Hands-On Cryptography with Java, published b y Packt
This is the code repository for Hands-On Cryptography with Java [Video], published by Packt. It contains all the supporting project files necessary to work through the video course from start to finish.
Security is paramount for any application. Cryptography occurs all across software fields: it protects all HTTPS traffic between browsers, encrypts phone storage against prying eyes, and can even hide files inside other files through a technique called steganography. This course is for developers looking to design a system that uses cryptography, rather than designing new algorithms. Most developers simply need to put the right pieces together to make their own system work. In this course, you will break down the concepts behind cryptography into simple lessons, covering terminology, algorithms, standards, and encryption/decryption techniques. We will also walk through how cryptographic systems are hacked to bypass (rather than break) their cryptographic capabilities.
- The course answers questions such as:
- What is cryptography used for?
- What are keys and where do they go?
- Why do networked systems sometimes give certificate validation errors?
- If I need to encrypt something, how should I do that?
- Develop applications that use an existing reliable cryptography
- Build complex integrations with other systems, taking advantage of worldwide public key infrastructures and certificates
- Identify hacking risks in your own and other cryptographic systems and how to fix them
- Discover cryptographic terms used to describe any system you work on or with
- Design functioning, well-performing applications that use seamless cryptography
This video course is for developers whose applications require encryption, or integration with an external cryptographic system. The course requires knowledge of Java programming but does not require a degree in mathematics or advanced computer science. Java developers building standard applications that require encryption, developers looking to understand flaws in cryptographic systems, and developers who do not want flaws in their cryptographic systems will benefit from this course.
This course has the following requirements:
OS: Windows 7 or Windows 10
Browser: Google Chrome, Latest Version
Code Editor: Eclipse, IntelliJ, NetBeans
Others: Java 8 or higher
Processor: Intel Core i7 or equivalent
Memory: 8 GB RAM
Storage: 35 GB available space