/*
* Copyright 2023 Vsevolod Stakhov
*
* 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.
*/
#include "config.h"
#include "regexp.h"
#include "cryptobox.h"
#include "ref.h"
#include "util.h"
#include "rspamd.h"
#include "contrib/fastutf8/fastutf8.h"
#ifndef WITH_PCRE2
/* Normal pcre path */
#include <pcre.h>
#define PCRE_T pcre
#define PCRE_EXTRA_T pcre_extra
#define PCRE_JIT_T pcre_jit_stack
#define PCRE_FREE pcre_free
#define PCRE_JIT_STACK_FREE pcre_jit_stack_free
#define PCRE_FLAG(x) G_PASTE(PCRE_, x)
#else
/* PCRE 2 path */
#ifndef PCRE2_CODE_UNIT_WIDTH
#define PCRE2_CODE_UNIT_WIDTH 8
#endif
#include <pcre2.h>
#define PCRE_T pcre2_code
#define PCRE_JIT_T pcre2_jit_stack
#define PCRE_FREE pcre2_code_free
#define PCRE_JIT_STACK_FREE pcre2_jit_stack_free
#define PCRE_FLAG(x) G_PASTE(PCRE2_, x)
#endif
typedef guchar regexp_id_t[rspamd_cryptobox_HASHBYTES];
#undef DISABLE_JIT_FAST
struct rspamd_regexp_s {
gdouble exec_time;
gchar *pattern;
PCRE_T *re;
PCRE_T *raw_re;
#ifndef WITH_PCRE2
PCRE_EXTRA_T *extra;
PCRE_EXTRA_T *raw_extra;
#else
pcre2_match_context *mcontext;
pcre2_match_context *raw_mcontext;
#endif
regexp_id_t id;
ref_entry_t ref;
gpointer ud;
gpointer re_class;
guint64 cache_id;
gsize match_limit;
guint max_hits;
gint flags;
gint pcre_flags;
gint ncaptures;
};
struct rspamd_regexp_cache {
GHashTable *tbl;
#ifdef HAVE_PCRE_JIT
PCRE_JIT_T *jstack;
#endif
};
static struct rspamd_regexp_cache *global_re_cache = NULL;
static gboolean can_jit = FALSE;
static gboolean check_jit = TRUE;
static const int max_re_cache_size = 8192;
#ifdef WITH_PCRE2
static pcre2_compile_context *pcre2_ctx = NULL;
#endif
static GQuark
rspamd_regexp_quark(void)
{
return g_quark_from_static_string("rspamd-regexp");
}
static void
rspamd_regexp_generate_id(const gchar *pattern, const gchar *flags,
regexp_id_t out)
{
rspamd_cryptobox_hash_state_t st;
rspamd_cryptobox_hash_init(&st, NULL, 0);
if (flags) {
rspamd_cryptobox_hash_update(&st, flags, strlen(flags));
}
rspamd_cryptobox_hash_update(&st, pattern, strlen(pattern));
rspamd_cryptobox_hash_final(&st, out);
}
static void
rspamd_regexp_dtor(rspamd_regexp_t *re)
{
if (re) {
if (re->raw_re && re->raw_re != re->re) {
#ifndef WITH_PCRE2
/* PCRE1 version */
#ifdef HAVE_PCRE_JIT
if (re->raw_extra) {
pcre_free_study(re->raw_extra);
}
#endif
#else
/* PCRE 2 version */
if (re->raw_mcontext) {
pcre2_match_context_free(re->raw_mcontext);
}
#endif
PCRE_FREE(re->raw_re);
}
if (re->re) {
#ifndef WITH_PCRE2
/* PCRE1 version */
#ifdef HAVE_PCRE_JIT
if (re->extra) {
pcre_free_study(re->extra);
}
#endif
#else
/* PCRE 2 version */
if (re->mcontext) {
pcre2_match_context_free(re->mcontext);
}
#endif
PCRE_FREE(re->re);
}
if (re->pattern) {
g_free(re->pattern);
}
g_free(re);
}
}
static void
rspamd_regexp_post_process(rspamd_regexp_t *r)
{
if (global_re_cache == NULL) {
rspamd_regexp_library_init(NULL);
}
#if defined(WITH_PCRE2)
static const guint max_recursion_depth = 100000, max_backtrack = 1000000;
/* Create match context */
r->mcontext = pcre2_match_context_create(NULL);
g_assert(r->mcontext != NULL);
pcre2_set_recursion_limit(r->mcontext, max_recursion_depth);
pcre2_set_match_limit(r->mcontext, max_backtrack);
if (r->raw_re && r->re != r->raw_re) {
