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mirror of https://github.com/hashcat/hashcat.git synced 2024-11-29 11:28:15 +00:00
hashcat/src/rp_cpu.c

928 lines
22 KiB
C

/**
* Author......: See docs/credits.txt
* License.....: MIT
*/
#include "common.h"
#include "types.h"
#include "convert.h"
#include "memory.h"
#include "rp.h"
#include "rp_cpu.h"
#define NEXT_RULEPOS(rp) if (++(rp) == rule_len) return (RULE_RC_SYNTAX_ERROR)
#define NEXT_RPTOI(r,rp,up) if (((up) = conv_pos ((r)[(rp)], pos_mem)) == -1) return (RULE_RC_SYNTAX_ERROR)
static int conv_pos (const u8 c, const int pos_mem)
{
if (c == RULE_LAST_REJECTED_SAVED_POS)
{
return pos_mem;
}
return conv_ctoi (c);
}
static void MANGLE_TOGGLE_AT (char *arr, const int pos)
{
if (class_alpha (arr[pos])) arr[pos] ^= 0x20;
}
static void MANGLE_LOWER_AT (char *arr, const int pos)
{
if (class_upper (arr[pos])) arr[pos] ^= 0x20;
}
static void MANGLE_UPPER_AT (char *arr, const int pos)
{
if (class_lower (arr[pos])) arr[pos] ^= 0x20;
}
static void MANGLE_SWITCH (char *arr, const int l, const int r)
{
char c = arr[r];
arr[r] = arr[l];
arr[l] = c;
}
static int mangle_toggle_at_sep (char arr[RP_PASSWORD_SIZE], int arr_len, char c, int upos)
{
int toggle_next = 0;
int occurrence = 0;
int pos;
for (pos = 0; pos < arr_len; pos++)
{
if (arr[pos] == c)
{
if (occurrence == upos)
{
toggle_next = 1;
}
else
{
occurrence++;
}
continue;
}
if (toggle_next == 1)
{
MANGLE_TOGGLE_AT (arr, pos);
break;
}
}
return (arr_len);
}
static int mangle_lrest (char arr[RP_PASSWORD_SIZE], int arr_len)
{
int pos;
for (pos = 0; pos < arr_len; pos++) MANGLE_LOWER_AT (arr, pos);
return (arr_len);
}
static int mangle_urest (char arr[RP_PASSWORD_SIZE], int arr_len)
{
int pos;
for (pos = 0; pos < arr_len; pos++) MANGLE_UPPER_AT (arr, pos);
return (arr_len);
}
static int mangle_trest (char arr[RP_PASSWORD_SIZE], int arr_len)
{
int pos;
for (pos = 0; pos < arr_len; pos++) MANGLE_TOGGLE_AT (arr, pos);
return (arr_len);
}
static int mangle_reverse (char arr[RP_PASSWORD_SIZE], int arr_len)
{
int l;
for (l = 0; l < arr_len; l++)
{
int r = arr_len - 1 - l;
if (l >= r) break;
MANGLE_SWITCH (arr, l, r);
}
return (arr_len);
}
static int mangle_double (char arr[RP_PASSWORD_SIZE], int arr_len)
{
if ((arr_len * 2) >= RP_PASSWORD_SIZE) return (arr_len);
memcpy (&arr[arr_len], arr, (size_t) arr_len);
return (arr_len * 2);
}
static int mangle_double_times (char arr[RP_PASSWORD_SIZE], int arr_len, int times)
{
if (((arr_len * times) + arr_len) >= RP_PASSWORD_SIZE) return (arr_len);
int orig_len = arr_len;
int i;
for (i = 0; i < times; i++)
{
memcpy (&arr[arr_len], arr, orig_len);
arr_len += orig_len;
}
return (arr_len);
}
static int mangle_reflect (char arr[RP_PASSWORD_SIZE], int arr_len)
{
if ((arr_len * 2) >= RP_PASSWORD_SIZE) return (arr_len);
mangle_double (arr, arr_len);
mangle_reverse (arr + arr_len, arr_len);
return (arr_len * 2);
}
static int mangle_rotate_left (char arr[RP_PASSWORD_SIZE], int arr_len)
{
int l;
int r;
for (l = 0, r = arr_len - 1; r > 0; r--)
{
MANGLE_SWITCH (arr, l, r);
}
return (arr_len);
}
static int mangle_rotate_right (char arr[RP_PASSWORD_SIZE], int arr_len)
