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lvm2/libdm/regex/matcher.c

359 lines
7.5 KiB
C

/*
* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2007 Red Hat, Inc. All rights reserved.
*
* This file is part of the device-mapper userspace tools.
*
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU Lesser General Public License v.2.1.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "lib.h"
#include "parse_rx.h"
#include "ttree.h"
#include "assert.h"
struct dfa_state {
int final;
struct dfa_state *lookup[256];
};
struct state_queue {
struct dfa_state *s;
dm_bitset_t bits;
struct state_queue *next;
};
struct dm_regex { /* Instance variables for the lexer */
struct dfa_state *start;
unsigned num_nodes;
int nodes_entered;
struct rx_node **nodes;
struct dm_pool *scratch, *mem;
};
#define TARGET_TRANS '\0'
static int _count_nodes(struct rx_node *rx)
{
int r = 1;
if (rx->left)
r += _count_nodes(rx->left);
if (rx->right)
r += _count_nodes(rx->right);
return r;
}
static void _fill_table(struct dm_regex *m, struct rx_node *rx)
{
assert((rx->type != OR) || (rx->left && rx->right));
if (rx->left)
_fill_table(m, rx->left);
if (rx->right)
_fill_table(m, rx->right);
m->nodes[m->nodes_entered++] = rx;
}
static void _create_bitsets(struct dm_regex *m)
{
int i;
for (i = 0; i < m->num_nodes; i++) {
struct rx_node *n = m->nodes[i];
n->firstpos = dm_bitset_create(m->scratch, m->num_nodes);
n->lastpos = dm_bitset_create(m->scratch, m->num_nodes);
n->followpos = dm_bitset_create(m->scratch, m->num_nodes);
}
}
static void _calc_functions(struct dm_regex *m)
{
int i, j, final = 1;
struct rx_node *rx, *c1, *c2;
for (i = 0; i < m->num_nodes; i++) {
rx = m->nodes[i];
c1 = rx->left;
c2 = rx->right;
if (dm_bit(rx->charset, TARGET_TRANS))
rx->final = final++;
switch (rx->type) {
case CAT:
if (c1->nullable)
dm_bit_union(rx->firstpos,
c1->firstpos, c2->firstpos);
else
dm_bit_copy(rx->firstpos, c1->firstpos);
if (c2->nullable)
dm_bit_union(rx->lastpos,
c1->lastpos, c2->lastpos);
else
dm_bit_copy(rx->lastpos, c2->lastpos);
rx->nullable = c1->nullable && c2->nullable;
break;
case PLUS:
dm_bit_copy(rx->firstpos, c1->firstpos);
dm_bit_copy(rx->lastpos, c1->lastpos);
rx->nullable = c1->nullable;
break;
case OR:
dm_bit_union(rx->firstpos, c1->firstpos, c2->firstpos);
dm_bit_union(rx->lastpos, c1->lastpos, c2->lastpos);
rx->nullable = c1->nullable || c2->nullable;
break;
case QUEST:
case STAR:
dm_bit_copy(rx->firstpos, c1->firstpos);
dm_bit_copy(rx->lastpos, c1->lastpos);
rx->nullable = 1;
break;
case CHARSET:
dm_bit_set(rx->firstpos, i);
dm_bit_set(rx->lastpos, i);
rx->nullable = 0;
break;
default:
log_error("Internal error: Unknown calc node type");
}
/*
* followpos has it's own switch
* because PLUS and STAR do the
* same thing.
