3.8 KiB
Project Wycheproof
This page describes the goals and strategies of project Wycheproof. See README for an introduction to the project.
Defense in depth
There are a number of tests where we check for expected behaviour rather than exploitability. Examples:
- default values: we expect that default values are reasonable and correspond to recommendations by current standards. Concretely, in 2016 it is not OK if an RSA key generation uses 1024 bits as default or digital signatures use SHA-1 as default.
- timing attacks: any timing that relation between keys (or other sensitive) data and the measured time fails the test. However tests are set up such that too much noise during the test can prevent that a relation is detected.
- wrong exceptions: The JCE interface often specifies the exceptions that should be thrown when the input is invalid. We expect the specified exceptions in the tests.
- leaking information through exceptions: While it is a good practice to not return detailed logs to a sender, we consider text in exceptions as information that a potential attacker can learn. For example padding failures during decryption should not contain information about the reason why a decryption failed.
- RSA PKCS #1 signatures: If a signature verification allows signatures with lots of modifications, then RSA signatures can be forged for small public exponents. Tests do not measure how many bytes can be modified. Any accepted modification of the PKCS #1 padding fails the test.
Compatibility between providers
One of the goals of Wycheproof is to test for compatibility issues. Switching JCE providers should not introduce vulnerabilities simply because the solution was developed by another provider.
An example for this was the following observation: When using AES-GCM then javax.crypto.CipherInputStream worked sort of with JCE and org.bouncycastle.jcajce.io.CipherInputStream.java worked with BouncyCastle. However, authentication was skipped in some cases when javax.crypto.CipherInputStream was used with BouncyCastle.
Comparing cryptographic libraries is not a primary goal
Because of the strategies mentioned above we expect that a comparison of cryptographic libraries based on the bugs found would be biased:
- Libraries used internally in Google get more attention. Serious vulnerabilities in these libraries should be fixed at the time the tests are added to Wycheproof. On the other hand it is also likely that tests find a larger number of bugs in these libraries when old versions are tested.
- Tests often check for expected behaviour and compatibility. Expected behaviour is often defined by a prominent library. Pointing out such problems can therefore penalize smaller third party libraries.
- We are working toward covering as many potential vulnerabilities as possible with test vectors, because this simplifies porting the tests to other languages or interfaces. Thus a single test case can cover multiple vulnerabilities.
We are not trying to remove this bias when this interferes with more important goals such as early reporting. Hence we are reluctant to publish comparisons.
Thoughts on the design of cryptographic libraries
We should promote robust interfaces with the goal to simplify the use of the library, code reviews of applications using the library and testing the library.
- When cryptographic primitives require randomness then the random numbers should be chosen by the library. It shouldn't be possible for a user to provide randomness. If the library itself chooses the randomness then it is possible (at least to some degree) to check that the random number generation is appropriate for the primitive. If the user can provide the randomness then it is not possible to catch this in our tests.