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Demystifying Cryptography with OpenSSL 3.0

You're reading from   Demystifying Cryptography with OpenSSL 3.0 Discover the best techniques to enhance your network security with OpenSSL 3.0

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Product type Paperback
Published in Oct 2022
Publisher Packt
ISBN-13 9781800560345
Length 342 pages
Edition 1st Edition
Languages
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Author (1):
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Alexei Khlebnikov Alexei Khlebnikov
Author Profile Icon Alexei Khlebnikov
Alexei Khlebnikov
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Table of Contents (20) Chapters Close

Preface 1. Part 1: Introduction
2. Chapter 1: OpenSSL and Other SSL/TLS Libraries FREE CHAPTER 3. Part 2: Symmetric Cryptography
4. Chapter 2: Symmetric Encryption and Decryption 5. Chapter 3: Message Digests 6. Chapter 4: MAC and HMAC 7. Chapter 5: Derivation of an Encryption Key from a Password 8. Part 3: Asymmetric Cryptography and Certificates
9. Chapter 6: Asymmetric Encryption and Decryption 10. Chapter 7: Digital Signatures and Their Verification 11. Chapter 8: X.509 Certificates and PKI 12. Part 4: TLS Connections and Secure Communication
13. Chapter 9: Establishing TLS Connections and Sending Data over Them 14. Chapter 10: Using X.509 Certificates in TLS 15. Chapter 11: Special Usages of TLS 16. Part 5: Running a Mini-CA
17. Chapter 12: Running a Mini-CA 18. Index 19. Other Books You May Enjoy

What is OpenSSL?

OpenSSL is an open source software toolkit that includes a cryptography and SSL/TLS library, as well as command-line utilities that use the library to provide some useful functionality on the command line, such as generating encryption keys and X.509 certificates. The main part of OpenSSL is its library, which means that OpenSSL is mainly useful for software developers. However, system administrators and DevOps specialists will also find OpenSSL’s command-line utilities very useful.

SSL stands for Secure Sockets Layer. It is a protocol designed to provide secure communications over insecure computer networks. An insecure computer network means a network where the transmitted data can be read or even changed by a malicious intermediate network node. An example of such an insecure network is the internet. Secure communication is where transmitted data cannot be read or changed. SSL achieves communication security by using symmetric and asymmetric cryptography. The SSL protocol was invented in 1995 by the Netscape Communications Corporation and was deprecated in 2015 in favor of its successor, the TLS protocol. TLS stands for Transport Layer Security.

The OpenSSL toolkit was created before the SSL protocol became deprecated, so it contains “SSL” instead of “TLS” in its name.

OpenSSL was historically licensed under the BSD-style license, but since version 3.0, it is licensed under Apache 2.0 license, which is also BSD-style. This license allows OpenSSL to be used in both open source and closed source applications.

OpenSSL supports a lot of cryptographic algorithms, among which are algorithms for symmetric and asymmetric encryption, digital signatures, message digests, and key exchange. OpenSSL supports X.509 certificates, SSL, TLS, and DTLS protocols, as well as other cryptography-related technologies that are less popular.

OpenSSL has been around for a while and during its development, it gained support for a lot of operating systems. OpenSSL was originally developed for Unix-like operating systems. Up until now, OpenSSL supports different variations of Unix, including GNU/Linux, BSDs, and old and new commercial Unixes, such as IBM AIX and macOS. OpenSSL also supports popular non-Unix operating systems such as Microsoft Windows, mobile OSes such as Android and iOS, and even old and exotic OSes such as MS-DOS and VMS.

Through many years of OpenSSL development, the library has received numerous optimizations, including assembly optimizations for the most popular CPU architectures, such as x86, x86_64, and ARM. OpenSSL is currently one of the fastest existing crypto and TLS libraries.

Because of its universality, support for a lot of algorithms and operating systems, and because of its speed, OpenSSL has become the de facto industry standard. OpenSSL is so popular that other TLS libraries make so-called OpenSSL compatibility layers so that those libraries can be used via OpenSSL application programming interfaces (APIs).

OpenSSL is quite a popular library but what did its path to the widespread adoption look like? Let’s find out by walking through the OpenSSL history.

You have been reading a chapter from
Demystifying Cryptography with OpenSSL 3.0
Published in: Oct 2022
Publisher: Packt
ISBN-13: 9781800560345
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