/src/yara/libyara/hash.c

Source
/*
Copyright (c) 2013. The YARA Authors. All Rights Reserved.

Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:

1. Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.

2. Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation and/or
other materials provided with the distribution.

3. Neither the name of the copyright holder nor the names of its contributors
may be used to endorse or promote products derived from this software without
specific prior written permission.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/

#include <assert.h>
#include <string.h>
#include <yara/error.h>
#include <yara/hash.h>
#include <yara/integers.h>
#include <yara/mem.h>
#include <yara/utils.h>

// Constant-time left rotate that does not invoke undefined behavior.
// http://blog.regehr.org/archives/1063
static uint32_t rotl32(uint32_t x, uint32_t shift)
{
  assert(shift < 32);
  return (x << shift) | (x >> (-shift & 31));
}

#define ROTATE_INT32(x, shift) rotl32(x, shift % 32)

uint32_t byte_to_int32[] = {
    0xC3113E7F, 0x4C353C5F, 0x7423810B, 0x258D264E, 0xDAD39DED, 0x75D0B694,
    0x98CE1216, 0x93334482, 0xC5C48EA5, 0xF57E0E8B, 0x5D7F3723, 0x396B1B24,
    0xA8883D9F, 0xB2A74A00, 0xF8E171AE, 0x3F01FBAB, 0x5C1840CB, 0xDDD833C4,
    0x8D8CCA34, 0x32EF223A, 0x1A05B871, 0x9A9B6BFC, 0x50406A0C, 0xE7E1FC04,
    0x5E07D7F6, 0x80B83660, 0x20892A62, 0xB2C6FEA6, 0x6CEC7CAA, 0x182F764B,
    0x3B0353E7, 0x57FC2520, 0x4B6812D4, 0xACB654E4, 0x23C75C04, 0xB1DCD731,
    0xE3AF0733, 0xF2366D39, 0xC729671B, 0xFF3BE6F2, 0xABA37E34, 0x3CDAFA38,
    0xAAD18D03, 0xA8D35345, 0x08E9A92C, 0xF9324059, 0x42D821BE, 0x1BC152DD,
    0x5588811C, 0x874A1F9A, 0x6E83E9CD, 0xDA6F3AF8, 0x965D4670, 0xA7A565C0,
    0x68D8A9AF, 0xFC8FD8FD, 0x8FF99FF9, 0x4C9B42AE, 0x2D066A8D, 0x4D1802F7,
    0x557032B2, 0x12BCF371, 0xDC29D5AE, 0x72EA361F, 0xE2835B0B, 0xDFC58966,
    0x13B0F34D, 0x3FA02BCD, 0xBF282E3D, 0x7DC877F5, 0xF4848A32, 0x861E35F5,
    0x7FFA0D7F, 0x515F2E4E, 0x6B235D5C, 0x55F46E24, 0x35AD2C99, 0x072654A8,
    0x05163F0F, 0x9317B11A, 0xAED1FC10, 0x989444F0, 0xDB3E1814, 0x446C0CF1,
    0x660BF511, 0x2F227D3A, 0xFDBA0539, 0xC649E621, 0x5204D7CE, 0x5FA386D0,
    0xE5F22005, 0x97B6C8A1, 0x4AB69EC2, 0x5C7CA70D, 0x39A48EC6, 0x7BACF378,
    0x8D0ED3D1, 0xE39DE582, 0xC5FBE2AB, 0x37E3D2D0, 0x06F44724, 0x73144144,
    0xBA57E905, 0xB05B4307, 0xAEED8D97, 0xA68CCAC4, 0xE30DA57E, 0xED0F194B,
    0x8C2B9B7A, 0x814575D5, 0x79588493, 0x81D3712A, 0x3FA892F2, 0x80F0BB94,
    0x44EAF51A, 0x4E05F1D4, 0xFC69F858, 0x775E8D60, 0x22B20DD7, 0x170A87EA,
    0x1077DE52, 0x3D5EC9FB, 0x0B6EB1E5, 0xF2F9CCAF, 0xA76C7DEB, 0xD8C2D873,
    0xF438C592, 0x6239FEEC, 0x26D3D2A9, 0x30F6FADF, 0x4B2984CC, 0x6257F3DA,
    0x0E0583E2, 0x143E5E61, 0xBB2732BF, 0x9653217A, 0x027A84EA, 0x95C9AE8B,
    0x89B8B82B, 0x9F286485, 0x29F622FE, 0x52A3196B, 0x8392D95F, 0x33A79167,
    0xF5DEE92A, 0x6E397DB9, 0x11931C01, 0x8DD2CD3B, 0xF9E6003D, 0xAB955AF4,
    0xD38725F9, 0xDCF6F8AE, 0x7667A958, 0xE67AD995, 0xB7CF979A, 0xD88EBE5B,
    0x5BA889F0, 0x078BDD90, 0x447238F9, 0x3135F672, 0x187B95A8, 0x0B7D5751,
    0xACD59D2A, 0x9C5D1929, 0x579E5022, 0xEA90499B, 0x59901800, 0x82237DB5,
    0x7A375509, 0xACA9A22A, 0xEC96E649, 0x69339DB0, 0x081D0D9B, 0xD72FB8B9,
    0xA4184653, 0xC057321D, 0xED19CAB9, 0xB48F1E3E, 0xB9DAC51E, 0xDAED2FC7,
    0x7598CBBD, 0x208DF346, 0x044BE6EC, 0x1C63E6EB, 0xA15F64C1, 0xE024A061,
    0x68309584, 0x0758A68D, 0xF274E9AE, 0x0ABEA0CC, 0xED4FB267, 0x63D6EC46,
    0x9F28E026, 0xF0694A17, 0x9D6E9115, 0xC4600FAD, 0x5B121E99, 0xD6B4A13B,
    0xF5364B8A, 0x8514B254, 0x0182F8DD, 0xDB09F90B, 0x78C70B32, 0xD8EC3B02,
    0x8CD7084D, 0xA4439838, 0x72F35A3D, 0x200B48A5, 0xE2351444, 0xA5552F5F,
    0xD8C1E746, 0x0FE5EF3C, 0xB6A47063, 0x61F4E68B, 0x08FED99B, 0x7E461445,
    0x43CB8380, 0x28BA03C8, 0x21A7A2E2, 0x43437ED6, 0x2A9E6670, 0x89B4A106,
    0xC6C2F4EE, 0x9C4063CC, 0x2FA0DF6C, 0xB54DC409, 0xCF01538F, 0x616431D7,
    0x02CB0E4D, 0x44FFF425, 0xAAD5188E, 0x0742E9BC, 0xFFF41353, 0x130F0A15,
    0x787BDC10, 0x4A327B72, 0x702989F7, 0x5F704798, 0x8156A1BB, 0x2BCA3E74,
    0x1911A8C4, 0x5E1F27D3, 0x07949DC7, 0xF24C2056, 0xB4299EE6, 0x9C7045D9,
    0xA8BF6307, 0x7454AAD2, 0x256425E5, 0xD87DEF67, 0xCFE95452, 0xE7548DF7,
    0xA84956C7, 0xD8402C60, 0xCFBD0373, 0x6B6CDAFE};

