Implement a fast aes-ctr prng

This module is currently implemented to use the same technique as
libottery (later used by the bsds' arc4random replacement), using
AES-CTR-256 as its underlying stream cipher.  It's backtracking-
resistant immediately after each call, and prediction-resistant
after a while.

Here's how it works:

We generate psuedorandom bytes using AES-CTR-256.  We generate BUFLEN bytes
at a time.  When we do this, we keep the first SEED_LEN bytes as the key
and the IV for our next invocation of AES_CTR, and yield the remaining
BUFLEN - SEED_LEN bytes to the user as they invoke the PRNG.  As we yield
bytes to the user, we clear them from the buffer.

Every RESEED_AFTER times we refill the buffer, we mix in an additional
SEED_LEN bytes from our strong PRNG into the seed.

If the user ever asks for a huge number of bytes at once, we pull SEED_LEN
bytes from the PRNG and use them with our stream cipher to fill the user's
request.

5 files changed, 459 insertions, 10 deletions

diff --git a/src/lib/crypt_ops/crypto_rand.h b/src/lib/crypt_ops/crypto_rand.h
index cc2762842a..8a81a4acdc 100644
--- a/src/lib/crypt_ops/crypto_rand.h
+++ b/src/lib/crypt_ops/crypto_rand.h
@@ -16,6 +16,7 @@
 #include "lib/cc/compat_compiler.h"
 #include "lib/cc/torint.h"
 #include "lib/testsupport/testsupport.h"
+#include "lib/malloc/malloc.h"
 
 /* random numbers */
 int crypto_seed_rng(void) ATTR_WUR;
@@ -24,6 +25,7 @@ void crypto_rand_unmocked(char *to, size_t n);
 void crypto_strongest_rand(uint8_t *out, size_t out_len);
 MOCK_DECL(void,crypto_strongest_rand_,(uint8_t *out, size_t out_len));
 int crypto_rand_int(unsigned int max);
+unsigned crypto_rand_uint(unsigned limit);
 int crypto_rand_int_range(unsigned int min, unsigned int max);
 uint64_t crypto_rand_uint64_range(uint64_t min, uint64_t max);
 time_t crypto_rand_time_range(time_t min, time_t max);
@@ -41,6 +43,36 @@ void *smartlist_choose(const struct smartlist_t *sl);
 void smartlist_shuffle(struct smartlist_t *sl);
 int crypto_force_rand_ssleay(void);
 
+/**
+ * A fast PRNG, for use when the PRNG provided by our crypto library isn't
+ * fast enough.  This one _should_ be cryptographically strong, but
+ * has seen less auditing than the PRNGs in OpenSSL and NSS.  Use with
+ * caution.
+ *
+ * Note that this object is NOT thread-safe.  If you need a thread-safe
+ * prng, use crypto_rand(), or wrap this in a mutex.
+ **/
+typedef struct crypto_fast_rng_t crypto_fast_rng_t;
+/**
+ * Number of bytes used to seed a crypto_rand_fast_t.
+ **/
+crypto_fast_rng_t *crypto_fast_rng_new(void);
+#define CRYPTO_FAST_RNG_SEED_LEN 48
+crypto_fast_rng_t *crypto_fast_rng_new_from_seed(const uint8_t *seed);
+void crypto_fast_rng_getbytes(crypto_fast_rng_t *rng, uint8_t *out, size_t n);
+void crypto_fast_rng_free_(crypto_fast_rng_t *);
+#define crypto_fast_rng_free(c)                                 \
+  FREE_AND_NULL(crypto_fast_rng_t, crypto_fast_rng_free_, (c))
+
+unsigned crypto_fast_rng_get_uint(crypto_fast_rng_t *rng, unsigned limit);
+uint64_t crypto_fast_rng_get_uint64(crypto_fast_rng_t *rng, uint64_t limit);
+double crypto_fast_rng_get_double(crypto_fast_rng_t *rng);
+
+#if defined(TOR_UNIT_TESTS)
+/* Used for white-box testing */
+size_t crypto_fast_rng_get_bytes_used_per_stream(void);
+#endif
+
 #ifdef CRYPTO_RAND_PRIVATE
 
