lokinet/llarp/crypto_libsodium.cpp

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#include <assert.h>
#include <crypto.h>
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#include <sodium/crypto_generichash.h>
#include <sodium/crypto_sign.h>
#include <sodium/crypto_scalarmult.h>
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#include <sodium/crypto_stream_xchacha20.h>
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#include <crypto.hpp>
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#include "mem.hpp"
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extern "C"
{
extern int
sodium_init(void);
}
namespace llarp
{
namespace sodium
{
static bool
xchacha20(llarp_buffer_t buff, const byte_t *k, const byte_t *n)
{
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return crypto_stream_xchacha20_xor(buff.base, buff.base, buff.sz, n, k)
== 0;
}
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static bool
dh(uint8_t *out, const uint8_t *client_pk, const uint8_t *server_pk,
const uint8_t *themPub, const uint8_t *usSec)
{
llarp::SharedSecret shared;
crypto_generichash_state h;
const size_t outsz = SHAREDKEYSIZE;
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if(crypto_scalarmult_curve25519(shared, usSec, themPub))
return false;
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crypto_generichash_blake2b_init(&h, nullptr, 0U, outsz);
crypto_generichash_blake2b_update(&h, client_pk, 32);
crypto_generichash_blake2b_update(&h, server_pk, 32);
crypto_generichash_blake2b_update(&h, shared, 32);
crypto_generichash_blake2b_final(&h, out, outsz);
return true;
}
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static bool
dh_client(uint8_t *shared, const uint8_t *pk, const uint8_t *sk,
const uint8_t *n)
{
llarp::SharedSecret dh_result;
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if(dh(dh_result, llarp::seckey_topublic(sk), pk, pk, sk))
{
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return crypto_generichash_blake2b(shared, 32, n, 32, dh_result, 32)
!= -1;
}
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llarp::LogWarn("crypto::dh_client - dh failed");
return false;
}
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static bool
dh_server(uint8_t *shared, const uint8_t *pk, const uint8_t *sk,
const uint8_t *n)
{
llarp::SharedSecret dh_result;
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if(dh(dh_result, pk, llarp::seckey_topublic(sk), pk, sk))
{
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return crypto_generichash_blake2b(shared, 32, n, 32, dh_result, 32)
!= -1;
}
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llarp::LogWarn("crypto::dh_server - dh failed");
return false;
}
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static bool
hash(uint8_t *result, llarp_buffer_t buff)
{
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return crypto_generichash_blake2b(result, HASHSIZE, buff.base, buff.sz,
nullptr, 0)
!= -1;
}
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static bool
shorthash(uint8_t *result, llarp_buffer_t buff)
{
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return crypto_generichash_blake2b(result, SHORTHASHSIZE, buff.base,
buff.sz, nullptr, 0)
!= -1;
}
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static bool
hmac(uint8_t *result, llarp_buffer_t buff, const uint8_t *secret)
{
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return crypto_generichash_blake2b(result, HMACSIZE, buff.base, buff.sz,
secret, HMACSECSIZE)
!= -1;
}
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static bool
sign(uint8_t *result, const uint8_t *secret, llarp_buffer_t buff)
{
return crypto_sign_detached(result, nullptr, buff.base, buff.sz, secret)
!= -1;
}
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static bool
verify(const uint8_t *pub, llarp_buffer_t buff, const uint8_t *sig)
{
return crypto_sign_verify_detached(sig, buff.base, buff.sz, pub) != -1;
}
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static void
randomize(llarp_buffer_t buff)
{
randombytes((unsigned char *)buff.base, buff.sz);
}
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static inline void
randbytes(void *ptr, size_t sz)
{
randombytes((unsigned char *)ptr, sz);
}
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static void
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sigkeygen(uint8_t *keys)
{
crypto_sign_keypair(keys + 32, keys);
}
static void
enckeygen(uint8_t *keys)
{
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randombytes(keys, 32);
crypto_scalarmult_curve25519_base(keys + 32, keys);
}
} // namespace sodium
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const byte_t *
seckey_topublic(const byte_t *sec)
{
return sec + 32;
}
namespace pq
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{
bool
encrypt(byte_t *ciphertext, byte_t *sharedkey, const byte_t *pubkey)
{
return crypto_kem_enc(ciphertext, sharedkey, pubkey) != -1;
}
bool
decrypt(const byte_t *ciphertext, byte_t *sharedkey,
const byte_t *secretkey)
{
return crypto_kem_dec(sharedkey, ciphertext, secretkey) != -1;
}
void
keygen(byte_t *keypair)
{
crypto_kem_keypair(keypair + PQ_SECRETKEYSIZE, keypair);
}
} // namespace pq
const byte_t *
pq_keypair_to_public(const byte_t *k)
{
return k + PQ_SECRETKEYSIZE;
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}
const byte_t *
pq_keypair_to_secret(const byte_t *k)
{
return k;
}
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Crypto::Crypto(Crypto::sodium tag)
{
(void)tag;
assert(sodium_init() != -1);
char *avx2 = std::getenv("AVX2_FORCE_DISABLE");
if(avx2 && std::string(avx2) == "1")
ntru_init(1);
else
ntru_init(0);
this->xchacha20 = llarp::sodium::xchacha20;
this->dh_client = llarp::sodium::dh_client;
this->dh_server = llarp::sodium::dh_server;
this->transport_dh_client = llarp::sodium::dh_client;
this->transport_dh_server = llarp::sodium::dh_server;
this->hash = llarp::sodium::hash;
this->shorthash = llarp::sodium::shorthash;
this->hmac = llarp::sodium::hmac;
this->sign = llarp::sodium::sign;
this->verify = llarp::sodium::verify;
this->randomize = llarp::sodium::randomize;
this->randbytes = llarp::sodium::randbytes;
this->identity_keygen = llarp::sodium::sigkeygen;
this->encryption_keygen = llarp::sodium::enckeygen;
this->pqe_encrypt = llarp::pq::encrypt;
this->pqe_decrypt = llarp::pq::decrypt;
this->pqe_keygen = llarp::pq::keygen;
int seed = 0;
this->randbytes(&seed, sizeof(seed));
srand(seed);
}
uint64_t
randint()
{
uint64_t i;
randombytes((byte_t *)&i, sizeof(i));
return i;
}
} // namespace llarp