uint32_t yr_hash(uint32_t seed, const void* buffer, size_t len)
{
  const uint8_t* b = (uint8_t*) buffer;

  uint32_t result = seed;
  size_t i;

  if (len == 0)
    return result;

  for (i = len - 1; i > 0; i--)
  {
    result ^= ROTATE_INT32(byte_to_int32[*b], i);
    b++;
  }

  result ^= byte_to_int32[*b];
  return result;
}

////////////////////////////////////////////////////////////////////////////////
// Return the value associated to a given key and optionally remove it from
// the hash table. Key can be any byte sequence, namespace is a null-terminated
// string, and remove is a boolean.
//
static void* _yr_hash_table_lookup(
    YR_HASH_TABLE* table,
    const void* key,
    size_t key_length,
    const char* ns,
    int remove)
{
  YR_HASH_TABLE_ENTRY* entry;
  YR_HASH_TABLE_ENTRY* prev_entry;

  void* result;

  uint32_t bucket_index = yr_hash(0, key, key_length);

  if (ns != NULL)
    bucket_index = yr_hash(bucket_index, (uint8_t*) ns, strlen(ns));

  bucket_index = bucket_index % table->size;
  prev_entry = NULL;
  entry = table->buckets[bucket_index];

  while (entry != NULL)
  {
    int key_match =
        ((entry->key_length == key_length) &&
         (memcmp(entry->key, key, key_length) == 0));

    int ns_match =
        ((entry->ns == ns) ||
         (entry->ns != NULL && ns != NULL && strcmp(entry->ns, ns) == 0));

    if (key_match && ns_match)
    {
      result = entry->value;

