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ircu2/ircd/channel.c

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/*
* IRC - Internet Relay Chat, ircd/channel.c
* Copyright (C) 1990 Jarkko Oikarinen and
* University of Oulu, Co Center
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 1, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/** @file
* @brief Channel management and maintenance
* @version $Id: channel.c 1928 2010-01-03 21:04:54Z entrope $
*/
#include "config.h"
#include "channel.h"
#include "class.h"
#include "client.h"
#include "destruct_event.h"
#include "hash.h"
#include "ircd.h"
#include "ircd_alloc.h"
#include "ircd_chattr.h"
#include "ircd_defs.h"
#include "ircd_features.h"
#include "ircd_log.h"
#include "ircd_reply.h"
#include "ircd_snprintf.h"
#include "ircd_string.h"
#include "list.h"
#include "match.h"
#include "msg.h"
#include "msgq.h"
#include "numeric.h"
#include "numnicks.h"
#include "querycmds.h"
#include "s_bsd.h"
#include "s_conf.h"
#include "s_debug.h"
#include "s_misc.h"
#include "s_user.h"
#include "send.h"
#include "struct.h"
#include "sys.h"
#include "whowas.h"
/* #include <assert.h> -- Now using assert in ircd_log.h */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
/** Linked list containing the full list of all channels */
struct Channel* GlobalChannelList = 0;
/** Number of struct Membership*'s allocated */
static unsigned int membershipAllocCount;
/** Freelist for struct Membership*'s */
static struct Membership* membershipFreeList;
/** Freelist for struct Ban*'s */
static struct Ban* free_bans;
/** Number of ban structures allocated. */
static size_t bans_alloc;
/** Number of ban structures in use. */
static size_t bans_inuse;
int parse_extban(char *ban, struct ExtBan *extban, int level, char *prefix);
#if !defined(NDEBUG)
/** return the length (>=0) of a chain of links.
* @param lp pointer to the start of the linked list
* @return the number of items in the list
*/
static int list_length(struct SLink *lp)
{
int count = 0;
for (; lp; lp = lp->next)
++count;
return count;
}
#endif
/** Set the mask for a ban, checking for IP masks.
* @param[in,out] ban Ban structure to modify.
* @param[in] banstr Mask to ban.
*/
static void
set_ban_mask(struct Ban *ban, const char *banstr)
{
char *sep = NULL;
char *b = (char *)banstr;
char prefix[BUFSIZE+1];
assert(banstr != NULL);
memset(&ban->extban, 0, sizeof(struct ExtBan));
if (parse_extban((char *)banstr, &ban->extban, 0, (char *)&prefix) > 0) {
b = (char *)&ban->extban.mask;
ban->flags |= BAN_EXTENDED;
if (!(ban->extban.flags & EBAN_MASKTYPE))
sep = strrchr(b, '@');
} else
sep = strrchr(b, '@');
ircd_strncpy(ban->banstr, banstr, sizeof(ban->banstr));
if (sep) {
ban->nu_len = sep - b;
if (ban->flags & BAN_EXTENDED)
ban->nu_len += ban->extban.prefixlen;
if (ipmask_parse(sep + 1, &ban->address, &ban->addrbits))
ban->flags |= BAN_IPMASK;
}
}
/** Allocate a new Ban structure.
* @param[in] banstr Ban mask to use.
* @return Newly allocated ban.
*/
struct Ban *
make_ban(const char *banstr)
{
struct Ban *ban;
if (free_bans) {
ban = free_bans;
free_bans = free_bans->next;
}
else if (!(ban = MyMalloc(sizeof(*ban))))
return NULL;
else
bans_alloc++;
bans_inuse++;
memset(ban, 0, sizeof(*ban));
set_ban_mask(ban, banstr);
return ban;
}
/** Deallocate a ban structure.
* @param[in] ban Ban to deallocate.
*/
void
free_ban(struct Ban *ban)
{
ban->next = free_bans;
free_bans = ban;
bans_inuse--;
}
/** Report ban usage to \a cptr.
* @param[in] cptr Client requesting information.
*/
void bans_send_meminfo(struct Client *cptr)
{
struct Ban *ban;
size_t num_free;
for (num_free = 0, ban = free_bans; ban; ban = ban->next)
num_free++;
send_reply(cptr, SND_EXPLICIT | RPL_STATSDEBUG, ":Bans: inuse %zu(%zu) free %zu alloc %zu",
bans_inuse, bans_inuse * sizeof(*ban), num_free, bans_alloc);
}
/** return the struct Membership* that represents a client on a channel
* This function finds a struct Membership* which holds the state about
* a client on a specific channel. The code is smart enough to iterate
* over the channels a user is in, or the users in a channel to find the
* user depending on which is likely to be more efficient.
*
* @param chptr pointer to the channel struct
* @param cptr pointer to the client struct
*
* @returns pointer to the struct Membership representing this client on
* this channel. Returns NULL if the client is not on the channel.
* Returns NULL if the client is actually a server.
* @see find_channel_member()
*/
struct Membership* find_member_link(struct Channel* chptr, const struct Client* cptr)
{
struct Membership *m;
assert(0 != cptr);
assert(0 != chptr);
/* Servers don't have member links */
if (IsServer(cptr)||IsMe(cptr))
return 0;
/* +k users are typically on a LOT of channels. So we iterate over who
* is in the channel. X/W are +k and are in about 5800 channels each.
* however there are typically no more than 1000 people in a channel
* at a time.
*/
if (IsChannelService(cptr)) {
m = chptr->members;
while (m) {
assert(m->channel == chptr);
if (m->user == cptr)
return m;
m = m->next_member;
}
}
/* Users on the other hand aren't allowed on more than 15 channels. 50%
* of users that are on channels are on 2 or less, 95% are on 7 or less,
* and 99% are on 10 or less.
*/
else {
m = (cli_user(cptr))->channel;
while (m) {
assert(m->user == cptr);
if (m->channel == chptr)
return m;
m = m->next_channel;
}
}
return 0;
}
/** Find the client structure for a nick name (user)
* Find the client structure for a nick name (user)
* using history mechanism if necessary. If the client is not found, an error
* message (NO SUCH NICK) is generated. If the client was found
* through the history, chasing will be 1 and otherwise 0.
*
* This function was used extensively in the P09 days, and since we now have
* numeric nicks is no longer quite as important.
*
* @param sptr Pointer to the client that has requested the search
* @param user a string representing the client to be found
* @param chasing a variable set to 0 if the user was found directly,
* 1 otherwise
* @returns a pointer the client, or NULL if the client wasn't found.
*/
struct Client* find_chasing(struct Client* sptr, const char* user, int* chasing)
{
struct Client* who = FindClient(user);
if (chasing)
*chasing = 0;
if (who)
return who;
if (!(who = get_history(user, feature_int(FEAT_KILLCHASETIMELIMIT)))) {
send_reply(sptr, ERR_NOSUCHNICK, user);
return 0;
}
if (chasing)
*chasing = 1;
return who;
}
/** Decrement the count of users, and free if empty.
* Subtract one user from channel i (and free channel * block, if channel
* became empty).
*
* @param chptr The channel to subtract one from.
*
* @returns true (1) if channel still has members.
* false (0) if the channel is now empty.
*/
int sub1_from_channel(struct Channel* chptr)
{
if (chptr->users > 1) /* Can be 0, called for an empty channel too */
{
assert(0 != chptr->members);
--chptr->users;
return 1;
}
chptr->users = 0;
if (chptr->mode.exmode & EXMODE_PERSIST)
return 0;
/*
* Also channels without Apass set need to be kept alive,
* otherwise Bad Guys(tm) would be able to takeover
* existing channels too easily, and then set an Apass!
* However, if a channel without Apass becomes empty
* then we try to be kind to them and remove possible
* limiting modes.
*/
chptr->mode.mode &= ~MODE_INVITEONLY;
chptr->mode.limit = 0;
/*
* We do NOT reset a possible key or bans because when
* the 'channel owners' can't get in because of a key
* or ban then apparently there was a fight/takeover
* on the channel and we want them to contact IRC opers
* who then will educate them on the use of Apass/Upass.
*/
if (!chptr->mode.apass[0]) /* If no Apass, reset all modes. */
{
struct Ban *link, *next;
chptr->mode.mode = 0;
chptr->mode.exmode = 0;
*chptr->mode.key = '\0';
while (chptr->invites)
del_invite(chptr->invites->value.cptr, chptr);
for (link = chptr->banlist; link; link = next) {
next = link->next;
free_ban(link);
}
chptr->banlist = NULL;
for (link = chptr->exceptlist; link; link = next) {
next = link->next;
free_ban(link);
}
chptr->exceptlist = NULL;
/* Immediately destruct empty -A channels if not using apass. */
if (!feature_bool(FEAT_OPLEVELS))
{
destruct_channel(chptr);
return 0;
}
}
if (feature_bool(FEAT_ZANNELS)) {
/* Only used delayed destruction if ZANNELS enabled */
if (TStime() - chptr->creationtime < 172800) /* Channel younger than 48 hours? */
schedule_destruct_event_1m(chptr); /* Get rid of it in approximately 4-5 minutes */
else
schedule_destruct_event_48h(chptr); /* Get rid of it in approximately 48 hours */
} else
destruct_channel(chptr);
return 0;
}
/** Destroy an empty channel
* This function destroys an empty channel, removing it from hashtables,
* and removing any resources it may have consumed.
*
* @param chptr The channel to destroy
*
* @returns 0 (success)
*
* FIXME: Change to return void, this function never fails.
*/
int destruct_channel(struct Channel* chptr)
{
struct Ban *ban, *next;
assert(0 == chptr->members);
/*
* Now, find all invite links from channel structure
*/
while (chptr->invites)
del_invite(chptr->invites->value.cptr, chptr);
for (ban = chptr->banlist; ban; ban = next)
{
next = ban->next;
free_ban(ban);
}
for (ban = chptr->exceptlist; ban; ban = next)
{
next = ban->next;
free_ban(ban);
}
if (chptr->prev)
chptr->prev->next = chptr->next;
else
GlobalChannelList = chptr->next;
if (chptr->next)
chptr->next->prev = chptr->prev;
hRemChannel(chptr);
--UserStats.channels;
/*
* make sure that channel actually got removed from hash table
*/
assert(chptr->hnext == chptr);
MyFree(chptr);
return 0;
}
/** returns Membership * if a person is joined and not a zombie
* @param cptr Client
* @param chptr Channel
* @returns pointer to the client's struct Membership * on the channel if that
* user is a full member of the channel, or NULL otherwise.
*
* @see find_member_link()
*/
struct Membership* find_channel_member(struct Client* cptr, struct Channel* chptr)
{
struct Membership* member;
assert(0 != chptr);
member = find_member_link(chptr, cptr);
return (member && !IsZombie(member)) ? member : 0;
}
/** Searches for a ban from a ban list that matches a user.
* @param[in] cptr The client to test.
* @param[in] banlist The list of bans to test.
* @param[in] extbantype The extended ban type to find.
* @param[in] level Used to track how deep through a chain of ~j extended bans we are.
* @return Pointer to a matching ban, or NULL if none exit.
*/
struct Ban *find_ban(struct Client *cptr, struct Ban *banlist, int extbantype, int level)
{
char nu[NICKLEN + USERLEN + 2];
char tmphost[HOSTLEN + 1];
char iphost[SOCKIPLEN + 1];
char *hostmask;
char *sr;
int isexcepts = 0;
struct Ban *found;
if (extbantype & EBAN_EXCEPTLIST) {
isexcepts = 1;
extbantype &= ~EBAN_EXCEPTLIST;
}
/* Build nick!user and alternate host names. */
ircd_snprintf(0, nu, sizeof(nu), "%s!%s",
cli_name(cptr), cli_user(cptr)->username);
ircd_ntoa_r(iphost, &cli_ip(cptr));
if (IsAccount(cptr) && ((feature_int(FEAT_HOST_HIDING_STYLE) == 1) ||
(feature_int(FEAT_HOST_HIDING_STYLE) == 3)))
{
ircd_snprintf(0, tmphost, HOSTLEN, "%s.%s",
cli_user(cptr)->account, (feature_bool(FEAT_OPERHOST_HIDING) &&
IsAnOper(cptr) ? feature_str(FEAT_HIDDEN_OPERHOST) :
feature_str(FEAT_HIDDEN_HOST)));
sr = tmphost;
}
else
sr = NULL;
/* Walk through ban list. */
for (found = NULL; banlist; banlist = banlist->next) {
int res;
/* If we have found a positive ban already, only consider exceptions. */
if (found && !(banlist->flags & BAN_EXCEPTION))
continue;
if (banlist->flags & BAN_EXTENDED) {
int ismatch = 0;
if (banlist->extban.flags & EBAN_ACCOUNT) {
if (IsAccount(cptr) && !match(banlist->extban.mask, cli_account(cptr)))
ismatch = 1;
} else if (banlist->extban.flags & EBAN_REALNAME) {
if (!match(banlist->extban.mask, cli_info(cptr)))
ismatch = 1;
} else if (banlist->extban.flags & EBAN_MARK) {
if (find_mark_match(cptr, banlist->extban.mask))
ismatch = 1;
} else if (banlist->extban.flags & EBAN_MARKUA) {
if (!IsAccount(cptr) && find_mark_match(cptr, banlist->extban.mask))
ismatch = 1;
} else if (banlist->extban.flags & EBAN_CHANNEL) {
struct Membership *lp;
for (lp = cptr->cli_user->channel; lp; lp = lp->next_channel) {
if (IsChannelName(banlist->extban.mask) &&
!match(banlist->extban.mask, lp->channel->chname))
ismatch = 1;
else if (!match(banlist->extban.mask + 1, lp->channel->chname)) {
if ((*banlist->extban.mask == '@') && IsChanOp(lp))
ismatch = 1;
else if ((*banlist->extban.mask == '%') && IsHalfOp(lp))
ismatch = 1;
else if ((*banlist->extban.mask == '+') && HasVoice(lp))
ismatch = 1;
}
}
} else if (banlist->extban.flags & EBAN_JOIN) {
struct Channel *chptr;
if (level >= feature_int(FEAT_EXTBAN_j_MAXDEPTH))
continue;
if ((chptr = FindChannel(banlist->extban.mask))) {
if (isexcepts)
found = find_ban(cptr, chptr->exceptlist, extbantype | EBAN_EXCEPTLIST, level + 1);
else
found = find_ban(cptr, chptr->banlist, extbantype, level + 1);
}
} else if (banlist->extban.nu_len) {
/* Compare nick!user portion of ban. */
banlist->extban.mask[banlist->extban.nu_len] = '\0';
res = match(banlist->extban.mask, nu);
banlist->extban.mask[banlist->extban.nu_len] = '@';
if (!res)
ismatch = 1;
/* Compare host portion of ban. */
hostmask = banlist->extban.mask + banlist->extban.nu_len + 1;
if (((banlist->flags & BAN_IPMASK)
&& ipmask_check(&cli_ip(cptr), &banlist->address, banlist->addrbits))
&& !match(hostmask, cli_user(cptr)->host)
&& !match(hostmask, cli_user(cptr)->realhost)
&& (IsCloakIP(cptr) && !match(hostmask, cli_user(cptr)->cloakip))
&& (IsCloakHost(cptr) && !match(hostmask, cli_user(cptr)->cloakhost))
&& (sr && !match(hostmask, sr)))
ismatch = 1;
}
if ((banlist->extban.flags & extbantype) || !(banlist->extban.flags & EBAN_ACTIVITY)) {
if ((banlist->extban.flags & EBAN_NEGATEMASK) && !ismatch)
found = banlist;
else if (!(banlist->extban.flags & EBAN_NEGATEMASK) && ismatch)
found = banlist;
}
} else {
/* Compare nick!user portion of ban. */
banlist->banstr[banlist->nu_len] = '\0';
res = match(banlist->banstr, nu);
banlist->banstr[banlist->nu_len] = '@';
if (res)
continue;
/* Compare host portion of ban. */
hostmask = banlist->banstr + banlist->nu_len + 1;
if (!((banlist->flags & BAN_IPMASK)
&& ipmask_check(&cli_ip(cptr), &banlist->address, banlist->addrbits))
&& match(hostmask, cli_user(cptr)->host)
&& match(hostmask, cli_user(cptr)->realhost)
&& !(IsCloakIP(cptr) && !match(hostmask, cli_user(cptr)->cloakip))
&& !(IsCloakHost(cptr) && !match(hostmask, cli_user(cptr)->cloakhost))
&& !(sr && !match(hostmask, sr)))
continue;
/* If an exception matches, no ban can match. */
if (banlist->flags & BAN_EXCEPTION)
return NULL;
/* Otherwise, remember this ban but keep searching for an exception. */
found = banlist;
}
}
return found;
}
/**
* This function returns true if the user is banned on the said channel.
* This function will check the ban cache if applicable, otherwise will
* do the comparisons and cache the result.
*
* @param[in] member The Membership to test for banned-ness.
* @param[in] extbantype The extended ban type to check for.
* @return Non-zero if the member is banned, zero if not.
*/
static int is_banned(struct Membership* member, int extbantype)
{
if (extbantype) {
if (extbantype == EBAN_NICK) {
if (IsBanValidNick(member))
return IsBannedNick(member);
SetBanValidNick(member);
} else if (extbantype == EBAN_QUIET) {
if (IsBanValidQuiet(member))
return IsBannedQuiet(member);
SetBanValidQuiet(member);
}
if (find_ban(member->user, member->channel->banlist, extbantype, 0)) {
if (extbantype == EBAN_NICK)
SetBannedNick(member);
else if (extbantype == EBAN_QUIET)
SetBannedQuiet(member);
return 1;
} else {
if (extbantype == EBAN_NICK)
ClearBannedNick(member);
else if (extbantype == EBAN_QUIET)
ClearBannedQuiet(member);
return 0;
}
} else {
if (IsBanValid(member))
return IsBanned(member);
SetBanValid(member);
if (find_ban(member->user, member->channel->banlist, EBAN_NONE, 0)) {
SetBanned(member);
return 1;
} else {
ClearBanned(member);
return 0;
}
}
}
/**
* This function returns true if the user is excepted on the said channel.
* This function will check the ban exception cache if applicable,
* otherwise will do the comparisons and cache the result.
*
* @param[in] member The Membership to test for excepted-ness.
* @param[in] extbantype The extended ban type to check for.
* @return Non-zero if the member is excepted, zero if not.
*/
static int is_excepted(struct Membership* member, int extbantype)
{
if (extbantype) {
if (extbantype == EBAN_NICK) {
if (IsExceptValidNick(member))
return IsExceptedNick(member);
SetExceptValidNick(member);
} else if (extbantype == EBAN_QUIET) {
if (IsExceptValidQuiet(member))
return IsExceptedQuiet(member);
SetExceptValidQuiet(member);
}
if (find_ban(member->user, member->channel->exceptlist, extbantype | EBAN_EXCEPTLIST, 0)) {
if (extbantype == EBAN_NICK)
SetExceptedNick(member);
else if (extbantype == EBAN_QUIET)
SetExceptedQuiet(member);
return 1;
} else {
if (extbantype == EBAN_NICK)
ClearExceptedNick(member);
else if (extbantype == EBAN_QUIET)
ClearExceptedQuiet(member);
return 0;
}
} else {
if (IsExceptValid(member))
return IsExcepted(member);
SetExceptValid(member);
if (find_ban(member->user, member->channel->exceptlist, EBAN_EXCEPTLIST, 0)) {
SetExcepted(member);
return 1;
} else {
ClearExcepted(member);
return 0;
}
}
}
/** add a user to a channel.
* adds a user to a channel by adding another link to the channels member
* chain.
*
* @param chptr The channel to add to.
* @param who The user to add.
* @param flags The flags the user gets initially.
* @param oplevel The oplevel the user starts with.
*/
void add_user_to_channel(struct Channel* chptr, struct Client* who,
unsigned int flags, int oplevel)
{
assert(0 != chptr);
assert(0 != who);
if (cli_user(who)) {
struct Membership* member = membershipFreeList;
if (member)
membershipFreeList = member->next_member;
else {
member = (struct Membership*) MyMalloc(sizeof(struct Membership));
++membershipAllocCount;
}
assert(0 != member);
member->user = who;
member->channel = chptr;
member->status = flags;
member->banflags = 0;
SetOpLevel(member, oplevel);
member->next_member = chptr->members;
if (member->next_member)
member->next_member->prev_member = member;
member->prev_member = 0;
chptr->members = member;
member->next_channel = (cli_user(who))->channel;
if (member->next_channel)
member->next_channel->prev_channel = member;
member->prev_channel = 0;
(cli_user(who))->channel = member;
if (chptr->destruct_event)
remove_destruct_event(chptr);
++chptr->users;
if (!IsSSL(who) && !IsChannelService(who))
++chptr->nonsslusers;
++((cli_user(who))->joined);
}
}
/** Remove a person from a channel, given their Membership*
*
* @param member A member of a channel.
*
* @returns true if there are more people in the channel.
*/
static int remove_member_from_channel(struct Membership* member)
{
struct Channel* chptr;
assert(0 != member);
chptr = member->channel;
/*
* unlink channel member list
*/
if (member->next_member)
member->next_member->prev_member = member->prev_member;
if (member->prev_member)
member->prev_member->next_member = member->next_member;
else
member->channel->members = member->next_member;
/*
* If this is the last delayed-join user, may have to clear WASDELJOINS.