 STATIC int crypto_strongest_rand_raw(uint8_t *out, size_t out_len);
diff --git a/src/lib/crypt_ops/crypto_rand_fast.c b/src/lib/crypt_ops/crypto_rand_fast.c
new file mode 100644
index 0000000000..34e763bf51
--- /dev/null
+++ b/src/lib/crypt_ops/crypto_rand_fast.c
@@ -0,0 +1,263 @@
+/* Copyright (c) 2001, Matej Pfajfar.
+ * Copyright (c) 2001-2004, Roger Dingledine.
+ * Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
+ * Copyright (c) 2007-2019, The Tor Project, Inc. */
+/* See LICENSE for licensing information */
+
+/**
+ * \file crypto_rand_fast.c
+ *
+ * \brief A fast strong PRNG for use when our underlying cryptographic
+ *   library's PRNG isn't fast enough.
+ **/
+
+/* This library is currently implemented to use the same implementation
+ * technique as libottery, using AES-CTR-256 as our underlying stream cipher.
+ * It's backtracking-resistant immediately, and prediction-resistant after
+ * a while.
+ *
+ * Here's how it works:
+ *
+ * We generate pseudorandom bytes using AES-CTR-256.  We generate BUFLEN bytes
+ * at a time.  When we do this, we keep the first SEED_LEN bytes as the key
+ * and the IV for our next invocation of AES_CTR, and yield the remaining
+ * BUFLEN - SEED_LEN bytes to the user as they invoke the PRNG.  As we yield
+ * bytes to the user, we clear them from the buffer.
+ *
+ * After we have refilled the buffer RESEED_AFTER times, we mix in an
+ * additional SEED_LEN bytes from our strong PRNG into the seed.
+ *
+ * If the user ever asks for a huge number of bytes at once, we pull SEED_LEN
+ * bytes from the PRNG and use them with our stream cipher to fill the user's
+ * request.
+ */
+
+#define CRYPTO_RAND_FAST_PRIVATE
+
+#include "lib/crypt_ops/crypto_rand.h"
+#include "lib/crypt_ops/crypto_cipher.h"
+#include "lib/crypt_ops/crypto_digest.h"
+#include "lib/crypt_ops/crypto_util.h"
+#include "lib/intmath/cmp.h"
+#include "lib/cc/ctassert.h"
+#include "lib/malloc/map_anon.h"
+
+#include "lib/log/util_bug.h"
+
+#include <string.h>
+
+/* Alias for CRYPTO_FAST_RNG_SEED_LEN to make our code shorter.
+ */
+#define SEED_LEN (CRYPTO_FAST_RNG_SEED_LEN)
+
+/* The amount of space that we mmap for a crypto_fast_rng_t.
+ */
+#define MAPLEN 4096
+
+/* The number of random bytes that we can yield to the user after each
+ * time we fill a crypto_fast_rng_t's buffer.
+ */
+#define BUFLEN (MAPLEN - 2*sizeof(uint16_t) - SEED_LEN)
+
+/* The number of buffer refills after which we should fetch more
+ * entropy from crypto_strongest_rand().
+ */
+#define RESEED_AFTER 16
+
+/* The length of the stream cipher key we will use for the PRNG, in bytes.
+ */
+#define KEY_LEN (CRYPTO_FAST_RNG_SEED_LEN - CIPHER_IV_LEN)
+/* The length of the stream cipher key we will use for the PRNG, in bits.
+ */
+#define KEY_BITS (KEY_LEN * 8)
+
+/* Make sure that we have a key length we can actually use with AES. */
+CTASSERT(KEY_BITS == 128 || KEY_BITS == 192 || KEY_BITS == 256);
+
+struct crypto_fast_rng_t {
+  /** How many more fills does this buffer have before we should mix
+   * in the output of crypto_rand()? */
