src/vppinfra/test/toeplitz.c - fdio/vpp - Gitiles

 /* SPDX-License-Identifier: Apache-2.0
  * Copyright(c) 2021 Cisco Systems, Inc.
  */

 #include <vppinfra/format.h>
 #include <vppinfra/test/test.h>
 #include <vppinfra/vector/toeplitz.h>

 /* secret key and test cases taken from:
  * https://docs.microsoft.com/en-us/windows-hardware/drivers/network/verifying-the-rss-hash-calculation
  */

 typedef struct
 {
   u32 sip, dip;
   u16 sport, dport;
 } __clib_packed ip4_key_t;

 typedef struct
 {
   ip4_key_t key;
   u32 hash_2t, hash_4t;
 } ip4_test_t;

 typedef struct
 {
   u16 sip[8], dip[8];
   u16 sport, dport;
 } __clib_packed ip6_key_t;

 typedef struct
 {
   ip6_key_t key;
   u32 hash_2t, hash_4t;
 } ip6_test_t;

 #define N_IP4_TESTS    5
 #define N_IP6_TESTS    3
 #define N_LENGTH_TESTS 240

 #ifndef CLIB_MARCH_VARIANT
 #define _IP4(a, b, c, d) ((d) << 24 | (c) << 16 | (b) << 8 | (a))
 #define _IP6(a, b, c, d, e, f, g, h)                                          \
   {                                                                           \
     (u16) ((a) << 8) | (u8) ((a) >> 8), (u16) ((b) << 8) | (u8) ((b) >> 8),   \
       (u16) ((c) << 8) | (u8) ((c) >> 8), (u16) ((d) << 8) | (u8) ((d) >> 8), \
       (u16) ((e) << 8) | (u8) ((e) >> 8), (u16) ((f) << 8) | (u8) ((f) >> 8), \
       (u16) ((g) << 8) | (u8) ((g) >> 8), (u16) ((h) << 8) | (u8) ((h) >> 8), \
   }
 #define _PORT(a) ((a) >> 8 | (((a) &0xff) << 8))

 const ip4_test_t ip4_tests[N_IP4_TESTS] = {
   /* ipv4 tests */
   {
     .key.sip = _IP4 (66, 9, 149, 187),
     .key.dip = _IP4 (161, 142, 100, 80),
     .key.sport = _PORT (2794),
     .key.dport = _PORT (1766),
     .hash_2t = 0x323e8fc2,
     .hash_4t = 0x51ccc178,
   },
   {
     .key.sip = _IP4 (199, 92, 111, 2),
     .key.dip = _IP4 (65, 69, 140, 83),
     .key.sport = _PORT (14230),
     .key.dport = _PORT (4739),
     .hash_2t = 0xd718262a,
     .hash_4t = 0xc626b0ea,
   },
   {
     .key.sip = _IP4 (24, 19, 198, 95),
     .key.dip = _IP4 (12, 22, 207, 184),
     .key.sport = _PORT (12898),
     .key.dport = _PORT (38024),
     .hash_2t = 0xd2d0a5de,
     .hash_4t = 0x5c2b394a,
   },
   {
     .key.sip = _IP4 (38, 27, 205, 30),
     .key.dip = _IP4 (209, 142, 163, 6),
     .key.sport = _PORT (48228),
     .key.dport = _PORT (2217),
     .hash_2t = 0x82989176,
     .hash_4t = 0xafc7327f,
   },
   {
     .key.sip = _IP4 (153, 39, 163, 191),
     .key.dip = _IP4 (202, 188, 127, 2),
     .key.sport = _PORT (44251),
     .key.dport = _PORT (1303),
     .hash_2t = 0x5d1809c5,
     .hash_4t = 0x10e828a2,
   }
 };

 const ip6_test_t ip6_tests[N_IP6_TESTS] = {
   {
     .key.sip = _IP6 (0x3ffe, 0x2501, 0x200, 0x1fff, 0, 0, 0, 7),
     .key.dip = _IP6 (0x3ffe, 0x2501, 0x200, 3, 0, 0, 0, 1),
     .key.sport = _PORT (2794),
     .key.dport = _PORT (1766),
     .hash_2t = 0x2cc18cd5,
     .hash_4t = 0x40207d3d,
   },
   {
     .key.sip = _IP6 (0x3ffe, 0x501, 8, 0, 0x260, 0x97ff, 0xfe40, 0xefab),
     .key.dip = _IP6 (0xff02, 0, 0, 0, 0, 0, 0, 1),
     .key.sport = _PORT (14230),
     .key.dport = _PORT (4739),
     .hash_2t = 0x0f0c461c,
     .hash_4t = 0xdde51bbf,
   },
   {
     .key.sip = _IP6 (0x3ffe, 0x1900, 0x4545, 3, 0x200, 0xf8ff, 0xfe21, 0x67cf),
     .key.dip = _IP6 (0xfe80, 0, 0, 0, 0x200, 0xf8ff, 0xfe21, 0x67cf),
     .key.sport = _PORT (44251),
     .key.dport = _PORT (38024),
     .hash_2t = 0x4b61e985,
     .hash_4t = 0x02d1feef,
   }
 };