{
int l;
int r;
for (l = 0, r = arr_len - 1; l < r; l++)
{
MANGLE_SWITCH (arr, l, r);
}
return (arr_len);
}
static int mangle_append (char arr[RP_PASSWORD_SIZE], int arr_len, char c)
{
if ((arr_len + 1) >= RP_PASSWORD_SIZE) return (arr_len);
arr[arr_len] = c;
return (arr_len + 1);
}
static int mangle_prepend (char arr[RP_PASSWORD_SIZE], int arr_len, char c)
{
if ((arr_len + 1) >= RP_PASSWORD_SIZE) return (arr_len);
int arr_pos;
for (arr_pos = arr_len - 1; arr_pos > -1; arr_pos--)
{
arr[arr_pos + 1] = arr[arr_pos];
}
arr[0] = c;
return (arr_len + 1);
}
static int mangle_delete_at (char arr[RP_PASSWORD_SIZE], int arr_len, int upos)
{
if (upos >= arr_len) return (arr_len);
int arr_pos;
for (arr_pos = upos; arr_pos < arr_len - 1; arr_pos++)
{
arr[arr_pos] = arr[arr_pos + 1];
}
return (arr_len - 1);
}
static int mangle_extract (char arr[RP_PASSWORD_SIZE], int arr_len, int upos, int ulen)
{
if (upos >= arr_len) return (arr_len);
if ((upos + ulen) > arr_len) return (arr_len);
int arr_pos;
for (arr_pos = 0; arr_pos < ulen; arr_pos++)
{
arr[arr_pos] = arr[upos + arr_pos];
}
return (ulen);
}
static int mangle_omit (char arr[RP_PASSWORD_SIZE], int arr_len, int upos, int ulen)
{
if (upos >= arr_len) return (arr_len);
if ((upos + ulen) > arr_len) return (arr_len);
int arr_pos;
for (arr_pos = upos; arr_pos < arr_len - ulen; arr_pos++)
{
arr[arr_pos] = arr[arr_pos + ulen];
}
return (arr_len - ulen);
}
static int mangle_insert (char arr[RP_PASSWORD_SIZE], int arr_len, int upos, char c)
{
if (upos > arr_len) return (arr_len);
if ((arr_len + 1) >= RP_PASSWORD_SIZE) return (arr_len);
int arr_pos;
for (arr_pos = arr_len - 1; arr_pos > upos - 1; arr_pos--)
{
arr[arr_pos + 1] = arr[arr_pos];
}
arr[upos] = c;
return (arr_len + 1);
}
static int mangle_insert_multi (char arr[RP_PASSWORD_SIZE], int arr_len, int arr_pos, char arr2[RP_PASSWORD_SIZE], int arr2_len, int arr2_pos, int arr2_cpy)
{
if ((arr_len + arr2_cpy) > RP_PASSWORD_SIZE) return (RULE_RC_REJECT_ERROR);
if (arr_pos > arr_len) return (RULE_RC_REJECT_ERROR);
if (arr2_pos > arr2_len) return (RULE_RC_REJECT_ERROR);
if ((arr2_pos + arr2_cpy) > arr2_len) return (RULE_RC_REJECT_ERROR);
if (arr2_cpy < 1) return (RULE_RC_SYNTAX_ERROR);
memmove (arr2, arr2 + arr2_pos, arr2_len - arr2_pos);
memcpy (arr2 + arr2_cpy, arr + arr_pos, arr_len - arr_pos);
memcpy (arr + arr_pos, arr2, arr_len - arr_pos + arr2_cpy);
return (arr_len + arr2_cpy);
}
static int mangle_overstrike (char arr[RP_PASSWORD_SIZE], int arr_len, int upos, char c)
{
if (upos >= arr_len) return (arr_len);
arr[upos] = c;
return (arr_len);
}
static int mangle_truncate_at (char arr[RP_PASSWORD_SIZE], int arr_len, int upos)
{
if (upos >= arr_len) return (arr_len);
memset (arr + upos, 0, arr_len - upos);
return (upos);
}
static int mangle_replace (char arr[RP_PASSWORD_SIZE], int arr_len, char oldc, char newc)
{
int arr_pos;
for (arr_pos = 0; arr_pos < arr_len; arr_pos++)
{
if (arr[arr_pos] != oldc) continue;
arr[arr_pos] = newc;
}
return (arr_len);
}
static int mangle_purgechar (char arr[RP_PASSWORD_SIZE], int arr_len, char c)
{
int arr_pos;
int ret_len;