r->raw_mcontext = pcre2_match_context_create(NULL);
g_assert(r->raw_mcontext != NULL);
pcre2_set_recursion_limit(r->raw_mcontext, max_recursion_depth);
pcre2_set_match_limit(r->raw_mcontext, max_backtrack);
}
else if (r->raw_re) {
r->raw_mcontext = r->mcontext;
}
else {
r->raw_mcontext = NULL;
}
#ifdef HAVE_PCRE_JIT
guint jit_flags = can_jit ? PCRE2_JIT_COMPLETE : 0;
gsize jsz;
PCRE2_UCHAR errstr[128];
int errcode;
if (can_jit) {
if ((errcode = pcre2_jit_compile(r->re, jit_flags)) < 0) {
pcre2_get_error_message(errcode, errstr, G_N_ELEMENTS(errstr));
msg_err("jit compilation is not supported: %s; pattern: \"%s\"", errstr, r->pattern);
r->flags |= RSPAMD_REGEXP_FLAG_DISABLE_JIT;
}
else {
if (!(pcre2_pattern_info(r->re, PCRE2_INFO_JITSIZE, &jsz) >= 0 && jsz > 0)) {
msg_err("cannot exec pcre2_pattern_info(PCRE2_INFO_JITSIZE) on \"%s\"", r->pattern);
r->flags |= RSPAMD_REGEXP_FLAG_DISABLE_JIT;
}
}
}
else {
r->flags |= RSPAMD_REGEXP_FLAG_DISABLE_JIT;
}
if (!(r->flags & RSPAMD_REGEXP_FLAG_DISABLE_JIT)) {
pcre2_jit_stack_assign(r->mcontext, NULL, global_re_cache->jstack);
}
if (r->raw_re && r->re != r->raw_re && !(r->flags & RSPAMD_REGEXP_FLAG_DISABLE_JIT)) {
if ((errcode = pcre2_jit_compile(r->raw_re, jit_flags)) < 0) {
pcre2_get_error_message(errcode, errstr, G_N_ELEMENTS(errstr));
msg_debug("jit compilation is not supported for raw regexp: %s; pattern: \"%s\"", errstr, r->pattern);
r->flags |= RSPAMD_REGEXP_FLAG_DISABLE_JIT;
}
else {
if (!(pcre2_pattern_info(r->raw_re, PCRE2_INFO_JITSIZE, &jsz) >= 0 && jsz > 0)) {
msg_err("cannot exec pcre2_pattern_info(PCRE2_INFO_JITSIZE) on \"%s\"", r->pattern);
}
else if (!(r->flags & RSPAMD_REGEXP_FLAG_DISABLE_JIT)) {
g_assert(r->raw_mcontext != NULL);
pcre2_jit_stack_assign(r->raw_mcontext, NULL, global_re_cache->jstack);
}
}
}
#endif
#else
const gchar *err_str = "unknown";
gboolean try_jit = TRUE, try_raw_jit = TRUE;
gint study_flags = 0;
#if defined(HAVE_PCRE_JIT)
study_flags |= PCRE_STUDY_JIT_COMPILE;
#endif
/* Pcre 1 needs study */
if (r->re) {
r->extra = pcre_study(r->re, study_flags, &err_str);
if (r->extra == NULL) {
msg_debug("cannot optimize regexp pattern: '%s': %s",
r->pattern, err_str);
try_jit = FALSE;
r->flags |= RSPAMD_REGEXP_FLAG_DISABLE_JIT;
}
}
else {
g_assert_not_reached();
}
if (r->raw_re && r->raw_re != r->re) {
r->raw_extra = pcre_study(r->re, study_flags, &err_str);
}
else if (r->raw_re == r->re) {
r->raw_extra = r->extra;
}
if (r->raw_extra == NULL) {
msg_debug("cannot optimize raw regexp pattern: '%s': %s",
r->pattern, err_str);
try_raw_jit = FALSE;
}
/* JIT path */
if (try_jit) {
#ifdef HAVE_PCRE_JIT
gint jit, n;
if (can_jit) {
jit = 0;
n = pcre_fullinfo(r->re, r->extra,
PCRE_INFO_JIT, &jit);
if (n != 0 || jit != 1) {
msg_debug("jit compilation of %s is not supported", r->pattern);
r->flags |= RSPAMD_REGEXP_FLAG_DISABLE_JIT;
}
else {
pcre_assign_jit_stack(r->extra, NULL, global_re_cache->jstack);
}
}
#endif
}
else {
msg_debug("cannot optimize regexp pattern: '%s': %s",
r->pattern, err_str);
r->flags |= RSPAMD_REGEXP_FLAG_DISABLE_JIT;
}
if (try_raw_jit) {
#ifdef HAVE_PCRE_JIT
gint jit, n;
if (can_jit) {
if (r->raw_re != r->re) {
jit = 0;
n = pcre_fullinfo(r->raw_re, r->raw_extra,
PCRE_INFO_JIT, &jit);
