summaryrefslogtreecommitdiffstats
path: root/test/test_vxlan_gpe.py
AgeCommit message (Expand)AuthorFilesLines
2022-05-10tests: replace pycodestyle with blackKlement Sekera1-82/+103
2022-02-17tests: make tests less make dependentKlement Sekera1-2/+3
2021-10-08vxlan-gpe: add udp-port configuration supportArtem Glazychev1-75/+152
2021-05-13tests: move test source to vpp/testDave Wallace1-0/+265
2021-03-29tests: move vxlan tests to src/vnet/vxlan/testsDave Wallace1-265/+0
2020-06-08vxlan: Fixed checksum caclculation offsetVladimir Isaev1-0/+2
2020-05-03tests: vpp_interface remove deprecated packed propertiesPaul Vinciguerra1-20/+18
2020-04-10geneve: Fix the byte swapping for the VNINeale Ranns1-1/+2
2019-12-14tests: changes for scapy 2.4.3 migrationsnaramre1-1/+2
2019-11-05misc: Fix python scripts shebang lineRenato Botelho do Couto1-1/+1
2019-06-18fib: fib api updatesNeale Ranns1-7/+13
2019-04-11Tests: Refactor tearDown show command logging, add lifecycle markers.Paul Vinciguerra1-7/+8
2019-03-12Tests: Raise exception, don't raise string.Paul Vinciguerra1-1/+1
2019-03-11vpp_papi_provider: Remove more wrapper functions.Ole Troan1-10/+13
2019-02-04VTL Cleanup: Fix missing calls to setUpClass/tearDownClass, fix numerous Type...Paul Vinciguerra1-0/+4
2018-12-20Tests: Cleanup @skip decorator.Paul Vinciguerra1-1/+1
2018-06-21test:vxlan over ipv6 testsEyal Bari1-1/+5
2017-12-13make "test-all" target pass againGabriel Ganne1-81/+13
2017-11-15vxlan extended tests - fix scapy-related issuesGabriel Ganne1-1/+1
2017-06-06Rework vxlan-gpe to support FIB 2.0 and bypass modeHongjun Ni1-0/+313
> 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858
/*
 * Copyright (c) 2015 Cisco and/or its affiliates.
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at:
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
/*
  Copyright (c) 2006 Eliot Dresselhaus

  Permission is hereby granted, free of charge, to any person obtaining
  a copy of this software and associated documentation files (the
  "Software"), to deal in the Software without restriction, including
  without limitation the rights to use, copy, modify, merge, publish,
  distribute, sublicense, and/or sell copies of the Software, and to
  permit persons to whom the Software is furnished to do so, subject to
  the following conditions:

  The above copyright notice and this permission notice shall be
  included in all copies or substantial portions of the Software.

  THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
  EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
  MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
  NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
  LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
  OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
  WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/

#include <vppinfra/qhash.h>

#define QHASH_ALL_VALID ((1 << QHASH_KEYS_PER_BUCKET) - 1)

void *
_qhash_resize (void *v, uword length, uword elt_bytes)
{
  qhash_t *h;
  uword l;

  l = clib_max (max_log2 (length), 2 + QHASH_LOG2_KEYS_PER_BUCKET);

  /* Round up if less than 1/2 full. */
  l += ((f64) length / (f64) (1 << l)) < .5;

  v = _vec_resize (0, 1 << l, elt_bytes << l, sizeof (h[0]),
		   /* align */ sizeof (uword));

  h = qhash_header (v);
  h->n_elts = 0;
  h->log2_hash_size = l;
  h->hash_keys =
    clib_mem_alloc_aligned_no_fail (sizeof (h->hash_keys[0]) << l,
				    CLIB_CACHE_LINE_BYTES);
  vec_resize (h->hash_key_valid_bitmap,
	      1 << (l - QHASH_LOG2_KEYS_PER_BUCKET));
  memset (v, ~0, elt_bytes << l);

  return v;
}

static u8 min_log2_table[256];

static inline uword
qhash_min_log2 (uword x)
{
  ASSERT (is_pow2 (x));
  ASSERT (x < 256);
  return min_log2_table[x];
}