      if (remove)
      {
        if (prev_entry == NULL)
          table->buckets[bucket_index] = entry->next;
        else
          prev_entry->next = entry->next;

        if (entry->ns != NULL)
          yr_free(entry->ns);

        yr_free(entry->key);
        yr_free(entry);
      }

      return result;
    }

    prev_entry = entry;
    entry = entry->next;
  }

  return NULL;
}

YR_API int yr_hash_table_create(int size, YR_HASH_TABLE** table)
{
  YR_HASH_TABLE* new_table;
  int i;

  new_table = (YR_HASH_TABLE*) yr_malloc(
      sizeof(YR_HASH_TABLE) + size * sizeof(YR_HASH_TABLE_ENTRY*));

  if (new_table == NULL)
    return ERROR_INSUFFICIENT_MEMORY;

  new_table->size = size;

  for (i = 0; i < size; i++) new_table->buckets[i] = NULL;

  *table = new_table;

  return ERROR_SUCCESS;
}

YR_API void yr_hash_table_clean(
    YR_HASH_TABLE* table,
    YR_HASH_TABLE_FREE_VALUE_FUNC free_value)
{
  YR_HASH_TABLE_ENTRY* entry;
  YR_HASH_TABLE_ENTRY* next_entry;

  int i;

  if (table == NULL)
    return;

  for (i = 0; i < table->size; i++)
  {
    entry = table->buckets[i];

    while (entry != NULL)
    {
      next_entry = entry->next;

      if (free_value != NULL)
        free_value(entry->value);

      if (entry->ns != NULL)
        yr_free(entry->ns);

      yr_free(entry->key);
      yr_free(entry);

      entry = next_entry;
    }

    table->buckets[i] = NULL;
  }
}

YR_API void yr_hash_table_destroy(
    YR_HASH_TABLE* table,
    YR_HASH_TABLE_FREE_VALUE_FUNC free_value)
{
  yr_hash_table_clean(table, free_value);
  yr_free(table);
}

YR_API int yr_hash_table_iterate(
    YR_HASH_TABLE* table,
    const char* ns,
    YR_HASH_TABLE_ITERATE_FUNC iterate_func,
    void* data)
{
  int result;
  YR_HASH_TABLE_ENTRY* entry;

  if (table == NULL)
    return ERROR_INTERNAL_FATAL_ERROR;

  for (int i = 0; i < table->size; i++)
  {
    entry = table->buckets[i];
    while (entry != NULL)
    {
      if ((entry->ns == NULL && ns == NULL)
          || (entry->ns != NULL && ns != NULL && !strcmp(entry->ns, ns)))
      {
        result = iterate_func(
            entry->key, entry->key_length, entry->value, data);

        if (result != ERROR_SUCCESS)
          return result;
      }
      entry = entry->next;
    }
  }
  return ERROR_SUCCESS;
}

YR_API void* yr_hash_table_lookup_raw_key(
    YR_HASH_TABLE* table,
    const void* key,
    size_t key_length,
    const char* ns)
{
  return _yr_hash_table_lookup(table, key, key_length, ns, false);
}

YR_API void* yr_hash_table_remove_raw_key(
    YR_HASH_TABLE* table,
    const void* key,
    size_t key_length,
    const char* ns)
{
  return _yr_hash_table_lookup(table, key, key_length, ns, true);
}

YR_API int yr_hash_table_add_raw_key(
    YR_HASH_TABLE* table,
    const void* key,
    size_t key_length,
    const char* ns,
    void* value)
{
  YR_HASH_TABLE_ENTRY* entry;
  uint32_t bucket_index;

  entry = (YR_HASH_TABLE_ENTRY*) yr_malloc(sizeof(YR_HASH_TABLE_ENTRY));

  if (entry == NULL)
    return ERROR_INSUFFICIENT_MEMORY;

  entry->key = yr_malloc(key_length);

  if (entry->key == NULL)
  {
    yr_free(entry);
    return ERROR_INSUFFICIENT_MEMORY;
  }

  if (ns != NULL)
  {
    entry->ns = yr_strdup(ns);

    if (entry->ns == NULL)
    {
      yr_free(entry->key);
      yr_free(entry);

      return ERROR_INSUFFICIENT_MEMORY;
    }
  }
  else
  {
    entry->ns = NULL;
  }

  entry->key_length = key_length;
  entry->value = value;

  memcpy(entry->key, key, key_length);

  bucket_index = yr_hash(0, key, key_length);

  if (ns != NULL)
    bucket_index = yr_hash(bucket_index, (uint8_t*) ns, strlen(ns));

  bucket_index = bucket_index % table->size;

  entry->next = table->buckets[bucket_index];
  table->buckets[bucket_index] = entry;

  return ERROR_SUCCESS;
}

YR_API void* yr_hash_table_lookup(
    YR_HASH_TABLE* table,
    const char* key,
    const char* ns)
{
  return yr_hash_table_lookup_raw_key(table, (void*) key, strlen(key), ns);
}

