Mercurial > dropbear
view libtomcrypt/src/prngs/yarrow.c @ 1672:3a97f14c0235
Add Chacha20-Poly1305, AES128-GCM and AES256-GCM support (#93)
* Add Chacha20-Poly1305 authenticated encryption
* Add general AEAD approach.
* Add [email protected] algo using LibTomCrypt chacha and
poly1305 routines.
Chacha20-Poly1305 is generally faster than AES256 on CPU w/o dedicated
AES instructions, having the same key size.
Compiling in will add ~5,5kB to binary size on x86-64.
function old new delta
chacha_crypt - 1397 +1397
_poly1305_block - 608 +608
poly1305_done - 595 +595
dropbear_chachapoly_crypt - 457 +457
.rodata 26976 27392 +416
poly1305_process - 290 +290
poly1305_init - 221 +221
chacha_setup - 218 +218
encrypt_packet 1068 1270 +202
dropbear_chachapoly_getlength - 147 +147
decrypt_packet 756 897 +141
chacha_ivctr64 - 137 +137
read_packet 543 637 +94
dropbear_chachapoly_start - 94 +94
read_kex_algos 792 880 +88
chacha_keystream - 69 +69
dropbear_mode_chachapoly - 48 +48
sshciphers 280 320 +40
dropbear_mode_none 24 48 +24
dropbear_mode_ctr 24 48 +24
dropbear_mode_cbc 24 48 +24
dropbear_chachapoly_mac - 24 +24
dropbear_chachapoly - 24 +24
gen_new_keys 848 854 +6
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(add/remove: 14/0 grow/shrink: 10/0 up/down: 5388/0) Total: 5388 bytes
* Add AES128-GCM and AES256-GCM authenticated encryption
* Add general AES-GCM mode.
* Add [email protected] and [email protected] algo using
LibTomCrypt gcm routines.
AES-GCM is combination of AES CTR mode and GHASH, slower than AES-CTR on
CPU w/o dedicated AES/GHASH instructions therefore disabled by default.
Compiling in will add ~6kB to binary size on x86-64.
function old new delta
gcm_process - 1060 +1060
.rodata 26976 27808 +832
gcm_gf_mult - 820 +820
gcm_add_aad - 660 +660
gcm_shift_table - 512 +512
gcm_done - 471 +471
gcm_add_iv - 384 +384
gcm_init - 347 +347
dropbear_gcm_crypt - 309 +309
encrypt_packet 1068 1270 +202
decrypt_packet 756 897 +141
gcm_reset - 118 +118
read_packet 543 637 +94
read_kex_algos 792 880 +88
sshciphers 280 360 +80
gcm_mult_h - 80 +80
dropbear_gcm_start - 62 +62
dropbear_mode_gcm - 48 +48
dropbear_mode_none 24 48 +24
dropbear_mode_ctr 24 48 +24
dropbear_mode_cbc 24 48 +24
dropbear_ghash - 24 +24
dropbear_gcm_getlength - 24 +24
gen_new_keys 848 854 +6
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(add/remove: 14/0 grow/shrink: 10/0 up/down: 6434/0) Total: 6434 bytes
author | Vladislav Grishenko <themiron@users.noreply.github.com> |
---|---|
date | Mon, 25 May 2020 20:50:25 +0500 |
parents | 6dba84798cd5 |
children |
line wrap: on
line source
/* LibTomCrypt, modular cryptographic library -- Tom St Denis * * LibTomCrypt is a library that provides various cryptographic * algorithms in a highly modular and flexible manner. * * The library is free for all purposes without any express * guarantee it works. */ #include "tomcrypt.h" /** @file yarrow.c Yarrow PRNG, Tom St Denis */ #ifdef LTC_YARROW const struct ltc_prng_descriptor yarrow_desc = { "yarrow", 64, &yarrow_start, &yarrow_add_entropy, &yarrow_ready, &yarrow_read, &yarrow_done, &yarrow_export, &yarrow_import, &yarrow_test }; /** Start the PRNG @param prng [out] The PRNG state to initialize @return CRYPT_OK if successful */ int yarrow_start(prng_state *prng) { int err; LTC_ARGCHK(prng != NULL); prng->ready = 0; /* these are the default hash/cipher combo used */ #ifdef LTC_RIJNDAEL #if LTC_YARROW_AES==0 prng->yarrow.cipher = register_cipher(&rijndael_enc_desc); #elif LTC_YARROW_AES==1 prng->yarrow.cipher = register_cipher(&aes_enc_desc); #elif LTC_YARROW_AES==2 prng->yarrow.cipher = register_cipher(&rijndael_desc); #elif LTC_YARROW_AES==3 prng->yarrow.cipher = register_cipher(&aes_desc); #endif #elif defined(LTC_BLOWFISH) prng->yarrow.cipher = register_cipher(&blowfish_desc); #elif defined(LTC_TWOFISH) prng->yarrow.cipher = register_cipher(&twofish_desc); #elif defined(LTC_RC6) prng->yarrow.cipher = register_cipher(&rc6_desc); #elif defined(LTC_RC5) prng->yarrow.cipher = register_cipher(&rc5_desc); #elif defined(LTC_SAFERP) prng->yarrow.cipher = register_cipher(&saferp_desc); #elif defined(LTC_RC2) prng->yarrow.cipher = register_cipher(&rc2_desc); #elif defined(LTC_NOEKEON) prng->yarrow.cipher = register_cipher(&noekeon_desc); #elif defined(LTC_ANUBIS) prng->yarrow.cipher = register_cipher(&anubis_desc); #elif defined(LTC_KSEED) prng->yarrow.cipher = register_cipher(&kseed_desc); #elif defined(LTC_KHAZAD) prng->yarrow.cipher = register_cipher(&khazad_desc); #elif defined(LTC_CAST5) prng->yarrow.cipher = register_cipher(&cast5_desc); #elif defined(LTC_XTEA) prng->yarrow.cipher = register_cipher(&xtea_desc); #elif defined(LTC_SAFER) prng->yarrow.cipher = register_cipher(&safer_sk128_desc); #elif defined(LTC_DES) prng->yarrow.cipher = register_cipher(&des3_desc); #else #error LTC_YARROW needs at least one CIPHER #endif if ((err = cipher_is_valid(prng->yarrow.cipher)) != CRYPT_OK) { return err; } #ifdef LTC_SHA256 prng->yarrow.hash = register_hash(&sha256_desc); #elif defined(LTC_SHA512) prng->yarrow.hash = register_hash(&sha512_desc); #elif defined(LTC_TIGER) prng->yarrow.hash = register_hash(&tiger_desc); #elif defined(LTC_SHA1) prng->yarrow.hash = register_hash(&sha1_desc); #elif defined(LTC_RIPEMD320) prng->yarrow.hash = register_hash(&rmd320_desc); #elif defined(LTC_RIPEMD256) prng->yarrow.hash = register_hash(&rmd256_desc); #elif defined(LTC_RIPEMD160) prng->yarrow.hash = register_hash(&rmd160_desc); #elif defined(LTC_RIPEMD128) prng->yarrow.hash = register_hash(&rmd128_desc); #elif defined(LTC_MD5) prng->yarrow.hash = register_hash(&md5_desc); #elif defined(LTC_MD4) prng->yarrow.hash = register_hash(&md4_desc); #elif defined(LTC_MD2) prng->yarrow.hash = register_hash(&md2_desc); #elif defined(LTC_WHIRLPOOL) prng->yarrow.hash = register_hash(&whirlpool_desc); #else #error LTC_YARROW needs at least one HASH #endif if ((err = hash_is_valid(prng->yarrow.hash)) != CRYPT_OK) { return err; } /* zero the memory used */ zeromem(prng->yarrow.pool, sizeof(prng->yarrow.pool)); LTC_MUTEX_INIT(&prng->lock) return CRYPT_OK; } /** Add entropy to the PRNG state @param in The data to add @param inlen Length of the data to add @param prng PRNG state to update @return CRYPT_OK if successful */ int yarrow_add_entropy(const unsigned char *in, unsigned long inlen, prng_state *prng) { hash_state md; int err; LTC_ARGCHK(prng != NULL); LTC_ARGCHK(in != NULL); LTC_ARGCHK(inlen > 0); LTC_MUTEX_LOCK(&prng->lock); if ((err = hash_is_valid(prng->yarrow.hash)) != CRYPT_OK) { goto LBL_UNLOCK; } /* start the hash */ if ((err = hash_descriptor[prng->yarrow.hash].init(&md)) != CRYPT_OK) { goto LBL_UNLOCK; } /* hash the current pool */ if ((err = hash_descriptor[prng->yarrow.hash].process(&md, prng->yarrow.pool, hash_descriptor[prng->yarrow.hash].hashsize)) != CRYPT_OK) { goto LBL_UNLOCK; } /* add the new entropy */ if ((err = hash_descriptor[prng->yarrow.hash].process(&md, in, inlen)) != CRYPT_OK) { goto LBL_UNLOCK; } /* store result */ err = hash_descriptor[prng->yarrow.hash].done(&md, prng->yarrow.pool); LBL_UNLOCK: LTC_MUTEX_UNLOCK(&prng->lock); return err; } /** Make the PRNG ready to read from @param prng The PRNG to make active @return