if (n != 0 || jit != 1) {
msg_debug("jit compilation of %s is not supported", r->pattern);
r->flags |= RSPAMD_REGEXP_FLAG_DISABLE_JIT;
}
else {
pcre_assign_jit_stack(r->raw_extra, NULL,
global_re_cache->jstack);
}
}
}
#endif
}
#endif /* WITH_PCRE2 */
}
rspamd_regexp_t *
rspamd_regexp_new_len(const gchar *pattern, gsize len, const gchar *flags,
GError **err)
{
const gchar *start = pattern, *end = start + len, *flags_str = NULL, *flags_end = NULL;
gchar *err_str;
rspamd_regexp_t *res;
gboolean explicit_utf = FALSE;
PCRE_T *r;
gchar sep = 0, *real_pattern;
#ifndef WITH_PCRE2
gint err_off;
#else
gsize err_off;
#endif
gint regexp_flags = 0, rspamd_flags = 0, err_code, ncaptures;
gboolean strict_flags = FALSE;
rspamd_regexp_library_init(NULL);
if (pattern == NULL) {
g_set_error(err, rspamd_regexp_quark(), EINVAL,
"cannot create regexp from a NULL pattern");
return NULL;
}
if (flags == NULL && start + 1 < end) {
/* We need to parse pattern and detect flags set */
if (*start == '/') {
sep = '/';
}
else if (*start == 'm' && start[1] != '\\' && g_ascii_ispunct(start[1])) {
start++;
sep = *start;
/* Paired braces */
if (sep == '{') {
sep = '}';
}
rspamd_flags |= RSPAMD_REGEXP_FLAG_FULL_MATCH;
}
if (sep == 0) {
/* We have no flags, no separators and just use all line as expr */
start = pattern;
rspamd_flags &= ~RSPAMD_REGEXP_FLAG_FULL_MATCH;
}
else {
gchar *last_sep = rspamd_memrchr(pattern, sep, len);
if (last_sep == NULL || last_sep <= start) {
g_set_error(err, rspamd_regexp_quark(), EINVAL,
"pattern is not enclosed with %c: %s",
sep, pattern);
return NULL;
}
flags_str = last_sep + 1;
flags_end = end;
end = last_sep;
start++;
}
}
else {
/* Strictly check all flags */
strict_flags = TRUE;
start = pattern;
flags_str = flags;
if (flags) {
flags_end = flags + strlen(flags);
}
}
rspamd_flags |= RSPAMD_REGEXP_FLAG_RAW;
#ifndef WITH_PCRE2
regexp_flags &= ~PCRE_FLAG(UTF8);
regexp_flags |= PCRE_FLAG(NEWLINE_ANYCRLF);
#else
regexp_flags &= ~PCRE_FLAG(UTF);
#endif
if (flags_str != NULL) {
while (flags_str < flags_end) {
switch (*flags_str) {
case 'i':
regexp_flags |= PCRE_FLAG(CASELESS);
break;
case 'm':
regexp_flags |= PCRE_FLAG(MULTILINE);
break;
case 's':
regexp_flags |= PCRE_FLAG(DOTALL);
break;
case 'x':
regexp_flags |= PCRE_FLAG(EXTENDED);
break;
case 'u':
rspamd_flags &= ~RSPAMD_REGEXP_FLAG_RAW;
rspamd_flags |= RSPAMD_REGEXP_FLAG_UTF;
#ifndef WITH_PCRE2
regexp_flags |= PCRE_FLAG(UTF8);
#else
regexp_flags |= PCRE_FLAG(UTF);
#endif
explicit_utf = TRUE;
break;
case 'O':
/* We optimize all regexps by default */
rspamd_flags |= RSPAMD_REGEXP_FLAG_NOOPT;
break;
case 'L':
/* SOM_LEFTMOST hyperscan flag */
rspamd_flags |= RSPAMD_REGEXP_FLAG_LEFTMOST;
break;
case 'r':
rspamd_flags |= RSPAMD_REGEXP_FLAG_RAW;
rspamd_flags &= ~RSPAMD_REGEXP_FLAG_UTF;
#ifndef WITH_PCRE2
regexp_flags &= ~PCRE_FLAG(UTF8);
#else
regexp_flags &= ~PCRE_FLAG(UTF);
#endif
break;
default:
if (strict_flags) {
g_set_error(err, rspamd_regexp_quark(), EINVAL,
"invalid regexp flag: %c in pattern %s",
*flags_str, pattern);
return NULL;
}
msg_warn("invalid flag '%c' in pattern %s", *flags_str, pattern);
goto fin;
break;
}
flags_str++;
}
}
fin:
real_pattern = g_malloc(end - start + 1);
rspamd_strlcpy(real_pattern, start, end - start + 1);