+  uint16_t n_till_reseed;
+  /** How many bytes are remaining in cbuf.bytes? */
+  uint16_t bytes_left;
+  struct cbuf {
+    /** The seed (key and IV) that we will use the next time that we refill
+     * cbuf. */
+    uint8_t seed[SEED_LEN];
+    /**
+     * Bytes that we are yielding to the user.  The next byte to be
+     * yielded is at bytes[BUFLEN-bytes_left]; all other bytes in this
+     * array are set to zero.
+     */
+    uint8_t bytes[BUFLEN];
+  } buf;
+};
+
+/* alignof(uint8_t) should be 1, so there shouldn't be any padding in cbuf.
+ */
+CTASSERT(sizeof(struct cbuf) == BUFLEN+SEED_LEN);
+/* We're trying to fit all of the RNG state into a nice mmapable chunk.
+ */
+CTASSERT(sizeof(crypto_fast_rng_t) <= MAPLEN);
+
+/**
+ * Initialize and return a new fast PRNG, using a strong random seed.
+ *
+ * Note that this object is NOT thread-safe.  If you need a thread-safe
+ * prng, use crypto_rand(), or wrap this in a mutex.
+ **/
+crypto_fast_rng_t *
+crypto_fast_rng_new(void)
+{
+  uint8_t seed[SEED_LEN];
+  crypto_strongest_rand(seed, sizeof(seed));
+  crypto_fast_rng_t *result = crypto_fast_rng_new_from_seed(seed);
+  memwipe(seed, 0, sizeof(seed));
+  return result;
+}
+
+/**
+ * Initialize and return a new fast PRNG, using a seed value specified
+ * in <b>seed</b>.  This value must be CRYPTO_FAST_RNG_SEED_LEN bytes
+ * long.
+ *
+ * Note that this object is NOT thread-safe.  If you need a thread-safe
+ * prng, use crypto_rand(), or wrap this in a mutex.
+ **/
+crypto_fast_rng_t *
+crypto_fast_rng_new_from_seed(const uint8_t *seed)
+{
+  /* We try to allocate this object as securely as we can, to avoid
+   * having it get dumped, swapped, or shared after fork.
+   */
+  crypto_fast_rng_t *result = tor_mmap_anonymous(sizeof(*result),
+                                ANONMAP_PRIVATE | ANONMAP_NOINHERIT);
+
+  memcpy(result->buf.seed, seed, SEED_LEN);
+  /* Causes an immediate refill once the user asks for data. */
+  result->bytes_left = 0;
+  result->n_till_reseed = RESEED_AFTER;
+  return result;
+}
+
+/**
+ * Helper: create a crypto_cipher_t object from SEED_LEN bytes of
+ * input.  The first KEY_LEN bytes are used as the stream cipher's key,
+ * and the remaining CIPHER_IV_LEN bytes are used as its IV.
+ **/
+static inline crypto_cipher_t *
+cipher_from_seed(const uint8_t *seed)
+{
+  return crypto_cipher_new_with_iv_and_bits(seed, seed+KEY_LEN, KEY_BITS);
+}
+
+/**
+ * Helper: refill the seed bytes and output buffer of <b>rng</b>, using
+ * the input seed bytes as input (key and IV) for the stream cipher.
+ *
+ * If the n_till_reseed counter has reached zero, mix more random bytes into
+ * the seed before refilling the buffer.
+ **/
+static void
+crypto_fast_rng_refill(crypto_fast_rng_t *rng)
+{
+  if (rng->n_till_reseed-- == 0) {
+    /* It's time to reseed the RNG.  We'll do this by using our XOF to mix the
+     * old value for the seed with some additional bytes from
+     * crypto_strongest_rand(). */
+    crypto_xof_t *xof = crypto_xof_new();
+    crypto_xof_add_bytes(xof, rng->buf.seed, SEED_LEN);