for (ret_len = 0, arr_pos = 0; arr_pos < arr_len; arr_pos++)
{
if (arr[arr_pos] == c) continue;
arr[ret_len] = arr[arr_pos];
ret_len++;
}
return (ret_len);
}
static int mangle_dupeblock_prepend (char arr[RP_PASSWORD_SIZE], int arr_len, int ulen)
{
if (ulen > arr_len) return (arr_len);
if ((arr_len + ulen) >= RP_PASSWORD_SIZE) return (arr_len);
char cs[100] = { 0 };
memcpy (cs, arr, ulen);
int i;
for (i = 0; i < ulen; i++)
{
char c = cs[i];
arr_len = mangle_insert (arr, arr_len, i, c);
}
return (arr_len);
}
static int mangle_dupeblock_append (char arr[RP_PASSWORD_SIZE], int arr_len, int ulen)
{
if (ulen > arr_len) return (arr_len);
if ((arr_len + ulen) >= RP_PASSWORD_SIZE) return (arr_len);
int upos = arr_len - ulen;
int i;
for (i = 0; i < ulen; i++)
{
char c = arr[upos + i];
arr_len = mangle_append (arr, arr_len, c);
}
return (arr_len);
}
static int mangle_dupechar_at (char arr[RP_PASSWORD_SIZE], int arr_len, int upos, int ulen)
{
if ( arr_len == 0) return (arr_len);
if ((arr_len + ulen) >= RP_PASSWORD_SIZE) return (arr_len);
char c = arr[upos];
int i;
for (i = 0; i < ulen; i++)
{
arr_len = mangle_insert (arr, arr_len, upos, c);
}
return (arr_len);
}
static int mangle_dupechar (char arr[RP_PASSWORD_SIZE], int arr_len)
{
if ( arr_len == 0) return (arr_len);
if ((arr_len + arr_len) >= RP_PASSWORD_SIZE) return (arr_len);
int arr_pos;
for (arr_pos = arr_len - 1; arr_pos > -1; arr_pos--)
{
int new_pos = arr_pos * 2;
arr[new_pos] = arr[arr_pos];
arr[new_pos + 1] = arr[arr_pos];
}
return (arr_len * 2);
}
static int mangle_switch_at_check (char arr[RP_PASSWORD_SIZE], int arr_len, int upos, int upos2)
{
if (upos >= arr_len) return (arr_len);
if (upos2 >= arr_len) return (arr_len);
MANGLE_SWITCH (arr, upos, upos2);
return (arr_len);
}
static int mangle_switch_at (char arr[RP_PASSWORD_SIZE], int arr_len, int upos, int upos2)
{
MANGLE_SWITCH (arr, upos, upos2);
return (arr_len);
}
static int mangle_chr_shiftl (char arr[RP_PASSWORD_SIZE], int arr_len, int upos)
{
if (upos >= arr_len) return (arr_len);
arr[upos] <<= 1;
return (arr_len);
}
static int mangle_chr_shiftr (char arr[RP_PASSWORD_SIZE], int arr_len, int upos)
{
if (upos >= arr_len) return (arr_len);
arr[upos] >>= 1;
return (arr_len);
}
static int mangle_chr_incr (char arr[RP_PASSWORD_SIZE], int arr_len, int upos)
{
if (upos >= arr_len) return (arr_len);
arr[upos] += 1;
return (arr_len);
}
static int mangle_chr_decr (char arr[RP_PASSWORD_SIZE], int arr_len, int upos)
{
if (upos >= arr_len) return (arr_len);
arr[upos] -= 1;
return (arr_len);
}
static int mangle_title_sep (char arr[RP_PASSWORD_SIZE], int arr_len, char c)
{
int upper_next = 1;
int pos;
for (pos = 0; pos < arr_len; pos++)
{
if (arr[pos] == c)
{
upper_next = 1;
continue;
}
if (upper_next)
{
upper_next = 0;
MANGLE_UPPER_AT (arr, pos);
}
else
{
MANGLE_LOWER_AT (arr, pos);
}
}
MANGLE_UPPER_AT (arr, 0);
return (arr_len);
}
int _old_apply_rule (const char *rule, int rule_len, char in[RP_PASSWORD_SIZE], int in_len, char out[RP_PASSWORD_SIZE])
{
char mem[RP_PASSWORD_SIZE] = { 0 };
int pos_mem = -1;
if (in == NULL) return (RULE_RC_REJECT_ERROR);