static void
qhash_min_log2_init ()
{
  int i;
  for (i = 0; i < 256; i++)
    min_log2_table[i] = min_log2 (i);
}

always_inline uword
qhash_get_valid_elt_mask (qhash_t * h, uword i)
{
  return h->hash_key_valid_bitmap[i / QHASH_KEYS_PER_BUCKET];
}

always_inline void
qhash_set_valid_elt_mask (qhash_t * h, uword i, uword mask)
{
  h->hash_key_valid_bitmap[i / QHASH_KEYS_PER_BUCKET] = mask;
}

always_inline uword
qhash_search_bucket (uword * hash_keys, uword search_key, uword m)
{
  uword t;
#define _(i) ((hash_keys[i] == search_key) << i)
  t = (_(0) | _(1) | _(2) | _(3));
  if (QHASH_KEYS_PER_BUCKET > 4)
    t |= (_(4) | _(5) | _(6) | _(7));
  if (QHASH_KEYS_PER_BUCKET > 8)
    t |= (_(8) | _(9) | _(10) | _(11) | _(12) | _(13) | _(14) | _(15));
#undef _
  return m & t;
}

/* Lookup multiple keys in the same hash table. */
void
qhash_get_multiple (void *v,
		    uword * search_keys,
		    uword n_search_keys, u32 * result_indices)
{
  qhash_t *h = qhash_header (v);
  uword *k, *hash_keys;
  uword n_left, bucket_mask;
  u32 *r;

  if (!v)
    {
      memset (result_indices, ~0, sizeof (result_indices[0]) * n_search_keys);
      return;
    }

  bucket_mask = pow2_mask (h->log2_hash_size) & ~(QHASH_KEYS_PER_BUCKET - 1);

  k = search_keys;
  n_left = n_search_keys;
  hash_keys = h->hash_keys;
  r = result_indices;

  while (n_left >= 2)
    {
      u32 a0, b0, c0, bi0, valid0, match0;
      u32 a1, b1, c1, bi1, valid1, match1;
      uword k0, k1, *h0, *h1;

      k0 = k[0];
      k1 = k[1];
      n_left -= 2;
      k += 2;

      a0 = a1 = h->hash_seeds[0];
      b0 = b1 = h->hash_seeds[1];
      c0 = c1 = h->hash_seeds[2];
      a0 ^= k0;
      a1 ^= k1;
#if uword_bits == 64
      b0 ^= k0 >> 32;
      b1 ^= k1 >> 32;
#endif

      hash_mix32_step_1 (a0, b0, c0);
      hash_mix32_step_1 (a1, b1, c1);
      hash_mix32_step_2 (a0, b0, c0);
      hash_mix32_step_2 (a1, b1, c1);
      hash_mix32_step_3 (a0, b0, c0);
      hash_mix32_step_3 (a1, b1, c1);

      bi0 = c0 & bucket_mask;
      bi1 = c1 & bucket_mask;

      h0 = hash_keys + bi0;
      h1 = hash_keys + bi1;

      /* Search two buckets. */
      valid0 = qhash_get_valid_elt_mask (h, bi0);
      valid1 = qhash_get_valid_elt_mask (h, bi1);

      match0 = qhash_search_bucket (h0, k0, valid0);
      match1 = qhash_search_bucket (h1, k1, valid1);

      bi0 += qhash_min_log2 (match0);
      bi1 += qhash_min_log2 (match1);

      r[0] = match0 ? bi0 : ~0;
      r[1] = match1 ? bi1 : ~0;
      r += 2;

      /* Full buckets trigger search of overflow hash. */
      if (PREDICT_FALSE (!match0 && valid0 == QHASH_ALL_VALID))
	{
	  uword *p = hash_get (h->overflow_hash, k0);
	  r[-2] = p ? p[0] : ~0;
	}