YR_API void* yr_hash_table_remove(
    YR_HASH_TABLE* table,
    const char* key,
    const char* ns)
{
  return yr_hash_table_remove_raw_key(table, (void*) key, strlen(key), ns);
}

YR_API int yr_hash_table_add(
    YR_HASH_TABLE* table,
    const char* key,
    const char* ns,
    void* value)
{
  return yr_hash_table_add_raw_key(table, (void*) key, strlen(key), ns, value);
}

YR_API int yr_hash_table_add_uint32(
    YR_HASH_TABLE* table,
    const char* key,
    const char* ns,
    uint32_t value)
{
  return yr_hash_table_add_uint32_raw_key(
      table, (void*) key, strlen(key), ns, value);
}

YR_API uint32_t yr_hash_table_lookup_uint32(
    YR_HASH_TABLE* table,
    const char* key,
    const char* ns)
{
  return yr_hash_table_lookup_uint32_raw_key(
      table, (void*) key, strlen(key), ns);
}

YR_API int yr_hash_table_add_uint32_raw_key(
    YR_HASH_TABLE* table,
    const void* key,
    size_t key_length,
    const char* ns,
    uint32_t value)
{
  // Don't allow values equal to UINT32_MAX or UINT32_MAX - 1.
  if (value >= UINT32_MAX - 1)
    return ERROR_INVALID_ARGUMENT;

  // Add +1 to the value in order to avoid putting a NULL pointer in the
  // hash table once the integer is casted to a pointer. This is undone
  // by yr_hash_table_lookup_uint32.
  return yr_hash_table_add_raw_key(
      table, key, key_length, ns, (void*) (size_t) (value + 1));
}

YR_API uint32_t yr_hash_table_lookup_uint32_raw_key(
    YR_HASH_TABLE* table,
    const void* key,
    size_t key_length,
    const char* ns)
{
  void* ptr = yr_hash_table_lookup_raw_key(table, key, key_length, ns);

  if (ptr == NULL)
    return UINT32_MAX;

  // Remove one from the pointe in order to get the original value.
  // See comment in yr_hash_table_add_uint32_raw_key.
  return ((uint32_t) (size_t) (uint8_t*) ptr) - 1;
}

