// SPDX-License-Identifier: GPL-2.0 OR MIT /* * Copyright (C) 2015-2019 Jason A. Donenfeld . All Rights Reserved. * * This is an implementation of the Curve25519 ECDH algorithm, using either * a 32-bit implementation or a 64-bit implementation with 128-bit integers, * depending on what is supported by the target compiler. * * Information: https://cr.yp.to/ecdh.html */ #include #include "../selftest/run.h" #include #include #include #include #include #include // For crypto_memneq. #if defined(CONFIG_ZINC_ARCH_X86_64) #include "curve25519-x86_64-glue.c" #elif defined(CONFIG_ZINC_ARCH_ARM) #include "curve25519-arm-glue.c" #else static bool *const curve25519_nobs[] __initconst = { }; static void __init curve25519_fpu_init(void) { } static inline bool curve25519_arch(u8 mypublic[CURVE25519_KEY_SIZE], const u8 secret[CURVE25519_KEY_SIZE], const u8 basepoint[CURVE25519_KEY_SIZE]) { return false; } static inline bool curve25519_base_arch(u8 pub[CURVE25519_KEY_SIZE], const u8 secret[CURVE25519_KEY_SIZE]) { return false; } #endif #if defined(CONFIG_ARCH_SUPPORTS_INT128) && defined(__SIZEOF_INT128__) #include "curve25519-hacl64.c" #else #include "curve25519-fiat32.c" #endif static const u8 null_point[CURVE25519_KEY_SIZE] = { 0 }; bool curve25519(u8 mypublic[CURVE25519_KEY_SIZE], const u8 secret[CURVE25519_KEY_SIZE], const u8 basepoint[CURVE25519_KEY_SIZE]) { if (!curve25519_arch(mypublic, secret, basepoint)) curve25519_generic(mypublic, secret, basepoint); return crypto_memneq(mypublic, null_point, CURVE25519_KEY_SIZE); } bool curve25519_generate_public(u8 pub[CURVE25519_KEY_SIZE], const u8 secret[CURVE25519_KEY_SIZE]) { static const u8 basepoint[CURVE25519_KEY_SIZE] __aligned(32) = { 9 }; if (unlikely(!crypto_memneq(secret, null_point, CURVE25519_KEY_SIZE))) return false; if (curve25519_base_arch(pub, secret)) return crypto_memneq(pub, null_point, CURVE25519_KEY_SIZE); return curve25519(pub, secret, basepoint); } void curve25519_generate_secret(u8 secret[CURVE25519_KEY_SIZE]) { get_random_bytes_wait(secret, CURVE25519_KEY_SIZE); curve25519_clamp_secret(secret); } #include "../selftest/curve25519.c" static bool nosimd __initdata = false; #ifndef COMPAT_ZINC_IS_A_MODULE int __init curve25519_mod_init(void) #else static int __init mod_init(void) #endif { if (!nosimd) curve25519_fpu_init(); if (!selftest_run("curve25519", curve25519_selftest, curve25519_nobs, ARRAY_SIZE(curve25519_nobs))) return -ENOTRECOVERABLE; return 0; } #ifdef COMPAT_ZINC_IS_A_MODULE static void __exit mod_exit(void) { } module_param(nosimd, bool, 0); module_init(mod_init); module_exit(mod_exit); MODULE_LICENSE("GPL v2"); MODULE_DESCRIPTION("Curve25519 scalar multiplication"); MODULE_AUTHOR("Jason A. Donenfeld "); #endif