      /* Full buckets trigger search of overflow hash. */
      if (PREDICT_FALSE (!match1 && valid1 == QHASH_ALL_VALID))
	{
	  uword *p = hash_get (h->overflow_hash, k1);
	  r[-1] = p ? p[0] : ~0;
	}
    }

  while (n_left >= 1)
    {
      u32 a0, b0, c0, bi0, valid0, match0;
      uword k0, *h0;

      k0 = k[0];
      n_left -= 1;
      k += 1;

      a0 = h->hash_seeds[0];
      b0 = h->hash_seeds[1];
      c0 = h->hash_seeds[2];
      a0 ^= k0;
#if uword_bits == 64
      b0 ^= k0 >> 32;
#endif

      hash_mix32 (a0, b0, c0);

      bi0 = c0 & bucket_mask;

      h0 = hash_keys + bi0;

      /* Search one bucket. */
      valid0 = qhash_get_valid_elt_mask (h, bi0);
      match0 = qhash_search_bucket (h0, k0, valid0);

      bi0 += qhash_min_log2 (match0);

      r[0] = match0 ? bi0 : ~0;
      r += 1;

      /* Full buckets trigger search of overflow hash. */
      if (PREDICT_FALSE (!match0 && valid0 == QHASH_ALL_VALID))
	{
	  uword *p = hash_get (h->overflow_hash, k0);
	  r[-1] = p ? p[0] : ~0;
	}
    }
}

/* Lookup multiple keys in the same hash table.
   Returns index of first matching key. */
u32
qhash_get_first_match (void *v,
		       uword * search_keys,
		       uword n_search_keys, uword * matching_key)
{
  qhash_t *h = qhash_header (v);
  uword *k, *hash_keys;
  uword n_left, match_mask, bucket_mask;

  if (!v)
    return ~0;

  match_mask = 0;
  bucket_mask = pow2_mask (h->log2_hash_size) & ~(QHASH_KEYS_PER_BUCKET - 1);

  k = search_keys;
  n_left = n_search_keys;
  hash_keys = h->hash_keys;
  while (n_left >= 2)
    {
      u32 a0, b0, c0, bi0, valid0;
      u32 a1, b1, c1, bi1, valid1;
      uword k0, k1, *h0, *h1;

      k0 = k[0];
      k1 = k[1];
      n_left -= 2;
      k += 2;

      a0 = a1 = h->hash_seeds[0];
      b0 = b1 = h->hash_seeds[1];
      c0 = c1 = h->hash_seeds[2];
      a0 ^= k0;
      a1 ^= k1;
#if uword_bits == 64
      b0 ^= k0 >> 32;
      b1 ^= k1 >> 32;
#endif

      hash_mix32_step_1 (a0, b0, c0);
      hash_mix32_step_1 (a1, b1, c1);
      hash_mix32_step_2 (a0, b0, c0);
      hash_mix32_step_2 (a1, b1, c1);
      hash_mix32_step_3 (a0, b0, c0);
      hash_mix32_step_3 (a1, b1, c1);

      bi0 = c0 & bucket_mask;
      bi1 = c1 & bucket_mask;

      h0 = hash_keys + bi0;
      h1 = hash_keys + bi1;

      /* Search two buckets. */
      valid0 = qhash_get_valid_elt_mask (h, bi0);
      valid1 = qhash_get_valid_elt_mask (h, bi1);
      match_mask = qhash_search_bucket (h0, k0, valid0);
      match_mask |= (qhash_search_bucket (h1, k1, valid1)
		     << QHASH_KEYS_PER_BUCKET);
      if (match_mask)
	{
	  uword bi, is_match1;

	  bi = qhash_min_log2 (match_mask);
	  is_match1 = bi >= QHASH_KEYS_PER_BUCKET;

	  bi += ((is_match1 ? bi1 : bi0)
		 - (is_match1 << QHASH_LOG2_KEYS_PER_BUCKET));
	  *matching_key = (k - 2 - search_keys) + is_match1;
	  return bi;
	}