#ifndef WITH_PCRE2
r = pcre_compile(real_pattern, regexp_flags,
(const char **) &err_str, &err_off, NULL);
(void) err_code;
#else
r = pcre2_compile(real_pattern, PCRE2_ZERO_TERMINATED,
regexp_flags,
&err_code, &err_off, pcre2_ctx);
if (r == NULL) {
err_str = g_alloca(1024);
memset(err_str, 0, 1024);
pcre2_get_error_message(err_code, err_str, 1024);
}
#endif
if (r == NULL) {
g_set_error(err, rspamd_regexp_quark(), EINVAL,
"regexp parsing error: '%s' at position %d; pattern: %s",
err_str, (gint) err_off, real_pattern);
g_free(real_pattern);
return NULL;
}
/* Now allocate the target structure */
res = g_malloc0(sizeof(*res));
REF_INIT_RETAIN(res, rspamd_regexp_dtor);
res->flags = rspamd_flags;
res->pattern = real_pattern;
res->cache_id = RSPAMD_INVALID_ID;
res->pcre_flags = regexp_flags;
res->max_hits = 0;
res->re = r;
if (rspamd_flags & RSPAMD_REGEXP_FLAG_RAW) {
res->raw_re = r;
}
else if (!explicit_utf) {
#ifndef WITH_PCRE2
res->raw_re = pcre_compile(real_pattern, regexp_flags & ~PCRE_FLAG(UTF8),
(const char **) &err_str, &err_off, NULL);
(void) err_code;
#else
res->raw_re = pcre2_compile(real_pattern, PCRE2_ZERO_TERMINATED,
regexp_flags & ~PCRE_FLAG(UTF),
&err_code, &err_off, pcre2_ctx);
if (res->raw_re == NULL) {
err_str = g_alloca(1024);
memset(err_str, 0, 1024);
pcre2_get_error_message(err_code, err_str, 1024);
}
#endif
if (res->raw_re == NULL) {
msg_warn("raw regexp parsing error: '%s': '%s' at position %d",
err_str, real_pattern, (gint) err_off);
}
}
rspamd_regexp_post_process(res);
rspamd_regexp_generate_id(pattern, flags, res->id);
#ifndef WITH_PCRE2
/* Check number of captures */
if (pcre_fullinfo(res->raw_re, res->extra, PCRE_INFO_CAPTURECOUNT,
&ncaptures) == 0) {
res->ncaptures = ncaptures;
}
#else
/* Check number of captures */
if (pcre2_pattern_info(res->raw_re, PCRE2_INFO_CAPTURECOUNT,
&ncaptures) == 0) {
res->ncaptures = ncaptures;
}
#endif
return res;
}
rspamd_regexp_t *
rspamd_regexp_new(const gchar *pattern, const gchar *flags,
GError **err)
{
return rspamd_regexp_new_len(pattern, strlen(pattern), flags, err);
}
#ifndef WITH_PCRE2
gboolean
rspamd_regexp_search(const rspamd_regexp_t *re, const gchar *text, gsize len,
const gchar **start, const gchar **end, gboolean raw,
GArray *captures)
{
pcre *r;
pcre_extra *ext;
#if defined(HAVE_PCRE_JIT) && defined(HAVE_PCRE_JIT_FAST) && !defined(DISABLE_JIT_FAST)
pcre_jit_stack *st = NULL;
#endif
const gchar *mt;
gsize remain = 0;
gint rc, match_flags = 0, *ovec, ncaptures, i;
const int junk = 0xdeadbabe;
g_assert(re != NULL);
g_assert(text != NULL);
if (len == 0) {
len = strlen(text);
}
if (re->match_limit > 0 && len > re->match_limit) {
len = re->match_limit;
}
if (end != NULL && *end != NULL) {
/* Incremental search */
mt = (*end);
if ((gint) len > (mt - text)) {
remain = len - (mt - text);
}
}
else {
mt = text;
remain = len;
}
if (remain == 0) {
return FALSE;
}
match_flags = PCRE_NEWLINE_ANYCRLF;
if ((re->flags & RSPAMD_REGEXP_FLAG_RAW) || raw) {
r = re->raw_re;
ext = re->raw_extra;
#if defined(HAVE_PCRE_JIT) && defined(HAVE_PCRE_JIT_FAST) && !defined(DISABLE_JIT_FAST)
st = global_re_cache->jstack;
#endif
}
else {
r = re->re;
ext = re->extra;
#if defined(HAVE_PCRE_JIT) && defined(HAVE_PCRE_JIT_FAST) && !defined(DISABLE_JIT_FAST)