if (out == NULL) return (RULE_RC_REJECT_ERROR);
if (in_len < 0 || in_len > RP_PASSWORD_SIZE) return (RULE_RC_REJECT_ERROR);
if (rule_len < 1) return (RULE_RC_REJECT_ERROR);
int out_len = in_len;
int mem_len = in_len;
memcpy (out, in, out_len);
char *rule_new = (char *) hcmalloc (rule_len);
#define HCFREE_AND_RETURN(x) { hcfree (rule_new); return (x); }
int rule_len_new = 0;
int rule_pos;
for (rule_pos = 0; rule_pos < rule_len; rule_pos++)
{
if (is_hex_notation (rule, rule_len, rule_pos))
{
const u8 c = hex_to_u8 ((const u8 *) &rule[rule_pos + 2]);
rule_pos += 3;
rule_new[rule_len_new] = c;
rule_len_new++;
}
else
{
rule_new[rule_len_new] = rule[rule_pos];
rule_len_new++;
}
}
for (rule_pos = 0; rule_pos < rule_len_new; rule_pos++)
{
int upos, upos2;
int ulen;
switch (rule_new[rule_pos])
{
case ' ':
break;
case RULE_OP_MANGLE_NOOP:
break;
case RULE_OP_MANGLE_LREST:
out_len = mangle_lrest (out, out_len);
break;
case RULE_OP_MANGLE_UREST:
out_len = mangle_urest (out, out_len);
break;
case RULE_OP_MANGLE_LREST_UFIRST:
out_len = mangle_lrest (out, out_len);
if (out_len) MANGLE_UPPER_AT (out, 0);
break;
case RULE_OP_MANGLE_UREST_LFIRST:
out_len = mangle_urest (out, out_len);
if (out_len) MANGLE_LOWER_AT (out, 0);
break;
case RULE_OP_MANGLE_TREST:
out_len = mangle_trest (out, out_len);
break;
case RULE_OP_MANGLE_TOGGLE_AT:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
if (upos < out_len) MANGLE_TOGGLE_AT (out, upos);
break;
case RULE_OP_MANGLE_TOGGLE_AT_SEP:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
NEXT_RULEPOS (rule_pos);
out_len = mangle_toggle_at_sep (out, out_len, rule_new[rule_pos], upos);
break;
case RULE_OP_MANGLE_REVERSE:
out_len = mangle_reverse (out, out_len);
break;
case RULE_OP_MANGLE_DUPEWORD:
out_len = mangle_double (out, out_len);
break;
case RULE_OP_MANGLE_DUPEWORD_TIMES:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, ulen);
out_len = mangle_double_times (out, out_len, ulen);
break;
case RULE_OP_MANGLE_REFLECT:
out_len = mangle_reflect (out, out_len);
break;
case RULE_OP_MANGLE_ROTATE_LEFT:
mangle_rotate_left (out, out_len);
break;
case RULE_OP_MANGLE_ROTATE_RIGHT:
mangle_rotate_right (out, out_len);
break;
case RULE_OP_MANGLE_APPEND:
NEXT_RULEPOS (rule_pos);
out_len = mangle_append (out, out_len, rule_new[rule_pos]);
break;
case RULE_OP_MANGLE_PREPEND:
NEXT_RULEPOS (rule_pos);
out_len = mangle_prepend (out, out_len, rule_new[rule_pos]);
break;
case RULE_OP_MANGLE_DELETE_FIRST:
out_len = mangle_delete_at (out, out_len, 0);
break;
case RULE_OP_MANGLE_DELETE_LAST:
out_len = mangle_delete_at (out, out_len, (out_len) ? out_len - 1 : 0);
break;
case RULE_OP_MANGLE_DELETE_AT:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
out_len = mangle_delete_at (out, out_len, upos);
break;
case RULE_OP_MANGLE_EXTRACT:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, ulen);
out_len = mangle_extract (out, out_len, upos, ulen);
break;
case RULE_OP_MANGLE_OMIT:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, ulen);
out_len = mangle_omit (out, out_len, upos, ulen);
break;
case RULE_OP_MANGLE_INSERT:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