CRYPT_OK if successful */ int yarrow_ready(prng_state *prng) { int ks, err; LTC_ARGCHK(prng != NULL); LTC_MUTEX_LOCK(&prng->lock); if ((err = hash_is_valid(prng->yarrow.hash)) != CRYPT_OK) { goto LBL_UNLOCK; } if ((err = cipher_is_valid(prng->yarrow.cipher)) != CRYPT_OK) { goto LBL_UNLOCK; } /* setup CTR mode using the "pool" as the key */ ks = (int)hash_descriptor[prng->yarrow.hash].hashsize; if ((err = cipher_descriptor[prng->yarrow.cipher].keysize(&ks)) != CRYPT_OK) { goto LBL_UNLOCK; } if ((err = ctr_start(prng->yarrow.cipher, /* what cipher to use */ prng->yarrow.pool, /* IV */ prng->yarrow.pool, ks, /* KEY and key size */ 0, /* number of rounds */ CTR_COUNTER_LITTLE_ENDIAN, /* little endian counter */ &prng->yarrow.ctr)) != CRYPT_OK) { goto LBL_UNLOCK; } prng->ready = 1; LBL_UNLOCK: LTC_MUTEX_UNLOCK(&prng->lock); return err; } /** Read from the PRNG @param out Destination @param outlen Length of output @param prng The active PRNG to read from @return Number of octets read */ unsigned long yarrow_read(unsigned char *out, unsigned long outlen, prng_state *prng) { if (outlen == 0 || prng == NULL || out == NULL) return 0; LTC_MUTEX_LOCK(&prng->lock); if (!prng->ready) { outlen = 0; goto LBL_UNLOCK; } /* put out in predictable state first */ zeromem(out, outlen); /* now randomize it */ if (ctr_encrypt(out, out, outlen, &prng->yarrow.ctr) != CRYPT_OK) { outlen = 0; } LBL_UNLOCK: LTC_MUTEX_UNLOCK(&prng->lock); return outlen; } /** Terminate the PRNG @param prng The PRNG to terminate @return CRYPT_OK if successful */ int yarrow_done(prng_state *prng) { int err; LTC_ARGCHK(prng != NULL); LTC_MUTEX_LOCK(&prng->lock); prng->ready = 0; /* call cipher done when we invent one ;-) */ /* we invented one */ err = ctr_done(&prng->yarrow.ctr); LTC_MUTEX_UNLOCK(&prng->lock); LTC_MUTEX_DESTROY(&prng->lock); return err; } /** Export the PRNG state @param out [out] Destination @param outlen [in/out] Max size and resulting size of the state @param prng The PRNG to export @return CRYPT_OK if successful */ int yarrow_export(unsigned char *out, unsigned long *outlen, prng_state *prng) { unsigned long len = yarrow_desc.export_size; LTC_ARGCHK(out != NULL); LTC_ARGCHK(outlen != NULL); LTC_ARGCHK(prng != NULL); if (*outlen < len) { *outlen = len; return CRYPT_BUFFER_OVERFLOW; } if (yarrow_read(out, len, prng) != len) { return CRYPT_ERROR_READPRNG; } *outlen = len; return CRYPT_OK; } /** Import a PRNG state @param in The PRNG state @param inlen Size of the state @param prng The PRNG to import @return CRYPT_OK if successful */ int yarrow_import(const unsigned char *in, unsigned long inlen, prng_state *prng) { int err; LTC_ARGCHK(in != NULL); LTC_ARGCHK(prng != NULL); if (inlen < (unsigned long)yarrow_desc.export_size) return CRYPT_INVALID_ARG; if ((err = yarrow_start(prng)) != CRYPT_OK) return err; if ((err = yarrow_add_entropy(in, inlen, prng)) != CRYPT_OK) return err; return CRYPT_OK; } /** PRNG self-test @return CRYPT_OK if successful, CRYPT_NOP if self-testing has been disabled */ int yarrow_test(void) { #ifndef LTC_TEST return CRYPT_NOP; #else int err; prng_state prng; if ((err = yarrow_start(&prng)) != CRYPT_OK) { return err; } /* now let's test the hash/cipher that was chosen */ if (cipher_descriptor[prng.yarrow.cipher].test && ((err = cipher_descriptor[prng.yarrow.cipher].test()) != CRYPT_OK)) { return err; } if (hash_descriptor[prng.yarrow.hash].test && ((err = hash_descriptor[prng.yarrow.hash].test()) != CRYPT_OK)) { return err; } return CRYPT_OK; #endif } #endif /* ref: $Format:%D$ */ /* git commit: $Format:%H$ */ /* commit time: $Format:%ai$ */