Coverage Report

Created: 2026-01-09 06:05

Line	Count	Source
1		/*
2		Copyright (c) 2013. The YARA Authors. All Rights Reserved.
3
4		Redistribution and use in source and binary forms, with or without modification,
5		are permitted provided that the following conditions are met:
6
7		1. Redistributions of source code must retain the above copyright notice, this
8		list of conditions and the following disclaimer.
9
10		2. Redistributions in binary form must reproduce the above copyright notice,
11		this list of conditions and the following disclaimer in the documentation and/or
12		other materials provided with the distribution.
13
14		3. Neither the name of the copyright holder nor the names of its contributors
15		may be used to endorse or promote products derived from this software without
16		specific prior written permission.
17
18		THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
19		ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
20		WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
21		DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
22		ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
23		(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
24		LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
25		ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26		(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
27		SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28		*/
29
30		#include <assert.h>
31		#include <string.h>
32		#include <yara/error.h>
33		#include <yara/hash.h>
34		#include <yara/integers.h>
35		#include <yara/mem.h>
36		#include <yara/utils.h>
37
38		// Constant-time left rotate that does not invoke undefined behavior.
39		// http://blog.regehr.org/archives/1063
40		static uint32_t rotl32(uint32_t x, uint32_t shift)
41	351k	{
42	351k	assert(shift < 32);
43	351k	return (x << shift) \| (x >> (-shift & 31));
44	351k	}
45
46	351k	#define ROTATE_INT32(x, shift) rotl32(x, shift % 32)
47
48		uint32_t byte_to_int32[] = {
49		0xC3113E7F, 0x4C353C5F, 0x7423810B, 0x258D264E, 0xDAD39DED, 0x75D0B694,
50		0x98CE1216, 0x93334482, 0xC5C48EA5, 0xF57E0E8B, 0x5D7F3723, 0x396B1B24,
51		0xA8883D9F, 0xB2A74A00, 0xF8E171AE, 0x3F01FBAB, 0x5C1840CB, 0xDDD833C4,
52		0x8D8CCA34, 0x32EF223A, 0x1A05B871, 0x9A9B6BFC, 0x50406A0C, 0xE7E1FC04,
53		0x5E07D7F6, 0x80B83660, 0x20892A62, 0xB2C6FEA6, 0x6CEC7CAA, 0x182F764B,
54		0x3B0353E7, 0x57FC2520, 0x4B6812D4, 0xACB654E4, 0x23C75C04, 0xB1DCD731,
55		0xE3AF0733, 0xF2366D39, 0xC729671B, 0xFF3BE6F2, 0xABA37E34, 0x3CDAFA38,
56		0xAAD18D03, 0xA8D35345, 0x08E9A92C, 0xF9324059, 0x42D821BE, 0x1BC152DD,
57		0x5588811C, 0x874A1F9A, 0x6E83E9CD, 0xDA6F3AF8, 0x965D4670, 0xA7A565C0,
58		0x68D8A9AF, 0xFC8FD8FD, 0x8FF99FF9, 0x4C9B42AE, 0x2D066A8D, 0x4D1802F7,
59		0x557032B2, 0x12BCF371, 0xDC29D5AE, 0x72EA361F, 0xE2835B0B, 0xDFC58966,
60		0x13B0F34D, 0x3FA02BCD, 0xBF282E3D, 0x7DC877F5, 0xF4848A32, 0x861E35F5,
61		0x7FFA0D7F, 0x515F2E4E, 0x6B235D5C, 0x55F46E24, 0x35AD2C99, 0x072654A8,
62		0x05163F0F, 0x9317B11A, 0xAED1FC10, 0x989444F0, 0xDB3E1814, 0x446C0CF1,
63		0x660BF511, 0x2F227D3A, 0xFDBA0539, 0xC649E621, 0x5204D7CE, 0x5FA386D0,
64		0xE5F22005, 0x97B6C8A1, 0x4AB69EC2, 0x5C7CA70D, 0x39A48EC6, 0x7BACF378,
65		0x8D0ED3D1, 0xE39DE582, 0xC5FBE2AB, 0x37E3D2D0, 0x06F44724, 0x73144144,
66		0xBA57E905, 0xB05B4307, 0xAEED8D97, 0xA68CCAC4, 0xE30DA57E, 0xED0F194B,
67		0x8C2B9B7A, 0x814575D5, 0x79588493, 0x81D3712A, 0x3FA892F2, 0x80F0BB94,