 const u32 length_test_hashes[N_LENGTH_TESTS] = {
   0x00000000, 0x00000000, 0x2b6d12ad, 0x9de4446e, 0x061f00bf, 0xad7ed8f7,
   0x4bc7b068, 0x231fc545, 0xdbd97a33, 0xcdab29e7, 0x2d665c0c, 0x31e28ed7,
   0x14e19218, 0x5aa89f0f, 0xd47de07f, 0x355ec712, 0x7e1cbfc0, 0xf84de19d,
   0xbcf66bd3, 0x104086c6, 0x71900b34, 0xcd2f9819, 0xeae68ebb, 0x54d63b4c,
   0x5f865a2c, 0x9d6ded08, 0xe00b0912, 0x3fcf07a6, 0x3bd9ca93, 0x3f4f3bbb,
   0xd0b82624, 0xa28a08e1, 0xa585969f, 0x0c8f4a71, 0x5dce7bdd, 0x4fcf2a6d,
   0x91c89ae9, 0xbef8a24d, 0x8e3d30fe, 0xc8027848, 0xc1e7e513, 0xa12bd3d9,
   0x46700bb4, 0xc6339dab, 0x970805ad, 0xfcb50ac8, 0xc6db4f44, 0x792e2987,
   0xacfb7836, 0xa25ec529, 0x957d7beb, 0x6732809a, 0x891836ed, 0xeefb83b2,
   0xca96b40b, 0x93fd5abd, 0x9076f922, 0x59adb4eb, 0x9705aafb, 0x282719b1,
   0xdda9cb8a, 0x3f499131, 0x47491130, 0x30ef0759, 0xad1cf855, 0x428aa312,
   0x4200240a, 0x71a72857, 0x16b30c36, 0x10cca9a3, 0x166f091e, 0x30e00560,
   0x8acd20ba, 0xfa633d76, 0x0fe32eb7, 0xdcc0122f, 0x20aa8ab0, 0x62b2a9af,
   0x7a6c80a6, 0x27e87268, 0x95b797a8, 0x25d18ccd, 0x68a7fb00, 0xc54bcdad,
   0x3bd0e717, 0xf0df54c9, 0x780daadf, 0x7b435605, 0x150c1e10, 0x8a892e54,
   0x9d27cb25, 0xe23383a5, 0x57aac408, 0x83b8abf8, 0x560f33af, 0xd5cb3307,
   0x79ae8edc, 0x9b127665, 0x320f18bd, 0x385d636b, 0xbd1b2dbf, 0x97679888,
   0x738894a4, 0xeba2afb0, 0xfa7c2d50, 0xb6741aa1, 0x28922bba, 0x7783242b,
   0xa694cca2, 0xa32781c0, 0x696cd670, 0xa714d72f, 0xea34d35a, 0xc5aed81e,
   0x0438433a, 0xc1939ab2, 0xb51c123a, 0x121426b9, 0x1add93ba, 0x50c56b6a,
   0x7e90902a, 0xae3abd85, 0x2f7a0088, 0xb45cf6f9, 0x80070094, 0x8bd46467,
   0xdfd1b762, 0x0bb25856, 0x48eefe84, 0x0989dbb9, 0xfc32472b, 0x965fec6b,
   0x5a256bd0, 0x6df7127a, 0x7856d0d6, 0xedc82bd3, 0x1b563b96, 0xc73eace7,
   0xba4c0a93, 0xdfd6dd97, 0x923c41db, 0x14926ca6, 0x22e52ab1, 0x22852a66,
   0x79606b9c, 0xb0f22b23, 0xb46354ba, 0x9c3cd931, 0x03a92bd6, 0x84000834,
   0x5425df65, 0xf4dd3fc9, 0x391cc873, 0xa560b52e, 0x828037d9, 0x31323dd5,
   0x5c6e3147, 0x28e21f85, 0xa431eb51, 0xf468c4a3, 0x9bea1d2e, 0x43d9109c,
   0x5bb9b081, 0xe0825675, 0xc9c92591, 0xd29fc812, 0x03136bc9, 0x5e005a1f,
   0x6d821ed8, 0x3f0bfcc4, 0x24774162, 0x893bde94, 0x6475efea, 0x6711538e,
   0xc4755f6d, 0x9425ebe2, 0xacf471b4, 0xb947ab0c, 0x1f78c455, 0x372b3ed7,
   0xb3ec24d7, 0x18c4459f, 0xa8ff3695, 0xe4aa2b85, 0x8a52ad7e, 0xe05e8177,
   0x7aa348ed, 0x3e4ac6aa, 0x17dcf8a5, 0x93b933b0, 0x8f7413ec, 0xc77bfe61,
   0xfdb72874, 0x4370f138, 0xdf3462ad, 0xc8970a59, 0xb4a9fed8, 0xa2ddc39b,
   0xd61db62a, 0x95c5fc1b, 0x7b22e6e0, 0x1969702c, 0x7992aebb, 0x59d7c225,
   0x0e16db0b, 0x9f2afc21, 0x246cf66b, 0xb3d6569d, 0x29c532d7, 0xe155747a,
   0xe38d7872, 0xea704969, 0xb69095b0, 0x1b198efd, 0x55daab76, 0xa2a377b6,
   0xb31aa2fa, 0x48b73c41, 0xf0cc501a, 0x9c9ca831, 0x1b591b99, 0xb2d8d22f,
   0xab4b5f69, 0x4fe00e71, 0xdf5480bd, 0x982540d7, 0x7f34ea4f, 0xd7be66e1,
   0x9d2ab1ba, 0x1ba62e12, 0xee3fb36c, 0xf28d7c5a, 0x756311eb, 0xc68567f2,
   0x7b6ea177, 0xc398d9f3
 };

 #else
 extern const ip4_test_t ip4_tests[N_IP4_TESTS];
 extern const ip6_test_t ip6_tests[N_IP6_TESTS];
 extern const u32 length_test_hashes[N_LENGTH_TESTS];
 #endif

 __test_funct_fn u32
 wrapper (clib_toeplitz_hash_key_t *k, u8 *data, u32 n_bytes)
 {
   return clib_toeplitz_hash (k, data, n_bytes);
 }

 __test_funct_fn void
 wrapper_x4 (clib_toeplitz_hash_key_t *k, u8 *d0, u8 *d1, u8 *d2, u8 *d3,
 	    u32 *h0, u32 *h1, u32 *h2, u32 *h3, u32 n_bytes)
 {
   clib_toeplitz_hash_x4 (k, d0, d1, d2, d3, h0, h1, h2, h3, n_bytes);
 }

 static clib_error_t *
 test_clib_toeplitz_hash (clib_error_t *err)
 {
   u32 r;
   int n_key_copies, bigkey_len, bigdata_len;
   u8 *bigkey, *bigdata;
   clib_toeplitz_hash_key_t *k;

   k = clib_toeplitz_hash_key_init (0, 0);

   for (int i = 0; i < N_IP4_TESTS; i++)
     {
       r = wrapper (k, (u8 *) &ip4_tests[i].key, 8);
       if (ip4_tests[i].hash_2t != r)
 	return clib_error_return (err,
 				  "wrong IPv4 2 tuple hash for test %u, "
 				  "calculated 0x%08x expected 0x%08x",
 				  i, ip4_tests[i].hash_2t, r);

       r = wrapper (k, (u8 *) &ip4_tests[i].key, 12);
       if (ip4_tests[i].hash_4t != r)
 	return clib_error_return (err,
 				  "wrong IPv4 4 tuple hash for test %u, "
 				  "calculated 0x%08x expected 0x%08x",
 				  i, ip4_tests[i].hash_4t, r);
     }

   for (int i = 0; i < N_IP6_TESTS; i++)
     {
       r = wrapper (k, (u8 *) &ip6_tests[i].key, 32);
       if (ip6_tests[i].hash_2t != r)
 	return clib_error_return (err,
 				  "wrong IPv6 2 tuple hash for test %u, "
 				  "calculated 0x%08x expected 0x%08x",
 				  i, ip6_tests[i].hash_2t, r);

       r = wrapper (k, (u8 *) &ip6_tests[i].key, 36);
       if (ip6_tests[i].hash_4t != r)
 	return clib_error_return (err,
 				  "wrong IPv6 4 tuple hash for test %u, "
 				  "calculated 0x%08x expected 0x%08x",
 				  i, ip6_tests[i].hash_4t, r);
     }