*/
if (IsDelayedJoin(member))
CheckDelayedJoins(chptr);
/*
* unlink client channel list
*/
if (member->next_channel)
member->next_channel->prev_channel = member->prev_channel;
if (member->prev_channel)
member->prev_channel->next_channel = member->next_channel;
else
(cli_user(member->user))->channel = member->next_channel;
--(cli_user(member->user))->joined;
member->next_member = membershipFreeList;
membershipFreeList = member;
if (!IsSSL(member->user) && !IsChannelService(member->user))
--chptr->nonsslusers;
return sub1_from_channel(chptr);
}
/** Check if all the remaining members on the channel are zombies
*
* @returns False if the channel has any non zombie members, True otherwise.
* @see \ref zombie
*/
static int channel_all_zombies(struct Channel* chptr)
{
struct Membership* member;
for (member = chptr->members; member; member = member->next_member) {
if (!IsZombie(member))
return 0;
}
return 1;
}
/** Remove a user from a channel
* This is the generic entry point for removing a user from a channel, this
* function will remove the client from the channel, and destroy the channel
* if there are no more normal users left.
*
* @param cptr The client
* @param chptr The channel
*/
void remove_user_from_channel(struct Client* cptr, struct Channel* chptr)
{
struct Membership* member;
assert(0 != chptr);
if ((member = find_member_link(chptr, cptr))) {
if (remove_member_from_channel(member)) {
if (channel_all_zombies(chptr)) {
/*
* XXX - this looks dangerous but isn't if we got the referential
* integrity right for channels
*/
while (remove_member_from_channel(chptr->members))
;
}
}
}
}
/** Remove a user from all channels they are on.
*
* This function removes a user from all channels they are on.
*
* @param cptr The client to remove.
*/
void remove_user_from_all_channels(struct Client* cptr)
{
struct Membership* chan;
assert(0 != cptr);
assert(0 != cli_user(cptr));
while ((chan = (cli_user(cptr))->channel))
remove_user_from_channel(cptr, chan->channel);
}
/** Check if this user is a legitimate chanop
*
* @param cptr Client to check
* @param chptr Channel to check
*
* @returns True if the user is a chanop (And not a zombie), False otherwise.
* @see \ref zombie
*/
int is_chan_op(struct Client *cptr, struct Channel *chptr)
{
struct Membership* member;
assert(chptr);
if ((member = find_member_link(chptr, cptr)))
return (!IsZombie(member) && IsChanOp(member));
return 0;
}
/** Check if a user is a Zombie on a specific channel.
*
* @param cptr The client to check.
* @param chptr The channel to check.
*
* @returns True if the client (cptr) is a zombie on the channel (chptr),
* False otherwise.
*
* @see \ref zombie
*/
int is_zombie(struct Client *cptr, struct Channel *chptr)
{
struct Membership* member;
assert(0 != chptr);
if ((member = find_member_link(chptr, cptr)))
return IsZombie(member);
return 0;
}
/** Check if this user is a legitimate halfop
*
* @param cptr Client to check
* @param chptr Channel to check
*
* @returns True if the user is a halfop (And not a zombie), False otherwise.
* @see \ref zombie
*/
int is_half_op(struct Client *cptr, struct Channel *chptr)
{
struct Membership* member;
assert(chptr);
if ((member = find_member_link(chptr, cptr)))
return (!IsZombie(member) && IsHalfOp(member));
return 0;
}
/** Returns if a user has voice on a channel.
*
* @param cptr The client
* @param chptr The channel
*
* @returns True if the client (cptr) is voiced on (chptr) and is not a zombie.
* @see \ref zombie
*/
int has_voice(struct Client* cptr, struct Channel* chptr)
{
struct Membership* member;
assert(0 != chptr);
if ((member = find_member_link(chptr, cptr)))
return (!IsZombie(member) && HasVoice(member));
return 0;
}
/** Can this member send to a channel
*
* A user can speak on a channel iff:
* <ol>
* <li> They didn't use the Apass to gain ops.
* <li> They are op'd or voice'd.
* <li> You aren't banned.
* <li> The channel isn't +m
* <li> The channel isn't +n or you are on the channel.
* </ol>
*
* This function will optionally reveal a user on a delayed join channel if
* they are allowed to send to the channel.
*
* @param member The membership of the user
* @param reveal If true, the user will be "revealed" on a delayed
* joined channel.
*
* @returns True if the client can speak on the channel.
*/
int member_can_send_to_channel(struct Membership* member, int reveal)
{
assert(0 != member);
/* Do not check for users on other servers: This should be a
* temporary desynch, or maybe they are on an older server, but
* we do not want to send ERR_CANNOTSENDTOCHAN more than once.
*/
if (!MyUser(member->user))
{
if (IsDelayedJoin(member) && reveal)
RevealDelayedJoin(member);
return 1;
}
/* Discourage using the Apass to get op. They should use the Upass. */
if (IsChannelManager(member) && member->channel->mode.apass[0] &&
!feature_bool(FEAT_APASS_CANSEND))
return 0;
/* If you have voice or ops, you can speak. */
if (IsVoicedOrOpped(member))
return 1;
/*
* If it's moderated, and you aren't a privileged user, you can't
* speak.
*/
if (member->channel->mode.mode & MODE_MODERATED)
return 0;
/* Same as above but includes logged in users as priviledged too */
if (member->channel->mode.exmode & EXMODE_REGMODERATED && !IsAccount(member->user))
return 0;
/* If only IRC admins may join and you're not one, you can't speak. */
if (member->channel->mode.exmode & EXMODE_ADMINONLY && !IsAdmin(member->user))
return 0;
/* If only IRC operators may join and you're not one, you can't speak. */
if (member->channel->mode.exmode & EXMODE_OPERONLY && !IsAnOper(member->user))
return 0;
/* If only SSL users may join and you're not one, you can't speak. */
if (member->channel->mode.exmode & EXMODE_SSLONLY && !IsSSL(member->user))
return 0;
/* If only logged in users may join and you're not one, you can't speak. */
if (member->channel->mode.mode & MODE_REGONLY && !IsAccount(member->user))
return 0;
/* If you're banned then you can't speak either. */
if (is_banned(member, EBAN_QUIET) && !is_excepted(member, EBAN_QUIET))
return 0;
if (IsDelayedJoin(member) && reveal)
RevealDelayedJoin(member);
return 1;
}
/** Check if a client can send to a channel.
*
* Has the added check over member_can_send_to_channel() of servers can
* always speak.
*
* @param cptr The client to check
* @param chptr The channel to check
* @param reveal If the user should be revealed (see
* member_can_send_to_channel())
*
* @returns true if the client is allowed to speak on the channel, false
* otherwise
*
* @see member_can_send_to_channel()
*/
int client_can_send_to_channel(struct Client *cptr, struct Channel *chptr, int reveal)
{
struct Membership *member;
assert(0 != cptr);
/*
* Servers can always speak on channels.
*/
if (IsServer(cptr) || IsChannelService(cptr) || IsXtraOp(cptr))
return 1;
member = find_channel_member(cptr, chptr);
/*
* You can't speak if you're off channel, and it is +n (no external messages)
* or +m (moderated).
*/
if (!member) {
if ((chptr->mode.mode & (MODE_NOPRIVMSGS|MODE_MODERATED)) ||
((chptr->mode.exmode & EXMODE_ADMINONLY) && !IsAdmin(cptr)) ||
((chptr->mode.exmode & EXMODE_OPERONLY) && !IsAnOper(cptr)) ||
((chptr->mode.exmode & EXMODE_REGMODERATED) && !IsAccount(cptr)) ||
((chptr->mode.exmode & EXMODE_SSLONLY) && !IsSSL(cptr)) ||
((chptr->mode.mode & MODE_REGONLY) && !IsAccount(cptr)))
return 0;
else {
struct Ban *ban = NULL;
int isbanned = 0;
if ((ban = find_ban(cptr, chptr->banlist, EBAN_QUIET, 0))) {
if (ban->flags & BAN_EXTENDED) {
if ((ban->extban.flags & EBAN_QUIET) || !(ban->extban.flags & EBAN_ACTIVITY))
isbanned = 1;
} else
isbanned = 1;
}
return !(isbanned && !find_ban(cptr, chptr->exceptlist, EBAN_QUIET | EBAN_EXCEPTLIST, 0));
}
}
return member_can_send_to_channel(member, reveal);
}
/** Returns the name of a channel that prevents the user from changing nick.
* if a member and not (opped or voiced) and (banned or moderated), return
* the name of the first channel banned on.
*
* @param cptr The client
*
* @returns the name of the first channel banned on, or NULL if the user
* can change nicks.
*/
const char* find_no_nickchange_channel(struct Client* cptr)
{
if (MyUser(cptr)) {
struct Membership* member;
for (member = (cli_user(cptr))->channel; member;
member = member->next_channel) {
if (IsVoicedOrOpped(member))
continue;
if ((member->channel->mode.mode & MODE_MODERATED && feature_bool(FEAT_CHMODE_m_NONICKCHANGE))
|| (member->channel->mode.mode & MODE_REGONLY && !IsAccount(cptr) && feature_bool(FEAT_CHMODE_r_NONICKCHANGE))
|| (is_banned(member, EBAN_NICK) && !is_excepted(member, EBAN_NICK)))
return member->channel->chname;
}
}
return 0;
}
/** Helper to append a mode parameter to the parameter buffer.
* @param pbuf The parameter buffer.
* @param pos Pointer to current position in buffer.
* @param buflen Total buffer length.
* @param param The parameter string to append.
* @param prev_param Pointer to previous_parameter flag.
* @returns 1 if appended successfully, 0 if buffer too small.
*/
static int append_mode_param(char *pbuf, size_t *pos, size_t buflen,
const char *param, int *prev_param)
{
size_t len = strlen(param);
if (*pos + len + 2 < buflen) {
if (*prev_param)
pbuf[(*pos)++] = ' ';
memcpy(pbuf + *pos, param, len);
*pos += len;
pbuf[*pos] = '\0';
*prev_param = 1;
return 1;
}
return 0;
}
/** Fill mbuf/pbuf with modes from chptr
* write the "simple" list of channel modes for channel chptr onto buffer mbuf
* with the parameters in pbuf as visible by cptr.
*
* This function will hide keys from non-op'd, non-server clients.
*
* @param cptr The client to generate the mode for.
* @param mbuf The buffer to write the modes into.
* @param pbuf The buffer to write the mode parameters into.
* @param buflen The length of the buffers.
* @param chptr The channel to get the modes from.
* @param member The membership of this client on this channel (or NULL
* if this client isn't on this channel)
*
*/
void channel_modes(struct Client *cptr, char *mbuf, char *pbuf, int buflen,
struct Channel *chptr, struct Membership *member)
{
int previous_parameter = 0;
size_t pbuf_pos = 0;
assert(0 != mbuf);
assert(0 != pbuf);
assert(0 != chptr);
*mbuf++ = '+';
if (chptr->mode.mode & MODE_SECRET)
*mbuf++ = 's';
else if (chptr->mode.mode & MODE_PRIVATE)
*mbuf++ = 'p';
if (chptr->mode.mode & MODE_MODERATED)
*mbuf++ = 'm';
if (chptr->mode.mode & MODE_TOPICLIMIT)
*mbuf++ = 't';
if (chptr->mode.mode & MODE_INVITEONLY)
*mbuf++ = 'i';
if (chptr->mode.mode & MODE_NOPRIVMSGS)
*mbuf++ = 'n';
if (chptr->mode.mode & MODE_REGONLY)
*mbuf++ = 'r';
if (chptr->mode.mode & MODE_DELJOINS)
*mbuf++ = 'D';
else if (MyUser(cptr) && (chptr->mode.mode & MODE_WASDELJOINS))
*mbuf++ = 'd';
if (chptr->mode.mode & MODE_REGISTERED)
*mbuf++ = 'R';
if (chptr->mode.exmode & EXMODE_ADMINONLY)
*mbuf++ = 'a';
if (chptr->mode.exmode & EXMODE_OPERONLY)
*mbuf++ = 'O';
if (chptr->mode.exmode & EXMODE_REGMODERATED)
*mbuf++ = 'M';
if (chptr->mode.exmode & EXMODE_NONOTICES)
*mbuf++ = 'N';
if (chptr->mode.exmode & EXMODE_PERSIST)
*mbuf++ = 'z';
if (chptr->mode.exmode & EXMODE_SSLONLY)
*mbuf++ = 'Z';
if (chptr->mode.exmode & EXMODE_NOQUITPARTS)
*mbuf++ = 'Q';
if (chptr->mode.exmode & EXMODE_NOCTCPS)
*mbuf++ = 'C';
if (chptr->mode.exmode & EXMODE_NOMULTITARG)
*mbuf++ = 'T';
if (chptr->mode.exmode & EXMODE_NOCOLOR)
*mbuf++ = 'c';
if (chptr->mode.exmode & EXMODE_STRIPCOLOR)
*mbuf++ = 'S';
if (chptr->mode.limit) {
*mbuf++ = 'l';
pbuf_pos = ircd_snprintf(0, pbuf, buflen, "%u", chptr->mode.limit);
previous_parameter = 1;
}
if (*chptr->mode.redir) {
*mbuf++ = 'L';
append_mode_param(pbuf, &pbuf_pos, buflen, chptr->mode.redir, &previous_parameter);
}
if (*chptr->mode.key) {
*mbuf++ = 'k';
if (is_chan_op(cptr, chptr) || IsServer(cptr) || IsOper(cptr)) {
append_mode_param(pbuf, &pbuf_pos, buflen, chptr->mode.key, &previous_parameter);
} else {
append_mode_param(pbuf, &pbuf_pos, buflen, "*", &previous_parameter);
}
}
if (*chptr->mode.apass && (IsOpLevels(cptr) || !IsServer(cptr))) {
*mbuf++ = 'A';
if (IsServer(cptr) || IsOper(cptr)) {
append_mode_param(pbuf, &pbuf_pos, buflen, chptr->mode.apass, &previous_parameter);
} else {
append_mode_param(pbuf, &pbuf_pos, buflen, "*", &previous_parameter);
}
}
if (*chptr->mode.upass && (IsOpLevels(cptr) || !IsServer(cptr))) {
*mbuf++ = 'U';
if (IsServer(cptr) || (member && IsChanOp(member) && OpLevel(member) == 0) || IsOper(cptr)) {
append_mode_param(pbuf, &pbuf_pos, buflen, chptr->mode.upass, &previous_parameter);
} else {
append_mode_param(pbuf, &pbuf_pos, buflen, "*", &previous_parameter);
}
}
*mbuf = '\0';
}
/** Compare two members oplevel
*
* @param mp1 Pointer to a pointer to a membership
* @param mp2 Pointer to a pointer to a membership
*
* @returns 0 if equal, -1 if mp1 is lower, +1 otherwise.
*
* Used for qsort(3).
*/
int compare_member_oplevel(const void *mp1, const void *mp2)
{
struct Membership const* member1 = *(struct Membership const**)mp1;
struct Membership const* member2 = *(struct Membership const**)mp2;
if (member1->oplevel == member2->oplevel)
return 0;
return (member1->oplevel < member2->oplevel) ? -1 : 1;
}
/* send "cptr" a full list of the modes for channel chptr.
*
* Sends a BURST line to cptr, bursting all the modes for the channel.
*
* @param cptr Client pointer
* @param chptr Channel pointer
*/
void send_channel_modes(struct Client *cptr, struct Channel *chptr)
{
/* The order in which modes are generated is now mandatory */
static unsigned int current_flags[8] =
{
0,
CHFL_VOICE,
CHFL_HALFOP,
CHFL_VOICE | CHFL_HALFOP,
CHFL_CHANOP,
CHFL_CHANOP | CHFL_VOICE,
CHFL_CHANOP | CHFL_HALFOP,
CHFL_CHANOP | CHFL_HALFOP | CHFL_VOICE
};
int first = 1;
int efirst = 1;
int full = 1;
int flag_cnt = 0;
int new_mode = 0;
size_t len;
struct Membership* member;
struct Ban* lp2;
struct Ban* lp3;
char modebuf[MODEBUFLEN];
char parabuf[MODEBUFLEN];
struct MsgBuf *mb;
int number_of_ops = 0;
int opped_members_index = 0;
struct Membership** opped_members = NULL;
int last_oplevel = 0;
int send_oplevels = 0;
assert(0 != cptr);
assert(0 != chptr);
if (IsLocalChannel(chptr->chname))
return;
member = chptr->members;
lp2 = chptr->banlist;
lp3 = chptr->exceptlist;
*modebuf = *parabuf = '\0';
channel_modes(cptr, modebuf, parabuf, sizeof(parabuf), chptr, 0);
for (first = 1; full; first = 0) /* Loop for multiple messages */
{
full = 0; /* Assume by default we get it
all in one message */
/* (Continued) prefix: "<Y> B <channel> <TS>" */
/* is there any better way we can do this? */
mb = msgq_make(&me, "%C " TOK_BURST " %H %Tu", &me, chptr,
chptr->creationtime);
if (first && modebuf[1]) /* Add simple modes (Aiklmnpstu)
if first message */
{
/* prefix: "<Y> B <channel> <TS>[ <modes>[ <params>]]" */
msgq_append(&me, mb, " %s", modebuf);
if (*parabuf)
msgq_append(&me, mb, " %s", parabuf);
}
/*
* Attach nicks, comma separated " nick[:modes],nick[:modes],..."
*
* First find all opless members.
* Run 2 times over all members, to group the members with
* and without voice together.
* Then run 2 times over all opped members (which are ordered
* by op-level) to also group voice and non-voice together.
*/
for (first = 1; flag_cnt < 8; new_mode = 1, ++flag_cnt)
{
while (member)
{
if (flag_cnt < 2 && IsChanOp(member))
{
/*
* The first loop (to find all non-voice/halfop/op), we count the ops.
* The second loop (to find all non-ops), store the ops
* in a dynamic array.
*/
if (flag_cnt == 0)
++number_of_ops;
else
opped_members[opped_members_index++] = member;
/* We also send oplevels if anyone is below the weakest level. */
if ((OpLevel(member) < MAXOPLEVEL) && IsOpLevels(cptr))
send_oplevels = 1;
}
/* Only handle the members with the flags that we are interested in. */
if ((member->status & CHFL_VOICED_OR_OPPED) == current_flags[flag_cnt])
{
if (msgq_bufleft(mb) < NUMNICKLEN + 4 + MAXOPLEVELDIGITS)
/* The 4 + MAXOPLEVELDIGITS is a possible ",:vh999". */
{
full = 1; /* Make sure we continue after
sending it so far */
/* Ensure the new BURST line contains the current
* ":mode", except when there is no mode yet. */
new_mode = (flag_cnt > 0) ? 1 : 0;
break; /* Do not add this member to this message */
}
msgq_append(&me, mb, "%c%C", first ? ' ' : ',', member->user);
first = 0; /* From now on, use commas to add new nicks */
/*
* Do we have a nick with a new mode ?
* Or are we starting a new BURST line?
*/
if (new_mode)
{
/*
* This means we are at the _first_ member that has only
* voice, or the first member that has only ops, or the
* first member that has voice and ops (so we get here
* at most three times, plus once for every start of
* a continued BURST line where only these modes is current.
* In the two cases where the current mode includes ops,
* we need to add the _absolute_ value of the oplevel to the mode.
*/
char tbuf[4 + MAXOPLEVELDIGITS] = ":";
int loc = 1;
if (HasVoice(member)) /* flag_cnt == 1, 3, 5 and 7 */
tbuf[loc++] = 'v';
if (IsHalfOp(member)) /* flag_cnt == 2, 3, 6 and 7 */
tbuf[loc++] = 'h';
if (IsChanOp(member)) /* flag_cnt == 4, 5, 6 and 7 */
{
/* append the absolute value of the oplevel */
if (send_oplevels)
loc += ircd_snprintf(0, tbuf + loc, sizeof(tbuf) - loc, "%u", last_oplevel = member->oplevel);
else
tbuf[loc++] = 'o';
}
tbuf[loc] = '\0';
msgq_append(&me, mb, tbuf);
new_mode = 0;
}
else if (send_oplevels && flag_cnt > 3 && last_oplevel != member->oplevel)
{
/*
* This can't be the first member of a (continued) BURST
* message because then either flag_cnt == 0 or new_mode == 1
* Now we need to append the incremental value of the oplevel.