      /* Full buckets trigger search of overflow hash. */
      if (PREDICT_FALSE (valid0 == QHASH_ALL_VALID
			 || valid1 == QHASH_ALL_VALID))
	{
	  uword *p = 0;
	  uword ki = k - 2 - search_keys;

	  if (valid0 == QHASH_ALL_VALID)
	    p = hash_get (h->overflow_hash, k0);

	  if (!p && valid1 == QHASH_ALL_VALID)
	    {
	      p = hash_get (h->overflow_hash, k1);
	      ki++;
	    }

	  if (p)
	    {
	      *matching_key = ki;
	      return p[0];
	    }
	}
    }

  while (n_left >= 1)
    {
      u32 a0, b0, c0, bi0, valid0;
      uword k0, *h0;

      k0 = k[0];
      n_left -= 1;
      k += 1;

      a0 = h->hash_seeds[0];
      b0 = h->hash_seeds[1];
      c0 = h->hash_seeds[2];
      a0 ^= k0;
#if uword_bits == 64
      b0 ^= k0 >> 32;
#endif

      hash_mix32 (a0, b0, c0);

      bi0 = c0 & bucket_mask;

      h0 = hash_keys + bi0;

      /* Search one bucket. */
      valid0 = qhash_get_valid_elt_mask (h, bi0);
      match_mask = qhash_search_bucket (h0, k0, valid0);
      if (match_mask)
	{
	  uword bi;
	  bi = bi0 + qhash_min_log2 (match_mask);
	  *matching_key = (k - 1 - search_keys);
	  return bi;
	}

      /* Full buckets trigger search of overflow hash. */
      if (PREDICT_FALSE (valid0 == QHASH_ALL_VALID))
	{
	  uword *p = hash_get (h->overflow_hash, k0);
	  if (p)
	    {
	      *matching_key = (k - 1 - search_keys);
	      return p[0];
	    }
	}
    }

  return ~0;
}

static void *
qhash_set_overflow (void *v, uword elt_bytes,
		    uword key, uword bi, uword * n_elts, u32 * result)
{
  qhash_t *h = qhash_header (v);
  uword *p = hash_get (h->overflow_hash, key);
  uword i;

  bi /= QHASH_KEYS_PER_BUCKET;

  if (p)
    i = p[0];
  else
    {
      uword l = vec_len (h->overflow_free_indices);
      if (l > 0)
	{
	  i = h->overflow_free_indices[l - 1];
	  _vec_len (h->overflow_free_indices) = l - 1;
	}
      else
	i = (1 << h->log2_hash_size) + hash_elts (h->overflow_hash);
      hash_set (h->overflow_hash, key, i);
      vec_validate (h->overflow_counts, bi);
      h->overflow_counts[bi] += 1;
      *n_elts += 1;

      l = vec_len (v);
      if (i >= l)
	{
	  uword dl = round_pow2 (1 + i - l, 8);
	  v = _vec_resize (v, dl, (l + dl) * elt_bytes, sizeof (h[0]),
			   /* align */ sizeof (uword));
	  memset (v + l * elt_bytes, ~0, dl * elt_bytes);
	}
    }

  *result = i;

  return v;
}

static uword
qhash_unset_overflow (void *v, uword key, uword bi, uword * n_elts)
{
  qhash_t *h = qhash_header (v);
  uword *p = hash_get (h->overflow_hash, key);
  uword result;

  bi /= QHASH_KEYS_PER_BUCKET;

  if (p)
    {
      result = p[0];
      hash_unset (h->overflow_hash, key);
      ASSERT (bi < vec_len (h->overflow_counts));
      ASSERT (h->overflow_counts[bi] > 0);
      ASSERT (*n_elts > 0);
      vec_add1 (h->overflow_free_indices, result);
      h->overflow_counts[bi] -= 1;
      *n_elts -= 1;
    }
  else
    result = ~0;

  return result;
}

always_inline uword
qhash_find_free (uword i, uword valid_mask)
{
  return first_set (~valid_mask & pow2_mask (QHASH_KEYS_PER_BUCKET));
}

void *
_qhash_set_multiple (void *v,
		     uword elt_bytes,
		     uword * search_keys,
		     uword n_search_keys, u32 * result_indices)
{
  qhash_t *h = qhash_header (v);
  uword *k, *hash_keys;
  uword n_left, n_elts, bucket_mask;
  u32 *r;

  if (vec_len (v) < n_search_keys)
    v = _qhash_resize (v, n_search_keys, elt_bytes);

  if (qhash_min_log2 (2) != 1)
    {
      qhash_min_log2_init ();
      ASSERT (qhash_min_log2 (2) == 1);
    }