   n_key_copies = 6;
   bigkey_len = k->key_length * n_key_copies;
   bigdata_len = bigkey_len - 4;
   bigkey = test_mem_alloc_and_splat (k->key_length, n_key_copies, k->data);
   bigdata = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
   u32 key_len = k->key_length;

   clib_toeplitz_hash_key_free (k);
   k = clib_toeplitz_hash_key_init (bigkey, n_key_copies * key_len);

   for (int i = 0; i < N_LENGTH_TESTS - 4; i++)
     {
       r = wrapper (k, bigdata, i);
       if (length_test_hashes[i] != r)
 	{
 	  err = clib_error_return (err,
 				   "wrong length test hash for length %u, "
 				   "calculated 0x%08x expected 0x%08x "
 				   "xor 0x%08x",
 				   i, r, length_test_hashes[i],
 				   r ^ length_test_hashes[i]);
 	  goto done;
 	}
     }

 done:
   clib_toeplitz_hash_key_free (k);
   return err;
 }

 void __test_perf_fn
 perftest_fixed_12byte (test_perf_t *tp)
 {
   u32 n = tp->n_ops;
   u8 *data = test_mem_alloc_and_splat (12, n, (void *) &ip4_tests[0].key);
   u8 *res = test_mem_alloc (4 * n);
   clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

   test_perf_event_enable (tp);
   for (int i = 0; i < n; i++)
     ((u32 *) res)[i] = clib_toeplitz_hash (k, data + i * 12, 12);
   test_perf_event_disable (tp);

   clib_toeplitz_hash_key_free (k);
 }

 void __test_perf_fn
 perftest_fixed_36byte (test_perf_t *tp)
 {
   u32 n = tp->n_ops;
   u8 *data = test_mem_alloc_and_splat (36, n, (void *) &ip6_tests[0].key);
   u8 *res = test_mem_alloc (4 * n);
   clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

   test_perf_event_enable (tp);
   for (int i = 0; i < n; i++)
     ((u32 *) res)[i] = clib_toeplitz_hash (k, data + i * 36, 36);
   test_perf_event_disable (tp);

   clib_toeplitz_hash_key_free (k);
 }

 void __test_perf_fn
 perftest_variable_size (test_perf_t *tp)
 {
   u32 key_len, n_keys, n = tp->n_ops;
   u8 *key, *data = test_mem_alloc (n);
   u32 *res = test_mem_alloc (sizeof (u32));
   clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

   k = clib_toeplitz_hash_key_init (0, 0);
   key_len = k->key_length;
   n_keys = ((n + 4) / k->key_length) + 1;
   key = test_mem_alloc_and_splat (n_keys, key_len, k->data);
   clib_toeplitz_hash_key_free (k);
   k = clib_toeplitz_hash_key_init (key, key_len * n_keys);

   test_perf_event_enable (tp);
   res[0] = clib_toeplitz_hash (k, data, n);
   test_perf_event_disable (tp);

   clib_toeplitz_hash_key_free (k);
 }

 REGISTER_TEST (clib_toeplitz_hash) = {
   .name = "clib_toeplitz_hash",
   .fn = test_clib_toeplitz_hash,
   .perf_tests = PERF_TESTS ({ .name = "fixed (per 12 byte tuple)",
 			      .n_ops = 1024,
 			      .fn = perftest_fixed_12byte },
 			    { .name = "fixed (per 36 byte tuple)",
 			      .n_ops = 1024,
 			      .fn = perftest_fixed_36byte },
 			    { .name = "variable size (per byte)",
 			      .n_ops = 16384,
 			      .fn = perftest_variable_size }),
 };

 static clib_error_t *
 test_clib_toeplitz_hash_x4 (clib_error_t *err)
 {
   u32 r[4];
   int n_key_copies, bigkey_len, bigdata_len;
   u8 *bigkey, *bigdata0, *bigdata1, *bigdata2, *bigdata3;
   clib_toeplitz_hash_key_t *k;

   k = clib_toeplitz_hash_key_init (0, 0);

   wrapper_x4 (k, (u8 *) &ip4_tests[0].key, (u8 *) &ip4_tests[1].key,
 	      (u8 *) &ip4_tests[2].key, (u8 *) &ip4_tests[3].key, r, r + 1,
 	      r + 2, r + 3, 8);

   if (ip4_tests[0].hash_2t != r[0] || ip4_tests[1].hash_2t != r[1] ||
       ip4_tests[2].hash_2t != r[2] || ip4_tests[3].hash_2t != r[3])
     return clib_error_return (err,
 			      "wrong IPv4 2 tuple x4 hash "
 			      "calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x } "
 			      "expected { 0x%08x, 0x%08x, 0x%08x, 0x%08x }",
 			      ip4_tests[0].hash_2t, ip4_tests[1].hash_2t,
 			      ip4_tests[2].hash_2t, ip4_tests[3].hash_2t, r[0],
 			      r[1], r[2], r[3]);

   wrapper_x4 (k, (u8 *) &ip4_tests[0].key, (u8 *) &ip4_tests[1].key,
 	      (u8 *) &ip4_tests[2].key, (u8 *) &ip4_tests[3].key, r, r + 1,
 	      r + 2, r + 3, 12);

   if (ip4_tests[0].hash_4t != r[0] || ip4_tests[1].hash_4t != r[1] ||
       ip4_tests[2].hash_4t != r[2] || ip4_tests[3].hash_4t != r[3])
     return clib_error_return (err,
 			      "wrong IPv4 4 tuple x4 hash "
 			      "calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x } "
 			      "expected { 0x%08x, 0x%08x, 0x%08x, 0x%08x }",
 			      ip4_tests[0].hash_4t, ip4_tests[1].hash_4t,
 			      ip4_tests[2].hash_4t, ip4_tests[3].hash_4t, r[0],
 			      r[1], r[2], r[3]);

   wrapper_x4 (k, (u8 *) &ip6_tests[0].key, (u8 *) &ip6_tests[1].key,
 	      (u8 *) &ip6_tests[2].key, (u8 *) &ip6_tests[0].key, r, r + 1,
 	      r + 2, r + 3, 32);

   if (ip6_tests[0].hash_2t != r[0] || ip6_tests[1].hash_2t != r[1] ||
       ip6_tests[2].hash_2t != r[2] || ip6_tests[0].hash_2t != r[3])
     return clib_error_return (err,
 			      "wrong IPv6 2 tuple x4 hash "
 			      "calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x } "
 			      "expected { 0x%08x, 0x%08x, 0x%08x, 0x%08x }",
 			      ip6_tests[0].hash_2t, ip6_tests[1].hash_2t,
 			      ip6_tests[2].hash_2t, ip6_tests[0].hash_2t, r[0],
 			      r[1], r[2], r[3]);

