Index: sys/dev/random/fortuna.c =================================================================== --- sys/dev/random/fortuna.c +++ sys/dev/random/fortuna.c @@ -301,20 +301,16 @@ static __inline void random_fortuna_genblocks(uint8_t *buf, u_int blockcount) { - u_int i; RANDOM_RESEED_ASSERT_LOCK_OWNED(); KASSERT(!uint128_is_zero(fortuna_state.fs_counter), ("FS&K: C != 0")); - for (i = 0; i < blockcount; i++) { - /*- - * FS&K - r = r|E(K,C) - * - C = C + 1 - */ - randomdev_encrypt(&fortuna_state.fs_key, &fortuna_state.fs_counter, buf, RANDOM_BLOCKSIZE); - buf += RANDOM_BLOCKSIZE; - uint128_increment(&fortuna_state.fs_counter); - } + /* + * Fills buf with RANDOM_BLOCKSIZE * blockcount bytes of keystream. + * Increments fs_counter as it goes. + */ + randomdev_keystream(&fortuna_state.fs_key, &fortuna_state.fs_counter, + buf, blockcount); } /*- Index: sys/dev/random/hash.h =================================================================== --- sys/dev/random/hash.h +++ sys/dev/random/hash.h @@ -29,6 +29,8 @@ #ifndef SYS_DEV_RANDOM_HASH_H_INCLUDED #define SYS_DEV_RANDOM_HASH_H_INCLUDED +#include + /* Keys are formed from cipher blocks */ #define RANDOM_KEYSIZE 32 /* (in bytes) == 256 bits */ #define RANDOM_KEYSIZE_WORDS (RANDOM_KEYSIZE/sizeof(uint32_t)) @@ -52,6 +54,6 @@ void randomdev_hash_iterate(struct randomdev_hash *, const void *, size_t); void randomdev_hash_finish(struct randomdev_hash *, void *); void randomdev_encrypt_init(struct randomdev_key *, const void *); -void randomdev_encrypt(struct randomdev_key *context, const void *, void *, u_int); +void randomdev_keystream(struct randomdev_key *context, uint128_t *, void *, u_int); #endif /* SYS_DEV_RANDOM_HASH_H_INCLUDED */ Index: sys/dev/random/hash.c =================================================================== --- sys/dev/random/hash.c +++ sys/dev/random/hash.c @@ -88,13 +88,26 @@ rijndael_makeKey(&context->key, DIR_ENCRYPT, RANDOM_KEYSIZE*8, data); } -/* Encrypt the supplied data using the key schedule preset in the context. - * bytes are encrypted from <*d_in> to <*d_out>. must be - * a multiple of RANDOM_BLOCKSIZE. +/* + * Create a psuedorandom output stream of 'blockcount' blocks using a CTR-mode + * cipher or similar. The 128-bit counter is supplied in the in-out parmeter + * 'ctr.' The output stream goes to 'd_out.' 'blockcount' RANDOM_BLOCKSIZE + * bytes are generated. */ void -randomdev_encrypt(struct randomdev_key *context, const void *d_in, void *d_out, u_int length) +randomdev_keystream(struct randomdev_key *context, uint128_t *ctr, + void *d_out, u_int blockcount) { + u_int i; - rijndael_blockEncrypt(&context->cipher, &context->key, d_in, length*8, d_out); + for (i = 0; i < blockcount; i++) { + /*- + * FS&K - r = r|E(K,C) + * - C = C + 1 + */ + rijndael_blockEncrypt(&context->cipher, &context->key, + (void *)ctr, RANDOM_BLOCKSIZE * 8, d_out); + d_out = (char *)d_out + RANDOM_BLOCKSIZE; + uint128_increment(ctr); + } }