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Cyber Helmets and HackTricks partner to launch instructor-led Cloud Security training for AWS, Azure, and GCP

Cyber Helmets, a leader in immersive cybersecurity training, has partnered with HackTricks, a widely respected cybersecurity knowledge platform, to introduce a new instructor-led cloud security training program. This initiative will provide security professionals with in-depth, real-world training focused on securing cloud environments across Amazon Web Services (AWS), Microsoft Azure, and Google Cloud Platform (GCP).

By combining Cyber Helmets’ immersive training approach with HackTricks’ comprehensive security knowledge base, this program will help IT professionals identify vulnerabilities, prevent cloud misconfigurations, and respond to cyber threats effectively. The training will emphasize hands-on experience through live attack simulations and red teaming exercises that mirror real-world cloud security challenges.

 

Key features of the training program:

Multi-cloud security coverage – Practical training on securing cloud services across AWS, Azure, and GCP.
Hands-on attack simulations – Real-world hacking scenarios that teach participants how to detect and mitigate cloud-based threats.
Cloud security best practices – Insights into securing cloud applications, managing identities, and preventing misconfigurations.
Instructor-led training by experts – Live sessions delivered by seasoned professionals with deep expertise in cloud security.
HackTricks knowledge integration – Content backed by HackTricks’ latest security research and real-world attack techniques.

 

Insights from the leaders behind the partnership:

Cyber Helmets Managing Director Aris Zikopoulos shared his enthusiasm for the partnership:

“We are excited to collaborate with HackTricks to offer security professionals hands-on cloud security training. This program is designed to bridge the gap between theoretical learning and real-world cybersecurity challenges. By working with HackTricks, we ensure that learners have access to the most up-to-date security strategies.”

Co – Founder of HackTricks, Carlos Polop, also commented on the collaboration:

“HackTricks has always been about equipping security professionals with actionable knowledge. By partnering with Cyber Helmets, we’re taking this a step further—allowing learners to apply these techniques in a practical environment. This training will empower security teams to better protect cloud infrastructures.”

About Cyber Helmets

Cyber Helmets provides instructor-led cybersecurity training, specializing in penetration testing, red teaming, mobile security, web application security and cloud security. Their immersive learning approach helps professionals develop the technical skills needed to stay ahead of the curve.

About HackTricks

HackTricks is a globally recognized cybersecurity resource, offering detailed insights into hacking techniques, cloud security best practices, and methodologies. It serves as a go-to platform for security professionals seeking the latest cybersecurity knowledge and research.

 

Registration details and course information

Security professionals and teams interested in registering can find more details on the Cyber Helmets website. Registration details and course information will be available soon.

 

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Syllabus:

Intro to GCP

  • GCP Hierarchy
  • Google Workspace
  • gcloud config
  • Basic Hacking Techniques

Exploitation of GCP Services

  • IAM
  • KMS
  • Secrets 
  • Storage
  • Compute Instances & VPC
  • Cloud Functions
  • CloudSQL
  • Pub/Sub
  • App Engine
  • Google APIs
  • Cloud Shell

Methodologies

  • White box

Security Services

  • GCP Logging & Monitoring

Syllabus:

Intro to AWS

  • AWS Organization
  • AWS Principals
  • Basic Hacking Techniques

Exploitation of AWS Services

  • IAM
  • STS
  • KMS
  • Secrets Manager
  • S3
  • EC2 & VPC
  • Lambda
  • RDS
  • SQS
  • SNS

Methologies

  • White box

Common Detection Mechanisms

  • CloudTrail

Syllabus:

Azure Basics

  • Azure Organization
  • Entra ID
  • Azure Tokens & APIs
  • Basic Enumeration Tools

 

Exploitation of Azure Services

  • Entra ID IAM
  • Azure IAM
  • Azure Applications
  • Azure Key Vault
  • Azure Virtual Machine & Networking
  • Storage Accounts
  • Azure File Share
  • Azure Table Storage
  • Azure SQL Database
  • Azure MySQL & PostgreSQL
  • Azure CosmosDB
  • Azure App Service
  • Basic Azure Research Technique
  • Azure Function Apps
  • Static Web Apps
  • Azure Container Registry
  • Azure Container
  • Instances, Apps & Jobs
  • Azure Queue
  • Azure Service Bus
  • Azure Automation Account
  • Azure Logic Apps
  • Azure Cloud Shell
  • Azure Virtual Desktop

 

Methologies

  • White box
  • Black box
  • Pivoting between Entra ID & AD

 

Common Detection Mechanisms

  • Azure & Entra ID Logging & Monitoring
  • Microsoft Sentinel
  • Microsoft Defender for Cloud & Microsoft Defender EASM

Fundamentals and Setup

  1. Overview of Android’s architecture and ecosystem dynamics.
  2. Exploration of security features native to Android using Java, Kotlin, C++, and Rust.
  3. Mobile Application Threat Model
    a) Differences between mobile and web application threat models.
    b) Applying threat modeling techniques specifically to mobile applications.
    c) Case studies highlighting potential threats and vulnerabilities.
    d) How do we secure and test cross platform apps (e.g. ReactNative, Xamarin, etc).
  4. Introduction to industry mobile security standards
    a) OWASP Mobile Application Security (MAS) project
    b) Effective usage of the Mobile Application Security Verification Standard (MASVS).
    c) Effective usage of the Mobile Security Testing Guide (MSTG).
    d) Overview of the OWASP top 10 for mobile.
  5. Setting up and preparing a mobile security testing lab
    a) Configuration of industry-standard tools and guidance on their appropriate use.
    b) Setup of virtual mobile devices using Corellium, including its advantages.
    c) Introductory exercises to familiarize with the tools.
  6. Secure Coding Overview
    a) Exercises to identify vulnerabilities in code examples
    b) Discussion of the appropriate mechanisms for remediation
    c) Practical session on remediation and re-testing the app
  7. Secure storage
    a) Overview of application storage mechanisms.
    b) Introduction to cryptographic storage solutions on Android.

