This comes with a couple bugfixes and the following API changes:
- Secp256k1::sign and ::sign_compact no longer return Result;
it is impossible to trigger their failure modes with safe
code since the `Message` and `SecretKey` types validate when
they are created.
- constants::MAX_COMPACT_SIGNATURE_SIZE loses the MAX_; signatures
are always constant size
- the Debug output for everything is now hex-encoded rather than
being a list of base-10 ints. It's just easier to read this way.
kcov v26 now reports 100% test coverage; however, this does not
guarantee that test coverage is actually complete. Patches are
always welcome for improved unit tests.
Now that you can't create secret keys by directly passing a Rng to
`SecretKey::new`, we need a way to allow user-chosed randomness.
We add it to the `Secp256k1`.
Rather than have global initialization functions, which required
expensive synchronization on the part of the Rust library,
libsecp256k1 now carries its context in thread-local data which
must be passed to every function.
What this means for the rust-secp256k1 API is:
- Most functions on `PublicKey` and `SecretKey` now require a
`Secp256k1` to be given to them.
- `Secp256k1::verify` and `::verify_raw` now take a `&self`
- `SecretKey::new` now takes a `Secp256k1` rather than a Rng; a
future commit will allow specifying the Rng in the `Secp256k1`
so that functionality is not lost.
- The FFI functions have all changed to take a context argument
- `secp256k1::init()` is gone, as is the dependency on std::sync
- There is a `ffi::Context` type which must be handled carefully
by anyone using it directly (hopefully nobody :))