  ASSERT (v != 0);

  bucket_mask = pow2_mask (h->log2_hash_size) & ~(QHASH_KEYS_PER_BUCKET - 1);

  hash_keys = h->hash_keys;
  k = search_keys;
  r = result_indices;
  n_left = n_search_keys;
  n_elts = h->n_elts;

  while (n_left >= 2)
    {
      u32 a0, b0, c0, bi0, match0, valid0, free0;
      u32 a1, b1, c1, bi1, match1, valid1, free1;
      uword k0, *h0;
      uword k1, *h1;

      k0 = k[0];
      k1 = k[1];

      /* Keys must be unique. */
      ASSERT (k0 != k1);

      n_left -= 2;
      k += 2;

      a0 = a1 = h->hash_seeds[0];
      b0 = b1 = h->hash_seeds[1];
      c0 = c1 = h->hash_seeds[2];
      a0 ^= k0;
      a1 ^= k1;
#if uword_bits == 64
      b0 ^= k0 >> 32;
      b1 ^= k1 >> 32;
#endif

      hash_mix32_step_1 (a0, b0, c0);
      hash_mix32_step_1 (a1, b1, c1);
      hash_mix32_step_2 (a0, b0, c0);
      hash_mix32_step_2 (a1, b1, c1);
      hash_mix32_step_3 (a0, b0, c0);
      hash_mix32_step_3 (a1, b1, c1);

      bi0 = c0 & bucket_mask;
      bi1 = c1 & bucket_mask;

      h0 = hash_keys + bi0;
      h1 = hash_keys + bi1;

      /* Search two buckets. */
      valid0 = qhash_get_valid_elt_mask (h, bi0);
      valid1 = qhash_get_valid_elt_mask (h, bi1);

      match0 = qhash_search_bucket (h0, k0, valid0);
      match1 = qhash_search_bucket (h1, k1, valid1);

      /* Find first free element starting at hash offset into bucket. */
      free0 = qhash_find_free (c0 & (QHASH_KEYS_PER_BUCKET - 1), valid0);

      valid1 = valid1 | (bi0 == bi1 ? free0 : 0);
      free1 = qhash_find_free (c1 & (QHASH_KEYS_PER_BUCKET - 1), valid1);

      n_elts += (match0 == 0) + (match1 == 0);

      match0 = match0 ? match0 : free0;
      match1 = match1 ? match1 : free1;

      valid0 |= match0;
      valid1 |= match1;

      h0 += qhash_min_log2 (match0);
      h1 += qhash_min_log2 (match1);

      if (PREDICT_FALSE (!match0 || !match1))
	goto slow_path2;

      h0[0] = k0;
      h1[0] = k1;
      r[0] = h0 - hash_keys;
      r[1] = h1 - hash_keys;
      r += 2;
      qhash_set_valid_elt_mask (h, bi0, valid0);
      qhash_set_valid_elt_mask (h, bi1, valid1);
      continue;

    slow_path2:
      if (!match0)
	{
	  n_elts -= 1;
	  v = qhash_set_overflow (v, elt_bytes, k0, bi0, &n_elts, &r[0]);
	}
      else
	{
	  h0[0] = k0;
	  r[0] = h0 - hash_keys;
	  qhash_set_valid_elt_mask (h, bi0, valid0);
	}
      if (!match1)
	{
	  n_elts -= 1;
	  v = qhash_set_overflow (v, elt_bytes, k1, bi1, &n_elts, &r[1]);
	}
      else
	{
	  h1[0] = k1;
	  r[1] = h1 - hash_keys;
	  qhash_set_valid_elt_mask (h, bi1, valid1);
	}
      r += 2;
    }