NEXT_RULEPOS (rule_pos);
out_len = mangle_insert (out, out_len, upos, rule_new[rule_pos]);
break;
case RULE_OP_MANGLE_OVERSTRIKE:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
NEXT_RULEPOS (rule_pos);
out_len = mangle_overstrike (out, out_len, upos, rule_new[rule_pos]);
break;
case RULE_OP_MANGLE_TRUNCATE_AT:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
out_len = mangle_truncate_at (out, out_len, upos);
break;
case RULE_OP_MANGLE_REPLACE:
NEXT_RULEPOS (rule_pos);
NEXT_RULEPOS (rule_pos);
out_len = mangle_replace (out, out_len, rule_new[rule_pos - 1], rule_new[rule_pos]);
break;
case RULE_OP_MANGLE_PURGECHAR:
NEXT_RULEPOS (rule_pos);
out_len = mangle_purgechar (out, out_len, rule_new[rule_pos]);
break;
case RULE_OP_MANGLE_TOGGLECASE_REC:
/* todo */
break;
case RULE_OP_MANGLE_DUPECHAR_FIRST:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, ulen);
out_len = mangle_dupechar_at (out, out_len, 0, ulen);
break;
case RULE_OP_MANGLE_DUPECHAR_LAST:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, ulen);
out_len = mangle_dupechar_at (out, out_len, out_len - 1, ulen);
break;
case RULE_OP_MANGLE_DUPECHAR_ALL:
out_len = mangle_dupechar (out, out_len);
break;
case RULE_OP_MANGLE_DUPEBLOCK_FIRST:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, ulen);
out_len = mangle_dupeblock_prepend (out, out_len, ulen);
break;
case RULE_OP_MANGLE_DUPEBLOCK_LAST:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, ulen);
out_len = mangle_dupeblock_append (out, out_len, ulen);
break;
case RULE_OP_MANGLE_SWITCH_FIRST:
if (out_len >= 2) mangle_switch_at (out, out_len, 0, 1);
break;
case RULE_OP_MANGLE_SWITCH_LAST:
if (out_len >= 2) mangle_switch_at (out, out_len, out_len - 1, out_len - 2);
break;
case RULE_OP_MANGLE_SWITCH_AT:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos2);
out_len = mangle_switch_at_check (out, out_len, upos, upos2);
break;
case RULE_OP_MANGLE_CHR_SHIFTL:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
mangle_chr_shiftl (out, out_len, upos);
break;
case RULE_OP_MANGLE_CHR_SHIFTR:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
mangle_chr_shiftr (out, out_len, upos);
break;
case RULE_OP_MANGLE_CHR_INCR:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
mangle_chr_incr (out, out_len, upos);
break;
case RULE_OP_MANGLE_CHR_DECR:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
mangle_chr_decr (out, out_len, upos);
break;
case RULE_OP_MANGLE_REPLACE_NP1:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
if ((upos >= 0) && ((upos + 1) < out_len)) mangle_overstrike (out, out_len, upos, out[upos + 1]);
break;
case RULE_OP_MANGLE_REPLACE_NM1:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
if ((upos >= 1) && ((upos + 0) < out_len)) mangle_overstrike (out, out_len, upos, out[upos - 1]);
break;
case RULE_OP_MANGLE_TITLE_SEP:
NEXT_RULEPOS (rule_pos);
out_len = mangle_title_sep (out, out_len, rule_new[rule_pos]);
break;
case RULE_OP_MANGLE_TITLE:
out_len = mangle_title_sep (out, out_len, ' ');
break;
case RULE_OP_MANGLE_EXTRACT_MEMORY:
if (mem_len < 1) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, ulen);