if (rspamd_fast_utf8_validate(mt, remain) == 0) {
st = global_re_cache->jstack;
}
else {
msg_err("bad utf8 input for JIT re '%s'", re->pattern);
return FALSE;
}
#endif
}
if (r == NULL) {
/* Invalid regexp type for the specified input */
return FALSE;
}
ncaptures = (re->ncaptures + 1) * 3;
ovec = g_alloca(sizeof(gint) * ncaptures);
for (i = 0; i < ncaptures; i++) {
ovec[i] = junk;
}
if (!(re->flags & RSPAMD_REGEXP_FLAG_NOOPT)) {
#ifdef HAVE_PCRE_JIT
#if defined(HAVE_PCRE_JIT_FAST) && !defined(DISABLE_JIT_FAST)
/* XXX: flags seems to be broken with jit fast path */
g_assert(remain > 0);
g_assert(mt != NULL);
if (st != NULL && !(re->flags & RSPAMD_REGEXP_FLAG_DISABLE_JIT) && can_jit) {
rc = pcre_jit_exec(r, ext, mt, remain, 0, 0, ovec,
ncaptures, st);
}
else {
rc = pcre_exec(r, ext, mt, remain, 0, match_flags, ovec,
ncaptures);
}
#else
rc = pcre_exec(r, ext, mt, remain, 0, match_flags, ovec,
ncaptures);
#endif
#else
rc = pcre_exec(r, ext, mt, remain, 0, match_flags, ovec,
ncaptures);
#endif
}
else {
rc = pcre_exec(r, ext, mt, remain, 0, match_flags, ovec,
ncaptures);
}
if (rc >= 0) {
if (rc > 0) {
if (start) {
*start = mt + ovec[0];
}
if (end) {
*end = mt + ovec[1];
}
}
else {
if (start) {
*start = mt;
}
if (end) {
*end = mt + remain;
}
}
if (captures != NULL && rc >= 1) {
struct rspamd_re_capture *elt;
g_assert(g_array_get_element_size(captures) ==
sizeof(struct rspamd_re_capture));
g_array_set_size(captures, rc);
for (i = 0; i < rc; i++) {
if (ovec[i * 2] != junk && ovec[i * 2] >= 0) {
elt = &g_array_index(captures, struct rspamd_re_capture, i);
elt->p = mt + ovec[i * 2];
elt->len = (mt + ovec[i * 2 + 1]) - elt->p;
}
else {
/* Runtime match returned fewer captures than expected */
g_array_set_size(captures, i);
break;
}
}
}
if (re->flags & RSPAMD_REGEXP_FLAG_FULL_MATCH) {
/* We also ensure that the match is full */
if (ovec[0] != 0 || (guint) ovec[1] < len) {
return FALSE;
}
}
return TRUE;
}
return FALSE;
}
#else
/* PCRE 2 version */
gboolean
rspamd_regexp_search(const rspamd_regexp_t *re, const gchar *text, gsize len,
const gchar **start, const gchar **end, gboolean raw,
GArray *captures)
{
pcre2_match_data *match_data;
pcre2_match_context *mcontext;
PCRE_T *r;
const gchar *mt;
PCRE2_SIZE remain = 0, *ovec;
const PCRE2_SIZE junk = 0xdeadbabeeeeeeeeULL;
gint rc, match_flags, novec, i;
gboolean ret = FALSE;
g_assert(re != NULL);
g_assert(text != NULL);
if (len == 0) {
len = strlen(text);
}
if (re->match_limit > 0 && len > re->match_limit) {
len = re->match_limit;
}
if (end != NULL && *end != NULL) {
/* Incremental search */
mt = (*end);
if ((gint) len > (mt - text)) {
remain = len - (mt - text);
}
}
else {
mt = text;
remain = len;
}
if (remain == 0) {
return FALSE;
}
match_flags = 0;
if (raw || re->re == re->raw_re) {
r = re->raw_re;
mcontext = re->raw_mcontext;
}
else {
r = re->re;
mcontext = re->mcontext;
}
if (r == NULL) {
/* Invalid regexp type for the specified input */
return FALSE;
}
match_data = pcre2_match_data_create(re->ncaptures + 1, NULL);
novec = pcre2_get_ovector_count(match_data);
ovec = pcre2_get_ovector_pointer(match_data);
/* Fill ovec with crap, so we can stop if actual matches is less than announced */