   wrapper_x4 (k, (u8 *) &ip6_tests[0].key, (u8 *) &ip6_tests[1].key,
 	      (u8 *) &ip6_tests[2].key, (u8 *) &ip6_tests[0].key, r, r + 1,
 	      r + 2, r + 3, 36);

   if (ip6_tests[0].hash_4t != r[0] || ip6_tests[1].hash_4t != r[1] ||
       ip6_tests[2].hash_4t != r[2] || ip6_tests[0].hash_4t != r[3])
     return clib_error_return (err,
 			      "wrong IPv6 4 tuple x4 hash "
 			      "calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x } "
 			      "expected { 0x%08x, 0x%08x, 0x%08x, 0x%08x }",
 			      ip6_tests[0].hash_4t, ip6_tests[1].hash_4t,
 			      ip6_tests[2].hash_4t, ip6_tests[0].hash_4t, r[0],
 			      r[1], r[2], r[3]);

   n_key_copies = 6;
   bigkey_len = k->key_length * n_key_copies;
   bigdata_len = bigkey_len - 4;
   bigkey = test_mem_alloc_and_splat (k->key_length, n_key_copies, k->data);
   bigdata0 = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
   bigdata1 = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
   bigdata2 = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
   bigdata3 = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
   u32 key_len = k->key_length;

   clib_toeplitz_hash_key_free (k);
   k = clib_toeplitz_hash_key_init (bigkey, n_key_copies * key_len);

   for (int i = 0; i < N_LENGTH_TESTS - 4; i++)
     {
       wrapper_x4 (k, bigdata0, bigdata1, bigdata2, bigdata3, r, r + 1, r + 2,
 		  r + 3, i);
       if (length_test_hashes[i] != r[0] || length_test_hashes[i] != r[1] ||
 	  length_test_hashes[i] != r[2] || length_test_hashes[i] != r[3])
 	{
 	  err = clib_error_return (
 	    err,
 	    "wrong length test hash x4 for length %u, "
 	    "calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x }, expected 0x%08x",
 	    i, r[0], r[1], r[2], r[3], length_test_hashes[i]);
 	  goto done;
 	}
     }

 done:
   clib_toeplitz_hash_key_free (k);
   return err;
 }

 void __test_perf_fn
 perftest_fixed_12byte_x4 (test_perf_t *tp)
 {
   u32 n = tp->n_ops / 4;
   u8 *d0 = test_mem_alloc_and_splat (12, n, (void *) &ip4_tests[0].key);
   u8 *d1 = test_mem_alloc_and_splat (12, n, (void *) &ip4_tests[1].key);
   u8 *d2 = test_mem_alloc_and_splat (12, n, (void *) &ip4_tests[2].key);
   u8 *d3 = test_mem_alloc_and_splat (12, n, (void *) &ip4_tests[3].key);
   u32 *h0 = test_mem_alloc (4 * n);
   u32 *h1 = test_mem_alloc (4 * n);
   u32 *h2 = test_mem_alloc (4 * n);
   u32 *h3 = test_mem_alloc (4 * n);
   clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

   test_perf_event_enable (tp);
   for (int i = 0; i < n; i++)
     clib_toeplitz_hash_x4 (k, d0 + i * 12, d1 + i * 12, d2 + i * 12,
 			   d3 + i * 12, h0 + i, h1 + i, h2 + i, h3 + i, 12);
   test_perf_event_disable (tp);

   clib_toeplitz_hash_key_free (k);
 }

 void __test_perf_fn
 perftest_fixed_36byte_x4 (test_perf_t *tp)
 {
   u32 n = tp->n_ops / 4;
   u8 *d0 = test_mem_alloc_and_splat (36, n, (void *) &ip4_tests[0].key);
   u8 *d1 = test_mem_alloc_and_splat (36, n, (void *) &ip4_tests[1].key);
   u8 *d2 = test_mem_alloc_and_splat (36, n, (void *) &ip4_tests[2].key);
   u8 *d3 = test_mem_alloc_and_splat (36, n, (void *) &ip4_tests[3].key);
   u32 *h0 = test_mem_alloc (4 * n);
   u32 *h1 = test_mem_alloc (4 * n);
   u32 *h2 = test_mem_alloc (4 * n);
   u32 *h3 = test_mem_alloc (4 * n);
   clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

   test_perf_event_enable (tp);
   for (int i = 0; i < n; i++)
     clib_toeplitz_hash_x4 (k, d0 + i * 36, d1 + i * 36, d2 + i * 36,
 			   d3 + i * 36, h0 + i, h1 + i, h2 + i, h3 + i, 36);
   test_perf_event_disable (tp);

   clib_toeplitz_hash_key_free (k);
 }

 void __test_perf_fn
 perftest_variable_size_x4 (test_perf_t *tp)
 {
   u32 key_len, n_keys, n = tp->n_ops / 4;
   u8 *key;
   u8 *d0 = test_mem_alloc (n);
   u8 *d1 = test_mem_alloc (n);
   u8 *d2 = test_mem_alloc (n);
   u8 *d3 = test_mem_alloc (n);
   u32 *h0 = test_mem_alloc (sizeof (u32));
   u32 *h1 = test_mem_alloc (sizeof (u32));
   u32 *h2 = test_mem_alloc (sizeof (u32));
   u32 *h3 = test_mem_alloc (sizeof (u32));
   clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

   k = clib_toeplitz_hash_key_init (0, 0);
   key_len = k->key_length;
   n_keys = ((n + 4) / k->key_length) + 1;
   key = test_mem_alloc_and_splat (n_keys, key_len, k->data);
   clib_toeplitz_hash_key_free (k);
   k = clib_toeplitz_hash_key_init (key, key_len * n_keys);

   test_perf_event_enable (tp);
   clib_toeplitz_hash_x4 (k, d0, d1, d2, d3, h0, h1, h2, h3, n);
   test_perf_event_disable (tp);

   clib_toeplitz_hash_key_free (k);
 }

 REGISTER_TEST (clib_toeplitz_hash_x4) = {
   .name = "clib_toeplitz_hash_x4",
   .fn = test_clib_toeplitz_hash_x4,
   .perf_tests = PERF_TESTS ({ .name = "fixed (per 12 byte tuple)",
 			      .n_ops = 1024,
 			      .fn = perftest_fixed_12byte_x4 },
 			    { .name = "fixed (per 36 byte tuple)",
 			      .n_ops = 1024,
 			      .fn = perftest_fixed_36byte_x4 },
 			    { .name = "variable size (per byte)",
 			      .n_ops = 16384,
 			      .fn = perftest_variable_size_x4 }),
 };
	/* SPDX-License-Identifier: Apache-2.0
	* Copyright(c) 2021 Cisco Systems, Inc.
	*/