*/
char tbuf[2 + MAXOPLEVELDIGITS];
ircd_snprintf(0, tbuf, sizeof(tbuf), ":%u", member->oplevel - last_oplevel);
last_oplevel = member->oplevel;
msgq_append(&me, mb, tbuf);
}
}
/* Go to the next `member'. */
if (flag_cnt < 4)
member = member->next_member;
else
member = opped_members[++opped_members_index];
}
if (full)
break;
/* Point `member' at the start of the list again. */
if (flag_cnt == 0)
{
member = chptr->members;
/* Now, after one loop, we know the number of ops and can
* allocate the dynamic array with pointer to the ops. */
opped_members = (struct Membership**)
MyMalloc((number_of_ops + 1) * sizeof(struct Membership*));
opped_members[number_of_ops] = NULL; /* Needed for loop termination */
}
else if (flag_cnt < 3)
{
member = chptr->members;
/* At the end of the second loop, sort the opped members with
* increasing op-level, so that we will output them in the
* correct order (and all op-level increments stay positive) */
if (flag_cnt == 1)
qsort(opped_members, number_of_ops,
sizeof(struct Membership*), compare_member_oplevel);
}
else
{
/* The third and fourth loop run only over the opped members. */
member = opped_members[(opped_members_index = 0)];
}
} /* loop over 0,+v,+h,+o,+ov,+oh,+hv,+ohv */
if (!full)
{
/*
* This may look unnecesary, but as long as it's here we can be
* sure first is set to 2 even if the first for loop doesn't
* execute at all.
*/
first = 2;
/* Attach all bans, space separated " :%ban ban ..." */
for (first = 2; lp2; lp2 = lp2->next)
{
len = strlen(lp2->banstr);
if (msgq_bufleft(mb) < len + 1 + first)
/* The +1 stands for the added ' '.
* The +first stands for the added ":%".
*/
{
full = 1;
break;
}
msgq_append(&me, mb, " %s%s", first ? ":%" : "",
lp2->banstr);
first = 0;
}
if (feature_bool(FEAT_EXCEPTS)) {
/* Attach all excepts, space seperated " :% ban ~ except ..." */
for (efirst = 3; lp3; lp3 = lp3->next)
{
len = strlen(lp3->banstr);
if (msgq_bufleft(mb) < len + 1 + efirst + first)
/* The +1 stands for the added ' '.
* The +efirst stands for the added " ~ ".
* The +first stands for the added ":%".
*/
{
full = 1;
break;
}
msgq_append(&me, mb, " %s%s%s", first ? ":% " : "",
efirst ? "~ " : "", lp3->banstr);
first = 0;
efirst = 0;
}
}
}
send_buffer(cptr, mb, 0); /* Send this message */
msgq_clean(mb);
} /* Continue when there was something
that didn't fit (full==1) */
if (opped_members)
MyFree(opped_members);
if (feature_bool(FEAT_TOPIC_BURST) && (chptr->topic[0] != '\0'))
sendcmdto_one(&me, CMD_TOPIC, cptr, "%H %s %Tu %Tu :%s", chptr,
chptr->topic_nick, chptr->creationtime,
chptr->topic_time, chptr->topic);
}
/** Canonify a mask.
* pretty_mask
*
* @author Carlo Wood (Run),
* 05 Oct 1998.
*
* When the nick is longer then NICKLEN, it is cut off (its an error of course).
* When the user name or host name are too long (USERLEN and HOSTLEN
* respectively) then they are cut off at the start with a '*'.
*
* The following transformations are made:
*
* 1) xxx -> nick!*@*
* 2) xxx.xxx -> *!*\@host
* 3) xxx\!yyy -> nick!user\@*
* 4) xxx\@yyy -> *!user\@host
* 5) xxx!yyy\@zzz -> nick!user\@host
*
* @param mask The uncanonified mask.
* @returns The updated mask in a static buffer.
*/
char *pretty_mask(char *mask)
{
static char star[2] = { '*', 0 };
static char retmask[NICKLEN + USERLEN + HOSTLEN + 3];
char *last_dot = NULL;
char *ptr;
/* Case 1: default */
char *nick = mask;
char *user = star;
char *host = star;
/* Do a _single_ pass through the characters of the mask: */
for (ptr = mask; *ptr; ++ptr)
{
if (*ptr == '!')
{
/* Case 3 or 5: Found first '!' (without finding a '@' yet) */
user = ++ptr;
host = star;
}
else if (*ptr == '@')
{
/* Case 4: Found last '@' (without finding a '!' yet) */
nick = star;
user = mask;
host = ++ptr;
}
else if (*ptr == '.' || *ptr == ':')
{
/* Case 2: Found character specific to IP or hostname (without
* finding a '!' or '@' yet) */
last_dot = ptr;
continue;
}
else
continue;
for (; *ptr; ++ptr)
{
if (*ptr == '@')
{
/* Case 4 or 5: Found last '@' */
host = ptr + 1;
}
}
break;
}
if (user == star && last_dot)
{
/* Case 2: */
nick = star;
user = star;
host = mask;
}
/* Check lengths */
if (nick != star)
{
char *nick_end = (user != star) ? user - 1 : ptr;
if (nick_end - nick > NICKLEN)
nick[NICKLEN] = 0;
*nick_end = 0;
}
if (user != star)
{
char *user_end = (host != star) ? host - 1 : ptr;
if (user_end - user > USERLEN)
{
user = user_end - USERLEN;
*user = '*';
}
*user_end = 0;
}
if (host != star && ptr - host > HOSTLEN)
{
host = ptr - HOSTLEN;
*host = '*';
}
ircd_snprintf(0, retmask, sizeof(retmask), "%s!%s@%s", nick, user, host);
return retmask;
}
static struct ExtBanInfo extban_list[] = {
{'q', EBAN_QUIET, FEAT_EXTBAN_q},
{'n', EBAN_NICK, FEAT_EXTBAN_n},
{'j', EBAN_NOCHILD | EBAN_JOIN, FEAT_EXTBAN_j},
{'a', EBAN_NOCHILD | EBAN_ACCOUNT, FEAT_EXTBAN_a},
{'c', EBAN_NOCHILD | EBAN_CHANNEL, FEAT_EXTBAN_c},
{'r', EBAN_NOCHILD | EBAN_REALNAME, FEAT_EXTBAN_r},
{'m', EBAN_NOCHILD | EBAN_MARK, FEAT_EXTBAN_m},
{'M', EBAN_NOCHILD | EBAN_MARKUA, FEAT_EXTBAN_M},
{'!', EBAN_NEGATEMASK, 0},
{0, 0, 0}
};
int check_extban_feats(struct ExtBan *extban) {
int i;
if (!extban || !extban->flags)
return -1;
if (!feature_bool(FEAT_EXTBANS))
return 0;
for (i = 0; extban_list[i].banchar; i++)
{
if (((extban->flags & EBAN_TYPES) & (extban_list[i].flags & EBAN_TYPES)) &&
!feature_bool(extban_list[i].feat)) {
return 0;
}
}
return -1;
}
int get_extban_flags(char extban) {
int i;
for (i = 0; extban_list[i].banchar; i++)
{
if (extban_list[i].banchar == extban)
return extban_list[i].flags;
}
return 0;
}
int parse_extban(char *ban, struct ExtBan *extban, int level, char *prefix) {
char *b = ban;
int flags = 0;
int r = 0;
if (level >= 5)
return -1;
if (!*b)
return -1;
if (*b != EXTBANPREFIX)
return 0;
prefix[extban->prefixlen++] = *b++;
if (!*b)
return -1;
flags = get_extban_flags(*b);
extban->flags |= flags;
prefix[extban->prefixlen++] = *b++;
if (flags == 0)
return -1;
if (!*b)
return 0;
if (flags & EBAN_NEGATEMASK) {
flags = get_extban_flags(*b);
if (flags != 0) {
extban->flags |= flags;
prefix[extban->prefixlen++] = *b++;
}
}
extban->delimiter = *b;
prefix[extban->prefixlen++] = *b++;
if (!*b)
return 0;
if (extban->flags & EBAN_NOCHILD)
ircd_strncpy(extban->mask, b, sizeof(extban->mask));
else {
r = parse_extban(b, extban, level + 1, prefix);
if (r == 0)
ircd_strncpy(extban->mask, b, sizeof(extban->mask));
else
return r;
}
if (!(extban->flags & EBAN_MASKTYPE)) {
char *sep;
ircd_strncpy(extban->mask, collapse(pretty_mask(extban->mask)), sizeof(extban->mask));
sep = strrchr(extban->mask, '@');
extban->nu_len = sep - extban->mask;
}
prefix[extban->prefixlen] = '\0';
extban->flags &= ~EBAN_NOCHILD;
return 1;
}
char *pretty_extmask(char *mask)
{
static char retmask[NICKLEN + USERLEN + HOSTLEN + 3];
char prefix[BUFSIZE+1];
struct ExtBan extban;
int r = 0;
memset(&extban, 0, sizeof(struct ExtBan));
r = parse_extban(mask, &extban, 0, (char *)&prefix);
if (r == 0)
return collapse(pretty_mask(mask));
else if (r < 0)
return NULL;
ircd_snprintf(0, retmask, NICKLEN+USERLEN+HOSTLEN+3, "%s%s", prefix, extban.mask);
return retmask;
}
/** send a banlist to a client for a channel
*
* @param cptr Client to send the banlist to.
* @param chptr Channel whose banlist to send.
*/
static void send_ban_list(struct Client* cptr, struct Channel* chptr)
{
struct Ban* lp;
assert(0 != cptr);
assert(0 != chptr);
for (lp = chptr->banlist; lp; lp = lp->next)
send_reply(cptr, RPL_BANLIST, chptr->chname, lp->banstr,
lp->who, lp->when);
send_reply(cptr, RPL_ENDOFBANLIST, chptr->chname);
}
/** send a exceptlist to a client for a channel
*
* @param cptr Client to send the exceptlist to.
* @param chptr Channel whose exceptlist to send.
*/
static void send_except_list(struct Client* cptr, struct Channel* chptr)
{
struct Ban* lp;
assert(0 != cptr);
assert(0 != chptr);
for (lp = chptr->exceptlist; lp; lp = lp->next)
send_reply(cptr, RPL_EXCEPTLIST, chptr->chname, lp->banstr,
lp->who, lp->when);
send_reply(cptr, RPL_ENDOFEXCEPTLIST, chptr->chname);
}
int SetAutoChanModes(struct Channel *chptr)
{
static int chan_flags[] = {
MODE_INVITEONLY, 'i',
MODE_MODERATED, 'm',
MODE_NOPRIVMSGS, 'n',
MODE_PRIVATE, 'p',
MODE_SECRET, 's',
MODE_TOPICLIMIT, 't',
MODE_REGONLY, 'r',
MODE_DELJOINS, 'D',
MODE_WASDELJOINS, 'd',
/* MODE_REGISTERED, 'R', */
0, 0
};
static int chan_exflags[] = {
EXMODE_REGMODERATED, 'M',
EXMODE_NONOTICES, 'N',
EXMODE_SSLONLY, 'Z',
EXMODE_NOQUITPARTS, 'Q',
EXMODE_NOCTCPS, 'C',
EXMODE_NOMULTITARG, 'T',
EXMODE_NOCOLOR, 'c',
EXMODE_STRIPCOLOR, 'S',
0, 0
};
unsigned int *flag_p;
unsigned int t_mode;
unsigned int t_exmode;
const char *modestr;
t_mode = 0;
assert(0 != chptr);
if (!feature_bool(FEAT_AUTOCHANMODES) || !feature_str(FEAT_AUTOCHANMODES_LIST) ||
strlen(feature_str(FEAT_AUTOCHANMODES_LIST)) <= 1)
return 0;
modestr = feature_str(FEAT_AUTOCHANMODES_LIST);
for (; *modestr; modestr++) {
for (flag_p = (unsigned int*)chan_flags; flag_p[0];
flag_p += 2) /* look up flag */
if (flag_p[1] == *modestr)
break;
if (!flag_p[0]) /* didn't find it */
continue;
t_mode |= flag_p[0];
} /* for (; *modestr; modestr++) { */
if (t_mode != 0)
chptr->mode.mode = t_mode;
t_exmode = 0;
modestr = feature_str(FEAT_AUTOCHANMODES_LIST);
for (; *modestr; modestr++) {
for (flag_p = (unsigned int*)chan_exflags; flag_p[0];
flag_p += 2) /* look up flag */
if (flag_p[1] == *modestr)
break;
if (!flag_p[0]) /* didn't find it */
continue;
t_exmode |= flag_p[0];
} /* for (; *modestr; modestr++) { */
if (t_exmode != 0)
chptr->mode.exmode = t_exmode;
return 0;
}
/** Get a channel block, creating if necessary.
* Get Channel block for chname (and allocate a new channel
* block, if it didn't exists before).
*
* @param cptr Client joining the channel.
* @param chname The name of the channel to join.
* @param flag set to CGT_CREATE to create the channel if it doesn't
* exist
*
* @returns NULL if the channel is invalid, doesn't exist and CGT_CREATE
* wasn't specified or a pointer to the channel structure
*/
struct Channel *get_channel(struct Client *cptr, char *chname, ChannelGetType flag)
{
struct Channel *chptr;
int len;
if (EmptyString(chname))
return NULL;
len = strlen(chname);
if (MyUser(cptr) && len > CHANNELLEN)
{
len = CHANNELLEN;
*(chname + CHANNELLEN) = '\0';
}
if ((chptr = FindChannel(chname)))
return (chptr);
if (flag == CGT_CREATE)
{
chptr = (struct Channel*) MyMalloc(sizeof(struct Channel) + len);
assert(0 != chptr);
++UserStats.channels;
memset(chptr, 0, sizeof(struct Channel));
strcpy(chptr->chname, chname);
if (GlobalChannelList)
GlobalChannelList->prev = chptr;
chptr->prev = NULL;
chptr->next = GlobalChannelList;
chptr->creationtime = MyUser(cptr) ? TStime() : (time_t) 0;
if (feature_bool(FEAT_AUTOCHANMODES) && feature_str(FEAT_AUTOCHANMODES_LIST) &&
(strlen(feature_str(FEAT_AUTOCHANMODES_LIST)) > 0) && MyUser(cptr))
SetAutoChanModes(chptr);
GlobalChannelList = chptr;
hAddChannel(chptr);
}
return chptr;
}
/** invite a user to a channel.
*
* Adds an invite for a user to a channel. Limits the number of invites
* to FEAT_MAXCHANNELSPERUSER. Does not sent notification to the user.
*
* @param cptr The client to be invited.
* @param chptr The channel to be invited to.
*/
void add_invite(struct Client *cptr, struct Channel *chptr)
{
struct SLink *inv, **tmp;
del_invite(cptr, chptr);
/*
* Delete last link in chain if the list is max length
*/
assert(list_length((cli_user(cptr))->invited) == (cli_user(cptr))->invites);
if ((cli_user(cptr))->invites >= get_client_maxchans(cptr))
del_invite(cptr, (cli_user(cptr))->invited->value.chptr);
/*
* Add client to channel invite list
*/
inv = make_link();
inv->value.cptr = cptr;
inv->next = chptr->invites;
chptr->invites = inv;
/*
* Add channel to the end of the client invite list
*/
for (tmp = &((cli_user(cptr))->invited); *tmp; tmp = &((*tmp)->next));
inv = make_link();
inv->value.chptr = chptr;
inv->next = NULL;
(*tmp) = inv;
(cli_user(cptr))->invites++;
}
/** Delete an invite
* Delete Invite block from channel invite list and client invite list
*
* @param cptr Client pointer
* @param chptr Channel pointer
*/
void del_invite(struct Client *cptr, struct Channel *chptr)
{
struct SLink **inv, *tmp;
for (inv = &(chptr->invites); (tmp = *inv); inv = &tmp->next)
if (tmp->value.cptr == cptr)
{
*inv = tmp->next;
free_link(tmp);
tmp = 0;
(cli_user(cptr))->invites--;
break;
}
for (inv = &((cli_user(cptr))->invited); (tmp = *inv); inv = &tmp->next)
if (tmp->value.chptr == chptr)
{
*inv = tmp->next;
free_link(tmp);
tmp = 0;
break;
}
}
/** @page zombie Explanation of Zombies
*
* Synopsis:
*
* A channel member is turned into a zombie when he is kicked from a
* channel but his server has not acknowledged the kick. Servers that
* see the member as a zombie can accept actions he performed before
* being kicked, without allowing chanop operations from outsiders or
* desyncing the network.
*
* Consider:
* <pre>
* client
* |
* c
* |
* X --a--> A --b--> B --d--> D
* |
* who
* </pre>
*
* Where `who' is being KICK-ed by a "KICK" message received by server 'A'
* via 'a', or on server 'B' via either 'b' or 'c', or on server D via 'd'.
*
* a) On server A : set CHFL_ZOMBIE for `who' (lp) and pass on the KICK.
* Remove the user immediately when no users are left on the channel.
* b) On server B : remove the user (who/lp) from the channel, send a
* PART upstream (to A) and pass on the KICK.
* c) KICKed by `client'; On server B : remove the user (who/lp) from the
* channel, and pass on the KICK.
* d) On server D : remove the user (who/lp) from the channel, and pass on
* the KICK.
*
* Note:
* - Setting the ZOMBIE flag never hurts, we either remove the
* client after that or we don't.
* - The KICK message was already passed on, as should be in all cases.
* - `who' is removed in all cases except case a) when users are left.
* - A PART is only sent upstream in case b).
*
* 2 aug 97:
* <pre>
* 6
* |
* 1 --- 2 --- 3 --- 4 --- 5
* | |
* kicker who
* </pre>
*
* We also need to turn 'who' into a zombie on servers 1 and 6,
* because a KICK from 'who' (kicking someone else in that direction)
* can arrive there afterward - which should not be bounced itself.
* Therefore case a) also applies for servers 1 and 6.
*
* --Run
*/
/** Turn a user on a channel into a zombie
* This function turns a user into a zombie (see \ref zombie)
*
* @param member The structure representing this user on this channel.
* @param who The client that is being kicked.
* @param cptr The connection the kick came from.
* @param sptr The client that is doing the kicking.
* @param chptr The channel the user is being kicked from.
*/
void make_zombie(struct Membership* member, struct Client* who,
struct Client* cptr, struct Client* sptr, struct Channel* chptr)
{
assert(0 != member);
assert(0 != who);
assert(0 != cptr);
assert(0 != chptr);
/* Default for case a): */
SetZombie(member);
/* Case b) or c) ?: */
if (MyUser(who)) /* server 4 */
{
if (IsServer(cptr)) /* Case b) ? */
sendcmdto_one(who, CMD_PART, cptr, "%H", chptr);
remove_user_from_channel(who, chptr);
return;
}
if (cli_from(who) == cptr) /* True on servers 1, 5 and 6 */
{
struct Client *acptr = IsServer(sptr) ? sptr : (cli_user(sptr))->server;
for (; acptr != &me; acptr = (cli_serv(acptr))->up)
if (acptr == (cli_user(who))->server) /* Case d) (server 5) */
{
remove_user_from_channel(who, chptr);
return;
}
}
/* Case a) (servers 1, 2, 3 and 6) */
if (channel_all_zombies(chptr))
remove_user_from_channel(who, chptr);
/* XXX Can't actually call Debug here; if the channel is all zombies,
* chptr will no longer exist when we get here.
Debug((DEBUG_INFO, "%s is now a zombie on %s", who->name, chptr->chname));
*/
}
/** returns the number of zombies on a channel
* @param chptr Channel to count zombies in.
*
* @returns The number of zombies on the channel.
*/
int number_of_zombies(struct Channel *chptr)
{
struct Membership* member;
int count = 0;
assert(0 != chptr);
for (member = chptr->members; member; member = member->next_member) {
if (IsZombie(member))
++count;
}
return count;
}
/** Concatenate some strings together.
* This helper function builds an argument string in strptr, consisting
* of the original string, a space, and str1 and str2 concatenated (if,
* of course, str2 is not NULL)
*
* @param strptr The buffer to concatenate into
* @param strptr_i modified offset to the position to modify
* @param str1 The string to concatenate from.
* @param str2 The second string to contatenate from.
* @param c Charactor to separate the string from str1 and str2.
*/
static void
build_string(char *strptr, int *strptr_i, const char *str1,
const char *str2, char c)
{
if (c)
strptr[(*strptr_i)++] = c;
while (*str1)
strptr[(*strptr_i)++] = *(str1++);
if (str2)
while (*str2)
strptr[(*strptr_i)++] = *(str2++);
strptr[(*strptr_i)] = '\0';
}
/** Check a channel for join-delayed members.
* @param[in] chan Channel to search.
* @return Non-zero if any members are join-delayed; false if none are.
*/
static int
find_delayed_joins(const struct Channel *chan)
{
const struct Membership *memb;
for (memb = chan->members; memb; memb = memb->next_member)
if (IsDelayedJoin(memb))
return 1;
return 0;
}
static void
show_delayed_joins(const struct Channel *chan)
{
struct Membership *memb;
for (memb = chan->members; memb; memb = memb->next_member)
if (IsDelayedJoin(memb))
RevealDelayedJoin(memb);
}
/** Flush out the modes
* This is the workhorse of our ModeBuf suite; this actually generates the
* output MODE commands, HACK notices, or whatever. It's pretty complicated.
*
* @param mbuf The mode buffer to flush
* @param all If true, flush all modes, otherwise leave partial modes in the
* buffer.