68		0x44EAF51A, 0x4E05F1D4, 0xFC69F858, 0x775E8D60, 0x22B20DD7, 0x170A87EA,
69		0x1077DE52, 0x3D5EC9FB, 0x0B6EB1E5, 0xF2F9CCAF, 0xA76C7DEB, 0xD8C2D873,
70		0xF438C592, 0x6239FEEC, 0x26D3D2A9, 0x30F6FADF, 0x4B2984CC, 0x6257F3DA,
71		0x0E0583E2, 0x143E5E61, 0xBB2732BF, 0x9653217A, 0x027A84EA, 0x95C9AE8B,
72		0x89B8B82B, 0x9F286485, 0x29F622FE, 0x52A3196B, 0x8392D95F, 0x33A79167,
73		0xF5DEE92A, 0x6E397DB9, 0x11931C01, 0x8DD2CD3B, 0xF9E6003D, 0xAB955AF4,
74		0xD38725F9, 0xDCF6F8AE, 0x7667A958, 0xE67AD995, 0xB7CF979A, 0xD88EBE5B,
75		0x5BA889F0, 0x078BDD90, 0x447238F9, 0x3135F672, 0x187B95A8, 0x0B7D5751,
76		0xACD59D2A, 0x9C5D1929, 0x579E5022, 0xEA90499B, 0x59901800, 0x82237DB5,
77		0x7A375509, 0xACA9A22A, 0xEC96E649, 0x69339DB0, 0x081D0D9B, 0xD72FB8B9,
78		0xA4184653, 0xC057321D, 0xED19CAB9, 0xB48F1E3E, 0xB9DAC51E, 0xDAED2FC7,
79		0x7598CBBD, 0x208DF346, 0x044BE6EC, 0x1C63E6EB, 0xA15F64C1, 0xE024A061,
80		0x68309584, 0x0758A68D, 0xF274E9AE, 0x0ABEA0CC, 0xED4FB267, 0x63D6EC46,
81		0x9F28E026, 0xF0694A17, 0x9D6E9115, 0xC4600FAD, 0x5B121E99, 0xD6B4A13B,
82		0xF5364B8A, 0x8514B254, 0x0182F8DD, 0xDB09F90B, 0x78C70B32, 0xD8EC3B02,
83		0x8CD7084D, 0xA4439838, 0x72F35A3D, 0x200B48A5, 0xE2351444, 0xA5552F5F,
84		0xD8C1E746, 0x0FE5EF3C, 0xB6A47063, 0x61F4E68B, 0x08FED99B, 0x7E461445,
85		0x43CB8380, 0x28BA03C8, 0x21A7A2E2, 0x43437ED6, 0x2A9E6670, 0x89B4A106,
86		0xC6C2F4EE, 0x9C4063CC, 0x2FA0DF6C, 0xB54DC409, 0xCF01538F, 0x616431D7,
87		0x02CB0E4D, 0x44FFF425, 0xAAD5188E, 0x0742E9BC, 0xFFF41353, 0x130F0A15,
88		0x787BDC10, 0x4A327B72, 0x702989F7, 0x5F704798, 0x8156A1BB, 0x2BCA3E74,
89		0x1911A8C4, 0x5E1F27D3, 0x07949DC7, 0xF24C2056, 0xB4299EE6, 0x9C7045D9,
90		0xA8BF6307, 0x7454AAD2, 0x256425E5, 0xD87DEF67, 0xCFE95452, 0xE7548DF7,
91		0xA84956C7, 0xD8402C60, 0xCFBD0373, 0x6B6CDAFE};
92
93		uint32_t yr_hash(uint32_t seed, const void* buffer, size_t len)
94	131k	{
95	131k	const uint8_t* b = (uint8_t*) buffer;
96
97	131k	uint32_t result = seed;
98	131k	size_t i;
99
100	131k	if (len == 0)
101	0	return result;
102
103	483k	for (i = len - 1; i > 0; i--)
104	351k	{
105	351k	result ^= ROTATE_INT32(byte_to_int32[*b], i);
106	351k	b++;
107	351k	}
108
109	131k	result ^= byte_to_int32[*b];
110	131k	return result;
111	131k	}
112
113		////////////////////////////////////////////////////////////////////////////////
114		// Return the value associated to a given key and optionally remove it from
115		// the hash table. Key can be any byte sequence, namespace is a null-terminated
116		// string, and remove is a boolean.
117		//
118		static void* _yr_hash_table_lookup(
119		YR_HASH_TABLE* table,
120		const void* key,
121		size_t key_length,
122		const char* ns,
123		int remove)
124	122k	{
125	122k	YR_HASH_TABLE_ENTRY* entry;
126	122k	YR_HASH_TABLE_ENTRY* prev_entry;
127
128	122k	void* result;
129
130	122k	uint32_t bucket_index = yr_hash(0, key, key_length);
131
132	122k	if (ns != NULL)
133	10	bucket_index = yr_hash(bucket_index, (uint8_t*) ns, strlen(ns));
134
135	122k	bucket_index = bucket_index % table->size;
136	122k	prev_entry = NULL;
137	122k	entry = table->buckets[bucket_index];
138
139	122k	while (entry != NULL)
140	35.1k	{
141	35.1k	int key_match =
142	35.1k	((entry->key_length == key_length) &&
143	35.1k	(memcmp(entry->key, key, key_length) == 0));
144
145	35.1k	int ns_match =
146	35.1k	((entry->ns == ns) \|\|
147	6	(entry->ns != NULL && ns != NULL && strcmp(entry->ns, ns) == 0));
148
149	35.1k	if (key_match && ns_match)