	#include <vppinfra/format.h>
	#include <vppinfra/test/test.h>
	#include <vppinfra/vector/toeplitz.h>

	/* secret key and test cases taken from:
	* https://docs.microsoft.com/en-us/windows-hardware/drivers/network/verifying-the-rss-hash-calculation
	*/

	typedef struct
	{
	u32 sip, dip;
	u16 sport, dport;
	} __clib_packed ip4_key_t;

	typedef struct
	{
	ip4_key_t key;
	u32 hash_2t, hash_4t;
	} ip4_test_t;

	typedef struct
	{
	u16 sip[8], dip[8];
	u16 sport, dport;
	} __clib_packed ip6_key_t;

	typedef struct
	{
	ip6_key_t key;
	u32 hash_2t, hash_4t;
	} ip6_test_t;

	#define N_IP4_TESTS 5
	#define N_IP6_TESTS 3
	#define N_LENGTH_TESTS 240

	#ifndef CLIB_MARCH_VARIANT
	#define _IP4(a, b, c, d) ((d) << 24 \| (c) << 16 \| (b) << 8 \| (a))
	#define _IP6(a, b, c, d, e, f, g, h) \
	{ \
	(u16) ((a) << 8) \| (u8) ((a) >> 8), (u16) ((b) << 8) \| (u8) ((b) >> 8), \
	(u16) ((c) << 8) \| (u8) ((c) >> 8), (u16) ((d) << 8) \| (u8) ((d) >> 8), \
	(u16) ((e) << 8) \| (u8) ((e) >> 8), (u16) ((f) << 8) \| (u8) ((f) >> 8), \
	(u16) ((g) << 8) \| (u8) ((g) >> 8), (u16) ((h) << 8) \| (u8) ((h) >> 8), \
	}
	#define _PORT(a) ((a) >> 8 \| (((a) &0xff) << 8))

	const ip4_test_t ip4_tests[N_IP4_TESTS] = {
	/* ipv4 tests */
	{
	.key.sip = _IP4 (66, 9, 149, 187),
	.key.dip = _IP4 (161, 142, 100, 80),
	.key.sport = _PORT (2794),
	.key.dport = _PORT (1766),
	.hash_2t = 0x323e8fc2,
	.hash_4t = 0x51ccc178,
	},
	{
	.key.sip = _IP4 (199, 92, 111, 2),
	.key.dip = _IP4 (65, 69, 140, 83),
	.key.sport = _PORT (14230),
	.key.dport = _PORT (4739),
	.hash_2t = 0xd718262a,
	.hash_4t = 0xc626b0ea,
	},
	{
	.key.sip = _IP4 (24, 19, 198, 95),
	.key.dip = _IP4 (12, 22, 207, 184),
	.key.sport = _PORT (12898),
	.key.dport = _PORT (38024),
	.hash_2t = 0xd2d0a5de,
	.hash_4t = 0x5c2b394a,
	},
	{
	.key.sip = _IP4 (38, 27, 205, 30),
	.key.dip = _IP4 (209, 142, 163, 6),
	.key.sport = _PORT (48228),
	.key.dport = _PORT (2217),
	.hash_2t = 0x82989176,
	.hash_4t = 0xafc7327f,
	},
	{
	.key.sip = _IP4 (153, 39, 163, 191),
	.key.dip = _IP4 (202, 188, 127, 2),
	.key.sport = _PORT (44251),
	.key.dport = _PORT (1303),
	.hash_2t = 0x5d1809c5,
	.hash_4t = 0x10e828a2,
	}
	};

	const ip6_test_t ip6_tests[N_IP6_TESTS] = {
	{
	.key.sip = _IP6 (0x3ffe, 0x2501, 0x200, 0x1fff, 0, 0, 0, 7),
	.key.dip = _IP6 (0x3ffe, 0x2501, 0x200, 3, 0, 0, 0, 1),
	.key.sport = _PORT (2794),
	.key.dport = _PORT (1766),
	.hash_2t = 0x2cc18cd5,
	.hash_4t = 0x40207d3d,
	},
	{
	.key.sip = _IP6 (0x3ffe, 0x501, 8, 0, 0x260, 0x97ff, 0xfe40, 0xefab),
	.key.dip = _IP6 (0xff02, 0, 0, 0, 0, 0, 0, 1),
	.key.sport = _PORT (14230),
	.key.dport = _PORT (4739),
	.hash_2t = 0x0f0c461c,
	.hash_4t = 0xdde51bbf,
	},
	{
	.key.sip = _IP6 (0x3ffe, 0x1900, 0x4545, 3, 0x200, 0xf8ff, 0xfe21, 0x67cf),
	.key.dip = _IP6 (0xfe80, 0, 0, 0, 0x200, 0xf8ff, 0xfe21, 0x67cf),
	.key.sport = _PORT (44251),
	.key.dport = _PORT (38024),
	.hash_2t = 0x4b61e985,
	.hash_4t = 0x02d1feef,
	}
	};