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos2);
if ((out_len = mangle_insert_multi (out, out_len, upos2, mem, mem_len, upos, ulen)) < 1) HCFREE_AND_RETURN (out_len);
break;
case RULE_OP_MANGLE_APPEND_MEMORY:
if (mem_len < 1) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
if ((out_len + mem_len) >= RP_PASSWORD_SIZE) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
memcpy (out + out_len, mem, mem_len);
out_len += mem_len;
break;
case RULE_OP_MANGLE_PREPEND_MEMORY:
if (mem_len < 1) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
if ((mem_len + out_len) >= RP_PASSWORD_SIZE) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
memcpy (mem + mem_len, out, out_len);
out_len += mem_len;
memcpy (out, mem, out_len);
break;
case RULE_OP_MEMORIZE_WORD:
memcpy (mem, out, out_len);
mem_len = out_len;
break;
case RULE_OP_REJECT_LESS:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
if (out_len > upos) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
case RULE_OP_REJECT_GREATER:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
if (out_len < upos) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
case RULE_OP_REJECT_EQUAL:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
if (out_len != upos) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
case RULE_OP_REJECT_CONTAIN:
NEXT_RULEPOS (rule_pos);
if (strchr (out, rule_new[rule_pos]) != NULL) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
case RULE_OP_REJECT_NOT_CONTAIN:
NEXT_RULEPOS (rule_pos);
{
const char *match = strchr (out, rule_new[rule_pos]);
if (match != NULL)
{
pos_mem = (int)(match - out);
}
else
{
HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
}
}
break;
case RULE_OP_REJECT_EQUAL_FIRST:
NEXT_RULEPOS (rule_pos);
if (out[0] != rule_new[rule_pos]) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
case RULE_OP_REJECT_EQUAL_LAST:
NEXT_RULEPOS (rule_pos);
if (out[out_len - 1] != rule_new[rule_pos]) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
case RULE_OP_REJECT_EQUAL_AT:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
if ((upos + 1) > out_len) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
NEXT_RULEPOS (rule_pos);
if (out[upos] != rule_new[rule_pos]) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
case RULE_OP_REJECT_CONTAINS:
NEXT_RULEPOS (rule_pos);
NEXT_RPTOI (rule_new, rule_pos, upos);
if ((upos + 1) > out_len) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
NEXT_RULEPOS (rule_pos);
int c; int cnt;
for (c = 0, cnt = 0; c < out_len && cnt < upos; c++)
{
if (out[c] == rule_new[rule_pos])
{
cnt++;
pos_mem = c;
}
}
if (cnt < upos) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
case RULE_OP_REJECT_MEMORY:
if ((out_len == mem_len) && (memcmp (out, mem, out_len) == 0)) HCFREE_AND_RETURN (RULE_RC_REJECT_ERROR);
break;
default:
HCFREE_AND_RETURN (RULE_RC_SYNTAX_ERROR);
}
}
memset (out + out_len, 0, RP_PASSWORD_SIZE - out_len);
HCFREE_AND_RETURN (out_len);
#undef HCFREE_AND_RETURN
}
int run_rule_engine (const int rule_len, const char *rule_buf)
{
if (rule_len == 0) return 0;
if (rule_len == 1)
if (rule_buf[0] == RULE_OP_MANGLE_NOOP) return 0;
return 1;
}