*
* @returns 0
*/
static int
modebuf_flush_int(struct ModeBuf *mbuf, int all)
{
/* we only need the flags that don't take args right now */
static int flags[] = {
/* MODE_CHANOP, 'o', */
/* MODE_HALFOP, 'h', */
/* MODE_VOICE, 'v', */
MODE_PRIVATE, 'p',
MODE_SECRET, 's',
MODE_MODERATED, 'm',
MODE_TOPICLIMIT, 't',
MODE_INVITEONLY, 'i',
MODE_NOPRIVMSGS, 'n',
MODE_REGONLY, 'r',
MODE_DELJOINS, 'D',
MODE_REGISTERED, 'R',
/* MODE_KEY, 'k', */
/* MODE_BAN, 'b', */
/* MODE_EXCEPT, 'e', */
MODE_LIMIT, 'l',
MODE_REDIRECT, 'L',
/* MODE_APASS, 'A', */
/* MODE_UPASS, 'U', */
0x0, 0x0
};
static int exflags[] = {
EXMODE_ADMINONLY, 'a',
EXMODE_OPERONLY, 'O',
EXMODE_REGMODERATED, 'M',
EXMODE_NONOTICES, 'N',
EXMODE_PERSIST, 'z',
EXMODE_SSLONLY, 'Z',
EXMODE_NOQUITPARTS, 'Q',
EXMODE_NOCTCPS, 'C',
EXMODE_NOMULTITARG, 'T',
EXMODE_NOCOLOR, 'c',
EXMODE_STRIPCOLOR, 'S',
0x0, 0x0
};
static int local_flags[] = {
MODE_WASDELJOINS, 'd',
0x0, 0x0
};
int i;
int *flag_p;
struct Client *app_source; /* where the MODE appears to come from */
char addbuf[40], addbuf_local[40]; /* accumulates +psmtinaO, etc. */
int addbuf_i = 0, addbuf_local_i = 0;
char rembuf[40], rembuf_local[40]; /* accumulates -psmtinaO, etc. */
int rembuf_i = 0, rembuf_local_i = 0;
char *bufptr; /* we make use of indirection to simplify the code */
int *bufptr_i;
char addstr[BUFSIZE]; /* accumulates MODE parameters to add */
char addstro[BUFSIZE]; /* accumulates MODE parameters to add */
int addstr_i;
int addstro_i;
char remstr[BUFSIZE]; /* accumulates MODE parameters to remove */
int remstr_i;
char *strptr, *strptro; /* more indirection to simplify the code */
int *strptr_i, *strptro_i;
int totalbuflen = BUFSIZE - 200; /* fuzz factor -- don't overrun buffer! */
int tmp;
char limitbuf[20]; /* convert limits to strings */
unsigned int limitdel = MODE_LIMIT;
unsigned int redirdel = MODE_REDIRECT;
assert(0 != mbuf);
/* If the ModeBuf is empty, we have nothing to do */
if (mbuf->mb_add == 0 && mbuf->mb_rem == 0 &&
mbuf->mb_exadd == 0 && mbuf->mb_exrem == 0 && mbuf->mb_count == 0)
return 0;
/* Ok, if we were given the OPMODE flag, or its a server, hide the source.
*/
if (feature_bool(FEAT_HIS_MODEWHO) &&
(mbuf->mb_dest & MODEBUF_DEST_OPMODE ||
IsServer(mbuf->mb_source) ||
IsMe(mbuf->mb_source)))
app_source = &his;
else
app_source = mbuf->mb_source;
/* Must be set if going -D and some clients are hidden */
if ((mbuf->mb_rem & MODE_DELJOINS)
&& !(mbuf->mb_channel->mode.mode & (MODE_DELJOINS | MODE_WASDELJOINS))) {
if (!feature_bool(FEAT_JOIN_ON_REMOVEDELAY) && find_delayed_joins(mbuf->mb_channel)) {
mbuf->mb_channel->mode.mode |= MODE_WASDELJOINS;
mbuf->mb_add |= MODE_WASDELJOINS;
mbuf->mb_rem &= ~MODE_WASDELJOINS;
} else
show_delayed_joins(mbuf->mb_channel);
}
/* +d must be cleared if +D is set */
if ((mbuf->mb_add & MODE_DELJOINS)
&& (mbuf->mb_channel->mode.mode & MODE_WASDELJOINS)) {
mbuf->mb_channel->mode.mode &= ~MODE_WASDELJOINS;
mbuf->mb_add &= ~MODE_WASDELJOINS;
mbuf->mb_rem |= MODE_WASDELJOINS;
}
/*
* Account for user we're bouncing; we have to get it in on the first
* bounced MODE, or we could have problems
*/
if (mbuf->mb_dest & MODEBUF_DEST_DEOP)
totalbuflen -= 6; /* numeric nick == 5, plus one space */
/* Calculate the simple flags */
for (flag_p = flags; flag_p[0]; flag_p += 2) {
if (*flag_p & mbuf->mb_add)
addbuf[addbuf_i++] = flag_p[1];
else if (*flag_p & mbuf->mb_rem)
rembuf[rembuf_i++] = flag_p[1];
}
for (flag_p = exflags; flag_p[0]; flag_p += 2) {
if (*flag_p & mbuf->mb_exadd)
addbuf[addbuf_i++] = flag_p[1];
else if (*flag_p & mbuf->mb_exrem)
rembuf[rembuf_i++] = flag_p[1];
}
/* Some flags may be for local display only. */
for (flag_p = local_flags; flag_p[0]; flag_p += 2) {
if (*flag_p & mbuf->mb_add)
addbuf_local[addbuf_local_i++] = flag_p[1];
else if (*flag_p & mbuf->mb_rem)
rembuf_local[rembuf_local_i++] = flag_p[1];
}
/* Now go through the modes with arguments... */
for (i = 0; i < mbuf->mb_count; i++) {
if (MB_TYPE(mbuf, i) & MODE_ADD) { /* adding or removing? */
bufptr = addbuf;
bufptr_i = &addbuf_i;
} else {
bufptr = rembuf;
bufptr_i = &rembuf_i;
}
if (MB_TYPE(mbuf, i) & (MODE_CHANOP | MODE_HALFOP | MODE_VOICE)) {
tmp = strlen(cli_name(MB_CLIENT(mbuf, i)));
if ((totalbuflen - IRCD_MAX(9, tmp)) <= 0) /* don't overflow buffer */
MB_TYPE(mbuf, i) |= MODE_SAVE; /* save for later */
else {
bufptr[(*bufptr_i)++] = MB_TYPE(mbuf, i) & MODE_CHANOP ? 'o' :
(MB_TYPE(mbuf, i) & MODE_HALFOP ? 'h' : 'v');
totalbuflen -= IRCD_MAX(9, tmp) + 1;
}
} else if (MB_TYPE(mbuf, i) & (MODE_BAN | MODE_EXCEPT | MODE_APASS | MODE_UPASS)) {
tmp = strlen(MB_STRING(mbuf, i));
if ((totalbuflen - tmp) <= 0) /* don't overflow buffer */
MB_TYPE(mbuf, i) |= MODE_SAVE; /* save for later */
else {
char mode_char;
switch(MB_TYPE(mbuf, i) & (MODE_BAN | MODE_EXCEPT | MODE_APASS | MODE_UPASS))
{
case MODE_APASS:
mode_char = 'A';
break;
case MODE_UPASS:
mode_char = 'U';
break;
case MODE_EXCEPT:
mode_char = 'e';
break;
default:
mode_char = 'b';
break;
}
bufptr[(*bufptr_i)++] = mode_char;
totalbuflen -= tmp + 1;
}
} else if (MB_TYPE(mbuf, i) & MODE_KEY) {
tmp = (mbuf->mb_dest & MODEBUF_DEST_NOKEY ? 1 :
strlen(MB_STRING(mbuf, i)));
if ((totalbuflen - tmp) <= 0) /* don't overflow buffer */
MB_TYPE(mbuf, i) |= MODE_SAVE; /* save for later */
else {
bufptr[(*bufptr_i)++] = 'k';
totalbuflen -= tmp + 1;
}
} else if (MB_TYPE(mbuf, i) & MODE_REDIRECT) {
tmp = strlen(MB_STRING(mbuf, i));
if ((totalbuflen - tmp) <= 0) /* don't overflow buffer */
MB_TYPE(mbuf, i) |= MODE_SAVE; /* save for later */
else {
bufptr[(*bufptr_i)++] = 'L';
totalbuflen -= tmp + 1;
}
} else if (MB_TYPE(mbuf, i) & MODE_LIMIT) {
/* if it's a limit, we also format the number */
ircd_snprintf(0, limitbuf, sizeof(limitbuf), "%u", MB_UINT(mbuf, i));
tmp = strlen(limitbuf);
if ((totalbuflen - tmp) <= 0) /* don't overflow buffer */
MB_TYPE(mbuf, i) |= MODE_SAVE; /* save for later */
else {
bufptr[(*bufptr_i)++] = 'l';
totalbuflen -= tmp + 1;
}
}
}
/* terminate the mode strings */
addbuf[addbuf_i] = '\0';
rembuf[rembuf_i] = '\0';
addbuf_local[addbuf_local_i] = '\0';
rembuf_local[rembuf_local_i] = '\0';
/* If we're building a user visible MODE or HACK... */
if (mbuf->mb_dest & (MODEBUF_DEST_CHANNEL | MODEBUF_DEST_HACK2 |
MODEBUF_DEST_HACK3 | MODEBUF_DEST_HACK4 |
MODEBUF_DEST_LOG)) {
/* Set up the parameter strings */
addstr[0] = '\0';
addstr_i = 0;
remstr[0] = '\0';
remstr_i = 0;
for (i = 0; i < mbuf->mb_count; i++) {
if (MB_TYPE(mbuf, i) & MODE_SAVE)
continue;
if (MB_TYPE(mbuf, i) & MODE_ADD) { /* adding or removing? */
strptr = addstr;
strptr_i = &addstr_i;
} else {
strptr = remstr;
strptr_i = &remstr_i;
}
/* deal with clients... */
if (MB_TYPE(mbuf, i) & (MODE_CHANOP | MODE_HALFOP | MODE_VOICE))
build_string(strptr, strptr_i, cli_name(MB_CLIENT(mbuf, i)), 0, ' ');
/* deal with bans... */
else if (MB_TYPE(mbuf, i) & MODE_BAN)
build_string(strptr, strptr_i, MB_STRING(mbuf, i), 0, ' ');
/* deal with ban exceptions... */
else if (MB_TYPE(mbuf, i) & MODE_EXCEPT)
build_string(strptr, strptr_i, MB_STRING(mbuf, i), 0, ' ');
/* deal with redirect... */
else if ((MB_TYPE(mbuf, i) & (MODE_ADD | MODE_REDIRECT)) ==
(MODE_ADD | MODE_REDIRECT))
build_string(strptr, strptr_i, MB_STRING(mbuf, i), 0, ' ');
/* deal with keys... */
else if (MB_TYPE(mbuf, i) & MODE_KEY)
build_string(strptr, strptr_i, mbuf->mb_dest & MODEBUF_DEST_NOKEY ?
"*" : MB_STRING(mbuf, i), 0, ' ');
/* deal with invisible passwords */
else if (MB_TYPE(mbuf, i) & (MODE_APASS | MODE_UPASS))
build_string(strptr, strptr_i, "*", 0, ' ');
/*
* deal with limit; note we cannot include the limit parameter if we're
* removing it
*/
else if ((MB_TYPE(mbuf, i) & (MODE_ADD | MODE_LIMIT)) ==
(MODE_ADD | MODE_LIMIT))
build_string(strptr, strptr_i, limitbuf, 0, ' ');
}
/* send the messages off to their destination */
if (mbuf->mb_dest & MODEBUF_DEST_HACK2)
sendto_opmask_butone(0, SNO_HACK2, "HACK(2): %s MODE %s %s%s%s%s%s%s "
"[%Tu]",
cli_name(feature_bool(FEAT_HIS_SNOTICES) ?
mbuf->mb_source : app_source),
mbuf->mb_channel->chname,
rembuf_i ? "-" : "", rembuf, addbuf_i ? "+" : "",
addbuf, remstr, addstr,
mbuf->mb_channel->creationtime);
if (mbuf->mb_dest & MODEBUF_DEST_HACK3)
sendto_opmask_butone(0, SNO_HACK3, "BOUNCE or HACK(3): %s MODE %s "
"%s%s%s%s%s%s [%Tu]",
cli_name(feature_bool(FEAT_HIS_SNOTICES) ?
mbuf->mb_source : app_source),
mbuf->mb_channel->chname, rembuf_i ? "-" : "",
rembuf, addbuf_i ? "+" : "", addbuf, remstr, addstr,
mbuf->mb_channel->creationtime);
if (mbuf->mb_dest & MODEBUF_DEST_HACK4)
sendto_opmask_butone(0, SNO_HACK4, "HACK(4): %s MODE %s %s%s%s%s%s%s "
"[%Tu]",
cli_name(feature_bool(FEAT_HIS_SNOTICES) ?
mbuf->mb_source : app_source),
mbuf->mb_channel->chname,
rembuf_i ? "-" : "", rembuf, addbuf_i ? "+" : "",
addbuf, remstr, addstr,
mbuf->mb_channel->creationtime);
if (mbuf->mb_dest & MODEBUF_DEST_LOG)
log_write(LS_OPERMODE, L_INFO, LOG_NOSNOTICE,
"%#C OPMODE %H %s%s%s%s%s%s", mbuf->mb_source,
mbuf->mb_channel, rembuf_i ? "-" : "", rembuf,
addbuf_i ? "+" : "", addbuf, remstr, addstr);
if (mbuf->mb_dest & MODEBUF_DEST_CHANNEL)
sendcmdto_channel_butserv_butone(app_source, CMD_MODE, mbuf->mb_channel, NULL, 0,
"%H %s%s%s%s%s%s%s%s", mbuf->mb_channel,
rembuf_i || rembuf_local_i ? "-" : "",
rembuf, rembuf_local,
addbuf_i || addbuf_local_i ? "+" : "",
addbuf, addbuf_local,
remstr, addstr);
}
/* Now are we supposed to propagate to other servers? */
if (mbuf->mb_dest & MODEBUF_DEST_SERVER) {
/* set up parameter string */
addstr[0] = '\0';
addstro[0] = '\0';
addstr_i = 0;
addstro_i = 0;
remstr[0] = '\0';
remstr_i = 0;
/*
* limit is supressed if we're removing it; we have to figure out which
* direction is the direction for it to be removed, though...
*/
limitdel |= (mbuf->mb_dest & MODEBUF_DEST_BOUNCE) ? MODE_DEL : MODE_ADD;
redirdel |= (mbuf->mb_dest & MODEBUF_DEST_BOUNCE) ? MODE_DEL : MODE_ADD;
for (i = 0; i < mbuf->mb_count; i++) {
if (MB_TYPE(mbuf, i) & MODE_SAVE)
continue;
if (MB_TYPE(mbuf, i) & MODE_ADD) { /* adding or removing? */
strptr = addstr;
strptr_i = &addstr_i;
strptro = addstro;
strptro_i = &addstro_i;
} else {
strptr = remstr;
strptr_i = &remstr_i;
strptro = NULL;
strptro_i = NULL;
}
/* if we're changing oplevels and we know the oplevel, pass it on */
if ((MB_TYPE(mbuf, i) & MODE_CHANOP)
&& MB_OPLEVEL(mbuf, i) < MAXOPLEVEL) {
*strptr_i += ircd_snprintf(0, strptr + *strptr_i, BUFSIZE - *strptr_i,
" %s%s:%d",
NumNick(MB_CLIENT(mbuf, i)),
MB_OPLEVEL(mbuf, i));
*strptro_i += ircd_snprintf(0, strptro+ *strptro_i, BUFSIZE - *strptro_i,
" %s%s", NumNick(MB_CLIENT(mbuf, i)));
/* deal with other modes that take clients */
} else if (MB_TYPE(mbuf, i) & (MODE_CHANOP | MODE_HALFOP | MODE_VOICE)) {
build_string(strptr, strptr_i, NumNick(MB_CLIENT(mbuf, i)), ' ');
if (MB_TYPE(mbuf, i) & MODE_ADD)
build_string(strptro, strptro_i, NumNick(MB_CLIENT(mbuf, i)), ' ');
/* deal with modes that take strings */
} else if (MB_TYPE(mbuf, i) & (MODE_KEY | MODE_BAN | MODE_EXCEPT | MODE_APASS | MODE_UPASS)) {
build_string(strptr, strptr_i, MB_STRING(mbuf, i), 0, ' ');
if (MB_TYPE(mbuf, i) & MODE_ADD)
build_string(strptro, strptro_i, MB_STRING(mbuf, i), 0, ' ');
/* deal with redirect */
} else if ((MB_TYPE(mbuf, i) & redirdel) == redirdel) {
build_string(strptr, strptr_i, MB_STRING(mbuf, i), 0, ' ');
if (MB_TYPE(mbuf, i) & MODE_ADD)
build_string(strptro, strptro_i, MB_STRING(mbuf, i), 0, ' ');
/*
* deal with the limit. Logic here is complicated; if HACK2 is set,
* we're bouncing the mode, so sense is reversed, and we have to
* include the original limit if it looks like it's being removed
*/
} else if ((MB_TYPE(mbuf, i) & limitdel) == limitdel) {
build_string(strptr, strptr_i, limitbuf, 0, ' ');
if (MB_TYPE(mbuf, i) & MODE_ADD)
build_string(strptro, strptro_i, limitbuf, 0, ' ');
}
}
/* we were told to deop the source */
if (mbuf->mb_dest & MODEBUF_DEST_DEOP) {
addbuf[addbuf_i++] = 'o'; /* remember, sense is reversed */
addbuf[addbuf_i] = '\0'; /* terminate the string... */
build_string(addstr, &addstr_i, NumNick(mbuf->mb_source), ' ');
build_string(addstro, &addstro_i, NumNick(mbuf->mb_source), ' ');
/* mark that we've done this, so we don't do it again */
mbuf->mb_dest &= ~MODEBUF_DEST_DEOP;
}
if (mbuf->mb_dest & MODEBUF_DEST_OPMODE) {
/* If OPMODE was set, we're propagating the mode as an OPMODE message */
sendcmdto_flag_serv_butone(mbuf->mb_source, CMD_OPMODE, mbuf->mb_connect,
FLAG_OPLEVELS, FLAG_LAST_FLAG,
"%H %s%s%s%s%s%s", mbuf->mb_channel,
rembuf_i ? "-" : "", rembuf, addbuf_i ? "+" : "",
addbuf, remstr, addstr);
sendcmdto_flag_serv_butone(mbuf->mb_source, CMD_OPMODE, mbuf->mb_connect,
FLAG_LAST_FLAG, FLAG_OPLEVELS,
"%H %s%s%s%s%s%s", mbuf->mb_channel,
rembuf_i ? "-" : "", rembuf, addbuf_i ? "+" : "",
addbuf, remstr, addstro);
} else if (mbuf->mb_dest & MODEBUF_DEST_BOUNCE) {
/*
* If HACK2 was set, we're bouncing; we send the MODE back to
* the connection we got it from with the senses reversed and
* the proper TS; origin is us
*/
sendcmdto_one(&me, CMD_MODE, mbuf->mb_connect, "%H %s%s%s%s%s%s %Tu",
mbuf->mb_channel, addbuf_i ? "-" : "", addbuf,
rembuf_i ? "+" : "", rembuf,
IsOpLevels(mbuf->mb_connect) ? addstr : addstro,
remstr, mbuf->mb_channel->creationtime);
} else {
/*
* We're propagating a normal (or HACK3 or HACK4) MODE command
* to the rest of the network. We send the actual channel TS.
*/
/* Send oplevels to servers with oplevels support. */
sendcmdto_flag_serv_butone(mbuf->mb_source, CMD_MODE, mbuf->mb_connect,
FLAG_OPLEVELS, FLAG_LAST_FLAG,
"%H %s%s%s%s%s%s %Tu", mbuf->mb_channel,
rembuf_i ? "-" : "", rembuf, addbuf_i ? "+" : "",
addbuf, remstr, addstr,
mbuf->mb_channel->creationtime);
/* Send no oplevels to servers without oplevels support. */
sendcmdto_flag_serv_butone(mbuf->mb_source, CMD_MODE, mbuf->mb_connect,
FLAG_LAST_FLAG, FLAG_OPLEVELS,
"%H %s%s%s%s%s%s %Tu", mbuf->mb_channel,
rembuf_i ? "-" : "", rembuf, addbuf_i ? "+" : "",
addbuf, remstr, addstro,
mbuf->mb_channel->creationtime);
}
}
/* We've drained the ModeBuf... */
mbuf->mb_add = 0;
mbuf->mb_exadd = 0;
mbuf->mb_rem = 0;
mbuf->mb_exrem = 0;
mbuf->mb_count = 0;
/* reinitialize the mode-with-arg slots */
for (i = 0; i < MAXMODEPARAMS; i++) {
/* If we saved any, pack them down */
if (MB_TYPE(mbuf, i) & MODE_SAVE) {
mbuf->mb_modeargs[mbuf->mb_count] = mbuf->mb_modeargs[i];
MB_TYPE(mbuf, mbuf->mb_count) &= ~MODE_SAVE; /* don't save anymore */
if (mbuf->mb_count++ == i) /* don't overwrite our hard work */
continue;
} else if (MB_TYPE(mbuf, i) & MODE_FREE)
MyFree(MB_STRING(mbuf, i)); /* free string if needed */
MB_TYPE(mbuf, i) = 0;
MB_UINT(mbuf, i) = 0;
}
/* If we're supposed to flush it all, do so--all hail tail recursion */
if (all && mbuf->mb_count)
return modebuf_flush_int(mbuf, 1);
return 0;
}
/** Initialise a modebuf
* This routine just initializes a ModeBuf structure with the information
* needed and the options given.