	const u32 length_test_hashes[N_LENGTH_TESTS] = {
	0x00000000, 0x00000000, 0x2b6d12ad, 0x9de4446e, 0x061f00bf, 0xad7ed8f7,
	0x4bc7b068, 0x231fc545, 0xdbd97a33, 0xcdab29e7, 0x2d665c0c, 0x31e28ed7,
	0x14e19218, 0x5aa89f0f, 0xd47de07f, 0x355ec712, 0x7e1cbfc0, 0xf84de19d,
	0xbcf66bd3, 0x104086c6, 0x71900b34, 0xcd2f9819, 0xeae68ebb, 0x54d63b4c,
	0x5f865a2c, 0x9d6ded08, 0xe00b0912, 0x3fcf07a6, 0x3bd9ca93, 0x3f4f3bbb,
	0xd0b82624, 0xa28a08e1, 0xa585969f, 0x0c8f4a71, 0x5dce7bdd, 0x4fcf2a6d,
	0x91c89ae9, 0xbef8a24d, 0x8e3d30fe, 0xc8027848, 0xc1e7e513, 0xa12bd3d9,
	0x46700bb4, 0xc6339dab, 0x970805ad, 0xfcb50ac8, 0xc6db4f44, 0x792e2987,
	0xacfb7836, 0xa25ec529, 0x957d7beb, 0x6732809a, 0x891836ed, 0xeefb83b2,
	0xca96b40b, 0x93fd5abd, 0x9076f922, 0x59adb4eb, 0x9705aafb, 0x282719b1,
	0xdda9cb8a, 0x3f499131, 0x47491130, 0x30ef0759, 0xad1cf855, 0x428aa312,
	0x4200240a, 0x71a72857, 0x16b30c36, 0x10cca9a3, 0x166f091e, 0x30e00560,
	0x8acd20ba, 0xfa633d76, 0x0fe32eb7, 0xdcc0122f, 0x20aa8ab0, 0x62b2a9af,
	0x7a6c80a6, 0x27e87268, 0x95b797a8, 0x25d18ccd, 0x68a7fb00, 0xc54bcdad,
	0x3bd0e717, 0xf0df54c9, 0x780daadf, 0x7b435605, 0x150c1e10, 0x8a892e54,
	0x9d27cb25, 0xe23383a5, 0x57aac408, 0x83b8abf8, 0x560f33af, 0xd5cb3307,
	0x79ae8edc, 0x9b127665, 0x320f18bd, 0x385d636b, 0xbd1b2dbf, 0x97679888,
	0x738894a4, 0xeba2afb0, 0xfa7c2d50, 0xb6741aa1, 0x28922bba, 0x7783242b,
	0xa694cca2, 0xa32781c0, 0x696cd670, 0xa714d72f, 0xea34d35a, 0xc5aed81e,
	0x0438433a, 0xc1939ab2, 0xb51c123a, 0x121426b9, 0x1add93ba, 0x50c56b6a,
	0x7e90902a, 0xae3abd85, 0x2f7a0088, 0xb45cf6f9, 0x80070094, 0x8bd46467,
	0xdfd1b762, 0x0bb25856, 0x48eefe84, 0x0989dbb9, 0xfc32472b, 0x965fec6b,
	0x5a256bd0, 0x6df7127a, 0x7856d0d6, 0xedc82bd3, 0x1b563b96, 0xc73eace7,
	0xba4c0a93, 0xdfd6dd97, 0x923c41db, 0x14926ca6, 0x22e52ab1, 0x22852a66,
	0x79606b9c, 0xb0f22b23, 0xb46354ba, 0x9c3cd931, 0x03a92bd6, 0x84000834,
	0x5425df65, 0xf4dd3fc9, 0x391cc873, 0xa560b52e, 0x828037d9, 0x31323dd5,
	0x5c6e3147, 0x28e21f85, 0xa431eb51, 0xf468c4a3, 0x9bea1d2e, 0x43d9109c,
	0x5bb9b081, 0xe0825675, 0xc9c92591, 0xd29fc812, 0x03136bc9, 0x5e005a1f,
	0x6d821ed8, 0x3f0bfcc4, 0x24774162, 0x893bde94, 0x6475efea, 0x6711538e,
	0xc4755f6d, 0x9425ebe2, 0xacf471b4, 0xb947ab0c, 0x1f78c455, 0x372b3ed7,
	0xb3ec24d7, 0x18c4459f, 0xa8ff3695, 0xe4aa2b85, 0x8a52ad7e, 0xe05e8177,
	0x7aa348ed, 0x3e4ac6aa, 0x17dcf8a5, 0x93b933b0, 0x8f7413ec, 0xc77bfe61,
	0xfdb72874, 0x4370f138, 0xdf3462ad, 0xc8970a59, 0xb4a9fed8, 0xa2ddc39b,
	0xd61db62a, 0x95c5fc1b, 0x7b22e6e0, 0x1969702c, 0x7992aebb, 0x59d7c225,
	0x0e16db0b, 0x9f2afc21, 0x246cf66b, 0xb3d6569d, 0x29c532d7, 0xe155747a,
	0xe38d7872, 0xea704969, 0xb69095b0, 0x1b198efd, 0x55daab76, 0xa2a377b6,
	0xb31aa2fa, 0x48b73c41, 0xf0cc501a, 0x9c9ca831, 0x1b591b99, 0xb2d8d22f,
	0xab4b5f69, 0x4fe00e71, 0xdf5480bd, 0x982540d7, 0x7f34ea4f, 0xd7be66e1,
	0x9d2ab1ba, 0x1ba62e12, 0xee3fb36c, 0xf28d7c5a, 0x756311eb, 0xc68567f2,
	0x7b6ea177, 0xc398d9f3
	};

	#else
	extern const ip4_test_t ip4_tests[N_IP4_TESTS];
	extern const ip6_test_t ip6_tests[N_IP6_TESTS];
	extern const u32 length_test_hashes[N_LENGTH_TESTS];
	#endif

	__test_funct_fn u32
	wrapper (clib_toeplitz_hash_key_t k, u8 data, u32 n_bytes)
	{
	return clib_toeplitz_hash (k, data, n_bytes);
	}

	__test_funct_fn void
	wrapper_x4 (clib_toeplitz_hash_key_t k, u8 d0, u8 d1, u8 d2, u8 *d3,
	u32 h0, u32 h1, u32 h2, u32 h3, u32 n_bytes)
	{
	clib_toeplitz_hash_x4 (k, d0, d1, d2, d3, h0, h1, h2, h3, n_bytes);
	}

	static clib_error_t *
	test_clib_toeplitz_hash (clib_error_t *err)
	{
	u32 r;
	int n_key_copies, bigkey_len, bigdata_len;
	u8 bigkey, bigdata;
	clib_toeplitz_hash_key_t *k;

	k = clib_toeplitz_hash_key_init (0, 0);

	for (int i = 0; i < N_IP4_TESTS; i++)
	{
	r = wrapper (k, (u8 *) &ip4_tests[i].key, 8);
	if (ip4_tests[i].hash_2t != r)
	return clib_error_return (err,
	"wrong IPv4 2 tuple hash for test %u, "
	"calculated 0x%08x expected 0x%08x",
	i, ip4_tests[i].hash_2t, r);

	r = wrapper (k, (u8 *) &ip4_tests[i].key, 12);
	if (ip4_tests[i].hash_4t != r)
	return clib_error_return (err,
	"wrong IPv4 4 tuple hash for test %u, "
	"calculated 0x%08x expected 0x%08x",
	i, ip4_tests[i].hash_4t, r);
	}

	for (int i = 0; i < N_IP6_TESTS; i++)
	{
	r = wrapper (k, (u8 *) &ip6_tests[i].key, 32);
	if (ip6_tests[i].hash_2t != r)
	return clib_error_return (err,
	"wrong IPv6 2 tuple hash for test %u, "
	"calculated 0x%08x expected 0x%08x",
	i, ip6_tests[i].hash_2t, r);

	r = wrapper (k, (u8 *) &ip6_tests[i].key, 36);
	if (ip6_tests[i].hash_4t != r)
	return clib_error_return (err,
	"wrong IPv6 4 tuple hash for test %u, "
	"calculated 0x%08x expected 0x%08x",
	i, ip6_tests[i].hash_4t, r);
	}