+    {
+      uint8_t seedbuf[SEED_LEN];
+      crypto_strongest_rand(seedbuf, SEED_LEN);
+      crypto_xof_add_bytes(xof, seedbuf, SEED_LEN);
+      memwipe(seedbuf, 0, SEED_LEN);
+    }
+    crypto_xof_squeeze_bytes(xof, rng->buf.seed, SEED_LEN);
+    crypto_xof_free(xof);
+
+    rng->n_till_reseed = RESEED_AFTER;
+  }
+  /* Now fill rng->buf with output from our stream cipher, initialized from
+   * that seed value. */
+  crypto_cipher_t *c = cipher_from_seed(rng->buf.seed);
+  memset(&rng->buf, 0, sizeof(rng->buf));
+  crypto_cipher_crypt_inplace(c, (char*)&rng->buf, sizeof(rng->buf));
+  crypto_cipher_free(c);
+
+  rng->bytes_left = sizeof(rng->buf.bytes);
+}
+
+/**
+ * Release all storage held by <b>rng</b>.
+ **/
+void
+crypto_fast_rng_free_(crypto_fast_rng_t *rng)
+{
+  if (!rng)
+    return;
+  memwipe(rng, 0, sizeof(*rng));
+  tor_munmap_anonymous(rng, sizeof(*rng));
+}
+
+/**
+ * Helper: extract bytes from the PRNG, refilling it as necessary. Does not
+ * optimize the case when the user has asked for a huge output.
+ **/
+static void
+crypto_fast_rng_getbytes_impl(crypto_fast_rng_t *rng, uint8_t *out,
+                              const size_t n)
+{
+  size_t bytes_to_yield = n;
+
+  while (bytes_to_yield) {
+    if (rng->bytes_left == 0)
+      crypto_fast_rng_refill(rng);
+
+    const size_t to_copy = MIN(rng->bytes_left, bytes_to_yield);
+
+    tor_assert(sizeof(rng->buf.bytes) >= rng->bytes_left);
+    uint8_t *copy_from = rng->buf.bytes +
+      (sizeof(rng->buf.bytes) - rng->bytes_left);
+    memcpy(out, copy_from, to_copy);
+    memset(copy_from, 0, to_copy);
+
+    out += to_copy;
+    bytes_to_yield -= to_copy;
+    rng->bytes_left -= to_copy;
+  }
+}
+
+/**
+ * Extract <b>n</b> bytes from <b>rng</b> into the buffer at <b>out</b>.
+ **/
+void
+crypto_fast_rng_getbytes(crypto_fast_rng_t *rng, uint8_t *out, size_t n)
+{
+  if (PREDICT_UNLIKELY(n > BUFLEN)) {
+    /* The user has asked for a lot of output; generate it from a stream
+     * cipher seeded by the PRNG rather than by pulling it out of the PRNG
+     * directly.
+     */
+    uint8_t seed[SEED_LEN];
+    crypto_fast_rng_getbytes_impl(rng, seed, SEED_LEN);
+    crypto_cipher_t *c = cipher_from_seed(seed);
+    memset(out, 0, n);
+    crypto_cipher_crypt_inplace(c, (char*)out, n);
+    crypto_cipher_free(c);
+    memwipe(seed, 0, sizeof(seed));
+    return;
+  }
+
+  crypto_fast_rng_getbytes_impl(rng, out, n);
+}
+
+#if defined(TOR_UNIT_TESTS)
+/** for white-box testing: return the number of bytes that are returned from
+ * the user for each invocation of the stream cipher in this RNG. */
+size_t
+crypto_fast_rng_get_bytes_used_per_stream(void)
+{
+  return BUFLEN;
+}
+#endif
diff --git a/src/lib/crypt_ops/crypto_rand_numeric.c b/src/lib/crypt_ops/crypto_rand_numeric.c
index d07657440e..d02c5cdcfa 100644
--- a/src/lib/crypt_ops/crypto_rand_numeric.c
+++ b/src/lib/crypt_ops/crypto_rand_numeric.c
@@ -31,9 +31,11 @@
     }                                                                   \
   } while (0)
 