  while (n_left >= 1)
    {
      u32 a0, b0, c0, bi0, match0, valid0, free0;
      uword k0, *h0;

      k0 = k[0];
      n_left -= 1;
      k += 1;

      a0 = h->hash_seeds[0];
      b0 = h->hash_seeds[1];
      c0 = h->hash_seeds[2];
      a0 ^= k0;
#if uword_bits == 64
      b0 ^= k0 >> 32;
#endif

      hash_mix32 (a0, b0, c0);

      bi0 = c0 & bucket_mask;

      h0 = hash_keys + bi0;

      valid0 = qhash_get_valid_elt_mask (h, bi0);

      /* Find first free element starting at hash offset into bucket. */
      free0 = qhash_find_free (c0 & (QHASH_KEYS_PER_BUCKET - 1), valid0);

      match0 = qhash_search_bucket (h0, k0, valid0);

      n_elts += (match0 == 0);

      match0 = match0 ? match0 : free0;

      valid0 |= match0;

      h0 += qhash_min_log2 (match0);

      if (PREDICT_FALSE (!match0))
	goto slow_path1;

      h0[0] = k0;
      r[0] = h0 - hash_keys;
      r += 1;
      qhash_set_valid_elt_mask (h, bi0, valid0);
      continue;

    slow_path1:
      n_elts -= 1;
      v = qhash_set_overflow (v, elt_bytes, k0, bi0, &n_elts, &r[0]);
      r += 1;
    }

  h = qhash_header (v);
  h->n_elts = n_elts;

  return v;
}

static uword
unset_slow_path (void *v, uword elt_bytes,
		 uword k0, uword bi0, uword valid0, uword match0,
		 uword * n_elts)
{
  qhash_t *h = qhash_header (v);
  uword i, j = 0, k, l, t = ~0;
  hash_pair_t *p, *found;

  if (!match0)
    {
      if (valid0 == QHASH_ALL_VALID)
	t = qhash_unset_overflow (v, k0, bi0, n_elts);
      return t;
    }

  i = bi0 / QHASH_KEYS_PER_BUCKET;
  t = bi0 + qhash_min_log2 (match0);

  if (valid0 == QHASH_ALL_VALID
      && i < vec_len (h->overflow_counts) && h->overflow_counts[i] > 0)
    {
      found = 0;
      /* *INDENT-OFF* */
      hash_foreach_pair (p, h->overflow_hash, ({
	j = qhash_hash_mix (h, p->key) / QHASH_KEYS_PER_BUCKET;
	if (j == i)
	  {
	    found = p;
	    break;
	  }
      }));
      /* *INDENT-ON* */
      ASSERT (found != 0);
      ASSERT (j == i);

      l = found->value[0];
      k = found->key;
      hash_unset3 (h->overflow_hash, k, &j);
      vec_add1 (h->overflow_free_indices, j);
      h->overflow_counts[i] -= 1;

      qhash_set_valid_elt_mask (h, bi0, valid0);

      h->hash_keys[t] = k;
      clib_memswap (v + t * elt_bytes, v + l * elt_bytes, elt_bytes);
      t = l;
    }
  else
    qhash_set_valid_elt_mask (h, bi0, valid0 ^ match0);

  return t;
}

void
_qhash_unset_multiple (void *v,
		       uword elt_bytes,
		       uword * search_keys,
		       uword n_search_keys, u32 * result_indices)
{
  qhash_t *h = qhash_header (v);
  uword *k, *hash_keys;
  uword n_left, n_elts, bucket_mask;
  u32 *r;

  if (!v)
    {
      uword i;
      for (i = 0; i < n_search_keys; i++)
	result_indices[i] = ~0;
    }

  bucket_mask = pow2_mask (h->log2_hash_size) & ~(QHASH_KEYS_PER_BUCKET - 1);

  hash_keys = h->hash_keys;
  k = search_keys;
  r = result_indices;
  n_left = n_search_keys;
  n_elts = h->n_elts;

  while (n_left >= 2)
    {
      u32 a0, b0, c0, bi0, match0, valid0;
      u32 a1, b1, c1, bi1, match1, valid1;
      uword k0, *h0;
      uword k1, *h1;

      k0 = k[0];
      k1 = k[1];

