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d3505ecb46
Handling of special cases in ECDSA point arithmetic |
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gui | ||
.gitignore | ||
aes_modes.c | ||
aes.h | ||
aescrypt.c | ||
aeskey.c | ||
aesopt.h | ||
aestab.c | ||
aestab.h | ||
AUTHORS | ||
base58.c | ||
base58.h | ||
bignum.c | ||
bignum.h | ||
bip32.c | ||
bip32.h | ||
bip39_english.h | ||
bip39.c | ||
bip39.h | ||
CMakeLists.txt | ||
ecdsa.c | ||
ecdsa.h | ||
hmac.c | ||
hmac.h | ||
LICENSE | ||
Makefile | ||
pbkdf2.c | ||
pbkdf2.h | ||
rand.c | ||
rand.h | ||
README | ||
ripemd160.c | ||
ripemd160.h | ||
secp256k1.c | ||
secp256k1.h | ||
sha2.c | ||
sha2.h | ||
test-openssl.c | ||
tests.c |
trezor-crypto ============= Heavily optimized cryptography algorithms for embedded devices. These include: - AES/Rijndael encryption/decryption - Big Number (256 bit) Arithmetics - BIP32 Hierarchical Deterministic Wallets - BIP39 Mnemonic code - ECDSA signing/verifying (only hardcoded secp256k1 curve, uses RFC6979 for deterministic signatures) - ECDSA public key derivation + Base58 address representation - HMAC-SHA256 and HMAC-SHA512 - PBKDF2 - RIPEMD-160 - SHA256/SHA512 - unit tests (using Check - check.sf.net; in tests.c) - tests against OpenSSL (in test-openssl.c) Distibuted under MIT License.