*
* @param mbuf The mode buffer to initialise.
* @param source The client that is performing the mode.
* @param connect ?
* @param chan The channel that the mode is being performed upon.
* @param dest ?
*/
void
modebuf_init(struct ModeBuf *mbuf, struct Client *source,
struct Client *connect, struct Channel *chan, unsigned int dest)
{
int i;
assert(0 != mbuf);
assert(0 != source);
assert(0 != chan);
assert(0 != dest);
if (IsLocalChannel(chan->chname)) dest &= ~MODEBUF_DEST_SERVER;
mbuf->mb_add = 0;
mbuf->mb_exadd = 0;
mbuf->mb_rem = 0;
mbuf->mb_exrem = 0;
mbuf->mb_source = source;
mbuf->mb_connect = connect;
mbuf->mb_channel = chan;
mbuf->mb_dest = dest;
mbuf->mb_count = 0;
/* clear each mode-with-parameter slot */
for (i = 0; i < MAXMODEPARAMS; i++) {
MB_TYPE(mbuf, i) = 0;
MB_UINT(mbuf, i) = 0;
}
}
/** Append a new mode to a modebuf
* This routine simply adds modes to be added or deleted; do a binary OR
* with either MODE_ADD or MODE_DEL
*
* @param mbuf Mode buffer
* @param mode MODE_ADD or MODE_DEL OR'd with MODE_PRIVATE etc.
*/
void
modebuf_mode(struct ModeBuf *mbuf, unsigned int mode)
{
assert(0 != mbuf);
assert(0 != (mode & (MODE_ADD | MODE_DEL)));
mode &= (MODE_ADD | MODE_DEL | MODE_PRIVATE | MODE_SECRET | MODE_MODERATED |
MODE_TOPICLIMIT | MODE_INVITEONLY | MODE_NOPRIVMSGS | MODE_REGONLY |
MODE_DELJOINS | MODE_WASDELJOINS | MODE_REGISTERED);
if (!(mode & ~(MODE_ADD | MODE_DEL))) /* don't add empty modes... */
return;
if (mode & MODE_ADD) {
mbuf->mb_rem &= ~mode;
mbuf->mb_add |= mode;
} else {
mbuf->mb_add &= ~mode;
mbuf->mb_rem |= mode;
}
}
void
modebuf_exmode(struct ModeBuf *mbuf, unsigned int mode)
{
assert(0 != mbuf);
assert(0 != (mode & (MODE_ADD | MODE_DEL)));
mode &= (MODE_ADD | MODE_DEL | EXMODE_ADMINONLY | EXMODE_OPERONLY |
EXMODE_REGMODERATED | EXMODE_NONOTICES | EXMODE_PERSIST |
EXMODE_SSLONLY | EXMODE_NOQUITPARTS | EXMODE_NOCTCPS |
EXMODE_NOMULTITARG | EXMODE_NOCOLOR | EXMODE_STRIPCOLOR);
if (!(mode & ~(MODE_ADD | MODE_DEL))) /* don't add empty modes... */
return;
if (mode & MODE_ADD) {
mbuf->mb_exrem &= ~mode;
mbuf->mb_exadd |= mode;
} else {
mbuf->mb_exadd &= ~mode;
mbuf->mb_exrem |= mode;
}
}
/** Append a mode that takes an int argument to the modebuf
*
* This routine adds a mode to be added or deleted that takes a unsigned
* int parameter; mode may *only* be the relevant mode flag ORed with one
* of MODE_ADD or MODE_DEL
*
* @param mbuf The mode buffer to append to.
* @param mode The mode to append.
* @param uint The argument to the mode.
*/
void
modebuf_mode_uint(struct ModeBuf *mbuf, unsigned int mode, unsigned int uint)
{
assert(0 != mbuf);
assert(0 != (mode & (MODE_ADD | MODE_DEL)));
if (mode == (MODE_LIMIT | MODE_DEL)) {
mbuf->mb_rem |= mode;
return;
}
MB_TYPE(mbuf, mbuf->mb_count) = mode;
MB_UINT(mbuf, mbuf->mb_count) = uint;
/* when we've reached the maximal count, flush the buffer */
if (++mbuf->mb_count >=
(MAXMODEPARAMS - (mbuf->mb_dest & MODEBUF_DEST_DEOP ? 1 : 0)))
modebuf_flush_int(mbuf, 0);
}
/** append a string mode
* This routine adds a mode to be added or deleted that takes a string
* parameter; mode may *only* be the relevant mode flag ORed with one of
* MODE_ADD or MODE_DEL
*
* @param mbuf The mode buffer to append to.
* @param mode The mode to append.
* @param string The string parameter to append.
* @param free If the string should be free'd later.
*/
void
modebuf_mode_string(struct ModeBuf *mbuf, unsigned int mode, char *string,
int free)
{
assert(0 != mbuf);
assert(0 != (mode & (MODE_ADD | MODE_DEL)));
if (mode == (MODE_REDIRECT | MODE_DEL)) {
mbuf->mb_rem |= mode;
return;
}
MB_TYPE(mbuf, mbuf->mb_count) = mode | (free ? MODE_FREE : 0);
MB_STRING(mbuf, mbuf->mb_count) = string;
/* when we've reached the maximal count, flush the buffer */
if (++mbuf->mb_count >=
(MAXMODEPARAMS - (mbuf->mb_dest & MODEBUF_DEST_DEOP ? 1 : 0)))
modebuf_flush_int(mbuf, 0);
}
/** Append a mode on a client to a modebuf.
* This routine adds a mode to be added or deleted that takes a client
* parameter; mode may *only* be the relevant mode flag ORed with one of
* MODE_ADD or MODE_DEL
*
* @param mbuf The modebuf to append the mode to.
* @param mode The mode to append.
* @param client The client argument to append.
* @param oplevel The oplevel the user had or will have
*/
void
modebuf_mode_client(struct ModeBuf *mbuf, unsigned int mode,
struct Client *client, int oplevel)
{
assert(0 != mbuf);
assert(0 != (mode & (MODE_ADD | MODE_DEL)));
MB_TYPE(mbuf, mbuf->mb_count) = mode;
MB_CLIENT(mbuf, mbuf->mb_count) = client;
MB_OPLEVEL(mbuf, mbuf->mb_count) = oplevel;
/* when we've reached the maximal count, flush the buffer */
if (++mbuf->mb_count >=
(MAXMODEPARAMS - (mbuf->mb_dest & MODEBUF_DEST_DEOP ? 1 : 0)))
modebuf_flush_int(mbuf, 0);
}
/** The exported binding for modebuf_flush()
*
* @param mbuf The mode buffer to flush.
*
* @see modebuf_flush_int()
*/
int
modebuf_flush(struct ModeBuf *mbuf)
{
return modebuf_flush_int(mbuf, 1);
}
/* This extracts the simple modes contained in mbuf
*
* @param mbuf The mode buffer to extract the modes from.
* @param buf The string buffer to write the modes into.
* @param oplevels Include oplevels modes (+AU)?
*/
void
modebuf_extract(struct ModeBuf *mbuf, char *buf, int oplevels)
{
static int flags[] = {
/* MODE_CHANOP, 'o', */
/* MODE_HALFOP, 'h', */
/* MODE_VOICE, 'v', */
MODE_PRIVATE, 'p',
MODE_SECRET, 's',
MODE_MODERATED, 'm',
MODE_TOPICLIMIT, 't',
MODE_INVITEONLY, 'i',
MODE_NOPRIVMSGS, 'n',
MODE_KEY, 'k',
MODE_APASS, 'A',
MODE_UPASS, 'U',
MODE_REGISTERED, 'R',
/* MODE_BAN, 'b', */
/* MODE_EXCEPT, 'e', */
MODE_LIMIT, 'l',
MODE_REDIRECT, 'L',
MODE_REGONLY, 'r',
MODE_DELJOINS, 'D',
0x0, 0x0
};
static int exflags[] = {
EXMODE_ADMINONLY, 'a',
EXMODE_OPERONLY, 'O',
EXMODE_REGMODERATED, 'M',
EXMODE_NONOTICES, 'N',
EXMODE_PERSIST, 'z',
EXMODE_SSLONLY, 'Z',
EXMODE_NOQUITPARTS, 'Q',
EXMODE_NOCTCPS, 'C',
EXMODE_NOMULTITARG, 'T',
EXMODE_NOCOLOR, 'c',
EXMODE_STRIPCOLOR, 'S',
0x0, 0x0
};
unsigned int add;
unsigned int exadd;
int i, bufpos = 0, len;
int *flag_p;
char *key = 0, limitbuf[20];
char *apass = 0, *upass = 0;
char *redir = 0;
assert(0 != mbuf);
assert(0 != buf);
buf[0] = '\0';
add = mbuf->mb_add;
exadd = mbuf->mb_exadd;
for (i = 0; i < mbuf->mb_count; i++) { /* find keys and limits */
if (MB_TYPE(mbuf, i) & MODE_ADD) {
add |= MB_TYPE(mbuf, i) & (MODE_KEY | MODE_LIMIT | MODE_APASS | MODE_UPASS | MODE_REDIRECT);
if (MB_TYPE(mbuf, i) & MODE_KEY) /* keep strings */
key = MB_STRING(mbuf, i);
else if (MB_TYPE(mbuf, i) & MODE_REDIRECT)
redir = MB_STRING(mbuf, i);
else if (MB_TYPE(mbuf, i) & MODE_LIMIT)
ircd_snprintf(0, limitbuf, sizeof(limitbuf), "%u", MB_UINT(mbuf, i));
else if (MB_TYPE(mbuf, i) & MODE_UPASS)
upass = MB_STRING(mbuf, i);
else if (MB_TYPE(mbuf, i) & MODE_APASS)
apass = MB_STRING(mbuf, i);
}
}
if (!add && !exadd)
return;
buf[bufpos++] = '+'; /* start building buffer */
for (flag_p = flags; flag_p[0]; flag_p += 2) {
if (*flag_p & add) {
if (!((*flag_p & (MODE_APASS | MODE_UPASS)) && !oplevels))
buf[bufpos++] = flag_p[1];
}
}
for (flag_p = exflags; flag_p[0]; flag_p += 2) {
if (*flag_p & exadd) {
if (!(!oplevels)) /* Nothing like a double negative to wake you up in the morning */
buf[bufpos++] = flag_p[1];
}
}
for (i = 0, len = bufpos; i < len; i++) {
if (buf[i] == 'k')
build_string(buf, &bufpos, key, 0, ' ');
else if (buf[i] == 'L')
build_string(buf, &bufpos, redir, 0, ' ');
else if (buf[i] == 'l')
build_string(buf, &bufpos, limitbuf, 0, ' ');
else if ((buf[i] == 'U') && oplevels)
build_string(buf, &bufpos, upass, 0, ' ');
else if ((buf[i] == 'A') && oplevels)
build_string(buf, &bufpos, apass, 0, ' ');
}
buf[bufpos] = '\0';
return;
}
/** Simple function to invalidate a channel's ban cache.
*
* This function marks all members of the channel as being neither
* banned nor banned.
*
* @param chan The channel to operate on.
*/
void
mode_ban_invalidate(struct Channel *chan)
{
struct Membership *member;
for (member = chan->members; member; member = member->next_member) {
ClearBanValid(member);
ClearBanValidQuiet(member);
ClearBanValidNick(member);
}
}
/** Simple function to invalidate a channel's ban exception cache.
*
* This function marks all members of the channel as being neither
* ban excepted not ban excepted.
*
* @param chan The channel to operate on.
*/
void
mode_except_invalidate(struct Channel *chan)
{
struct Membership *member;
for (member = chan->members; member; member = member->next_member) {
ClearExceptValid(member);
ClearExceptValidQuiet(member);
ClearExceptValidNick(member);
}
}
/** Simple function to drop invite structures
*
* Remove all the invites on the channel.
*
* @param chan Channel to remove invites from.
*
*/
void
mode_invite_clear(struct Channel *chan)
{
while (chan->invites)
del_invite(chan->invites->value.cptr, chan);
}
/* What we've done for mode_parse so far... */
#define DONE_LIMIT 0x01 /**< We've set the limit */
#define DONE_KEY_ADD 0x02 /**< We've set the key */
#define DONE_BANLIST 0x04 /**< We've sent the ban list */
#define DONE_NOTOPER 0x08 /**< We've sent a "Not oper" error */
#define DONE_BANCLEAN 0x10 /**< We've cleaned bans... */
#define DONE_UPASS_ADD 0x20 /**< We've set user pass */
#define DONE_APASS_ADD 0x40 /**< We've set admin pass */
#define DONE_KEY_DEL 0x80 /**< We've removed the key */
#define DONE_UPASS_DEL 0x100 /**< We've removed the user pass */
#define DONE_APASS_DEL 0x200 /**< We've removed the admin pass */
#define DONE_EXCEPTLIST 0x400 /**< We've sent the ban exceptions list */
#define DONE_EXCEPTCLEAN 0x800 /**< We've cleaned ban exceptions... */
#define DONE_REDIR 0x1000 /**< We've set a redirection */
struct ParseState {
struct ModeBuf *mbuf;
struct Client *cptr;
struct Client *sptr;
struct Channel *chptr;
struct Membership *member;
int parc;
char **parv;
unsigned int flags;
unsigned int dir;
unsigned int done;
unsigned int add;
unsigned int exadd;
unsigned int del;
unsigned int exdel;
int args_used;
int max_args;
int numbans;
struct Ban banlist[MAXPARA];
struct Ban exceptlist[MAXPARA];
struct {
unsigned int flag;
unsigned short oplevel;
struct Client *client;
} cli_change[MAXPARA];
};
/** Helper function to send "Not oper" or "Not member" messages
* Here's a helper function to deal with sending along "Not oper" or
* "Not member" messages
*
* @param state Parsing State object
*/
static void
send_notoper(struct ParseState *state)
{
if (state->done & DONE_NOTOPER)
return;
send_reply(state->sptr, (state->flags & MODE_PARSE_NOTOPER) ?
ERR_CHANOPRIVSNEEDED : ERR_NOTONCHANNEL, state->chptr->chname);
state->done |= DONE_NOTOPER;
}
/** Parse a redirect
* Helper function to convert redirects
*
* @param state Parsing state object.
* @param flag_p ?
*/
static void
mode_parse_redir(struct ParseState *state, int *flag_p)
{
char *t_str;
if (state->dir == MODE_ADD) { /* convert arg only if adding redirect */
if (MyUser(state->sptr) && state->max_args <= 0) /* too many args? */
return;
if (state->parc <= 0) { /* warn if not enough args */
if (MyUser(state->sptr))
need_more_params(state->sptr, "MODE +L");
return;
}
t_str = state->parv[state->args_used++]; /* grab arg */
state->parc--;
state->max_args--;
if (!ircd_strcmp(t_str, state->chptr->chname)) {
send_reply(state->sptr, ERR_LINKSELF, t_str);
return;
}
if (!(feature_bool(FEAT_CHMODE_L) || IsServer(state->sptr) ||
IsChannelService(state->sptr) || IsOper(state->sptr))) {
send_reply(state->sptr, ERR_NOPRIVILEGES);
return;
}
/* Reject invalid channel names or those exceeding CHANNELLEN */
if (!IsChannelName(t_str) || !strIsIrcCh(t_str) || strlen(t_str) > CHANNELLEN)
return;
} else
t_str = state->chptr->mode.redir;
/* If they're not an oper, they can't change modes */
if (state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) {
send_notoper(state);
return;
}
/* Can't remove a redirect that's not there */
if (state->dir == MODE_DEL && !(*state->chptr->mode.redir))
return;
if (state->done & DONE_REDIR) /* allow redirect to be set only once */
return;
state->done |= DONE_REDIR;
if (!state->mbuf)
return;
/* Skip if this is a burst, we have a redirect already and the new redirect
* is after the old one alphabetically */
if ((state->flags & MODE_PARSE_BURST) &&
*(state->chptr->mode.redir) &&
ircd_strcmp(state->chptr->mode.redir, t_str) <= 0)
return;
if (!(state->flags & MODE_PARSE_WIPEOUT) && state->dir == MODE_ADD &&
!ircd_strcmp(state->chptr->mode.redir, t_str))
return; /* no redir change */
if (state->flags & MODE_PARSE_BOUNCE) {
if (*state->chptr->mode.redir) /* reset old redir */
modebuf_mode_string(state->mbuf, MODE_DEL | flag_p[0],
state->chptr->mode.redir, 0);
else /* remove new bogus redir */
modebuf_mode_string(state->mbuf, MODE_ADD | flag_p[0], t_str, 0);
} else /* send new redir */
modebuf_mode_string(state->mbuf, state->dir | flag_p[0], t_str, 0);
if (state->flags & MODE_PARSE_SET) {
if (state->dir == MODE_DEL) /* remove the old redirect */
*state->chptr->mode.redir = '\0';
else
ircd_strncpy(state->chptr->mode.redir, t_str, CHANNELLEN + 1);
}
}
/** Parse a limit
* Helper function to convert limits
*
* @param state Parsing state object.
* @param flag_p ?
*/
static void
mode_parse_limit(struct ParseState *state, int *flag_p)
{
unsigned int t_limit;
if (state->dir == MODE_ADD) { /* convert arg only if adding limit */
if (MyUser(state->sptr) && state->max_args <= 0) /* too many args? */
return;
if (state->parc <= 0) { /* warn if not enough args */
if (MyUser(state->sptr))
need_more_params(state->sptr, "MODE +l");
return;
}
t_limit = strtoul(state->parv[state->args_used++], 0, 10); /* grab arg */
state->parc--;
state->max_args--;
if ((int)t_limit<0) /* don't permit a negative limit */
return;
if (!(state->flags & MODE_PARSE_WIPEOUT) &&
(!t_limit || t_limit == state->chptr->mode.limit))
return;
} else
t_limit = state->chptr->mode.limit;
/* If they're not an oper, they can't change modes */
if (state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) {
send_notoper(state);
return;
}
/* Can't remove a limit that's not there */
if (state->dir == MODE_DEL && !state->chptr->mode.limit)
return;
/* Skip if this is a burst and a lower limit than this is set already */
if ((state->flags & MODE_PARSE_BURST) &&
(state->chptr->mode.mode & flag_p[0]) &&
(state->chptr->mode.limit < t_limit))
return;
if (state->done & DONE_LIMIT) /* allow limit to be set only once */
return;
state->done |= DONE_LIMIT;
if (!state->mbuf)
return;
modebuf_mode_uint(state->mbuf, state->dir | flag_p[0], t_limit);
if (state->flags & MODE_PARSE_SET) { /* set the limit */
if (state->dir & MODE_ADD) {
state->chptr->mode.mode |= flag_p[0];
state->chptr->mode.limit = t_limit;
} else {
state->chptr->mode.mode &= ~flag_p[0];
state->chptr->mode.limit = 0;
}
}
}
/** Helper function to validate key-like parameters.
*
* @param[in] state Parse state for feedback to user.
* @param[in] s Key to validate.
* @param[in] command String to pass for need_more_params() command.
* @return Zero on an invalid key, non-zero if the key was okay.
