Difference between revisions of "Cryptographic Storage Cheat Sheet"

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=== Rule - Ensure That Any Secret Key Is Protected From Unauthorized Access ===
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=== Rule - Follow Applicable Regulations On Use Of Cryptography ===
=== Rule - Follow Applicable Regulations On Use Of Cryptography ===

Revision as of 19:13, 9 January 2010



This article provides a simple model to follow when implementing solutions for data at rest.

Architectural Decision

An architectural decision must be made to determine the appropriate method to protect data at rest. There are such wide variety of products, methods and mechanisms for cryptographic storage that this cheat sheet will only focus on low-level guidelines for developers and architects who are implementing cryptographic solutions. We will not address specific vendor solutions, nor will we address the design of cryptographic algorithms.

Providing Cryptographic Functionality


Basic Requirements

Secure Cryptographic Storage Design

Rule - Only Store Sensitive Data That You Need

Many eCommerce businesses use payment providers that store the credit card for recurring billing. This offloads the burden of keeping credit card numbers safe.

Rule - Only Use Strong Cryptographic Algorithms

Only use approved public algorithms such as AES, RSA public key cryptography, and SHA-256 or better for hashing. Do not use weak algorithms, such as MD5 / SHA1/ Favor safer. The definition of a "strong" cryptographic algorithms change over time.


This is a good default if one doesn't have AES and one of the authenticated encryption modes that provide confidentiality and authenticity (i.e., data origin authentication) such as CCM, EAX, CMAC, etc. For Java, if you are using SunJCE that will be the case. The cipher modes supported in JDK 1.5 and later are CBC, CFB, CFBx, CTR, CTS, ECB, OFB, OFBx, PCBC, None of these cipher modes are authentication encryption modes. (That's why I added it explicitly.) If you are using an alternate JCE provider such as Bouncy Castle, RSA JSafe, IAIK, etc then some of these authentication encryption modes probably should be preferred.

Use salts when appropriate. Should note that integrity should be use a MAC (i.e., a keyed hash) and not a MIC (message integrity code). A MIC can be used as a keyed hash via

MIC(msg) = Secure_Hash( salt + msg )

but that is not as good as using something like HMAC-SHA1 or even better, HMAC-SHA256.

Rule - Store the Hash Value of Passwords

Store the hashed value of the password. Salt each hash. Use a different random salt for each password hash. Never store the clear text password or an encrypted version of the password.

Rule - Ensure That Random Numbers are Cryptographically Strong

Ensure that all random numbers, random file names, random GUIDs, and random strings are generated in a cryptographically strong fashion.

TODO: This probably could use further explanation especially how entropy used to seed PRNGs plays an important role as well.

Rule - Only Use Widely Accepted Implementations of Cryptographic Algorithms

Do not implement an existing cryptographic algorithm on your own, no matter how easy it appears. Use widely accepted algorithms and widely accepted implementations only. Ensure that an implementation has, at least, had some cryptography experts involved in its creation. If possible, use an implementation that is FIPS 140-2 certified.

Rule - Only use strong cryptographic cipher modes

Use cryptographic cipher modes that offer both authenticity and confidentiality

ECB should almost unequivocally be avoided. If you use a cipher mode that treats a block cipher as a streaming mode, such as OFB or CFB, be careful you don't repeat the IV for the same encryption key. In general CBC is a decent cipher mode to use if message authenticity is not an issue and it a cipher mode that is almost always available. Better cipher modes are ones that offer both authenticity and confidentiality such as those mentioned under the Wikipedia "Authenticated Encryption" article. See the "see also" section of <http://en.wikipedia.org/wiki/Authenticated_encryption> for a list of such cipher modes.


Rule - Ensure that any Secret key is protected from unauthorized access

Rule - Define a key lifecycle

The key lifecycle details the various states that a key will move through during its life. The lifecycle will specify when a key should no longer be used for encryption, when a key should no longer be used for decryption (these are not necessarily coincident), whether data must be rekeyed when a new key is introduced, and when a key should be removed from use all together.

Rule - Store unencrypted keys away from the encrypted data

If the keys are stored with the data then any compromise of the data will easily compromise the keys as well. Unencrypted keys should never reside on the same machine or cluster as the data.

Rule - Protect keys in a key vault

Ideally, keys should remain in a protected key vault at all times. In particular ensure that there is a gap between the threat vectors with direct access to the data and the threat vectors with direct access to the keys. This implies that keys should not be stored on the application or web server (assuming that application attackers are part of the relevant threat model).

Rule - Document concrete procedures for managing keys through the lifecycle

These procedures must be written down and the key custodians must be adequately trained.

Rule - Build Support For Changing Keys Periodically

Key rotation is a must as all good keys do come to an end either through expiration or revocation. So a developer will have to deal with rotating keys at some point -- better to have a system in place now rather than scrambling later. (From Bil Cory as a starting point).

Rule - Document concrete procedures to handle a key compromise

Rule - Follow Applicable Regulations On Use Of Cryptography

Rule - Under PCI Data Security Standard requirement 3, you must protect cardholder data

PCI DSS compliance is mandatory by 2008 for merchants and anyone else dealing with credit cards. Good practice is to never store unnecessary data.

Related Articles

OWASP - Testing for SSL-TLS, and OWASP Guide to Cryptography

OWASP – Application Security Verification Standard (ASVS) – Communication Security Verification Requirements (V10)

Other Articles in the OWASP Prevention Cheat Sheet Series

Authors and Primary Editors

Jim Manico - jim.manico[at]aspectsecurity.com

Kevin Wall - kevin.w.wall[at]gmail.com