I'm currently researching the possibility of speeding up ECDSA signature verification via OpenCL in Bitcoin.
For this task I will first of all need both a bignum implementation in C (since OpenCL code is a subset of C), and an implementation of elliptic curve math, also in C. OpenSSL has very well-tested implementations of both these libraries, so my plan is to extract these two components from the "crypto"-part of OpenSSL, and see if I can adapt the resulting C code to OpenCL-compatible code (by replacing all dynamic memory allocation with static allocation, for one thing).
My current knowledge on the subject suggests there are no readily available tools for accomplishing this. I have looked at other SO questions, and one of them suggested writing a Python script which will extract a function and all of its dependencies. To get started with this it would be useful to have one single, preprocessed file containing all the source code used by the crypto-part of OpenSSL. Is there an easy way to do this?
When, or if, this is accomplished, I will have to write a script that can extract a function from a source file given its name. I figure the script should then recursively call itself for any new, unknown function that it sees in the function it's trying to extract, and extract this as well, repeating this process recursively in the child functions it visits. Does this seem like a sensible approach?