*/
static int
is_clean_key(struct ParseState *state, char *s, char *command)
{
int ii;
if (s[0] == '\0') {
if (MyUser(state->sptr))
need_more_params(state->sptr, command);
return 0;
}
else if (s[0] == ':') {
if (MyUser(state->sptr))
send_reply(state->sptr, ERR_INVALIDKEY, state->chptr->chname);
return 0;
}
for (ii = 0; (ii <= KEYLEN) && (s[ii] != '\0'); ++ii) {
if ((unsigned char)s[ii] <= ' ' || s[ii] == ',') {
if (MyUser(state->sptr))
send_reply(state->sptr, ERR_INVALIDKEY, state->chptr->chname);
return 0;
}
}
if (ii > KEYLEN) {
if (MyUser(state->sptr))
send_reply(state->sptr, ERR_INVALIDKEY, state->chptr->chname);
return 0;
}
return 1;
}
/*
* Helper function to convert keys
*/
static void
mode_parse_key(struct ParseState *state, int *flag_p)
{
char *t_str;
if (MyUser(state->sptr) && state->max_args <= 0) /* drop if too many args */
return;
if (state->parc <= 0) { /* warn if not enough args */
if (MyUser(state->sptr))
need_more_params(state->sptr, state->dir == MODE_ADD ? "MODE +k" :
"MODE -k");
return;
}
t_str = state->parv[state->args_used++]; /* grab arg */
state->parc--;
state->max_args--;
/* If they're not an oper, they can't change modes */
if (state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) {
send_notoper(state);
return;
}
/* allow removing and then adding key, but not adding and then removing */
if (state->dir == MODE_ADD)
{
if (state->done & DONE_KEY_ADD)
return;
state->done |= DONE_KEY_ADD;
}
else
{
if (state->done & (DONE_KEY_ADD | DONE_KEY_DEL))
return;
state->done |= DONE_KEY_DEL;
}
/* If the key is invalid, tell the user and bail. */
if (!is_clean_key(state, t_str, state->dir == MODE_ADD ? "MODE +k" :
"MODE -k"))
return;
if (!state->mbuf)
return;
/* Skip if this is a burst, we have a key already and the new key is
* after the old one alphabetically */
if ((state->flags & MODE_PARSE_BURST) &&
*(state->chptr->mode.key) &&
ircd_strcmp(state->chptr->mode.key, t_str) <= 0)
return;
/* can't add a key if one is set, nor can one remove the wrong key */
if (!(state->flags & MODE_PARSE_FORCE))
if ((state->dir == MODE_ADD && *state->chptr->mode.key) ||
(state->dir == MODE_DEL &&
ircd_strcmp(state->chptr->mode.key, t_str))) {
send_reply(state->sptr, ERR_KEYSET, state->chptr->chname);
return;
}
if (!(state->flags & MODE_PARSE_WIPEOUT) && state->dir == MODE_ADD &&
!ircd_strcmp(state->chptr->mode.key, t_str))
return; /* no key change */
if (state->flags & MODE_PARSE_BOUNCE) {
if (*state->chptr->mode.key) /* reset old key */
modebuf_mode_string(state->mbuf, MODE_DEL | flag_p[0],
state->chptr->mode.key, 0);
else /* remove new bogus key */
modebuf_mode_string(state->mbuf, MODE_ADD | flag_p[0], t_str, 0);
} else /* send new key */
modebuf_mode_string(state->mbuf, state->dir | flag_p[0], t_str, 0);
if (state->flags & MODE_PARSE_SET) {
if (state->dir == MODE_DEL) /* remove the old key */
*state->chptr->mode.key = '\0';
else
ircd_strncpy(state->chptr->mode.key, t_str, KEYLEN + 1);
}
}
/*
* Helper function to convert user passes
*/
static void
mode_parse_upass(struct ParseState *state, int *flag_p)
{
char *t_str;
if (MyUser(state->sptr) && state->max_args <= 0) /* drop if too many args */
return;
if (state->parc <= 0) { /* warn if not enough args */
if (MyUser(state->sptr))
need_more_params(state->sptr, state->dir == MODE_ADD ? "MODE +U" :
"MODE -U");
return;
}
t_str = state->parv[state->args_used++]; /* grab arg */
state->parc--;
state->max_args--;
/* If they're not an oper, they can't change modes */
if (state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) {
send_notoper(state);
return;
}
/* If a non-service user is trying to force it, refuse. */
if (state->flags & MODE_PARSE_FORCE && MyUser(state->sptr)
&& !HasPriv(state->sptr, PRIV_APASS_OPMODE)) {
send_reply(state->sptr, ERR_NOTMANAGER, state->chptr->chname,
state->chptr->chname);
return;
}
/* If they are not the channel manager, they are not allowed to change it */
if (MyUser(state->sptr) && !(state->flags & MODE_PARSE_FORCE || IsChannelManager(state->member))) {
if (*state->chptr->mode.apass) {
send_reply(state->sptr, ERR_NOTMANAGER, state->chptr->chname,
state->chptr->chname);
} else {
send_reply(state->sptr, ERR_NOMANAGER, state->chptr->chname,
(TStime() - state->chptr->creationtime < 172800) ?
"approximately 4-5 minutes" : "approximately 48 hours");
}
return;
}
/* allow removing and then adding upass, but not adding and then removing */
if (state->dir == MODE_ADD)
{
if (state->done & DONE_UPASS_ADD)
return;
state->done |= DONE_UPASS_ADD;
}
else
{
if (state->done & (DONE_UPASS_ADD | DONE_UPASS_DEL))
return;
state->done |= DONE_UPASS_DEL;
}
/* If the Upass is invalid, tell the user and bail. */
if (!is_clean_key(state, t_str, state->dir == MODE_ADD ? "MODE +U" :
"MODE -U"))
return;
if (!state->mbuf)
return;
if (!(state->flags & MODE_PARSE_FORCE)) {
/* can't add the upass while apass is not set */
if (state->dir == MODE_ADD && !*state->chptr->mode.apass) {
send_reply(state->sptr, ERR_UPASSNOTSET, state->chptr->chname, state->chptr->chname);
return;
}
/* cannot set a +U password that is the same as +A */
if (state->dir == MODE_ADD && !ircd_strcmp(state->chptr->mode.apass, t_str)) {
send_reply(state->sptr, ERR_UPASS_SAME_APASS, state->chptr->chname);
return;
}
/* can't add a upass if one is set, nor can one remove the wrong upass */
if ((state->dir == MODE_ADD && *state->chptr->mode.upass) ||
(state->dir == MODE_DEL &&
ircd_strcmp(state->chptr->mode.upass, t_str))) {
send_reply(state->sptr, ERR_KEYSET, state->chptr->chname);
return;
}
}
if (!(state->flags & MODE_PARSE_WIPEOUT) && state->dir == MODE_ADD &&
!ircd_strcmp(state->chptr->mode.upass, t_str))
return; /* no upass change */
/* Skip if this is a burst, we have a Upass already and the new Upass is
* after the old one alphabetically */
if ((state->flags & MODE_PARSE_BURST) &&
*(state->chptr->mode.upass) &&
ircd_strcmp(state->chptr->mode.upass, t_str) <= 0)
return;
if (state->flags & MODE_PARSE_BOUNCE) {
if (*state->chptr->mode.upass) /* reset old upass */
modebuf_mode_string(state->mbuf, MODE_DEL | flag_p[0],
state->chptr->mode.upass, 0);
else /* remove new bogus upass */
modebuf_mode_string(state->mbuf, MODE_ADD | flag_p[0], t_str, 0);
} else /* send new upass */
modebuf_mode_string(state->mbuf, state->dir | flag_p[0], t_str, 0);
if (state->flags & MODE_PARSE_SET) {
if (state->dir == MODE_DEL) /* remove the old upass */
*state->chptr->mode.upass = '\0';
else
ircd_strncpy(state->chptr->mode.upass, t_str, KEYLEN + 1);
}
}
/*
* Helper function to convert admin passes
*/
static void
mode_parse_apass(struct ParseState *state, int *flag_p)
{
struct Membership *memb;
char *t_str;
if (MyUser(state->sptr) && state->max_args <= 0) /* drop if too many args */
return;
if (state->parc <= 0) { /* warn if not enough args */
if (MyUser(state->sptr))
need_more_params(state->sptr, state->dir == MODE_ADD ? "MODE +A" :
"MODE -A");
return;
}
t_str = state->parv[state->args_used++]; /* grab arg */
state->parc--;
state->max_args--;
/* If they're not an oper, they can't change modes */
if (state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) {
send_notoper(state);
return;
}
if (MyUser(state->sptr)) {
if (state->flags & MODE_PARSE_FORCE) {
/* If an unprivileged oper is trying to force it, refuse. */
if (!HasPriv(state->sptr, PRIV_APASS_OPMODE)) {
send_reply(state->sptr, ERR_NOTMANAGER, state->chptr->chname,
state->chptr->chname);
return;
}
} else {
/* If they are not the channel manager, they are not allowed to change it. */
if (!IsChannelManager(state->member)) {
if (*state->chptr->mode.apass) {
send_reply(state->sptr, ERR_NOTMANAGER, state->chptr->chname,
state->chptr->chname);
} else {
send_reply(state->sptr, ERR_NOMANAGER, state->chptr->chname,
(TStime() - state->chptr->creationtime < 172800) ?
"approximately 4-5 minutes" : "approximately 48 hours");
}
return;
}
/* Can't remove the Apass while Upass is still set. */
if (state->dir == MODE_DEL && *state->chptr->mode.upass) {
send_reply(state->sptr, ERR_UPASSSET, state->chptr->chname, state->chptr->chname);
return;
}
/* Can't add an Apass if one is set, nor can one remove the wrong Apass. */
if ((state->dir == MODE_ADD && *state->chptr->mode.apass) ||
(state->dir == MODE_DEL && ircd_strcmp(state->chptr->mode.apass, t_str))) {
send_reply(state->sptr, ERR_KEYSET, state->chptr->chname);
return;
}
}
/* Forbid removing the Apass if the channel is older than 48 hours
* unless an oper is doing it. */
if (TStime() - state->chptr->creationtime >= 172800
&& state->dir == MODE_DEL
&& !IsAnOper(state->sptr)) {
send_reply(state->sptr, ERR_CHANSECURED, state->chptr->chname);
return;
}
}
/* allow removing and then adding apass, but not adding and then removing */
if (state->dir == MODE_ADD)
{
if (state->done & DONE_APASS_ADD)
return;
state->done |= DONE_APASS_ADD;
}
else
{
if (state->done & (DONE_APASS_ADD | DONE_APASS_DEL))
return;
state->done |= DONE_APASS_DEL;
}
/* If the Apass is invalid, tell the user and bail. */
if (!is_clean_key(state, t_str, state->dir == MODE_ADD ? "MODE +A" :
"MODE -A"))
return;
if (!state->mbuf)
return;
if (!(state->flags & MODE_PARSE_WIPEOUT) && state->dir == MODE_ADD &&
!ircd_strcmp(state->chptr->mode.apass, t_str))
return; /* no apass change */
/* Skip if this is a burst, we have an Apass already and the new Apass is
* after the old one alphabetically */
if ((state->flags & MODE_PARSE_BURST) &&
*(state->chptr->mode.apass) &&
ircd_strcmp(state->chptr->mode.apass, t_str) <= 0)
return;
if (state->flags & MODE_PARSE_BOUNCE) {
if (*state->chptr->mode.apass) /* reset old apass */
modebuf_mode_string(state->mbuf, MODE_DEL | flag_p[0],
state->chptr->mode.apass, 0);
else /* remove new bogus apass */
modebuf_mode_string(state->mbuf, MODE_ADD | flag_p[0], t_str, 0);
} else /* send new apass */
modebuf_mode_string(state->mbuf, state->dir | flag_p[0], t_str, 0);
if (state->flags & MODE_PARSE_SET) {
if (state->dir == MODE_ADD) { /* set the new apass */
/* Only accept the new apass if there is no current apass or
* this is a BURST. */
if (state->chptr->mode.apass[0] == '\0' ||
(state->flags & MODE_PARSE_BURST))
ircd_strncpy(state->chptr->mode.apass, t_str, KEYLEN + 1);
/* Make it VERY clear to the user that this is a one-time password */
if (MyUser(state->sptr)) {
send_reply(state->sptr, RPL_APASSWARN_SET, state->chptr->mode.apass);
send_reply(state->sptr, RPL_APASSWARN_SECRET, state->chptr->chname,
state->chptr->mode.apass);
}
/* Give the channel manager level 0 ops.
There should not be tested for IsChannelManager here because
on the local server it is impossible to set the apass if one
isn't a channel manager and remote servers might need to sync
the oplevel here: when someone creates a channel (and becomes
channel manager) during a net.break, and only sets the Apass
after the net rejoined, they will have oplevel MAXOPLEVEL on
all remote servers. */
if (state->member)
SetOpLevel(state->member, 0);
} else { /* remove the old apass */
*state->chptr->mode.apass = '\0';
/* Clear Upass so that there is never a Upass set when a zannel is burst. */
*state->chptr->mode.upass = '\0';
if (MyUser(state->sptr))
send_reply(state->sptr, RPL_APASSWARN_CLEAR);
/* Revert everyone to MAXOPLEVEL. */
for (memb = state->chptr->members; memb; memb = memb->next_member) {
if (memb->status & MODE_CHANOP)
SetOpLevel(memb, MAXOPLEVEL);
}
}
}
}
/** Compare one ban's extent to another.
* This works very similarly to mmatch() but it knows about CIDR masks
* and ban exceptions. If both bans are CIDR-based, compare their
* address bits; otherwise, use mmatch().
* @param[in] old_ban One ban.
* @param[in] new_ban Another ban.
* @return Zero if \a old_ban is a superset of \a new_ban, non-zero otherwise.
*/
static int
bmatch(struct Ban *old_ban, struct Ban *new_ban)
{
int res;
assert(old_ban != NULL);
assert(new_ban != NULL);
/* A ban is never treated as a superset of an exception. */
if (!(old_ban->flags & BAN_EXCEPTION)
&& (new_ban->flags & BAN_EXCEPTION))
return 1;
/* If either is not an address mask, match the text masks. */
if ((old_ban->flags & new_ban->flags & BAN_IPMASK) == 0)
return mmatch(old_ban->banstr, new_ban->banstr);
/* If the old ban has a longer prefix than new, it cannot be a superset. */
if (old_ban->addrbits > new_ban->addrbits)
return 1;
/* Compare the masks before the hostname part. */
old_ban->banstr[old_ban->nu_len] = new_ban->banstr[new_ban->nu_len] = '\0';
res = mmatch(old_ban->banstr, new_ban->banstr);
old_ban->banstr[old_ban->nu_len] = new_ban->banstr[new_ban->nu_len] = '@';
if (res)
return res;
/* If the old ban's mask mismatches, cannot be a superset. */
if (!ipmask_check(&new_ban->address, &old_ban->address, old_ban->addrbits))
return 1;
/* Otherwise it depends on whether the old ban's text is a superset
* of the new. */
return mmatch(old_ban->banstr, new_ban->banstr);
}
/** Add a ban from a ban list and mark bans that should be removed
* because they overlap.
*
* There are three invariants for a ban list. First, no ban may be
* more specific than another ban. Second, no exception may be more
* specific than another exception. Finally, no ban may be more
* specific than any exception.
*
* @param[in,out] banlist Pointer to head of list.
* @param[in] newban Ban (or exception) to add (or remove).
* @param[in] do_free If non-zero, free \a newban on failure.
* @return Zero if \a newban could be applied, non-zero if not.
*/
int apply_ban(struct Ban **banlist, struct Ban *newban, int do_free)
{
struct Ban *ban;
//size_t count = 0;
assert(newban->flags & (BAN_ADD|BAN_DEL));
if (newban->flags & BAN_ADD) {
//size_t totlen = 0;
/* If a less specific *active* entry is found, fail. */
for (ban = *banlist; ban; ban = ban->next) {
if (!bmatch(ban, newban) && !(ban->flags & BAN_DEL)) {
if (do_free)
free_ban(newban);
return 1;
}
//if (!(ban->flags & (BAN_OVERLAPPED|BAN_DEL))) {
// count++;
// totlen += strlen(ban->banstr);
//}
}
/* Mark more specific entries and add this one to the end of the list. */
while ((ban = *banlist) != NULL) {
if (!bmatch(newban, ban)) {
ban->flags |= BAN_OVERLAPPED | BAN_DEL;
}
banlist = &ban->next;
}
*banlist = newban;
return 0;
} else if (newban->flags & BAN_DEL) {
size_t remove_count = 0;
/* Mark more specific entries. */
for (ban = *banlist; ban; ban = ban->next) {
if (!bmatch(newban, ban)) {
ban->flags |= BAN_OVERLAPPED | BAN_DEL;
remove_count++;
}
}
if (remove_count)
return 0;
/* If no matches were found, fail. */
if (do_free)
free_ban(newban);
return 3;
}
if (do_free)
free_ban(newban);
return 4;
}
/** Add a ban exception from a ban exception list and mark ban
* exceptions that should be removed because they overlap.
*
* @param[in,out] exceptlist Pointer to head of list.
* @param[in] newban Ban exception to add (or remove).
* @param[in] do_free If non-zero, free \a newban on failure.
* @return Zero if \a newban could be applied, non-zero if not.