-/** Helper: Return a pseudorandom integer chosen uniformly from the
- * values between 0 and limit-1 inclusive. */
-static unsigned
+/**
+ * Return a pseudorandom integer chosen uniformly from the values between 0
+ * and <b>limit</b>-1 inclusive. limit must be strictly between 0 and
+ * UINT_MAX. */
+unsigned
 crypto_rand_uint(unsigned limit)
 {
   tor_assert(limit < UINT_MAX);
@@ -108,6 +110,14 @@ crypto_rand_uint64(uint64_t max)
                           crypto_rand((char*)&val, sizeof(val)));
 }
 
+#if SIZEOF_INT == 4
+#define UINT_MAX_AS_DOUBLE 4294967296.0
+#elif SIZEOF_INT == 8
+#define UINT_MAX_AS_DOUBLE 1.8446744073709552e+19
+#else
+#error SIZEOF_INT is neither 4 nor 8
+#endif /* SIZEOF_INT == 4 || ... */
+
 /**
  * Return a pseudorandom double d, chosen uniformly from the range
  * 0.0 <= d < 1.0.
@@ -119,12 +129,38 @@ crypto_rand_double(void)
    * more than 32 bits of resolution */
   unsigned int u;
   crypto_rand((char*)&u, sizeof(u));
-#if SIZEOF_INT == 4
-#define UINT_MAX_AS_DOUBLE 4294967296.0
-#elif SIZEOF_INT == 8
-#define UINT_MAX_AS_DOUBLE 1.8446744073709552e+19
-#else
-#error SIZEOF_INT is neither 4 nor 8
-#endif /* SIZEOF_INT == 4 || ... */
+  return ((double)u) / UINT_MAX_AS_DOUBLE;
+}
+
+/**
+ * As crypto_rand_uint, but extract the result from a crypto_fast_rng_t
+ */
+unsigned
+crypto_fast_rng_get_uint(crypto_fast_rng_t *rng, unsigned limit)
+{
+  tor_assert(limit < UINT_MAX);
+  IMPLEMENT_RAND_UNSIGNED(unsigned, UINT_MAX, limit,
+                  crypto_fast_rng_getbytes(rng, (void*)&val, sizeof(val)));
+}
+
+/**
+ * As crypto_rand_uint64, but extract the result from a crypto_fast_rng_t.
+ */
+uint64_t
+crypto_fast_rng_get_uint64(crypto_fast_rng_t *rng, uint64_t limit)
+{
+  tor_assert(limit < UINT64_MAX);
+  IMPLEMENT_RAND_UNSIGNED(uint64_t, UINT64_MAX, limit,
+                  crypto_fast_rng_getbytes(rng, (void*)&val, sizeof(val)));
+}
+
+/**
+ * As crypto_rand_, but extract the result from a crypto_fast_rng_t.
+ */
+double
+crypto_fast_rng_get_double(crypto_fast_rng_t *rng)
+{
+  unsigned int u;
+  crypto_fast_rng_getbytes(rng, (void*)&u, sizeof(u));
   return ((double)u) / UINT_MAX_AS_DOUBLE;
 }
diff --git a/src/lib/crypt_ops/include.am b/src/lib/crypt_ops/include.am
index 19cfee1355..4730440143 100644
--- a/src/lib/crypt_ops/include.am
+++ b/src/lib/crypt_ops/include.am
@@ -17,6 +17,7 @@ src_lib_libtor_crypt_ops_a_SOURCES =			\
 	src/lib/crypt_ops/crypto_ope.c          	\
 	src/lib/crypt_ops/crypto_pwbox.c		\
 	src/lib/crypt_ops/crypto_rand.c			\
+	src/lib/crypt_ops/crypto_rand_fast.c		\
 	src/lib/crypt_ops/crypto_rand_numeric.c		\
 	src/lib/crypt_ops/crypto_rsa.c			\
 	src/lib/crypt_ops/crypto_s2k.c			\
diff --git a/src/test/test_crypto_rng.c b/src/test/test_crypto_rng.c
index 008753d971..0513d2a807 100644
--- a/src/test/test_crypto_rng.c
+++ b/src/test/test_crypto_rng.c
@@ -173,6 +173,121 @@ test_crypto_rng_strongest(void *arg)
 #undef N
 }
 
