.. python-ecdsa documentation master file, created by sphinx-quickstart on Sat May 29 18:34:49 2021. You can adapt this file completely to your liking, but it should at least contain the root `toctree` directive. Welcome to python-ecdsa's documentation! ======================================== ``ecdsa`` implements `elliptic-curve cryptography (ECC) `_, more specifically the `Elliptic Curve Digital Signature Algorithm (ECDSA) `_, `Edwards-curve Digital Signature Algorithm (EdDSA) `_ and the `Elliptic Curve Diffie-Hellman (ECDH) `_ algorithms. All of those algorithms are used in many protocols in practice, like in `TLS `_ or `SSH `_. This library provides key generation, signing, verifying, and shared secret derivation for five popular NIST "Suite B" GF(p) (*prime field*) curves, with key lengths of 192, 224, 256, 384, and 521 bits. The "short names" for these curves, as known by the OpenSSL tool (``openssl ecparam -list_curves``), are: ``prime192v1``, ``secp224r1``, ``prime256v1``, ``secp384r1``, and ``secp521r1``. It includes the 256-bit curve ``secp256k1`` used by Bitcoin. There is also support for the regular (non-twisted) variants of Brainpool curves from 160 to 512 bits. The "short names" of those curves are: ``brainpoolP160r1``, ``brainpoolP192r1``, ``brainpoolP224r1``, ``brainpoolP256r1``, ``brainpoolP320r1``, ``brainpoolP384r1``, ``brainpoolP512r1``. Few of the small curves from SEC standard are also included (mainly to speed-up testing of the library), those are: ``secp112r1``, ``secp112r2``, ``secp128r1``, and ``secp160r1``. Key generation, signing and verifying is also supported for Ed25519 and Ed448 curves. No other curves are included, but it is not too hard to add support for more curves over prime fields. .. toctree:: :maxdepth: 2 :caption: Contents: :hidden: quickstart basics ec_arithmetic glossary modules Indices and tables ================== * :ref:`genindex` * :ref:`modindex` * :ref:`glossary` * :ref:`search`