1
0
mirror of https://github.com/hashcat/hashcat.git synced 2024-11-15 20:39:17 +00:00
hashcat/src/bitmap.c
Jens Steube 08fc0ec1fb Added self-test funcionality for OpenCL kernels on startup
Fixed a parser error for mode -m 9820 = MS Office <= 2003 $3, SHA1 + RC4, collider #2
2017-06-13 19:07:08 +02:00

181 lines
7.3 KiB
C

/**
* Author......: See docs/credits.txt
* License.....: MIT
*/
#include "common.h"
#include "types.h"
#include "memory.h"
#include "bitmap.h"
static void selftest_to_bitmap (const u32 dgst_shifts, char *digests_buf_ptr, const u32 dgst_pos0, const u32 dgst_pos1, const u32 dgst_pos2, const u32 dgst_pos3, const u32 bitmap_mask, u32 *bitmap_a, u32 *bitmap_b, u32 *bitmap_c, u32 *bitmap_d)
{
u32 *digest_ptr = (u32 *) digests_buf_ptr;
const u32 val0 = 1u << (digest_ptr[dgst_pos0] & 0x1f);
const u32 val1 = 1u << (digest_ptr[dgst_pos1] & 0x1f);
const u32 val2 = 1u << (digest_ptr[dgst_pos2] & 0x1f);
const u32 val3 = 1u << (digest_ptr[dgst_pos3] & 0x1f);
const u32 idx0 = (digest_ptr[dgst_pos0] >> dgst_shifts) & bitmap_mask;
const u32 idx1 = (digest_ptr[dgst_pos1] >> dgst_shifts) & bitmap_mask;
const u32 idx2 = (digest_ptr[dgst_pos2] >> dgst_shifts) & bitmap_mask;
const u32 idx3 = (digest_ptr[dgst_pos3] >> dgst_shifts) & bitmap_mask;
bitmap_a[idx0] |= val0;
bitmap_b[idx1] |= val1;
bitmap_c[idx2] |= val2;
bitmap_d[idx3] |= val3;
}
static u32 generate_bitmaps (const u32 digests_cnt, const u32 dgst_size, const u32 dgst_shifts, char *digests_buf_ptr, const u32 dgst_pos0, const u32 dgst_pos1, const u32 dgst_pos2, const u32 dgst_pos3, const u32 bitmap_mask, const u32 bitmap_size, u32 *bitmap_a, u32 *bitmap_b, u32 *bitmap_c, u32 *bitmap_d, const u64 collisions_max)
{
u64 collisions = 0;
memset (bitmap_a, 0, bitmap_size);
memset (bitmap_b, 0, bitmap_size);
memset (bitmap_c, 0, bitmap_size);
memset (bitmap_d, 0, bitmap_size);
for (u32 i = 0; i < digests_cnt; i++)
{
u32 *digest_ptr = (u32 *) digests_buf_ptr;
digests_buf_ptr += dgst_size;
const u32 val0 = 1u << (digest_ptr[dgst_pos0] & 0x1f);
const u32 val1 = 1u << (digest_ptr[dgst_pos1] & 0x1f);
const u32 val2 = 1u << (digest_ptr[dgst_pos2] & 0x1f);
const u32 val3 = 1u << (digest_ptr[dgst_pos3] & 0x1f);
const u32 idx0 = (digest_ptr[dgst_pos0] >> dgst_shifts) & bitmap_mask;
const u32 idx1 = (digest_ptr[dgst_pos1] >> dgst_shifts) & bitmap_mask;
const u32 idx2 = (digest_ptr[dgst_pos2] >> dgst_shifts) & bitmap_mask;
const u32 idx3 = (digest_ptr[dgst_pos3] >> dgst_shifts) & bitmap_mask;
if (bitmap_a[idx0] & val0) collisions++;
if (bitmap_b[idx1] & val1) collisions++;
if (bitmap_c[idx2] & val2) collisions++;
if (bitmap_d[idx3] & val3) collisions++;
bitmap_a[idx0] |= val0;
bitmap_b[idx1] |= val1;
bitmap_c[idx2] |= val2;
bitmap_d[idx3] |= val3;
if (collisions >= collisions_max) return 0x7fffffff;
}
return collisions;
}
int bitmap_ctx_init (hashcat_ctx_t *hashcat_ctx)
{
bitmap_ctx_t *bitmap_ctx = hashcat_ctx->bitmap_ctx;
hashconfig_t *hashconfig = hashcat_ctx->hashconfig;
hashes_t *hashes = hashcat_ctx->hashes;
user_options_t *user_options = hashcat_ctx->user_options;
bitmap_ctx->enabled = false;
if (user_options->keyspace == true) return 0;
if (user_options->left == true) return 0;
if (user_options->opencl_info == true) return 0;
if (user_options->show == true) return 0;
if (user_options->usage == true) return 0;
if (user_options->version == true) return 0;
bitmap_ctx->enabled = true;
/**
* generate bitmap tables
*/
const u32 bitmap_shift1 = 5;
const u32 bitmap_shift2 = 13;
const u32 bitmap_min = user_options->bitmap_min;
const u32 bitmap_max = user_options->bitmap_max;
u32 *bitmap_s1_a = (u32 *) hcmalloc ((1u << bitmap_max) * sizeof (u32));