Advanced Techniques and Practical Application

  • Mobile penetration testing methodology
    a) Methodologies used in real-world scenarios with practical tips and tricks.
  • Identifying issues with backend APIs
    a) Examination of client-side trust issues.
    b) Analysis of insecure communications including certificate validation and pinning.
  • Cryptography in Android apps
    a) Utilization of Android’s Crypto APIs.
    b) Implementation of native cryptography using libraries like libnacl and OpenSSL.
    c) Management of cryptographic keys.
  • Authentication and Authorization
    a) Testing client-side authentication mechanisms, including secure usage of biometrics.
    b) Strategies to detect and bypass authentication flaws.
    c) Security measures for API authentication.
  • Android IPC
    a) Detailed exploration of Intents, deep links, Binders/services, and broadcast receivers.
  • Webviews
    a) Identifying and resolving common security issues in Android Webview configurations.
  • Software Composition Analysis (SBOM)
    a) Techniques to determine the components of an Android app.
    b) Identifying known vulnerabilities within these components.
  • Mobile Device Management (MDM)
    a) Introduction to Mobile Device Management: definition, core features, and its role in enhancing organizational security.
    b) Discussion on the benefits and practical applications of MDM in controlling and securing mobile devices across an enterprise.
  • Mobile Application Management (MAM)
    a) Overview of Mobile Application Management: what it entails and its significance in enterprise environments.
    b) Exploration of how MAM contributes to managing and securing applications specifically, detailing its utility for enterprise security strategies.

Advanced Techniques and Practical Application

  • Mobile penetration testing methodology
    a) Methodologies used in real-world scenarios with practical tips and tricks.
  • Identifying issues with backend APIs
    a) Examination of client-side trust issues.
    b) Analysis of insecure communications including App Transport Security issues & certificate pinning.
  • Cryptography in IOS apps
    a) Utilization of iOS’s CryptoKit & CommonCrypto APIs.
    b) Implementation of native cryptography using libraries like libnacl and OpenSSL.
    c) Management of cryptographic keys and leveraging the secure enclave.
  • Authentication and Authorization
    a) Testing client-side authentication mechanisms, including secure usage of Local Authentication (biometrics).
    b) Strategies to detect and bypass authentication flaws.
    c) Security measures for API authentication.
    d) Using Device Check and App Attest
  • iOS IPC
    a) Detailed exploration of URL schemes, deep (universal) links, and extensions.
  • Webviews
    a) Identifying and resolving common security issues in iOS Webview configurations.
  • Software Composition Analysis (SBOM)
    a) Techniques to determine the components of an iOS app.
    b) Identifying known vulnerabilities within these components.
  • Implementing App Integrity
    a) What to look for
    b) How to implement
  • Mobile Device Management (MDM)
    a) Introduction to Mobile Device Management: definition, core features, and its role in enhancing organizational security.
    b) Discussion on the benefits and practical applications of MDM in controlling and securing mobile devices across an enterprise.
  • Mobile Application Management (MAM)
    a) Overview of Mobile Application Management: what it entails and its significance in enterprise environments.
    b) Exploration of how MAM contributes to managing and securing applications specifically, detailing its utility for enterprise security strategies.

Fundamentals & Setup

  1. Overview of iOS’s architecture and ecosystem dynamics.
  2. Exploration of security features native to to iOS using Objective-C, Swift, and C(++).
  3. Mobile Application Threat Model
    a) Differences between mobile and web application threat models.
    b) Applying threat modeling techniques specifically to mobile applications.
    c) Case studies highlighting potential threats and vulnerabilities.
    d) How do we secure and test cross platform apps (e.g. ReactNative, Xamarin, etc).
  4. Introduction to industry mobile security standards
    a) OWASP Mobile Application Security (MAS) project
    b) Effective usage of the Mobile Application Security Verification Standard (MASVS).
    c) Effective usage of the Mobile Security Testing Guide (MSTG).
    d) Overview of the OWASP top 10 for mobile.
  5. Setting up and preparing a mobile security testing lab
    a) Configuration of industry-standard tools and guidance on their appropriate use.
    b) Setup of virtual mobile devices using Corellium, including its advantages.
    c) Introductory exercises to familiarize with the tools.
  6. Secure Coding Overview
    a) Exercises to identify vulnerabilities in iOS code examples
    b) Discussion of the appropriate mechanisms for remediation
    c) Practical session on remediation and re-testing the app
  7. Secure storage
    a) Overview of application storage mechanisms.
    b) Introduction to cryptographic storage solutions on iOS.