*/
switch (rx->type) {
case CAT:
for (j = 0; j < m->num_nodes; j++) {
if (dm_bit(c1->lastpos, j)) {
struct rx_node *n = m->nodes[j];
dm_bit_union(n->followpos,
n->followpos, c2->firstpos);
}
}
break;
case PLUS:
case STAR:
for (j = 0; j < m->num_nodes; j++) {
if (dm_bit(rx->lastpos, j)) {
struct rx_node *n = m->nodes[j];
dm_bit_union(n->followpos,
n->followpos, rx->firstpos);
}
}
break;
}
}
}
static struct dfa_state *_create_dfa_state(struct dm_pool *mem)
{
return dm_pool_zalloc(mem, sizeof(struct dfa_state));
}
static struct state_queue *_create_state_queue(struct dm_pool *mem,
struct dfa_state *dfa,
dm_bitset_t bits)
{
struct state_queue *r = dm_pool_alloc(mem, sizeof(*r));
if (!r) {
stack;
return NULL;
}
r->s = dfa;
r->bits = dm_bitset_create(mem, bits[0]); /* first element is the size */
dm_bit_copy(r->bits, bits);
r->next = 0;
return r;
}
static int _calc_states(struct dm_regex *m, struct rx_node *rx)
{
unsigned iwidth = (m->num_nodes / DM_BITS_PER_INT) + 1;
struct ttree *tt = ttree_create(m->scratch, iwidth);
struct state_queue *h, *t, *tmp;
struct dfa_state *dfa, *ldfa;
int i, a, set_bits = 0, count = 0;
dm_bitset_t bs, dfa_bits;
if (!tt)
return_0;
if (!(bs = dm_bitset_create(m->scratch, m->num_nodes)))
return_0;
/* create first state */
dfa = _create_dfa_state(m->mem);
m->start = dfa;
ttree_insert(tt, rx->firstpos + 1, dfa);
/* prime the queue */
h = t = _create_state_queue(m->scratch, dfa, rx->firstpos);
while (h) {
/* pop state off front of the queue */
dfa = h->s;
dfa_bits = h->bits;
h = h->next;
/* iterate through all the inputs for this state */
dm_bit_clear_all(bs);
for (a = 0; a < 256; a++) {
/* iterate through all the states in firstpos */
for (i = dm_bit_get_first(dfa_bits);
i >= 0; i = dm_bit_get_next(dfa_bits, i)) {
if (dm_bit(m->nodes[i]->charset, a)) {
if (a == TARGET_TRANS)
dfa->final = m->nodes[i]->final;
dm_bit_union(bs, bs,
m->nodes[i]->followpos);
set_bits = 1;
}
}
if (set_bits) {
ldfa = ttree_lookup(tt, bs + 1);
if (!ldfa) {
/* push */
ldfa = _create_dfa_state(m->mem);
ttree_insert(tt, bs + 1, ldfa);
tmp =
_create_state_queue(m->scratch,
ldfa, bs);
if (!h)
h = t = tmp;
else {
t->next = tmp;
t = tmp;
}
count++;
}
dfa->lookup[a] = ldfa;
set_bits = 0;
dm_bit_clear_all(bs);
}
}
}
log_debug("Matcher built with %d dfa states", count);
return 1;
}
struct dm_regex *dm_regex_create(struct dm_pool *mem, const char **patterns,
unsigned num_patterns)
{
char *all, *ptr;
int i;
size_t len = 0;
struct rx_node *rx;
struct dm_pool *scratch = dm_pool_create("regex matcher", 10 * 1024);
struct dm_regex *m;
if (!scratch)
return_NULL;
if (!(m = dm_pool_alloc(mem, sizeof(*m)))) {
dm_pool_destroy(scratch);
return_NULL;
}
memset(m, 0, sizeof(*m));
/* join the regexps together, delimiting with zero */
for (i = 0; i < num_patterns; i++)
len += strlen(patterns[i]) + 8;
ptr = all = dm_pool_alloc(scratch, len + 1);
if (!all)
goto_bad;
for (i = 0; i < num_patterns; i++) {
ptr += sprintf(ptr, "(.*(%s)%c)", patterns[i], TARGET_TRANS);
if (i < (num_patterns - 1))
*ptr++ = '|';
}
/* parse this expression */
if (!(rx = rx_parse_tok(scratch, all, ptr))) {
log_error("Couldn't parse regex");
goto bad;
}
m->mem = mem;
m->scratch = scratch;
m->num_nodes = _count_nodes(rx);
m->nodes = dm_pool_alloc(scratch, sizeof(*m->nodes) * m->num_nodes);
if (!m->nodes)
goto_bad;
_fill_table(m, rx);
_create_bitsets(m);
_calc_functions(m);
_calc_states(m, rx);
dm_pool_destroy(scratch);
m->scratch = NULL;
return m;
bad:
dm_pool_destroy(scratch);
dm_pool_free(mem, m);
return NULL;
}
static struct dfa_state *_step_matcher(int c, struct dfa_state *cs, int *r)
{
if (!(cs = cs->lookup[(unsigned char) c]))
return NULL;
if (cs->final && (cs->final > *r))
*r = cs->final;
return cs;
}
int dm_regex_match(struct dm_regex *regex, const char *s)
{
struct dfa_state *cs = regex->start;
int r = 0;
if (!(cs = _step_matcher(HAT_CHAR, cs, &r)))
goto out;
for (; *s; s++)
if (!(cs = _step_matcher(*s, cs, &r)))
goto out;
_step_matcher(DOLLAR_CHAR, cs, &r);
out:
/* subtract 1 to get back to zero index */
return r - 1;
}