*/
int apply_except(struct Ban **exceptlist, struct Ban *newban, int do_free)
{
struct Ban *ban;
//size_t count = 0;
assert(newban->flags & (BAN_ADD|BAN_DEL));
if (newban->flags & BAN_ADD) {
//size_t totlen = 0;
/* If a less specific *active* entry is found, fail. */
for (ban = *exceptlist; ban; ban = ban->next) {
if (!bmatch(ban, newban) && !(ban->flags & BAN_DEL)) {
if (do_free)
free_ban(newban);
return 1;
}
//if (!(ban->flags & (BAN_OVERLAPPED|BAN_DEL))) {
// count++;
// totlen += strlen(ban->banstr);
//}
}
/* Mark more specific entries and add this one to the end of the list. */
while ((ban = *exceptlist) != NULL) {
if (!bmatch(newban, ban)) {
ban->flags |= BAN_OVERLAPPED | BAN_DEL;
}
exceptlist = &ban->next;
}
*exceptlist = newban;
return 0;
} else if (newban->flags & BAN_DEL) {
size_t remove_count = 0;
/* Mark more specific entries. */
for (ban = *exceptlist; ban; ban = ban->next) {
if (!bmatch(newban, ban)) {
ban->flags |= BAN_OVERLAPPED | BAN_DEL;
remove_count++;
}
}
if (remove_count)
return 0;
/* If no matches were found, fail. */
if (do_free)
free_ban(newban);
return 3;
}
if (do_free)
free_ban(newban);
return 4;
}
/*
* Helper function to convert bans
*/
static void
mode_parse_ban(struct ParseState *state, int *flag_p)
{
char *t_str, *s, *pmask;
struct Ban *ban, *newban;
if (state->parc <= 0) { /* Not enough args, send ban list */
if (MyUser(state->sptr) && !(state->done & DONE_BANLIST)) {
send_ban_list(state->sptr, state->chptr);
state->done |= DONE_BANLIST;
}
return;
}
if (MyUser(state->sptr) && state->max_args <= 0) /* drop if too many args */
return;
t_str = state->parv[state->args_used++]; /* grab arg */
state->parc--;
state->max_args--;
/* If they're not an oper, they can't change modes */
if ((state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) &&
!(state->flags & MODE_PARSE_ISHALFOP)) {
send_notoper(state);
return;
}
if ((s = strchr(t_str, ' ')))
*s = '\0';
if (!*t_str || *t_str == ':') { /* warn if empty */
if (MyUser(state->sptr))
need_more_params(state->sptr, state->dir == MODE_ADD ? "MODE +b" :
"MODE -b");
return;
}
if (!(pmask = pretty_extmask(t_str)))
return;
/* Clear all ADD/DEL/OVERLAPPED flags from ban list. */
if (!(state->done & DONE_BANCLEAN)) {
for (ban = state->chptr->banlist; ban; ban = ban->next)
ban->flags &= ~(BAN_ADD | BAN_DEL | BAN_OVERLAPPED);
state->done |= DONE_BANCLEAN;
}
/* remember the ban for the moment... */
newban = state->banlist + (state->numbans++);
newban->next = 0;
newban->flags = ((state->dir == MODE_ADD) ? BAN_ADD : BAN_DEL)
| (*flag_p == MODE_BAN ? 0 : BAN_EXCEPTION);
set_ban_mask(newban, pmask);
ircd_strncpy(newban->who, IsUser(state->sptr) ? cli_name(state->sptr) : "*", NICKLEN + 1);
newban->when = TStime();
apply_ban(&state->chptr->banlist, newban, 0);
}
/*
* This is the bottom half of the ban processor
*/
static void
mode_process_bans(struct ParseState *state)
{
struct Ban *ban, *newban, *prevban, *nextban;
int count = 0;
int len = 0;
int banlen;
int changed = 0;
int isjban = 0;
int extjbans = 0;
for (prevban = 0, ban = state->chptr->banlist; ban; ban = nextban) {
count++;
banlen = strlen(ban->banstr);
len += banlen;
nextban = ban->next;
isjban = ((ban->flags & BAN_EXTENDED) && (ban->extban.flags & EBAN_JOIN) ? 1 : 0);
if (isjban)
extjbans++;
if ((ban->flags & (BAN_DEL | BAN_ADD)) == (BAN_DEL | BAN_ADD)) {
if (prevban)
prevban->next = 0; /* Break the list; ban isn't a real ban */
else
state->chptr->banlist = 0;
if (isjban)
extjbans--;
count--;
len -= banlen;
continue;
} else if (ban->flags & BAN_DEL) { /* Deleted a ban? */
char *bandup;
DupString(bandup, ban->banstr);
modebuf_mode_string(state->mbuf, MODE_DEL | MODE_BAN,
bandup, 1);
if (state->flags & MODE_PARSE_SET) { /* Ok, make it take effect */
if (prevban) /* clip it out of the list... */
prevban->next = ban->next;
else
state->chptr->banlist = ban->next;
if (isjban)
extjbans--;
count--;
len -= banlen;
free_ban(ban);
changed++;
continue; /* next ban; keep prevban like it is */
} else
ban->flags &= BAN_IPMASK | BAN_EXTENDED; /* unset other flags */
} else if (ban->flags & BAN_ADD) { /* adding a ban? */
if (prevban)
prevban->next = 0; /* Break the list; ban isn't a real ban */
else
state->chptr->banlist = 0;
/* If we're supposed to ignore it, do so. */
if (ban->flags & BAN_OVERLAPPED &&
!(state->flags & MODE_PARSE_BOUNCE)) {
if (isjban)
extjbans--;
count--;
len -= banlen;
} else {
if (state->flags & MODE_PARSE_SET && MyUser(state->sptr) &&
!(state->mbuf->mb_dest & MODEBUF_DEST_OPMODE) &&
(len > (feature_int(FEAT_AVBANLEN) * feature_int(FEAT_MAXBANS)) ||
count > feature_int(FEAT_MAXBANS))) {
send_reply(state->sptr, ERR_BANLISTFULL, state->chptr->chname,
ban->banstr);
if (isjban)
extjbans--;
count--;
len -= banlen;
} else if ((state->flags & MODE_PARSE_SET) && MyUser(state->sptr) &&
(ban->flags & BAN_EXTENDED) && !check_extban_feats(&ban->extban)) {
if (isjban)
extjbans--;
count--;
len -= banlen;
} else if ((state->flags & MODE_PARSE_SET) && MyUser(state->sptr) && isjban &&
((extjbans > feature_int(FEAT_EXTBAN_j_MAXPERCHAN)) ||
!ircd_strcmp(ban->extban.mask, state->chptr->chname))) {
extjbans--;
count--;
len -= banlen;
} else {
char *bandup;
/* add the ban to the buffer */
DupString(bandup, ban->banstr);
modebuf_mode_string(state->mbuf, MODE_ADD | MODE_BAN,
bandup, 1);
if (state->flags & MODE_PARSE_SET) { /* create a new ban */
newban = make_ban(ban->banstr);
strcpy(newban->who, ban->who);
newban->when = ban->when;
newban->flags = ban->flags & (BAN_IPMASK | BAN_EXTENDED);
newban->next = state->chptr->banlist; /* and link it in */
state->chptr->banlist = newban;
changed++;
}
}
}
}
prevban = ban;
} /* for (prevban = 0, ban = state->chptr->banlist; ban; ban = nextban) { */
if (changed) /* if we changed the ban list, we must invalidate the bans */
mode_ban_invalidate(state->chptr);
}
/*
* Helper function to convert ban exceptions
*/
static void
mode_parse_except(struct ParseState *state, int *flag_p)
{
char *t_str, *s, *pmask;
struct Ban *ban, *newban;
if (state->parc <= 0) { /* Not enough args, send ban exception list */
if (MyUser(state->sptr) && !(state->done & DONE_EXCEPTLIST)) {
send_except_list(state->sptr, state->chptr);
state->done |= DONE_EXCEPTLIST;
}
return;
}
if (MyUser(state->sptr) && state->max_args <= 0) /* drop if too many args */
return;
t_str = state->parv[state->args_used++]; /* grab arg */
state->parc--;
state->max_args--;
/* If they're not an oper, they can't change modes */
if (state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) {
send_notoper(state);
return;
}
if ((s = strchr(t_str, ' ')))
*s = '\0';
if (!*t_str || *t_str == ':') { /* warn if empty */
if (MyUser(state->sptr))
need_more_params(state->sptr, state->dir == MODE_ADD ? "MODE +b" :
"MODE -b");
return;
}
if (!(pmask = pretty_extmask(t_str)))
return;
/* Clear all ADD/DEL/OVERLAPPED flags from ban exception list. */
if (!(state->done & DONE_EXCEPTCLEAN)) {
for (ban = state->chptr->exceptlist; ban; ban = ban->next)
ban->flags &= ~(BAN_ADD | BAN_DEL | BAN_OVERLAPPED);
state->done |= DONE_EXCEPTCLEAN;
}
/* remember the ban exception for the moment... */
newban = state->exceptlist + (state->numbans++);
newban->next = 0;
newban->flags = ((state->dir == MODE_ADD) ? BAN_ADD : BAN_DEL)
| (*flag_p == MODE_EXCEPT ? 0 : BAN_EXCEPTION);
set_ban_mask(newban, pmask);
ircd_strncpy(newban->who, IsUser(state->sptr) ? cli_name(state->sptr) : "*", NICKLEN + 1);
newban->when = TStime();
apply_except(&state->chptr->exceptlist, newban, 0);
}
/*
* This is the bottom half of the ban exception processor
*/
static void
mode_process_excepts(struct ParseState *state)
{
struct Ban *ban, *newban, *prevban, *nextban;
int count = 0;
int len = 0;
int banlen;
int changed = 0;
int isjban = 0;
int extjbans = 0;
for (prevban = 0, ban = state->chptr->exceptlist; ban; ban = nextban) {
count++;
banlen = strlen(ban->banstr);
len += banlen;
nextban = ban->next;
isjban = ((ban->flags & BAN_EXTENDED) && (ban->extban.flags & EBAN_JOIN) ? 1 : 0);
if (isjban)
extjbans++;
if ((ban->flags & (BAN_DEL | BAN_ADD)) == (BAN_DEL | BAN_ADD)) {
if (prevban)
prevban->next = 0; /* Break the list; ban isn't a real ban exception */
else
state->chptr->exceptlist = 0;
if (isjban)
extjbans--;
count--;
len -= banlen;
continue;
} else if (ban->flags & BAN_DEL) { /* Deleted a ban exception? */
char *bandup;
DupString(bandup, ban->banstr);
modebuf_mode_string(state->mbuf, MODE_DEL | MODE_EXCEPT,
bandup, 1);
if (state->flags & MODE_PARSE_SET) { /* Ok, make it take effect */
if (prevban) /* clip it out of the list... */
prevban->next = ban->next;
else
state->chptr->exceptlist = ban->next;
if (isjban)
extjbans--;
count--;
len -= banlen;
free_ban(ban);
changed++;
continue; /* next ban exception; keep prevban like it is */
} else
ban->flags &= (BAN_IPMASK | BAN_EXTENDED); /* unset other flags */
} else if (ban->flags & BAN_ADD) { /* adding a ban exception? */
if (prevban)
prevban->next = 0; /* Break the list; ban isn't a real ban exception */
else
state->chptr->exceptlist = 0;
/* If we're supposed to ignore it, do so. */
if (ban->flags & BAN_OVERLAPPED &&
!(state->flags & MODE_PARSE_BOUNCE)) {
if (isjban)
extjbans--;
count--;
len -= banlen;
} else {
if (state->flags & MODE_PARSE_SET && MyUser(state->sptr) &&
!(state->mbuf->mb_dest & MODEBUF_DEST_OPMODE) &&
(len > (feature_int(FEAT_AVEXCEPTLEN) * feature_int(FEAT_MAXEXCEPTS)) ||
count > feature_int(FEAT_MAXEXCEPTS))) {
send_reply(state->sptr, ERR_EXCEPTLISTFULL, state->chptr->chname,
ban->banstr);
if (isjban)
extjbans--;
count--;
len -= banlen;
} else if ((state->flags & MODE_PARSE_SET) && MyUser(state->sptr) &&
(ban->flags & BAN_EXTENDED) && !check_extban_feats(&ban->extban)) {
if (isjban)
extjbans--;
count--;
len -= banlen;
} else if ((state->flags & MODE_PARSE_SET) && MyUser(state->sptr) && isjban &&
((extjbans > feature_int(FEAT_EXTBAN_j_MAXPERCHAN)) ||
!ircd_strcmp(ban->extban.mask, state->chptr->chname))) {
extjbans--;
count--;
len -= banlen;
} else {
char *bandup;
/* add the ban exception to the buffer */
DupString(bandup, ban->banstr);
modebuf_mode_string(state->mbuf, MODE_ADD | MODE_EXCEPT,
bandup, 1);
if (state->flags & MODE_PARSE_SET) { /* create a new ban exception */
newban = make_ban(ban->banstr);
strcpy(newban->who, ban->who);
newban->when = ban->when;
newban->flags = ban->flags & (BAN_IPMASK | BAN_EXTENDED);
newban->next = state->chptr->exceptlist; /* and link it in */
state->chptr->exceptlist = newban;
changed++;
}
}
}
}
prevban = ban;
} /* for (prevban = 0, ban = state->chptr->exceptlist; ban; ban = nextban) { */
if (changed) /* if we changed the except list, we must invalidate the ban exceptions */
mode_except_invalidate(state->chptr);
}
static void
mode_parse_dummy(struct ParseState *state, int *flag_p)
{
if (MyUser(state->sptr) && state->max_args <= 0) /* drop if too many args */
return;
if (state->parc <= 0) /* return if not enough args */
return;
state->args_used++;
state->parc--;
state->max_args--;
return;
}
/*
* Helper function to process client changes
*/
static void
mode_parse_client(struct ParseState *state, int *flag_p)
{
char *t_str;
char *colon;
struct Client *acptr;
struct Membership *member;
int oplevel = MAXOPLEVEL + 1;
int req_oplevel;
int notoper = 0;
int i;
if (MyUser(state->sptr) && state->max_args <= 0) /* drop if too many args */
return;
if (state->parc <= 0) /* return if not enough args */
return;
t_str = state->parv[state->args_used++]; /* grab arg */
state->parc--;
state->max_args--;
/* If they're not an oper, they can't change modes */
if ((state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) &&
!((*flag_p == MODE_VOICE) && (state->flags & MODE_PARSE_ISHALFOP)))
notoper = 1;
if (notoper && (state->dir != MODE_DEL)) {
send_notoper(state);
return;
}
if (MyUser(state->sptr)) {
colon = strchr(t_str, ':');
if (colon != NULL) {
*colon++ = '\0';
req_oplevel = atoi(colon);
if (*flag_p == CHFL_VOICE || *flag_p == CHFL_HALFOP || state->dir == MODE_DEL) {
/* Ignore the colon and its argument. */
} else if (!(state->flags & MODE_PARSE_FORCE)
&& state->member
&& (req_oplevel < OpLevel(state->member)
|| (req_oplevel == OpLevel(state->member)
&& OpLevel(state->member) < MAXOPLEVEL)
|| req_oplevel > MAXOPLEVEL)) {
send_reply(state->sptr, ERR_NOTLOWEROPLEVEL,
t_str, state->chptr->chname,
OpLevel(state->member), req_oplevel, "op",
OpLevel(state->member) == req_oplevel ? "the same" : "a higher");
} else if (req_oplevel <= MAXOPLEVEL)
oplevel = req_oplevel;
}
/* find client we're manipulating */
acptr = find_chasing(state->sptr, t_str, NULL);
} else {
if (t_str[5] == ':') {
t_str[5] = '\0';
oplevel = atoi(t_str + 6);
}
acptr = findNUser(t_str);
}
if (!acptr)
return; /* find_chasing() already reported an error to the user */
if (notoper && (state->dir == MODE_DEL) &&
!((state->sptr == acptr) && (*flag_p == CHFL_HALFOP) && feature_bool(FEAT_HALFOP_DEHALFOP_SELF))) {
send_notoper(state);
return;
}
for (i = 0; i < MAXPARA; i++) /* find an element to stick them in */
if (!state->cli_change[i].flag || (state->cli_change[i].client == acptr &&
state->cli_change[i].flag & flag_p[0]))
break; /* found a slot */
/* If we are going to bounce this deop, mark the correct oplevel. */
if (state->flags & MODE_PARSE_BOUNCE
&& state->dir == MODE_DEL
&& flag_p[0] == MODE_CHANOP
&& (member = find_member_link(state->chptr, acptr)))
oplevel = OpLevel(member);
/* Store what we're doing to them */
state->cli_change[i].flag = state->dir | flag_p[0];
state->cli_change[i].oplevel = oplevel;
state->cli_change[i].client = acptr;
}
/*
* Helper function to process the changed client list
*/
static void
mode_process_clients(struct ParseState *state)
{
int i;
int newoplevel = MAXOPLEVEL + 1;
struct Membership *member;
for (i = 0; state->cli_change[i].flag; i++) {
assert(0 != state->cli_change[i].client);
/* look up member link */
if (!(member = find_member_link(state->chptr,
state->cli_change[i].client)) ||
(MyUser(state->sptr) && IsZombie(member))) {
if (MyUser(state->sptr))
send_reply(state->sptr, ERR_USERNOTINCHANNEL,
cli_name(state->cli_change[i].client),
state->chptr->chname);
continue;
}
newoplevel = MAXOPLEVEL + 1;
/* get op-level for member being opped */
if ((state->cli_change[i].flag & (MODE_ADD | MODE_CHANOP)) ==
(MODE_ADD | MODE_CHANOP)) {
/* If a valid oplevel was specified, use it.
* Otherwise, if being opped by an outsider, get MAXOPLEVEL.
* Otherwise, if not an apass channel, or state->member has
* MAXOPLEVEL, get oplevel MAXOPLEVEL.
* Otherwise, get state->member's oplevel+1.
*/
if (state->cli_change[i].oplevel <= MAXOPLEVEL)
newoplevel = state->cli_change[i].oplevel;
else if (!state->member)
newoplevel = MAXOPLEVEL;
else if (OpLevel(state->member) >= MAXOPLEVEL)
newoplevel = OpLevel(state->member);
else
newoplevel = OpLevel(state->member) + 1;
}
if ((state->cli_change[i].flag & MODE_ADD &&
(state->cli_change[i].flag & member->status) &&
(!feature_bool(FEAT_ALLOW_OPLEVEL_CHANGE) ||
(newoplevel == member->oplevel))) ||
(state->cli_change[i].flag & MODE_DEL &&
!(state->cli_change[i].flag & member->status)))
continue; /* no change made, don't do anything */
/* see if the deop is allowed */
if ((state->cli_change[i].flag & (MODE_DEL | MODE_CHANOP)) ==
(MODE_DEL | MODE_CHANOP)) {
/* prevent +k users from being deopped */
if ((IsChannelService(state->cli_change[i].client) && IsService(cli_user(state->cli_change[i].client)->server))
|| (IsChannelService(state->cli_change[i].client) && !IsXtraOp(state->sptr))) {
if (state->flags & MODE_PARSE_FORCE) /* it was forced */
sendto_opmask_butone(0, SNO_HACK4, "Deop of +k user on %H by %s",
state->chptr,
(IsServer(state->sptr) ? cli_name(state->sptr) :
cli_name((cli_user(state->sptr))->server)));
else if (MyUser(state->sptr) && state->flags & MODE_PARSE_SET) {
if(IsService(cli_user(state->cli_change[i].client)->server) && IsChannelService(state->cli_change[i].client)){
send_reply(state->sptr, ERR_ISCHANSERVICE,
cli_name(state->cli_change[i].client),
state->chptr->chname, "a network service");
}else{
send_reply(state->sptr, ERR_ISCHANSERVICE,
cli_name(state->cli_change[i].client),
state->chptr->chname, "an IRC operator");
}
continue;
}
}
/* check deop for local user */
if (MyUser(state->sptr)) {
/* don't allow local opers to be deopped on local channels */
if (state->cli_change[i].client != state->sptr &&
IsLocalChannel(state->chptr->chname) &&
HasPriv(state->cli_change[i].client, PRIV_DEOP_LCHAN)) {
send_reply(state->sptr, ERR_ISOPERLCHAN,
cli_name(state->cli_change[i].client),
state->chptr->chname);
continue;
}
/* Forbid deopping other members with an oplevel less than
* one's own level, and other members with an oplevel the same
* as one's own unless both are at MAXOPLEVEL. */
if (state->sptr != state->cli_change[i].client
&& state->member
&& ((OpLevel(member) < OpLevel(state->member))
|| (OpLevel(member) == OpLevel(state->member)
&& OpLevel(member) < MAXOPLEVEL))) {
int equal = (OpLevel(member) == OpLevel(state->member));
send_reply(state->sptr, ERR_NOTLOWEROPLEVEL,
cli_name(state->cli_change[i].client),
state->chptr->chname,
OpLevel(state->member), OpLevel(member),
"deop", equal ? "the same" : "a higher");
continue;
}
}
}
/* set op-level of member being opped */
if ((state->cli_change[i].flag & (MODE_ADD | MODE_CHANOP)) ==
(MODE_ADD | MODE_CHANOP)) {
SetOpLevel(member, newoplevel);
}
/* actually effect the change */
if (state->flags & MODE_PARSE_SET) {
if (state->cli_change[i].flag & MODE_ADD) {
if (IsDelayedJoin(member) && !IsZombie(member))
RevealDelayedJoin(member);
member->status |= (state->cli_change[i].flag &
(MODE_CHANOP | MODE_HALFOP | MODE_VOICE));
if (state->cli_change[i].flag & MODE_CHANOP)
ClearDeopped(member);
} else
member->status &= ~(state->cli_change[i].flag &
(MODE_CHANOP | MODE_HALFOP | MODE_VOICE));
}
/* accumulate the change */
modebuf_mode_client(state->mbuf, state->cli_change[i].flag,
state->cli_change[i].client,
state->cli_change[i].oplevel);
} /* for (i = 0; state->cli_change[i].flags; i++) */
}
/*
* Helper function to process the simple modes
*/
static void
mode_parse_mode(struct ParseState *state, int *flag_p)
{
/* If they're not an oper, they can't change modes */
if (state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) {
send_notoper(state);
return;
}
if (!state->mbuf)
return;
/* Local users are not permitted to change registration status */
if (flag_p[0] == MODE_REGISTERED && !(state->flags & MODE_PARSE_FORCE) &&
MyUser(state->sptr))
return;
if (state->dir == MODE_ADD) {
state->add |= flag_p[0];
state->del &= ~flag_p[0];
if (flag_p[0] & MODE_SECRET) {
state->add &= ~MODE_PRIVATE;
state->del |= MODE_PRIVATE;
} else if (flag_p[0] & MODE_PRIVATE) {
state->add &= ~MODE_SECRET;
state->del |= MODE_SECRET;
}
} else {
state->add &= ~flag_p[0];
state->del |= flag_p[0];
}
assert(0 == (state->add & state->del));
assert((MODE_SECRET | MODE_PRIVATE) !=
(state->add & (MODE_SECRET | MODE_PRIVATE)));
}
static void
mode_parse_exmode(struct ParseState *state, int *flag_p)
{
/* If they're not an oper, they can't change modes */
if (state->flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER)) {
send_notoper(state);
return;
}
if (!state->mbuf)
return;
if (state->dir == MODE_ADD) {
state->exadd |= flag_p[0];
state->exdel &= ~flag_p[0];
if (flag_p[0] & EXMODE_STRIPCOLOR) {
state->exadd &= ~EXMODE_NOCOLOR;
state->exdel |= EXMODE_NOCOLOR;
} else if (flag_p[0] & EXMODE_NOCOLOR) {
state->exadd &= ~EXMODE_STRIPCOLOR;
state->exdel |= EXMODE_STRIPCOLOR;
}
} else {
state->exadd &= ~flag_p[0];
state->exdel |= flag_p[0];
}
assert(0 == (state->exadd & state->exdel));
}
/**
* This routine is intended to parse MODE or OPMODE commands and effect the
* changes (or just build the bounce buffer).
*
* \param[out] mbuf Receives parsed representation of mode change.
* \param[in] cptr Connection that sent the message to this server.
* \param[in] sptr Original source of the message.
* \param[in] chptr Channel whose modes are being changed.
* \param[in] parc Number of valid strings in \a parv.
* \param[in] parv Text arguments representing mode change, with the
* zero'th element containing a string like "+m" or "-o".
* \param[in] flags Set of bitwise MODE_PARSE_* flags.
* \param[in] member If non-null, the channel member attempting to change the modes.
