commit | 622a7f82ac9f5e9b2871de4acd59799f45fa5d3b | [log] [tgz] |
---|---|---|
author | Ken MacKay <kmackay@gmail.com> | Wed Oct 07 09:59:11 2020 -0700 |
committer | GitHub <noreply@github.com> | Wed Oct 07 09:59:11 2020 -0700 |
tree | 2f18cec793c8580862da7c5d39ab9c1afcd30b29 | |
parent | 8935f0b94b5d3b1275a1a25b6e531d2a857cff82 [diff] | |
parent | 725f37d601dc18291893de394322d6bfdd23d7f1 [diff] |
Merge pull request #135 from junjiequ/patch-1 Update README.md
A small and fast ECDH and ECDSA implementation for 8-bit, 32-bit, and 64-bit processors.
The static version of micro-ecc (ie, where the curve was selected at compile-time) can be found in the “static” branch.
Compressed points are represented in the standard format as defined in http://www.secg.org/sec1-v2.pdf; uncompressed points are represented in standard format, but without the 0x04
prefix. All functions except uECC_decompress()
only accept uncompressed points; use uECC_compress()
and uECC_decompress()
to convert between compressed and uncompressed point representations.
Private keys are represented in the standard format.
I recommend just copying (or symlink) the uECC files into your project. Then just #include "uECC.h"
to use the micro-ecc functions.
For use with Arduino, you can use the Library Manager to download micro-ecc (Sketch=>Include Library=>Manage Libraries). You can then use uECC just like any other Arduino library (uECC should show up in the Sketch=>Import Library submenu).
See uECC.h for documentation for each function.
uECC_OPTIMIZATION_LEVEL
), you must change them in your Makefile or similar so that uECC.c is compiled with the desired values (ie, compile uECC.c with -DuECC_OPTIMIZATION_LEVEL=3
or whatever).-fomit-frame-pointer
GCC option (this is enabled by default when compiling with -O1
or higher).uECC_OPTIMIZATION_LEVEL
>= 3, you must use the -fomit-frame-pointer
GCC option (this is enabled by default when compiling with -O1
or higher).-O1
or higher).advapi32.lib
system library.