for (i = 0; i < novec; i++) {
ovec[i * 2] = junk;
ovec[i * 2 + 1] = junk;
}
#ifdef HAVE_PCRE_JIT
if (!(re->flags & RSPAMD_REGEXP_FLAG_DISABLE_JIT) && can_jit) {
if (re->re != re->raw_re && rspamd_fast_utf8_validate(mt, remain) != 0) {
msg_err("bad utf8 input for JIT re '%s'", re->pattern);
return FALSE;
}
rc = pcre2_jit_match(r, mt, remain, 0, match_flags, match_data,
mcontext);
}
else {
rc = pcre2_match(r, mt, remain, 0, match_flags, match_data,
mcontext);
}
#else
rc = pcre2_match(r, mt, remain, 0, match_flags, match_data,
mcontext);
#endif
if (rc >= 0) {
if (novec > 0) {
if (start) {
*start = mt + ovec[0];
}
if (end) {
*end = mt + ovec[1];
}
}
else {
if (start) {
*start = mt;
}
if (end) {
*end = mt + remain;
}
}
if (captures != NULL && novec >= 1) {
struct rspamd_re_capture *elt;
g_assert(g_array_get_element_size(captures) ==
sizeof(struct rspamd_re_capture));
g_array_set_size(captures, novec);
for (i = 0; i < novec; i++) {
if (ovec[i * 2] != junk && ovec[i * 2] != PCRE2_UNSET) {
elt = &g_array_index(captures, struct rspamd_re_capture, i);
elt->p = mt + ovec[i * 2];
elt->len = (mt + ovec[i * 2 + 1]) - elt->p;
}
else {
g_array_set_size(captures, i);
break;
}
}
}
ret = TRUE;
if (re->flags & RSPAMD_REGEXP_FLAG_FULL_MATCH) {
/* We also ensure that the match is full */
if (ovec[0] != 0 || (guint) ovec[1] < len) {
ret = FALSE;
}
}
}
pcre2_match_data_free(match_data);
return ret;
}
#endif
const char *
rspamd_regexp_get_pattern(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return re->pattern;
}
guint rspamd_regexp_set_flags(rspamd_regexp_t *re, guint new_flags)
{
guint old_flags;
g_assert(re != NULL);
old_flags = re->flags;
re->flags = new_flags;
return old_flags;
}
guint rspamd_regexp_get_flags(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return re->flags;
}
guint rspamd_regexp_get_pcre_flags(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return re->pcre_flags;
}
guint rspamd_regexp_get_maxhits(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return re->max_hits;
}
guint rspamd_regexp_set_maxhits(rspamd_regexp_t *re, guint new_maxhits)
{
guint old_hits;
g_assert(re != NULL);
old_hits = re->max_hits;
re->max_hits = new_maxhits;
return old_hits;
}
guint64
rspamd_regexp_get_cache_id(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return re->cache_id;
}
guint64
rspamd_regexp_set_cache_id(rspamd_regexp_t *re, guint64 id)
{
guint64 old;
g_assert(re != NULL);
old = re->cache_id;
re->cache_id = id;
return old;
}
gsize rspamd_regexp_get_match_limit(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return re->match_limit;
}
gsize rspamd_regexp_set_match_limit(rspamd_regexp_t *re, gsize lim)
{
gsize old;
g_assert(re != NULL);
old = re->match_limit;
re->match_limit = lim;
return old;
}
gboolean
rspamd_regexp_match(const rspamd_regexp_t *re, const gchar *text, gsize len,
gboolean raw)
{
const gchar *start = NULL, *end = NULL;
g_assert(re != NULL);
g_assert(text != NULL);
if (len == 0) {
len = strlen(text);
}
if (rspamd_regexp_search(re, text, len, &start, &end, raw, NULL)) {
if (start == text && end == text + len) {
return TRUE;
}
}
return FALSE;
}
void rspamd_regexp_unref(rspamd_regexp_t *re)
{
REF_RELEASE(re);
}
rspamd_regexp_t *
rspamd_regexp_ref(rspamd_regexp_t *re)