*/
int
mode_parse(struct ModeBuf *mbuf, struct Client *cptr, struct Client *sptr,
struct Channel *chptr, int parc, char *parv[], unsigned int flags,
struct Membership* member)
{
static int chan_flags[] = {
MODE_CHANOP, 'o',
MODE_HALFOP, 'h',
MODE_VOICE, 'v',
MODE_PRIVATE, 'p',
MODE_SECRET, 's',
MODE_MODERATED, 'm',
MODE_TOPICLIMIT, 't',
MODE_INVITEONLY, 'i',
MODE_NOPRIVMSGS, 'n',
MODE_KEY, 'k',
MODE_APASS, 'A',
MODE_UPASS, 'U',
MODE_REGISTERED, 'R',
MODE_BAN, 'b',
MODE_EXCEPT, 'e',
MODE_LIMIT, 'l',
MODE_REDIRECT, 'L',
MODE_REGONLY, 'r',
MODE_DELJOINS, 'D',
MODE_ADD, '+',
MODE_DEL, '-',
0x0, 0x0
};
static int chan_exflags[] = {
EXMODE_ADMINONLY, 'a',
EXMODE_OPERONLY, 'O',
EXMODE_REGMODERATED, 'M',
EXMODE_NONOTICES, 'N',
EXMODE_PERSIST, 'z',
EXMODE_SSLONLY, 'Z',
EXMODE_NOQUITPARTS, 'Q',
EXMODE_NOCTCPS, 'C',
EXMODE_NOMULTITARG, 'T',
EXMODE_NOCOLOR, 'c',
EXMODE_STRIPCOLOR, 'S',
0x0, 0x0
};
int i;
int *flag_p;
int isexflag;
unsigned int t_mode;
unsigned int t_exmode;
char *modestr;
struct ParseState state;
assert(0 != cptr);
assert(0 != sptr);
assert(0 != chptr);
assert(0 != parc);
assert(0 != parv);
state.mbuf = mbuf;
state.cptr = cptr;
state.sptr = sptr;
state.chptr = chptr;
state.member = member;
state.parc = parc;
state.parv = parv;
state.flags = flags;
state.dir = MODE_ADD;
state.done = 0;
state.add = 0;
state.exadd = 0;
state.del = 0;
state.exdel = 0;
state.args_used = 0;
state.max_args = MAXMODEPARAMS;
state.numbans = 0;
for (i = 0; i < MAXPARA; i++) { /* initialize ops/voices arrays */
state.banlist[i].next = 0;
state.banlist[i].who[0] = '\0';
state.banlist[i].when = 0;
state.banlist[i].flags = 0;
state.exceptlist[i].next = 0;
state.exceptlist[i].who[0] = '\0';
state.exceptlist[i].when = 0;
state.exceptlist[i].flags = 0;
state.cli_change[i].flag = 0;
state.cli_change[i].client = 0;
}
modestr = state.parv[state.args_used++];
state.parc--;
while (*modestr) {
for (; *modestr; modestr++) {
isexflag = 0;
for (flag_p = chan_flags; flag_p[0]; flag_p += 2) /* look up flag */
if (flag_p[1] == *modestr)
break;
if (!flag_p[0]) { /* didn't find it? try chan_exflags */
isexflag = 1;
for (flag_p = chan_exflags; flag_p[0]; flag_p += 2) /* look up flag */
if (flag_p[1] == *modestr)
break;
if (!flag_p[0]) { /* didn't find it? complain and continue */
if (MyUser(state.sptr))
send_reply(state.sptr, ERR_UNKNOWNMODE, *modestr);
continue;
}
}
switch (*modestr) {
case '+': /* switch direction to MODE_ADD */
case '-': /* switch direction to MODE_DEL */
state.dir = flag_p[0];
break;
case 'l': /* deal with limits */
mode_parse_limit(&state, flag_p);
break;
case 'L': /* deal with redirect */
mode_parse_redir(&state, flag_p);
break;
case 'k': /* deal with keys */
mode_parse_key(&state, flag_p);
break;
case 'A': /* deal with Admin passes */
if (IsServer(cptr) || feature_bool(FEAT_OPLEVELS))
mode_parse_apass(&state, flag_p);
break;
case 'U': /* deal with user passes */
if (IsServer(cptr) || feature_bool(FEAT_OPLEVELS))
mode_parse_upass(&state, flag_p);
break;
case 'b': /* deal with bans */
mode_parse_ban(&state, flag_p);
break;
case 'e': /* deal with channel exceptions */
if (IsServer(sptr) || feature_bool(FEAT_EXCEPTS))
mode_parse_except(&state, flag_p);
else
mode_parse_dummy(&state, flag_p);
break;
case 'h': /* deal with ops/halfops/voice */
if (!(feature_bool(FEAT_HALFOPS) || IsServer(sptr))) {
mode_parse_dummy(&state, flag_p);
break;
}
case 'o':
case 'v':
mode_parse_client(&state, flag_p);
break;
case 'a': /* deal with admin only */
/* If they're not an admin, they can't +/- EXMODE_ADMINONLY. */
if ((feature_bool(FEAT_CHMODE_a) && IsAdmin(sptr)) ||
IsServer(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'M': /* deal with registered + moderated */
if (feature_bool(FEAT_CHMODE_M) || IsServer(sptr) ||
IsOper(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'N': /* deal with no notices */
if (feature_bool(FEAT_CHMODE_N) || IsServer(sptr) ||
IsOper(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'O': /* deal with oper only */
/* If they're not an oper, they can't +/- EXMODE_OPERONLY. */
if ((feature_bool(FEAT_CHMODE_O) && IsOper(sptr)) ||
IsServer(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'z': /* deal with persistant (EXMODE_PERSIST) channels */
if (!IsBurst(sptr) && ((IsServer(sptr) && !IsService(sptr)) ||
(!IsServer(sptr) && !IsService(cli_user(sptr)->server))))
break;
mode_parse_exmode(&state, flag_p);
if ((state.dir == MODE_DEL) && (chptr->users == 0))
schedule_destruct_event_1m(state.chptr);
break;
case 'Z': /* deal with oper only */
/* If they're not an SSL user, they can't +/- EXMODE_SSLONLY. */
if (feature_bool(FEAT_CHMODE_Z_STRICT) && (state.dir == MODE_ADD) &&
(chptr->nonsslusers > 0) && MyUser(sptr))
send_reply(sptr, ERR_CANNOTCHANGECHANMODE, chptr->chname, "Z", "Mode cannot be set while non-SSL members are present");
else if ((feature_bool(FEAT_CHMODE_Z) && IsSSL(sptr)) ||
IsOper(sptr) || IsServer(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'Q': /* deal with strip QUIT/PART messages */
if (feature_bool(FEAT_CHMODE_Q) || IsServer(sptr) ||
IsOper(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'C': /* deal with block CTCP messages */
if (feature_bool(FEAT_CHMODE_C) || IsServer(sptr) ||
IsOper(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'T': /* deal with block multi-target messages */
if (feature_bool(FEAT_CHMODE_T) || IsServer(sptr) ||
IsOper(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'c': /* deal with block color */
if (feature_bool(FEAT_CHMODE_c) || IsServer(sptr) ||
IsOper(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
case 'S': /* deal with strip color */
if (feature_bool(FEAT_CHMODE_S) || IsServer(sptr) ||
IsOper(sptr) || IsChannelService(sptr))
mode_parse_exmode(&state, flag_p);
else
send_reply(sptr, ERR_NOPRIVILEGES);
break;
default: /* deal with other modes */
if (isexflag)
mode_parse_exmode(&state, flag_p);
else
mode_parse_mode(&state, flag_p);
break;
} /* switch (*modestr) */
} /* for (; *modestr; modestr++) */
if (state.flags & MODE_PARSE_BURST)
break; /* don't interpret any more arguments */
if (state.parc > 0) { /* process next argument in string */
modestr = state.parv[state.args_used++];
state.parc--;
/* is it a TS? */
if (IsServer(state.cptr) && !state.parc && IsDigit(*modestr)) {
time_t recv_ts;
if (!(state.flags & MODE_PARSE_SET)) /* don't set earlier TS if */
break; /* we're then going to bounce the mode! */
recv_ts = atoi(modestr);
if (recv_ts && recv_ts < state.chptr->creationtime)
state.chptr->creationtime = recv_ts; /* respect earlier TS */
else if (recv_ts > state.chptr->creationtime) {
struct Client *sserv;
/* Check whether the originating server has fully processed
* the burst to it. */
sserv = state.cptr;
if (!IsServer(sserv))
sserv = cli_user(sserv)->server;
if (IsBurstOrBurstAck(sserv)) {
/* This is a legal but unusual case; the source server
* probably just has not processed the BURST for this
* channel. It SHOULD wipe out all its modes soon, so
* silently ignore the mode change rather than send a
* bounce that could desync modes from our side (that
* have already been sent).
*/
state.mbuf->mb_add = 0;
state.mbuf->mb_exadd = 0;
state.mbuf->mb_rem = 0;
state.mbuf->mb_exrem = 0;
state.mbuf->mb_count = 0;
return state.args_used;
} else {
/* Server is desynced; bounce the mode and deop the source
* to fix it. */
state.flags &= ~MODE_PARSE_SET;
state.flags |= MODE_PARSE_BOUNCE;
state.mbuf->mb_dest &= ~(MODEBUF_DEST_CHANNEL | MODEBUF_DEST_HACK4);
state.mbuf->mb_dest |= MODEBUF_DEST_BOUNCE | MODEBUF_DEST_HACK2;
if (!IsServer(state.cptr))
state.mbuf->mb_dest |= MODEBUF_DEST_DEOP;
}
}
break; /* break out of while loop */
} else if (state.flags & MODE_PARSE_STRICT ||
(MyUser(state.sptr) && state.max_args <= 0)) {
state.parc++; /* we didn't actually gobble the argument */
state.args_used--;
break; /* break out of while loop */
}
}
} /* while (*modestr) */
/*
* the rest of the function finishes building resultant MODEs; if the
* origin isn't a member or an oper, skip it.
*/
if (!state.mbuf ||
((state.flags & (MODE_PARSE_NOTOPER | MODE_PARSE_NOTMEMBER))
&& !(state.flags & MODE_PARSE_ISHALFOP)))
return state.args_used; /* tell our parent how many args we gobbled */
t_mode = state.chptr->mode.mode;
t_exmode = state.chptr->mode.exmode;
if (state.del & t_mode) { /* delete any modes to be deleted... */
modebuf_mode(state.mbuf, MODE_DEL | (state.del & t_mode));
t_mode &= ~state.del;
}
if (state.exdel & t_exmode) { /* delete any extended modes to be deleted... */
modebuf_exmode(state.mbuf, MODE_DEL | (state.exdel & t_exmode));
t_exmode &= ~state.exdel;
}
if (state.add & ~t_mode) { /* add any modes to be added... */
modebuf_mode(state.mbuf, MODE_ADD | (state.add & ~t_mode));
t_mode |= state.add;
}
if (state.exadd & ~t_exmode) { /* add any extended modes to be added... */
modebuf_exmode(state.mbuf, MODE_ADD | (state.exadd & ~t_exmode));
t_exmode |= state.exadd;
}
if (state.flags & MODE_PARSE_SET) { /* set the channel modes */
if ((state.chptr->mode.mode & MODE_INVITEONLY) &&
!(t_mode & MODE_INVITEONLY))
mode_invite_clear(state.chptr);
state.chptr->mode.mode = t_mode;
state.chptr->mode.exmode = t_exmode;
}
if (state.flags & MODE_PARSE_WIPEOUT) {
if (state.chptr->mode.limit && !(state.done & DONE_LIMIT))
modebuf_mode_uint(state.mbuf, MODE_DEL | MODE_LIMIT,
state.chptr->mode.limit);
if (*state.chptr->mode.redir && !(state.done & DONE_REDIR))
modebuf_mode_string(state.mbuf, MODE_DEL | MODE_REDIRECT,
state.chptr->mode.redir, 0);
if (*state.chptr->mode.key && !(state.done & DONE_KEY_DEL))
modebuf_mode_string(state.mbuf, MODE_DEL | MODE_KEY,
state.chptr->mode.key, 0);
if (*state.chptr->mode.upass && !(state.done & DONE_UPASS_DEL))
modebuf_mode_string(state.mbuf, MODE_DEL | MODE_UPASS,
state.chptr->mode.upass, 0);
if (*state.chptr->mode.apass && !(state.done & DONE_APASS_DEL))
modebuf_mode_string(state.mbuf, MODE_DEL | MODE_APASS,
state.chptr->mode.apass, 0);
}
if (state.done & DONE_BANCLEAN) /* process bans */
mode_process_bans(&state);
if (state.done & DONE_EXCEPTCLEAN) /* process ban exceptions */
mode_process_excepts(&state);
/* process client changes */
if (state.cli_change[0].flag)
mode_process_clients(&state);
return state.args_used; /* tell our parent how many args we gobbled */
}
/*
* Initialize a join buffer
*/
void
joinbuf_init(struct JoinBuf *jbuf, struct Client *source,
struct Client *connect, unsigned int type, char *comment,
time_t create)
{
int i;
assert(0 != jbuf);
assert(0 != source);
assert(0 != connect);
jbuf->jb_source = source; /* just initialize struct JoinBuf */
jbuf->jb_connect = connect;
jbuf->jb_type = type;
jbuf->jb_comment = comment;
jbuf->jb_create = create;
jbuf->jb_count = 0;
jbuf->jb_strlen = (((type == JOINBUF_TYPE_JOIN ||
type == JOINBUF_TYPE_PART ||
type == JOINBUF_TYPE_PARTALL) ?
STARTJOINLEN : STARTCREATELEN) +
(comment ? strlen(comment) + 2 : 0));
for (i = 0; i < MAXJOINARGS; i++)
jbuf->jb_channels[i] = 0;
}
/*
* Add a channel to the join buffer
*/
void
joinbuf_join(struct JoinBuf *jbuf, struct Channel *chan, unsigned int flags)
{
unsigned int len;
int is_local;
assert(0 != jbuf);
if (!chan) {
sendcmdto_serv_butone(jbuf->jb_source, CMD_JOIN, jbuf->jb_connect, "0");
return;
}
is_local = IsLocalChannel(chan->chname);
if (jbuf->jb_type == JOINBUF_TYPE_PART ||
jbuf->jb_type == JOINBUF_TYPE_PARTALL) {
struct Membership *member = find_member_link(chan, jbuf->jb_source);
if (IsUserParting(member))
return;
SetUserParting(member);
/* Send notification to channel */
if (!(flags & (CHFL_ZOMBIE | CHFL_DELAYED)))
sendcmdto_channel_butserv_butone(jbuf->jb_source, CMD_PART, chan, NULL, 0,
(flags & CHFL_BANNED || !jbuf->jb_comment) ?
":%H" : "%H :%s", chan, jbuf->jb_comment);
else if (MyUser(jbuf->jb_source))
sendcmdto_one(jbuf->jb_source, CMD_PART, jbuf->jb_source,
(flags & CHFL_BANNED || !jbuf->jb_comment) ?
":%H" : "%H :%s", chan, jbuf->jb_comment);
/* XXX: Shouldn't we send a PART here anyway? */
/* to users on the channel? Why? From their POV, the user isn't on
* the channel anymore anyway. We don't send to servers until below,
* when we gang all the channel parts together. Note that this is
* exactly the same logic, albeit somewhat more concise, as was in
* the original m_part.c */
if (jbuf->jb_type == JOINBUF_TYPE_PARTALL ||
is_local) /* got to remove user here */
remove_user_from_channel(jbuf->jb_source, chan);
} else {
int oplevel = !chan->mode.apass[0] ? MAXOPLEVEL
: (flags & CHFL_CHANNEL_MANAGER) ? 0
: 1;
/* Add user to channel */
if ((chan->mode.mode & MODE_DELJOINS) && !(flags & CHFL_VOICED_OR_OPPED))
add_user_to_channel(chan, jbuf->jb_source, flags | CHFL_DELAYED, oplevel);
else
add_user_to_channel(chan, jbuf->jb_source, flags, oplevel);
/* send JOIN notification to all servers (CREATE is sent later). */
if (jbuf->jb_type != JOINBUF_TYPE_CREATE && !is_local)
sendcmdto_serv_butone(jbuf->jb_source, CMD_JOIN, jbuf->jb_connect,
"%H %Tu", chan, chan->creationtime);
if (!((chan->mode.mode & MODE_DELJOINS) && !(flags & CHFL_VOICED_OR_OPPED))) {
/* Send the notification to the channel */
sendcmdto_channel_capab_butserv_butone(jbuf->jb_source, CMD_JOIN, chan, NULL, 0,
CAP_NONE, CAP_EXTJOIN, "%H", chan);
sendcmdto_channel_capab_butserv_butone(jbuf->jb_source, CMD_JOIN, chan, NULL, 0,
CAP_EXTJOIN, CAP_NONE, "%H %s :%s", chan,
IsAccount(jbuf->jb_source) ? cli_account(jbuf->jb_source) : "*",
cli_info(jbuf->jb_source));
if (cli_user(jbuf->jb_source)->away)
sendcmdto_channel_capab_butserv_butone(jbuf->jb_source, CMD_AWAY, chan, NULL, 0,
CAP_AWAYNOTIFY, CAP_NONE, ":%s",
cli_user(jbuf->jb_source)->away);
/* send an op, too, if needed */
if (flags & CHFL_CHANOP && (oplevel < MAXOPLEVEL || !MyUser(jbuf->jb_source)))
sendcmdto_channel_butserv_butone((chan->mode.apass[0] ? &his : jbuf->jb_source),
CMD_MODE, chan, NULL, 0, "%H +o %C",
chan, jbuf->jb_source);
} else if (MyUser(jbuf->jb_source)) {
if (CapActive(jbuf->jb_source, CAP_EXTJOIN))
sendcmdto_one(jbuf->jb_source, CMD_JOIN, jbuf->jb_source, "%H %s :%s", chan,
IsAccount(jbuf->jb_source) ? cli_account(jbuf->jb_source) : "*",
cli_info(jbuf->jb_source));
else
sendcmdto_one(jbuf->jb_source, CMD_JOIN, jbuf->jb_source, ":%H", chan);
}
}
if (jbuf->jb_type == JOINBUF_TYPE_PARTALL ||
jbuf->jb_type == JOINBUF_TYPE_JOIN || is_local)
return; /* don't send to remote */
/* figure out if channel name will cause buffer to be overflowed */
len = chan ? strlen(chan->chname) + 1 : 2;
if (jbuf->jb_strlen + len > BUFSIZE)
joinbuf_flush(jbuf);
/* add channel to list of channels to send and update counts */
jbuf->jb_channels[jbuf->jb_count++] = chan;
jbuf->jb_strlen += len;
/* if we've used up all slots, flush */
if (jbuf->jb_count >= MAXJOINARGS)
joinbuf_flush(jbuf);
}
/*
* Flush the channel list to remote servers
*/
int
joinbuf_flush(struct JoinBuf *jbuf)
{
char chanlist[BUFSIZE];
char *name;
char *p = 0;
int chanlist_i = 0;
int i;
if (!jbuf->jb_count || jbuf->jb_type == JOINBUF_TYPE_PARTALL ||
jbuf->jb_type == JOINBUF_TYPE_JOIN)
return 0; /* no joins to process */
for (i = 0; i < jbuf->jb_count; i++) { /* build channel list */
build_string(chanlist, &chanlist_i,
jbuf->jb_channels[i] ? jbuf->jb_channels[i]->chname : "0", 0,
i == 0 ? '\0' : ',');
if (JOINBUF_TYPE_PART == jbuf->jb_type)
/* Remove user from channel */
remove_user_from_channel(jbuf->jb_source, jbuf->jb_channels[i]);
jbuf->jb_channels[i] = 0; /* mark slot empty */
}
jbuf->jb_count = 0; /* reset base counters */
jbuf->jb_strlen = ((jbuf->jb_type == JOINBUF_TYPE_PART ?
STARTJOINLEN : STARTCREATELEN) +
(jbuf->jb_comment ? strlen(jbuf->jb_comment) + 2 : 0));
/* and send the appropriate command */
switch (jbuf->jb_type) {
case JOINBUF_TYPE_CREATE:
sendcmdto_serv_butone(jbuf->jb_source, CMD_CREATE, jbuf->jb_connect,
"%s %Tu", chanlist, jbuf->jb_create);
if (feature_bool(FEAT_AUTOCHANMODES) && feature_str(FEAT_AUTOCHANMODES_LIST)
&& strlen(feature_str(FEAT_AUTOCHANMODES_LIST)) > 0 && MyUser(jbuf->jb_source)) {
for (name = ircd_strtok(&p, chanlist, ","); name; name = ircd_strtok(&p, 0, ",")) {
if (!IsLocalChannel(name))
sendcmdto_serv_butone(&me, CMD_MODE, jbuf->jb_connect, "%s +%s", name,
feature_str(FEAT_AUTOCHANMODES_LIST));
}
}
break;
case JOINBUF_TYPE_PART:
sendcmdto_serv_butone(jbuf->jb_source, CMD_PART, jbuf->jb_connect,
jbuf->jb_comment ? "%s :%s" : "%s", chanlist,
jbuf->jb_comment);
break;
}
return 0;
}
/* Returns TRUE (1) if client is invited, FALSE (0) if not */
int IsInvited(struct Client* cptr, const void* chptr)
{
struct SLink *lp;
for (lp = (cli_user(cptr))->invited; lp; lp = lp->next)
if (lp->value.chptr == chptr)
return 1;
return 0;
}
/* RevealDelayedJoin: sends a join for a hidden user */
void RevealDelayedJoin(struct Membership *member)
{
ClearDelayedJoin(member);
sendcmdto_channel_capab_butserv_butone(member->user, CMD_JOIN, member->channel,
member->user, 0, CAP_NONE, CAP_EXTJOIN, "%H",
member->channel);
sendcmdto_channel_capab_butserv_butone(member->user, CMD_JOIN, member->channel,
member->user, 0, CAP_EXTJOIN, CAP_NONE, "%H %s :%s",
member->channel,
IsAccount(member->user) ? cli_account(member->user) : "*",
cli_info(member->user));
if (cli_user(member->user)->away)
sendcmdto_channel_capab_butserv_butone(member->user, CMD_AWAY, member->channel, NULL, 0,
CAP_AWAYNOTIFY, CAP_NONE, ":%s",
cli_user(member->user)->away);
CheckDelayedJoins(member->channel);
}
/* CheckDelayedJoins: checks and clear +d if necessary */
void CheckDelayedJoins(struct Channel *chan)
{
if ((chan->mode.mode & MODE_WASDELJOINS) && !find_delayed_joins(chan)) {
chan->mode.mode &= ~MODE_WASDELJOINS;
sendcmdto_channel_butserv_butone(&his, CMD_MODE, chan, NULL, 0,
"%H -d", chan);
}
}
/** Send a join for the user if (s)he is a hidden member of the channel.
*/
void RevealDelayedJoinIfNeeded(struct Client *sptr, struct Channel *chptr)
{
struct Membership *member = find_member_link(chptr, sptr);
if (member && IsDelayedJoin(member))
RevealDelayedJoin(member);
}
/* Returns the number of common channels between two users, upto max. */
int common_chan_count(struct Client *a, struct Client *b, int max)
{
int count = 0;
struct Membership* member;
struct Membership* chan;
struct Channel *chptr;
if (!a || !b)
return 0;
for (chan = cli_user(a)->channel; chan; chan = chan->next_channel) {
chptr = chan->channel;
for (member = chptr->members; member; member = member->next_member) {
if (b == member->user) {
count++;
if (max && (count >= max))
return count;
break;
}
}
}
return count;
}
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