u32 *bitmap_s1_b = (u32 *) hcmalloc ((1u << bitmap_max) * sizeof (u32));
u32 *bitmap_s1_c = (u32 *) hcmalloc ((1u << bitmap_max) * sizeof (u32));
u32 *bitmap_s1_d = (u32 *) hcmalloc ((1u << bitmap_max) * sizeof (u32));
u32 *bitmap_s2_a = (u32 *) hcmalloc ((1u << bitmap_max) * sizeof (u32));
u32 *bitmap_s2_b = (u32 *) hcmalloc ((1u << bitmap_max) * sizeof (u32));
u32 *bitmap_s2_c = (u32 *) hcmalloc ((1u << bitmap_max) * sizeof (u32));
u32 *bitmap_s2_d = (u32 *) hcmalloc ((1u << bitmap_max) * sizeof (u32));
u32 bitmap_bits;
u32 bitmap_nums;
u32 bitmap_mask;
u32 bitmap_size;
for (bitmap_bits = bitmap_min; bitmap_bits < bitmap_max; bitmap_bits++)
{
bitmap_nums = 1u << bitmap_bits;
bitmap_mask = bitmap_nums - 1;
bitmap_size = bitmap_nums * sizeof (u32);
if ((hashes->digests_cnt & bitmap_mask) == hashes->digests_cnt) break;
if (generate_bitmaps (hashes->digests_cnt, hashconfig->dgst_size, bitmap_shift1, (char *) hashes->digests_buf, hashconfig->dgst_pos0, hashconfig->dgst_pos1, hashconfig->dgst_pos2, hashconfig->dgst_pos3, bitmap_mask, bitmap_size, bitmap_s1_a, bitmap_s1_b, bitmap_s1_c, bitmap_s1_d, hashes->digests_cnt / 2) == 0x7fffffff) continue;
if (generate_bitmaps (hashes->digests_cnt, hashconfig->dgst_size, bitmap_shift2, (char *) hashes->digests_buf, hashconfig->dgst_pos0, hashconfig->dgst_pos1, hashconfig->dgst_pos2, hashconfig->dgst_pos3, bitmap_mask, bitmap_size, bitmap_s1_a, bitmap_s1_b, bitmap_s1_c, bitmap_s1_d, hashes->digests_cnt / 2) == 0x7fffffff) continue;
break;
}
bitmap_nums = 1u << bitmap_bits;
bitmap_mask = bitmap_nums - 1;
bitmap_size = bitmap_nums * sizeof (u32);
generate_bitmaps (hashes->digests_cnt, hashconfig->dgst_size, bitmap_shift1, (char *) hashes->digests_buf, hashconfig->dgst_pos0, hashconfig->dgst_pos1, hashconfig->dgst_pos2, hashconfig->dgst_pos3, bitmap_mask, bitmap_size, bitmap_s1_a, bitmap_s1_b, bitmap_s1_c, bitmap_s1_d, -1ul);
generate_bitmaps (hashes->digests_cnt, hashconfig->dgst_size, bitmap_shift2, (char *) hashes->digests_buf, hashconfig->dgst_pos0, hashconfig->dgst_pos1, hashconfig->dgst_pos2, hashconfig->dgst_pos3, bitmap_mask, bitmap_size, bitmap_s2_a, bitmap_s2_b, bitmap_s2_c, bitmap_s2_d, -1ul);
if (hashconfig->st_hash != NULL)
{
selftest_to_bitmap (bitmap_shift1, (char *) hashes->st_digests_buf, hashconfig->dgst_pos0, hashconfig->dgst_pos1, hashconfig->dgst_pos2, hashconfig->dgst_pos3, bitmap_mask, bitmap_s1_a, bitmap_s1_b, bitmap_s1_c, bitmap_s1_d);
selftest_to_bitmap (bitmap_shift2, (char *) hashes->st_digests_buf, hashconfig->dgst_pos0, hashconfig->dgst_pos1, hashconfig->dgst_pos2, hashconfig->dgst_pos3, bitmap_mask, bitmap_s2_a, bitmap_s2_b, bitmap_s2_c, bitmap_s2_d);
}
bitmap_ctx->bitmap_bits = bitmap_bits;
bitmap_ctx->bitmap_nums = bitmap_nums;
bitmap_ctx->bitmap_size = bitmap_size;
bitmap_ctx->bitmap_mask = bitmap_mask;
bitmap_ctx->bitmap_shift1 = bitmap_shift1;
bitmap_ctx->bitmap_shift2 = bitmap_shift2;
bitmap_ctx->bitmap_s1_a = bitmap_s1_a;
bitmap_ctx->bitmap_s1_b = bitmap_s1_b;
bitmap_ctx->bitmap_s1_c = bitmap_s1_c;
bitmap_ctx->bitmap_s1_d = bitmap_s1_d;
bitmap_ctx->bitmap_s2_a = bitmap_s2_a;
bitmap_ctx->bitmap_s2_b = bitmap_s2_b;
bitmap_ctx->bitmap_s2_c = bitmap_s2_c;
bitmap_ctx->bitmap_s2_d = bitmap_s2_d;
return 0;
}
void bitmap_ctx_destroy (hashcat_ctx_t *hashcat_ctx)
{
bitmap_ctx_t *bitmap_ctx = hashcat_ctx->bitmap_ctx;
if (bitmap_ctx->enabled == false) return;
hcfree (bitmap_ctx->bitmap_s1_a);
hcfree (bitmap_ctx->bitmap_s1_b);
hcfree (bitmap_ctx->bitmap_s1_c);
hcfree (bitmap_ctx->bitmap_s1_d);
hcfree (bitmap_ctx->bitmap_s2_a);
hcfree (bitmap_ctx->bitmap_s2_b);
hcfree (bitmap_ctx->bitmap_s2_c);
hcfree (bitmap_ctx->bitmap_s2_d);
memset (bitmap_ctx, 0, sizeof (bitmap_ctx_t));
}