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construct/extensions/extb_combi.c

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/*
* Extban that combines other extbans.
*
* Basic example:
* $&:~a,m:*!*@gateway/web/cgi-irc*
* Which means: match unidentified webchat users.
* ("m" is another new extban type, which just does a normal match).
*
* More complicated example:
* $&:~a,|:(m:*!*@gateway/web/foo,m:*!*@gateway/web/bar)
* Which means: unidentified and using the foo or bar gateway.
*
* Rules:
*
* - Optional pair of parens around data.
*
* - component bans are separated by commas, but commas between
* matching pairs of parens are skipped.
*
* - Unbalanced parens are an error.
*
* - Parens, commas and backslashes can be escaped by backslashes.
*
* - A backslash before any character other than a paren or backslash
* is just a backslash (backslash and character are both used).
*
* - Non-existant extbans are invalid.
* This is primarily for consistency with non-combined bans:
* the ircd does not let you set +b $f unless the 'f' extban is loaded,
* so setting $&:f should be impossible too.
*
* Issues:
* - Backslashes double inside nested bans.
* Hopefully acceptable because they should be rare.
*
* - Is performance good enough?
* I suspect it is, but have done no load testing.
*/
#include "stdinc.h"
#include "modules.h"
#include "client.h"
#include "ircd.h"
// #define DEBUG(s) sendto_realops_snomask(SNO_DEBUG, L_NETWIDE, (s))
#define DEBUG(s)
#define RETURN_INVALID { recursion_depth--; return EXTBAN_INVALID; }
static int _modinit(void);
static void _moddeinit(void);
static int eb_or(const char *data, struct Client *client_p, struct Channel *chptr, long mode_type);
static int eb_and(const char *data, struct Client *client_p, struct Channel *chptr, long mode_type);
static int eb_combi(const char *data, struct Client *client_p, struct Channel *chptr, long mode_type, int is_and);
static int recursion_depth = 0;
DECLARE_MODULE_AV1(extb_extended, _modinit, _moddeinit, NULL, NULL, NULL, "$Revision: 1 $");
static int
_modinit(void)
{
extban_table['&'] = eb_and;
extban_table['|'] = eb_or;
return 0;
}
static void
_moddeinit(void)
{
extban_table['&'] = NULL;
extban_table['|'] = NULL;
}
static int eb_or(const char *data, struct Client *client_p,
struct Channel *chptr, long mode_type)
{
return eb_combi(data, client_p, chptr, mode_type, FALSE);
}
static int eb_and(const char *data, struct Client *client_p,
struct Channel *chptr, long mode_type)
{
return eb_combi(data, client_p, chptr, mode_type, TRUE);
}
static int eb_combi(const char *data, struct Client *client_p,
struct Channel *chptr, long mode_type, int is_and)
{
const char *p, *banend;
int have_result = FALSE;
int allowed_nodes = 11;
size_t datalen;
if (recursion_depth >= 5) {
DEBUG("combo invalid: recursion depth too high");
return EXTBAN_INVALID;
}
if (EmptyString(data)) {
DEBUG("combo invalid: empty data");
return EXTBAN_INVALID;
}
datalen = strlen(data);
if (datalen > BANLEN) {
/* I'd be sad if this ever happened, but if it does we
* could overflow the buffer used below, so...
*/
DEBUG("combo invalid: > BANLEN");
return EXTBAN_INVALID;
}
banend = data + datalen;
if (data[0] == '(') {
p = data + 1;
banend--;
if (*banend != ')') {
DEBUG("combo invalid: starting but no closing paren");
return EXTBAN_INVALID;
}
} else {
p = data;
}
/* Empty combibans are invalid. */
if (banend == p) {
DEBUG("combo invalid: no data (after removing parens)");
return EXTBAN_INVALID;
}
/* Implementation note:
* I want it to be impossible to set a syntactically invalid combi-ban.
* (mismatched parens).
* That is: valid_extban should return false for those.
* Ideally we do not parse the entire ban when actually matching it:
* we can just short-circuit if we already know the ban is valid.
* Unfortunately there is no separate hook or mode_type for validation,
* so we always keep parsing even after we have determined a result.
*/
recursion_depth++;
while (--allowed_nodes) {
int invert = FALSE;
char *child_data, child_data_buf[BANLEN];
ExtbanFunc f;
if (*p == '~') {
invert = TRUE;
p++;
if (p == banend) {
DEBUG("combo invalid: no data after ~");
RETURN_INVALID;
}
}
f = extban_table[(unsigned char) *p++];
if (!f) {
DEBUG("combo invalid: non-existant child extban");
RETURN_INVALID;
}
if (*p == ':') {
unsigned int parencount = 0;
int escaped = FALSE, done = FALSE;
char *o;
p++;
/* Possible optimization: we can skip the actual copy if
* we already have_result.
*/
o = child_data = child_data_buf;
while (TRUE) {
if (p == banend) {
if (parencount) {
DEBUG("combo invalid: EOD while in parens");
RETURN_INVALID;
}
break;
}
if (escaped) {
if (*p != '(' && *p != ')' && *p != '\\' && *p != ',')
*o++ = '\\';
*o++ = *p++;
escaped = FALSE;
} else {
switch (*p) {
case '\\':
escaped = TRUE;
break;
case '(':
parencount++;
*o++ = *p;
break;
case ')':
if (!parencount) {
DEBUG("combo invalid: negative parencount");
RETURN_INVALID;
}
parencount--;
*o++ = *p;
break;
case ',':
if (parencount)
*o++ = *p;
else
done = TRUE;
break;
default:
*o++ = *p;
break;
}
if (done)
break;
p++;
}
}
*o = '\0';
} else {
child_data = NULL;
}
if (!have_result) {
int child_result = f(child_data, client_p, chptr, mode_type);
if (child_result == EXTBAN_INVALID) {
DEBUG("combo invalid: child invalid");
RETURN_INVALID;
}
/* Convert child_result to a plain boolean result */
if (invert)
child_result = child_result == EXTBAN_NOMATCH;
else
child_result = child_result == EXTBAN_MATCH;
if (is_and ? !child_result : child_result)
have_result = TRUE;
}
if (p == banend)
break;
if (*p++ != ',') {
DEBUG("combo invalid: no ',' after ban");
RETURN_INVALID;
}
if (p == banend) {
DEBUG("combo invalid: banend after ','");
RETURN_INVALID;
}
}
/* at this point, *p should == banend */
if (p != banend) {
DEBUG("combo invalid: more child extbans than allowed");
RETURN_INVALID;
}
recursion_depth--;
if (is_and)
return have_result ? EXTBAN_NOMATCH : EXTBAN_MATCH;
else
return have_result ? EXTBAN_MATCH : EXTBAN_NOMATCH;
}