150	35.1k	{
151	35.1k	result = entry->value;
152
153	35.1k	if (remove)
154	8.78k	{
155	8.78k	if (prev_entry == NULL)
156	8.78k	table->buckets[bucket_index] = entry->next;
157	0	else
158	0	prev_entry->next = entry->next;
159
160	8.78k	if (entry->ns != NULL)
161	0	yr_free(entry->ns);
162
163	8.78k	yr_free(entry->key);
164	8.78k	yr_free(entry);
165	8.78k	}
166
167	35.1k	return result;
168	35.1k	}
169
170	0	prev_entry = entry;
171	0	entry = entry->next;
172	0	}
173
174	87.8k	return NULL;
175	122k	}
176
177		YR_API int yr_hash_table_create(int size, YR_HASH_TABLE** table)
178	16.1k	{
179	16.1k	YR_HASH_TABLE* new_table;
180	16.1k	int i;
181
182	16.1k	new_table = (YR_HASH_TABLE*) yr_malloc(
183	16.1k	sizeof(YR_HASH_TABLE) + size * sizeof(YR_HASH_TABLE_ENTRY*));
184
185	16.1k	if (new_table == NULL)
186	0	return ERROR_INSUFFICIENT_MEMORY;
187
188	16.1k	new_table->size = size;
189
190	756k	for (i = 0; i < size; i++) new_table->buckets[i] = NULL;
191
192	16.1k	*table = new_table;
193
194	16.1k	return ERROR_SUCCESS;
195	16.1k	}
196
197		YR_API void yr_hash_table_clean(
198		YR_HASH_TABLE* table,
199		YR_HASH_TABLE_FREE_VALUE_FUNC free_value)
200	16.1k	{
201	16.1k	YR_HASH_TABLE_ENTRY* entry;
202	16.1k	YR_HASH_TABLE_ENTRY* next_entry;
203
204	16.1k	int i;
205
206	16.1k	if (table == NULL)
207	0	return;
208
209	776k	for (i = 0; i < table->size; i++)
210	760k	{
211	760k	entry = table->buckets[i];
212
213	760k	while (entry != NULL)
214	20	{
215	20	next_entry = entry->next;
216
217	20	if (free_value != NULL)
218	2	free_value(entry->value);
219
220	20	if (entry->ns != NULL)
221	4	yr_free(entry->ns);
222
223	20	yr_free(entry->key);
224	20	yr_free(entry);
225
226	20	entry = next_entry;
227	20	}
228
229	760k	table->buckets[i] = NULL;
230	760k	}
231	16.1k	}
232
233		YR_API void yr_hash_table_destroy(
234		YR_HASH_TABLE* table,
235		YR_HASH_TABLE_FREE_VALUE_FUNC free_value)
236	16.1k	{
237	16.1k	yr_hash_table_clean(table, free_value);
238	16.1k	yr_free(table);
239	16.1k	}
240
241		YR_API int yr_hash_table_iterate(
242		YR_HASH_TABLE* table,
243		const char* ns,
244		YR_HASH_TABLE_ITERATE_FUNC iterate_func,
245		void* data)
246	2	{
247	2	int result;
248	2	YR_HASH_TABLE_ENTRY* entry;
249
250	2	if (table == NULL)
251	0	return ERROR_INTERNAL_FATAL_ERROR;
252
253	2.00k	for (int i = 0; i < table->size; i++)
254	2.00k	{
255	2.00k	entry = table->buckets[i];
256	2.00k	while (entry != NULL)
257	0	{
258	0	if ((entry->ns == NULL && ns == NULL)
259	0	\|\| (entry->ns != NULL && ns != NULL && !strcmp(entry->ns, ns)))
260	0	{
261	0	result = iterate_func(
262	0	entry->key, entry->key_length, entry->value, data);
263
264	0	if (result != ERROR_SUCCESS)
265	0	return result;
266	0	}
267	0	entry = entry->next;
268	0	}
269	2.00k	}
270	2	return ERROR_SUCCESS;
271	2	}
272
273		YR_API void* yr_hash_table_lookup_raw_key(
274		YR_HASH_TABLE* table,
275		const void* key,
276		size_t key_length,
277		const char* ns)
278	35.1k	{
279	35.1k	return _yr_hash_table_lookup(table, key, key_length, ns, false);
280	35.1k	}
281
282		YR_API void* yr_hash_table_remove_raw_key(
283		YR_HASH_TABLE* table,
284		const void* key,
285		size_t key_length,
286		const char* ns)
287	87.8k	{
288	87.8k	return _yr_hash_table_lookup(table, key, key_length, ns, true);
289	87.8k	}
290
291		YR_API int yr_hash_table_add_raw_key(
292		YR_HASH_TABLE* table,
293		const void* key,
294		size_t key_length,
295		const char* ns,
296		void* value)
297	8.80k	{