+static void
+test_crypto_rng_fast(void *arg)
+{
+  (void)arg;
+  crypto_fast_rng_t *rng = crypto_fast_rng_new();
+  tt_assert(rng);
+
+  /* Rudimentary black-block test to make sure that our prng outputs
+   * have all bits sometimes on and all bits sometimes off. */
+  uint64_t m1 = 0, m2 = ~(uint64_t)0;
+  const int N = 128;
+
+  for (int i=0; i < N; ++i) {
+    uint64_t v;
+    crypto_fast_rng_getbytes(rng, (void*)&v, sizeof(v));
+    m1 |= v;
+    m2 &= v;
+  }
+
+  tt_u64_op(m1, OP_EQ, ~(uint64_t)0);
+  tt_u64_op(m2, OP_EQ, 0);
+
+  /* Check range functions. */
+  int counts[5];
+  memset(counts, 0, sizeof(counts));
+  for (int i=0; i < N; ++i) {
+    unsigned u = crypto_fast_rng_get_uint(rng, 5);
+    tt_int_op(u, OP_GE, 0);
+    tt_int_op(u, OP_LT, 5);
+    counts[u]++;
+
+    uint64_t u64 = crypto_fast_rng_get_uint64(rng, UINT64_C(1)<<40);
+    tt_u64_op(u64, OP_GE, 0);
+    tt_u64_op(u64, OP_LT, UINT64_C(1)<<40);
+  }
+
+  /* All values should have come up once. */
+  for (int i=0; i<5; ++i) {
+    tt_int_op(counts[i], OP_GT, 0);
+  }
+
+ done:
+  crypto_fast_rng_free(rng);
+}
+
+static void
+test_crypto_rng_fast_whitebox(void *arg)
+{
+  (void)arg;
+  const size_t buflen = crypto_fast_rng_get_bytes_used_per_stream();
+  char *buf = tor_malloc_zero(buflen);
+  char *buf2 = tor_malloc_zero(buflen);
+
+  crypto_cipher_t *cipher = NULL;
+  uint8_t seed[CRYPTO_FAST_RNG_SEED_LEN];
+  memset(seed, 0, sizeof(seed));
+
+  /* Start with a prng with zero key and zero IV. */
+  crypto_fast_rng_t *rng = crypto_fast_rng_new_from_seed(seed);
+  tt_assert(rng);
+
+  /* We'll use a stream cipher to keep in sync */
+  cipher = crypto_cipher_new_with_iv_and_bits(seed, seed+32, 256);
+
+  /* The first 48 bytes are used for the next seed -- let's make sure we have
+   * them.
+   */
+  memset(seed, 0, sizeof(seed));
+  crypto_cipher_crypt_inplace(cipher, (char*)seed, sizeof(seed));
+
+  /* if we get 128 bytes, they should match the bytes from the aes256-counter
+   * stream, starting at position 48.
+   */
+  crypto_fast_rng_getbytes(rng, (uint8_t*)buf, 128);
+  memset(buf2, 0, 128);
+  crypto_cipher_crypt_inplace(cipher, buf2, 128);
+  tt_mem_op(buf, OP_EQ, buf2, 128);
+
+  /* Try that again, with an odd number of bytes. */
+  crypto_fast_rng_getbytes(rng, (uint8_t*)buf, 199);
+  memset(buf2, 0, 199);
+  crypto_cipher_crypt_inplace(cipher, buf2, 199);
+  tt_mem_op(buf, OP_EQ, buf2, 199);
+
+  /* Make sure that refilling works as expected: skip all but the last 5 bytes
+   * of this steam. */
+  size_t skip = buflen - (199+128) - 5;
+  crypto_fast_rng_getbytes(rng, (uint8_t*)buf, skip);
+  crypto_cipher_crypt_inplace(cipher, buf2, skip);
+
+  /* Now get the next 128 bytes. The first 5 will come from this stream, and
+   * the next 5 will come from the stream keyed by the new value of 'seed'. */
+  crypto_fast_rng_getbytes(rng, (uint8_t*)buf, 128);
+  memset(buf2, 0, 128);
+  crypto_cipher_crypt_inplace(cipher, buf2, 5);
+  crypto_cipher_free(cipher);
+  cipher = crypto_cipher_new_with_iv_and_bits(seed, seed+32, 256);
+  memset(seed, 0, sizeof(seed));
+  crypto_cipher_crypt_inplace(cipher, (char*)seed, sizeof(seed));
+  crypto_cipher_crypt_inplace(cipher, buf2+5, 128-5);
+  tt_mem_op(buf, OP_EQ, buf2, 128);
+
+  /* And check the next 7 bytes to make sure we didn't discard anything. */
+  crypto_fast_rng_getbytes(rng, (uint8_t*)buf, 7);
+  memset(buf2, 0, 7);
+  crypto_cipher_crypt_inplace(cipher, buf2, 7);
+  tt_mem_op(buf, OP_EQ, buf2, 7);
+
+ done:
+  crypto_fast_rng_free(rng);
+  crypto_cipher_free(cipher);
+  tor_free(buf);
+  tor_free(buf2);
+}
+
 struct testcase_t crypto_rng_tests[] = {
   { "rng", test_crypto_rng, 0, NULL, NULL },
   { "rng_range", test_crypto_rng_range, 0, NULL, NULL },
@@ -183,5 +298,7 @@ struct testcase_t crypto_rng_tests[] = {
     &passthrough_setup, (void*)"nofallback" },
   { "rng_strongest_broken", test_crypto_rng_strongest, TT_FORK,
     &passthrough_setup, (void*)"broken" },
+  { "fast", test_crypto_rng_fast, 0, NULL, NULL },
+  { "fast_whitebox", test_crypto_rng_fast_whitebox, 0, NULL, NULL },
   END_OF_TESTCASES
 };