	n_key_copies = 6;
	bigkey_len = k->key_length * n_key_copies;
	bigdata_len = bigkey_len - 4;
	bigkey = test_mem_alloc_and_splat (k->key_length, n_key_copies, k->data);
	bigdata = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
	u32 key_len = k->key_length;

	clib_toeplitz_hash_key_free (k);
	k = clib_toeplitz_hash_key_init (bigkey, n_key_copies * key_len);

	for (int i = 0; i < N_LENGTH_TESTS - 4; i++)
	{
	r = wrapper (k, bigdata, i);
	if (length_test_hashes[i] != r)
	{
	err = clib_error_return (err,
	"wrong length test hash for length %u, "
	"calculated 0x%08x expected 0x%08x "
	"xor 0x%08x",
	i, r, length_test_hashes[i],
	r ^ length_test_hashes[i]);
	goto done;
	}
	}

	done:
	clib_toeplitz_hash_key_free (k);
	return err;
	}

	void __test_perf_fn
	perftest_fixed_12byte (test_perf_t *tp)
	{
	u32 n = tp->n_ops;
	u8 data = test_mem_alloc_and_splat (12, n, (void ) &ip4_tests[0].key);
	u8 res = test_mem_alloc (4 n);
	clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

	test_perf_event_enable (tp);
	for (int i = 0; i < n; i++)
	((u32 ) res)[i] = clib_toeplitz_hash (k, data + i 12, 12);
	test_perf_event_disable (tp);

	clib_toeplitz_hash_key_free (k);
	}

	void __test_perf_fn
	perftest_fixed_36byte (test_perf_t *tp)
	{
	u32 n = tp->n_ops;
	u8 data = test_mem_alloc_and_splat (36, n, (void ) &ip6_tests[0].key);
	u8 res = test_mem_alloc (4 n);
	clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

	test_perf_event_enable (tp);
	for (int i = 0; i < n; i++)
	((u32 ) res)[i] = clib_toeplitz_hash (k, data + i 36, 36);
	test_perf_event_disable (tp);

	clib_toeplitz_hash_key_free (k);
	}

	void __test_perf_fn
	perftest_variable_size (test_perf_t *tp)
	{
	u32 key_len, n_keys, n = tp->n_ops;
	u8 key, data = test_mem_alloc (n);
	u32 *res = test_mem_alloc (sizeof (u32));
	clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

	k = clib_toeplitz_hash_key_init (0, 0);
	key_len = k->key_length;
	n_keys = ((n + 4) / k->key_length) + 1;
	key = test_mem_alloc_and_splat (n_keys, key_len, k->data);
	clib_toeplitz_hash_key_free (k);
	k = clib_toeplitz_hash_key_init (key, key_len * n_keys);

	test_perf_event_enable (tp);
	res[0] = clib_toeplitz_hash (k, data, n);
	test_perf_event_disable (tp);

	clib_toeplitz_hash_key_free (k);
	}

	REGISTER_TEST (clib_toeplitz_hash) = {
	.name = "clib_toeplitz_hash",
	.fn = test_clib_toeplitz_hash,
	.perf_tests = PERF_TESTS ({ .name = "fixed (per 12 byte tuple)",
	.n_ops = 1024,
	.fn = perftest_fixed_12byte },
	{ .name = "fixed (per 36 byte tuple)",
	.n_ops = 1024,
	.fn = perftest_fixed_36byte },
	{ .name = "variable size (per byte)",
	.n_ops = 16384,
	.fn = perftest_variable_size }),
	};

	static clib_error_t *
	test_clib_toeplitz_hash_x4 (clib_error_t *err)
	{
	u32 r[4];
	int n_key_copies, bigkey_len, bigdata_len;
	u8 bigkey, bigdata0, bigdata1, bigdata2, *bigdata3;
	clib_toeplitz_hash_key_t *k;

	k = clib_toeplitz_hash_key_init (0, 0);

	wrapper_x4 (k, (u8 ) &ip4_tests[0].key, (u8 ) &ip4_tests[1].key,
	(u8 ) &ip4_tests[2].key, (u8 ) &ip4_tests[3].key, r, r + 1,
	r + 2, r + 3, 8);

	if (ip4_tests[0].hash_2t != r[0] \|\| ip4_tests[1].hash_2t != r[1] \|\|
	ip4_tests[2].hash_2t != r[2] \|\| ip4_tests[3].hash_2t != r[3])
	return clib_error_return (err,
	"wrong IPv4 2 tuple x4 hash "
	"calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x } "
	"expected { 0x%08x, 0x%08x, 0x%08x, 0x%08x }",
	ip4_tests[0].hash_2t, ip4_tests[1].hash_2t,
	ip4_tests[2].hash_2t, ip4_tests[3].hash_2t, r[0],
	r[1], r[2], r[3]);

	wrapper_x4 (k, (u8 ) &ip4_tests[0].key, (u8 ) &ip4_tests[1].key,
	(u8 ) &ip4_tests[2].key, (u8 ) &ip4_tests[3].key, r, r + 1,
	r + 2, r + 3, 12);

	if (ip4_tests[0].hash_4t != r[0] \|\| ip4_tests[1].hash_4t != r[1] \|\|
	ip4_tests[2].hash_4t != r[2] \|\| ip4_tests[3].hash_4t != r[3])
	return clib_error_return (err,
	"wrong IPv4 4 tuple x4 hash "
	"calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x } "
	"expected { 0x%08x, 0x%08x, 0x%08x, 0x%08x }",
	ip4_tests[0].hash_4t, ip4_tests[1].hash_4t,
	ip4_tests[2].hash_4t, ip4_tests[3].hash_4t, r[0],
	r[1], r[2], r[3]);

	wrapper_x4 (k, (u8 ) &ip6_tests[0].key, (u8 ) &ip6_tests[1].key,
	(u8 ) &ip6_tests[2].key, (u8 ) &ip6_tests[0].key, r, r + 1,
	r + 2, r + 3, 32);

	if (ip6_tests[0].hash_2t != r[0] \|\| ip6_tests[1].hash_2t != r[1] \|\|
	ip6_tests[2].hash_2t != r[2] \|\| ip6_tests[0].hash_2t != r[3])
	return clib_error_return (err,
	"wrong IPv6 2 tuple x4 hash "
	"calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x } "
	"expected { 0x%08x, 0x%08x, 0x%08x, 0x%08x }",
	ip6_tests[0].hash_2t, ip6_tests[1].hash_2t,
	ip6_tests[2].hash_2t, ip6_tests[0].hash_2t, r[0],
	r[1], r[2], r[3]);