{
g_assert(re != NULL);
REF_RETAIN(re);
return re;
}
void rspamd_regexp_set_ud(rspamd_regexp_t *re, gpointer ud)
{
g_assert(re != NULL);
re->ud = ud;
}
gpointer
rspamd_regexp_get_ud(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return re->ud;
}
gboolean
rspamd_regexp_equal(gconstpointer a, gconstpointer b)
{
const guchar *ia = a, *ib = b;
return (memcmp(ia, ib, sizeof(regexp_id_t)) == 0);
}
guint32
rspamd_regexp_hash(gconstpointer a)
{
const guchar *ia = a;
guint32 res;
memcpy(&res, ia, sizeof(res));
return res;
}
gboolean
rspamd_regexp_cmp(gconstpointer a, gconstpointer b)
{
const guchar *ia = a, *ib = b;
return memcmp(ia, ib, sizeof(regexp_id_t));
}
struct rspamd_regexp_cache *
rspamd_regexp_cache_new(void)
{
struct rspamd_regexp_cache *ncache;
ncache = g_malloc0(sizeof(*ncache));
ncache->tbl = g_hash_table_new_full(rspamd_regexp_hash, rspamd_regexp_equal,
NULL, (GDestroyNotify) rspamd_regexp_unref);
#ifdef HAVE_PCRE_JIT
#ifdef WITH_PCRE2
ncache->jstack = pcre2_jit_stack_create(32 * 1024, 1024 * 1024, NULL);
#else
ncache->jstack = pcre_jit_stack_alloc(32 * 1024, 1024 * 1024);
#endif
#endif
return ncache;
}
rspamd_regexp_t *
rspamd_regexp_cache_query(struct rspamd_regexp_cache *cache,
const gchar *pattern,
const gchar *flags)
{
rspamd_regexp_t *res = NULL;
regexp_id_t id;
if (cache == NULL) {
rspamd_regexp_library_init(NULL);
cache = global_re_cache;
}
g_assert(cache != NULL);
rspamd_regexp_generate_id(pattern, flags, id);
res = g_hash_table_lookup(cache->tbl, id);
return res;
}
rspamd_regexp_t *
rspamd_regexp_cache_create(struct rspamd_regexp_cache *cache,
const gchar *pattern,
const gchar *flags, GError **err)
{
rspamd_regexp_t *res;
if (cache == NULL) {
rspamd_regexp_library_init(NULL);
cache = global_re_cache;
}
g_assert(cache != NULL);
res = rspamd_regexp_cache_query(cache, pattern, flags);
if (res != NULL) {
return res;
}
res = rspamd_regexp_new(pattern, flags, err);
if (res) {
/* REF_RETAIN (res); */
if (g_hash_table_size(cache->tbl) < max_re_cache_size) {
g_hash_table_insert(cache->tbl, res->id, res);
}
else {
msg_warn("cannot insert regexp to the cache: maximum size is reached (%d expressions); "
"it might be cached regexp misuse; regexp pattern: %s",
max_re_cache_size, pattern);
}
}
return res;
}
gboolean
rspamd_regexp_cache_remove(struct rspamd_regexp_cache *cache,
rspamd_regexp_t *re)
{
if (cache == NULL) {
cache = global_re_cache;
}
g_assert(cache != NULL);
g_assert(re != NULL);
return g_hash_table_remove(cache->tbl, re->id);
}
void rspamd_regexp_cache_destroy(struct rspamd_regexp_cache *cache)
{
if (cache != NULL) {
g_hash_table_destroy(cache->tbl);
#ifdef HAVE_PCRE_JIT
#ifdef WITH_PCRE2
if (cache->jstack) {
pcre2_jit_stack_free(cache->jstack);
}
#else
if (cache->jstack) {
pcre_jit_stack_free(cache->jstack);
}
#endif
#endif
g_free(cache);
}
}
RSPAMD_CONSTRUCTOR(rspamd_re_static_pool_ctor)
{
global_re_cache = rspamd_regexp_cache_new();
#ifdef WITH_PCRE2
pcre2_ctx = pcre2_compile_context_create(NULL);
pcre2_set_newline(pcre2_ctx, PCRE_FLAG(NEWLINE_ANY));
#endif
}
RSPAMD_DESTRUCTOR(rspamd_re_static_pool_dtor)
{
rspamd_regexp_cache_destroy(global_re_cache);
#ifdef WITH_PCRE2
pcre2_compile_context_free(pcre2_ctx);
#endif
}