      /* Keys must be unique. */
      ASSERT (k0 != k1);

      n_left -= 2;
      k += 2;

      a0 = a1 = h->hash_seeds[0];
      b0 = b1 = h->hash_seeds[1];
      c0 = c1 = h->hash_seeds[2];
      a0 ^= k0;
      a1 ^= k1;
#if uword_bits == 64
      b0 ^= k0 >> 32;
      b1 ^= k1 >> 32;
#endif

      hash_mix32_step_1 (a0, b0, c0);
      hash_mix32_step_1 (a1, b1, c1);
      hash_mix32_step_2 (a0, b0, c0);
      hash_mix32_step_2 (a1, b1, c1);
      hash_mix32_step_3 (a0, b0, c0);
      hash_mix32_step_3 (a1, b1, c1);

      bi0 = c0 & bucket_mask;
      bi1 = c1 & bucket_mask;

      h0 = hash_keys + bi0;
      h1 = hash_keys + bi1;

      /* Search two buckets. */
      valid0 = qhash_get_valid_elt_mask (h, bi0);
      valid1 = qhash_get_valid_elt_mask (h, bi1);

      match0 = qhash_search_bucket (h0, k0, valid0);
      match1 = qhash_search_bucket (h1, k1, valid1);

      n_elts -= (match0 != 0) + (match1 != 0);

      if (PREDICT_FALSE (valid0 == QHASH_ALL_VALID
			 || valid1 == QHASH_ALL_VALID))
	goto slow_path2;

      valid0 ^= match0;
      qhash_set_valid_elt_mask (h, bi0, valid0);

      valid1 = bi0 == bi1 ? valid0 : valid1;
      valid1 ^= match1;

      qhash_set_valid_elt_mask (h, bi1, valid1);

      r[0] = match0 ? bi0 + qhash_min_log2 (match0) : ~0;
      r[1] = match1 ? bi1 + qhash_min_log2 (match1) : ~0;
      r += 2;
      continue;

    slow_path2:
      r[0] = unset_slow_path (v, elt_bytes, k0, bi0, valid0, match0, &n_elts);
      if (bi0 == bi1)
	{
	  /* Search again in same bucket to test new overflow element. */
	  valid1 = qhash_get_valid_elt_mask (h, bi0);
	  if (!match1)
	    {
	      match1 = qhash_search_bucket (h1, k1, valid1);
	      n_elts -= (match1 != 0);
	    }
	}
      r[1] = unset_slow_path (v, elt_bytes, k1, bi1, valid1, match1, &n_elts);
      r += 2;
    }

  while (n_left >= 1)
    {
      u32 a0, b0, c0, bi0, match0, valid0;
      uword k0, *h0;

      k0 = k[0];
      n_left -= 1;
      k += 1;

      a0 = h->hash_seeds[0];
      b0 = h->hash_seeds[1];
      c0 = h->hash_seeds[2];
      a0 ^= k0;
#if uword_bits == 64
      b0 ^= k0 >> 32;
#endif

      hash_mix32 (a0, b0, c0);

      bi0 = c0 & bucket_mask;

      h0 = hash_keys + bi0;

      valid0 = qhash_get_valid_elt_mask (h, bi0);

      match0 = qhash_search_bucket (h0, k0, valid0);
      n_elts -= (match0 != 0);
      qhash_set_valid_elt_mask (h, bi0, valid0 ^ match0);

      r[0] = match0 ? bi0 + qhash_min_log2 (match0) : ~0;
      r += 1;

      if (PREDICT_FALSE (valid0 == QHASH_ALL_VALID))
	r[-1] = unset_slow_path (v, elt_bytes, k0, bi0, valid0, match0,
				 &n_elts);
    }

  h->n_elts = n_elts;
}

/*
 * fd.io coding-style-patch-verification: ON
 *
 * Local Variables:
 * eval: (c-set-style "gnu")
 * End:
 */