	wrapper_x4 (k, (u8 ) &ip6_tests[0].key, (u8 ) &ip6_tests[1].key,
	(u8 ) &ip6_tests[2].key, (u8 ) &ip6_tests[0].key, r, r + 1,
	r + 2, r + 3, 36);

	if (ip6_tests[0].hash_4t != r[0] \|\| ip6_tests[1].hash_4t != r[1] \|\|
	ip6_tests[2].hash_4t != r[2] \|\| ip6_tests[0].hash_4t != r[3])
	return clib_error_return (err,
	"wrong IPv6 4 tuple x4 hash "
	"calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x } "
	"expected { 0x%08x, 0x%08x, 0x%08x, 0x%08x }",
	ip6_tests[0].hash_4t, ip6_tests[1].hash_4t,
	ip6_tests[2].hash_4t, ip6_tests[0].hash_4t, r[0],
	r[1], r[2], r[3]);

	n_key_copies = 6;
	bigkey_len = k->key_length * n_key_copies;
	bigdata_len = bigkey_len - 4;
	bigkey = test_mem_alloc_and_splat (k->key_length, n_key_copies, k->data);
	bigdata0 = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
	bigdata1 = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
	bigdata2 = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
	bigdata3 = test_mem_alloc_and_fill_inc_u8 (bigdata_len, 0, 0);
	u32 key_len = k->key_length;

	clib_toeplitz_hash_key_free (k);
	k = clib_toeplitz_hash_key_init (bigkey, n_key_copies * key_len);

	for (int i = 0; i < N_LENGTH_TESTS - 4; i++)
	{
	wrapper_x4 (k, bigdata0, bigdata1, bigdata2, bigdata3, r, r + 1, r + 2,
	r + 3, i);
	if (length_test_hashes[i] != r[0] \|\| length_test_hashes[i] != r[1] \|\|
	length_test_hashes[i] != r[2] \|\| length_test_hashes[i] != r[3])
	{
	err = clib_error_return (
	err,
	"wrong length test hash x4 for length %u, "
	"calculated { 0x%08x, 0x%08x, 0x%08x, 0x%08x }, expected 0x%08x",
	i, r[0], r[1], r[2], r[3], length_test_hashes[i]);
	goto done;
	}
	}

	done:
	clib_toeplitz_hash_key_free (k);
	return err;
	}

	void __test_perf_fn
	perftest_fixed_12byte_x4 (test_perf_t *tp)
	{
	u32 n = tp->n_ops / 4;
	u8 d0 = test_mem_alloc_and_splat (12, n, (void ) &ip4_tests[0].key);
	u8 d1 = test_mem_alloc_and_splat (12, n, (void ) &ip4_tests[1].key);
	u8 d2 = test_mem_alloc_and_splat (12, n, (void ) &ip4_tests[2].key);
	u8 d3 = test_mem_alloc_and_splat (12, n, (void ) &ip4_tests[3].key);
	u32 h0 = test_mem_alloc (4 n);
	u32 h1 = test_mem_alloc (4 n);
	u32 h2 = test_mem_alloc (4 n);
	u32 h3 = test_mem_alloc (4 n);
	clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

	test_perf_event_enable (tp);
	for (int i = 0; i < n; i++)
	clib_toeplitz_hash_x4 (k, d0 + i * 12, d1 + i * 12, d2 + i * 12,
	d3 + i * 12, h0 + i, h1 + i, h2 + i, h3 + i, 12);
	test_perf_event_disable (tp);

	clib_toeplitz_hash_key_free (k);
	}

	void __test_perf_fn
	perftest_fixed_36byte_x4 (test_perf_t *tp)
	{
	u32 n = tp->n_ops / 4;
	u8 d0 = test_mem_alloc_and_splat (36, n, (void ) &ip4_tests[0].key);
	u8 d1 = test_mem_alloc_and_splat (36, n, (void ) &ip4_tests[1].key);
	u8 d2 = test_mem_alloc_and_splat (36, n, (void ) &ip4_tests[2].key);
	u8 d3 = test_mem_alloc_and_splat (36, n, (void ) &ip4_tests[3].key);
	u32 h0 = test_mem_alloc (4 n);
	u32 h1 = test_mem_alloc (4 n);
	u32 h2 = test_mem_alloc (4 n);
	u32 h3 = test_mem_alloc (4 n);
	clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

	test_perf_event_enable (tp);
	for (int i = 0; i < n; i++)
	clib_toeplitz_hash_x4 (k, d0 + i * 36, d1 + i * 36, d2 + i * 36,
	d3 + i * 36, h0 + i, h1 + i, h2 + i, h3 + i, 36);
	test_perf_event_disable (tp);

	clib_toeplitz_hash_key_free (k);
	}

	void __test_perf_fn
	perftest_variable_size_x4 (test_perf_t *tp)
	{
	u32 key_len, n_keys, n = tp->n_ops / 4;
	u8 *key;
	u8 *d0 = test_mem_alloc (n);
	u8 *d1 = test_mem_alloc (n);
	u8 *d2 = test_mem_alloc (n);
	u8 *d3 = test_mem_alloc (n);
	u32 *h0 = test_mem_alloc (sizeof (u32));
	u32 *h1 = test_mem_alloc (sizeof (u32));
	u32 *h2 = test_mem_alloc (sizeof (u32));
	u32 *h3 = test_mem_alloc (sizeof (u32));
	clib_toeplitz_hash_key_t *k = clib_toeplitz_hash_key_init (0, 0);

	k = clib_toeplitz_hash_key_init (0, 0);
	key_len = k->key_length;
	n_keys = ((n + 4) / k->key_length) + 1;
	key = test_mem_alloc_and_splat (n_keys, key_len, k->data);
	clib_toeplitz_hash_key_free (k);
	k = clib_toeplitz_hash_key_init (key, key_len * n_keys);

	test_perf_event_enable (tp);
	clib_toeplitz_hash_x4 (k, d0, d1, d2, d3, h0, h1, h2, h3, n);
	test_perf_event_disable (tp);

	clib_toeplitz_hash_key_free (k);
	}

	REGISTER_TEST (clib_toeplitz_hash_x4) = {
	.name = "clib_toeplitz_hash_x4",
	.fn = test_clib_toeplitz_hash_x4,
	.perf_tests = PERF_TESTS ({ .name = "fixed (per 12 byte tuple)",
	.n_ops = 1024,
	.fn = perftest_fixed_12byte_x4 },
	{ .name = "fixed (per 36 byte tuple)",
	.n_ops = 1024,
	.fn = perftest_fixed_36byte_x4 },
	{ .name = "variable size (per byte)",
	.n_ops = 16384,
	.fn = perftest_variable_size_x4 }),
	};