void rspamd_regexp_library_init(struct rspamd_config *cfg)
{
if (cfg) {
if (cfg->disable_pcre_jit) {
can_jit = FALSE;
check_jit = FALSE;
}
else if (!can_jit) {
check_jit = TRUE;
}
}
if (check_jit) {
#ifdef HAVE_PCRE_JIT
gint jit, rc;
gchar *str;
#ifndef WITH_PCRE2
rc = pcre_config(PCRE_CONFIG_JIT, &jit);
#else
rc = pcre2_config(PCRE2_CONFIG_JIT, &jit);
#endif
if (rc == 0 && jit == 1) {
#ifndef WITH_PCRE2
#ifdef PCRE_CONFIG_JITTARGET
pcre_config(PCRE_CONFIG_JITTARGET, &str);
msg_info("pcre is compiled with JIT for %s", str);
#else
msg_info("pcre is compiled with JIT for unknown target");
#endif
#else
rc = pcre2_config(PCRE2_CONFIG_JITTARGET, NULL);
if (rc > 0) {
str = g_alloca(rc);
pcre2_config(PCRE2_CONFIG_JITTARGET, str);
msg_info("pcre2 is compiled with JIT for %s", str);
}
else {
msg_info("pcre2 is compiled with JIT for unknown");
}
#endif /* WITH_PCRE2 */
if (getenv("VALGRIND") == NULL) {
can_jit = TRUE;
}
else {
msg_info("disabling PCRE jit as it does not play well with valgrind");
can_jit = FALSE;
}
}
else {
msg_info("pcre is compiled without JIT support, so many optimizations"
" are impossible");
can_jit = FALSE;
}
#else
msg_info("pcre is too old and has no JIT support, so many optimizations"
" are impossible");
can_jit = FALSE;
#endif
check_jit = FALSE;
}
}
gpointer
rspamd_regexp_get_id(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return (gpointer) re->id;
}
gpointer
rspamd_regexp_get_class(const rspamd_regexp_t *re)
{
g_assert(re != NULL);
return re->re_class;
}
gpointer
rspamd_regexp_set_class(rspamd_regexp_t *re, gpointer re_class)
{
gpointer old_class;
g_assert(re != NULL);
old_class = re->re_class;
re->re_class = re_class;
return old_class;
}
rspamd_regexp_t *
rspamd_regexp_from_glob(const gchar *gl, gsize sz, GError **err)
{
GString *out;
rspamd_regexp_t *re;
const gchar *end;
gboolean escaping = FALSE;
gint nbraces = 0;
g_assert(gl != NULL);
if (sz == 0) {
sz = strlen(gl);
}
end = gl + sz;
out = g_string_sized_new(sz + 2);
g_string_append_c(out, '^');
while (gl < end) {
switch (*gl) {
case '*':
if (escaping) {
g_string_append(out, "\\*");
}
else {
g_string_append(out, ".*");
}
escaping = FALSE;
break;
case '?':
if (escaping) {
g_string_append(out, "\\?");
}
else {
g_string_append(out, ".");
}
escaping = FALSE;
break;
case '.':
case '(':
case ')':
case '+':
case '|':
case '^':
case '$':
case '@':
case '%':
g_string_append_c(out, '\\');
g_string_append_c(out, *gl);
escaping = FALSE;
break;
case '\\':
if (escaping) {
g_string_append(out, "\\\\");
escaping = FALSE;
}
else {
escaping = TRUE;
}
break;
case '{':
if (escaping) {
g_string_append(out, "\\{");
}
else {
g_string_append_c(out, '(');
nbraces++;
}
escaping = FALSE;
break;
case '}':
if (nbraces > 0 && !escaping) {
g_string_append_c(out, ')');
nbraces--;
}
else if (escaping) {
g_string_append(out, "\\}");
}
else {
g_string_append(out, "}");
}
escaping = FALSE;
break;
case ',':
if (nbraces > 0 && !escaping) {
g_string_append_c(out, '|');
}
else if (escaping) {
g_string_append(out, "\\,");
}
else {
g_string_append_c(out, ',');
}
break;
default:
escaping = FALSE;
g_string_append_c(out, *gl);
break;
}
gl++;
}
g_string_append_c(out, '$');
re = rspamd_regexp_new(out->str, "i", err);
g_string_free(out, TRUE);
return re;
}