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.NET Security and Cryptography by G. Gnana Arun Ganesh, Peter Thorsteinson

.NET Security and Cryptography G. Gnana Arun Ganesh, Peter Thorsteinson ebook
Page: 496
ISBN: 013100851X, 9780131008519
Format: chm
Publisher: Prentice Hall

The Windows Phone 7 operating system supports a multitude of cryptographic methods, including AES, SHA1 and SHA256, HMACSHA1 and HMACSHA256 and more. The .NET classes involved on the X509 certificate management are those under the System.Security.Cryptography.X509Certificates namespace. It utilize static class (RandomGenerator) from System.Security.Cryptography namespace. All hash algorithms derive from the System.Security.Cryptography.HashAlgorithm class. Imports System Imports System.IO Imports System. In this article, we'll look at the security mechanisms built into the WP7 devices, as well as our wish list for more security options in future versions. Security.Cryptography.dll provides a new set of algorithm implementations to augment the built in .NET framework supported algorithms. Unfortunately, the OS doesn't include automatic built in key management or a NET security system and permissions. NET, below is the code that you can copy and paste to make it work for you.. It also provides some APIs to extend the existing framework cryptography APIs. In .NET, the most common hashing algorithms used are: SHA1 (Secure Hashing Algorithm 1) and,; MD5 (Message Digest 5). Before it can be used, a digital certificate must be located and loaded. Security.Cryptography namespace, Microsoft has kindly supplied us with the RijndaelManaged class and a pre-provided implementation of the AES standard. These .NET namespaces include:.