Cryptography is the gold standard for security. It is used to protect the transmission and storage of data between two parties by encrypting it into an unreadable format. Cryptography has enabled the first wave of secure transmissions, which has helped fuel the growth of transactions like shopping, banking, and finance over the world's biggest public network, the Internet. Many Internet applications such as e-mail, databases, and browsers store a tremendous amount of personal and financial information, but frequently the data is left unprotected. Traditional network security is frequently less effective at preventing hackers from accessing this data. For instance, once-private databases are now completely exposed on the Internet. It turns out that getting to the database that holds millions of credit card numbers-the transmission-is secure through the use of cryptography, but the database itself isn't, fueling the rise of credit card information theft.
A paradigm shift is now under way for cryptography. The only way to make data secure in any application that runs over the Internet is to use secret (also known as private) key cryptography. The current security methods focus on securing Internet applications using public keys techniques that are no longer effective. In this groundbreaking book, noted security expert Nick Galbreath provides specific implementation guidelines and code examples to secure database and Web-based applications to prevent theft of sensitive information from hackers and internal misuse.
|Product dimensions:||7.64(w) x 9.24(h) x 0.91(d)|
Table of Contents
Chapter 1. Bits and Bytes.
Chapter 2. Secret Key Cryptography.
Chapter 3. Public Key Cryptography.
Chapter 4. Random Numbers.
Chapter 5. Java Cryptography.
Chapter 6. Small Message Encoding and Encryption.
Chapter 7. Application and Data Architecture.
Appendix A: Java Cryptography Class Reference.