298	8.80k	YR_HASH_TABLE_ENTRY* entry;
299	8.80k	uint32_t bucket_index;
300
301	8.80k	entry = (YR_HASH_TABLE_ENTRY*) yr_malloc(sizeof(YR_HASH_TABLE_ENTRY));
302
303	8.80k	if (entry == NULL)
304	0	return ERROR_INSUFFICIENT_MEMORY;
305
306	8.80k	entry->key = yr_malloc(key_length);
307
308	8.80k	if (entry->key == NULL)
309	0	{
310	0	yr_free(entry);
311	0	return ERROR_INSUFFICIENT_MEMORY;
312	0	}
313
314	8.80k	if (ns != NULL)
315	4	{
316	4	entry->ns = yr_strdup(ns);
317
318	4	if (entry->ns == NULL)
319	0	{
320	0	yr_free(entry->key);
321	0	yr_free(entry);
322
323	0	return ERROR_INSUFFICIENT_MEMORY;
324	0	}
325	4	}
326	8.79k	else
327	8.79k	{
328	8.79k	entry->ns = NULL;
329	8.79k	}
330
331	8.80k	entry->key_length = key_length;
332	8.80k	entry->value = value;
333
334	8.80k	memcpy(entry->key, key, key_length);
335
336	8.80k	bucket_index = yr_hash(0, key, key_length);
337
338	8.80k	if (ns != NULL)
339	4	bucket_index = yr_hash(bucket_index, (uint8_t*) ns, strlen(ns));
340
341	8.80k	bucket_index = bucket_index % table->size;
342
343	8.80k	entry->next = table->buckets[bucket_index];
344	8.80k	table->buckets[bucket_index] = entry;
345
346	8.80k	return ERROR_SUCCESS;
347	8.80k	}
348
349		YR_API void* yr_hash_table_lookup(
350		YR_HASH_TABLE* table,
351		const char* key,
352		const char* ns)
353	35.1k	{
354	35.1k	return yr_hash_table_lookup_raw_key(table, (void*) key, strlen(key), ns);
355	35.1k	}
356
357		YR_API void* yr_hash_table_remove(
358		YR_HASH_TABLE* table,
359		const char* key,
360		const char* ns)
361	87.8k	{
362	87.8k	return yr_hash_table_remove_raw_key(table, (void*) key, strlen(key), ns);
363	87.8k	}
364
365		YR_API int yr_hash_table_add(
366		YR_HASH_TABLE* table,
367		const char* key,
368		const char* ns,
369		void* value)
370	8.78k	{
371	8.78k	return yr_hash_table_add_raw_key(table, (void*) key, strlen(key), ns, value);
372	8.78k	}
373
374		YR_API int yr_hash_table_add_uint32(
375		YR_HASH_TABLE* table,
376		const char* key,
377		const char* ns,
378		uint32_t value)
379	2	{
380	2	return yr_hash_table_add_uint32_raw_key(
381	2	table, (void*) key, strlen(key), ns, value);
382	2	}
383
384		YR_API uint32_t yr_hash_table_lookup_uint32(
385		YR_HASH_TABLE* table,
386		const char* key,
387		const char* ns)
388	2	{
389	2	return yr_hash_table_lookup_uint32_raw_key(
390	2	table, (void*) key, strlen(key), ns);
391	2	}
392
393		YR_API int yr_hash_table_add_uint32_raw_key(
394		YR_HASH_TABLE* table,
395		const void* key,
396		size_t key_length,
397		const char* ns,
398		uint32_t value)
399	18	{
400		// Don't allow values equal to UINT32_MAX or UINT32_MAX - 1.
401	18	if (value >= UINT32_MAX - 1)
402	0	return ERROR_INVALID_ARGUMENT;
403
404		// Add +1 to the value in order to avoid putting a NULL pointer in the
405		// hash table once the integer is casted to a pointer. This is undone
406		// by yr_hash_table_lookup_uint32.
407	18	return yr_hash_table_add_raw_key(
408	18	table, key, key_length, ns, (void*) (size_t) (value + 1));
409	18	}
410
411		YR_API uint32_t yr_hash_table_lookup_uint32_raw_key(
412		YR_HASH_TABLE* table,
413		const void* key,
414		size_t key_length,
415		const char* ns)
416	26	{
417	26	void* ptr = yr_hash_table_lookup_raw_key(table, key, key_length, ns);
418
419	26	if (ptr == NULL)
420	18	return UINT32_MAX;
421
422		// Remove one from the pointe in order to get the original value.
423		// See comment in yr_hash_table_add_uint32_raw_key.
424	8	return ((uint32_t) (size_t) (uint8_t*) ptr) - 1;
425	26	}