Assurance
    • Software Quality Standards
    • Software Quality Attributes
    • Extra Software Quality Assurance Properties
  • Security Requirements
    • Motivation
    • Security Requirements
    • Threats
    • Defenses
    • Confidentiality
    • Integrity
    • Availability
    • What about other goals/properties?
    • Security Requirements Engineering
    • Types of Security Requirements
    • Security Policy
    • Precision
    • Completeness and Consistency
    • Examples of Non-Functional Requirements
    • Goals and Requirements
    • Measures
    • Requirements Interaction
    • Natural Language Requirements
    • Best Practices
  • Common Software Attacks
    • Objectives
    • 10 Major Cyber-Attacks of 21st Century
    • Software Security Basics
    • Defenses Methods
    • SANS SWAT Checklist
  • Safe Programming
    • Secure Coding Practices
    • Top 10 Secure Coding Practices (CERT/SEI)
    • 7 Pernitious Kingdoms
  • Robustness, PenTest, Fuzzy and Static Code Analysis
    • Security/Robustness Testing
    • Robustness Tests Checklist Example
    • Penetration Testing
    • Penetration Testing Roadmap
    • Tools
    • Fuzz Testing
    • Static Code Analysis
    • Side Channels
  • Safety (and Security)
    • Safety
    • A safety Lifecycle Example
    • Risk Management Process
    • System Definition
    • Hazard Identification and Classification
    • Desk-based Hazard Identification
    • Workshop-based Hazard Identification
    • HAZOP
    • Hazard Identification and Classification
      • Broadly acceptable risks
    • Risk Evaluation and Risk Acceptance
    • Use of codes of practice
    • Use of reference system
    • Explicit risk estimation
    • Qualitative risk estimation
    • Quantitative risk estimation
    • Safety measures
    • Safety requirements
    • Hazard Management
    • Hazard life cycle
    • Independent Assessment
    • Safety Plan
    • Safety Case
    • FMEA Example
    • DevSecOps
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  1. Safety (and Security)

HAZOP

Aim: To determine safety hazards in a proposed or existing system, their possible causes and consequences, and recommend actions to minimize the chance of their occurrence.

A team normally consists of:

  • a study leader;

  • a recorder (documents the meeting);

  • a designer (explains the design);

  • users (e. g. train driver, train operator);

  • specialists (experts of the system or the study);

  • and maybe a maintainer.

Basic guide words

Guide word
Meaning

NO OR NOT

Complete negation of the design intent

MORE

Quantitative increase

LESS

Quantitative decrease

AS WELL AS

Qualitative modification/increase

PART OF

Qualitative modification/decrease

REVERSE

Logical opposite of the design intent

OTHER THAN

Complete substitution

EARLY

Relative to the clock time

LATE

Relative to the clock time

BEFORE

Relating to order or sequence

AFTER

Relating to order or sequence

Last updated 1 year ago