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construct/include/ircd/channel.h
Jason Volk dd9124b687 Preliminary Client refactor.
Add client to ircd::client:: namespace.

Also move former struct User and struct Server into client.cc as
opaque structure demo.
2016-08-22 15:56:12 -07:00

489 lines
12 KiB
C++

/*
* ircd-ratbox: A slightly useful ircd.
* channel.h: The ircd channel header.
*
* Copyright (C) 1990 Jarkko Oikarinen and University of Oulu, Co Center
* Copyright (C) 1996-2002 Hybrid Development Team
* Copyright (C) 2002-2004 ircd-ratbox development team
* Copyright (C) 2004-2016 Charybdis Development Team
* Copyright (C) 2016 Jason Volk <jason@zemos.net>
*
* 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 2 of the License, 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA
*/
#pragma once
#define HAVE_IRCD_CHANNEL_H
#ifdef __cplusplus
namespace ircd {
namespace chan {
IRCD_EXCEPTION(ircd::error, error)
IRCD_EXCEPTION(error, not_found)
IRCD_EXCEPTION(error, invalid_argument)
IRCD_EXCEPTION(invalid_argument, invalid_list)
enum status
{
PEON = 0x0000, // normal member of channel
VOICE = 0x0001, // the power to speak
CHANOP = 0x0002, // Channel operator
BANNED = 0x0008, // cached as banned
QUIETED = 0x0010, // cached as being +q victim
ONLY_OPERS = 0x0020,
ONLY_SERVERS = 0x0040,
ONLY_CHANOPS = CHANOP,
ONLY_CHANOPSVOICED = CHANOP | VOICE,
ALL_MEMBERS = PEON,
};
struct topic
{
std::string text;
std::string info;
time_t time = 0;
operator bool() const;
};
struct ban
{
static constexpr auto LEN = 195;
std::string banstr;
std::string who;
std::string forward;
time_t when;
ban(const std::string &banstr,
const std::string &who = {},
const std::string &forward = {},
const time_t &when = 0);
};
bool operator<(const ban &a, const ban &b);
using list = std::set<ban, std::less<ban>>;
struct modes
{
static constexpr size_t KEYLEN = 24; // 23+1 for \0
uint mode;
int limit;
char key[KEYLEN];
uint join_num;
uint join_time;
char forward[LOC_CHANNELLEN + 1];
modes();
};
uint operator&(const modes &, const mode::type &);
uint operator|(const modes &, const mode::type &);
uint operator~(const modes &);
struct membership
{
using global = std::map<client::client *, membership>;
using local = std::list<membership *>;
uint flags;
time_t bants;
global::iterator git;
local::iterator lit;
membership(const uint &flags = 0);
~membership() noexcept;
};
bool is_chanop(const membership &);
bool is_chanop(const membership *const &);
bool is_voiced(const membership &);
bool is_voiced(const membership *const &);
bool can_send_banned(const membership &);
bool can_send_banned(const membership *const &);
const char *find_status(const membership *const &msptr, const int &combine);
const client::client &get_client(const membership &);
client::client &get_client(membership &);
struct members
{
membership::global global;
membership::local local;
members();
~members() noexcept;
};
bool empty(const members &);
size_t size(const members &);
bool local_empty(const members &);
size_t local_size(const members &);
bool exists(const members &, const client::client &);
const membership *get(const members &, const client::client &, std::nothrow_t);
const membership &get(const members &, const client::client &);
membership *get(members &, const client::client &, std::nothrow_t);
membership &get(members &, const client::client &);
bool has_prefix(const char *const &name);
bool has_prefix(const std::string &name);
bool valid_name(const char *const &name);
bool valid_name(const std::string &name);
struct chan
{
std::string name;
struct modes mode;
std::string mode_lock;
struct topic topic;
struct members members;
std::set<client::client *> invites;
list bans;
list excepts;
list invexs;
list quiets;
uint join_count; // joins within delta
uint join_delta; // last ts of join
uint flood_noticed;
int received_number_of_privmsgs;
time_t first_received_message_time; // channel flood control
time_t last_knock; // don't allow knock to flood
time_t bants;
time_t channelts;
time_t last_checked_ts;
const client::client *last_checked_client;
mode::type last_checked_type;
bool last_checked_result;
chan(const std::string &name);
~chan() noexcept;
};
const auto &name(const chan &);
bool is_secret(const chan &);
bool is_secret(const chan *const &);
bool is_hidden(const chan &);
bool is_hidden(const chan *const &);
bool is_public(const chan &);
bool is_public(const chan *const &);
bool is_member(const chan &c, const client::client &);
bool is_member(const chan *const &, const client::client *const &);
bool can_show(const chan &, const client::client &);
bool can_show(const chan *const &, const client::client *const &);
enum : int
{
CAN_SEND_NO = 0,
CAN_SEND_NONOP = 1,
CAN_SEND_OPV = 2,
};
int can_send(chan *, client::client *, membership *);
int can_join(client::client *source, chan *, const char *key, const char **forward);
bool cache_check(const chan &, const mode::type &, const client::client &, bool &result);
void cache_result(chan &, const mode::type &, const client::client &, const bool &result, membership *const &msptr = nullptr);
void cache_invalidate(chan &, const mode::type &, time_t time = 0);
const list &get(const chan &, const mode::type &);
list &get(chan &, const mode::type &);
size_t size(const chan &, const mode::type &);
bool empty(const chan &, const mode::type &);
size_t lists_size(const chan &);
struct check_data
{
membership *msptr;
const char *host;
const char *iphost;
const char **forward;
};
bool check(chan &, const mode::type &, const client::client &, check_data *const &data = nullptr);
const ban &get(const chan &, const mode::type &, const std::string &mask);
bool add(chan &, const mode::type &, const std::string &mask, client::client &source, const std::string &forward = {});
bool del(chan &, const mode::type &, const std::string &mask);
void del_invite(chan &, client::client &);
void clear_invites(chan &);
bool flood_attack_channel(int p_or_n, client::client *source, chan *);
void invalidate_bancache_user(client::client *);
void channel_member_names(chan *, client::client *, int show_eon);
const char *channel_modes(chan *, client::client *who);
chan *find_bannickchange_channel(client::client *);
void check_spambot_warning(client::client *source, const char *name);
void check_splitmode(void *);
void set_channel_topic(chan *, const char *topic, const char *topic_info, time_t topicts);
void init_chcap_usage_counts(void);
void set_chcap_usage_counts(client::client *serv_p);
void unset_chcap_usage_counts(client::client *serv_p);
void send_cap_mode_changes(client::client *, client::client *source, chan *, mode::change foo[], int);
void resv_chan_forcepart(const char *name, const char *reason, int temp_time);
void set_channel_mode(client::client *, client::client *source, chan *, membership *, int parc, const char *parv[]);
void set_channel_mlock(client::client *, client::client *source, chan *, const char *newmlock, bool propagate);
int match_extban(const char *banstr, client::client *, chan *, long mode_type);
int valid_extban(const char *banstr, client::client *, chan *, long mode_type);
const char * get_extban_string(void);
int get_channel_access(client::client *source, chan *, membership *, int dir, const char *modestr);
void send_join(chan &, client::client &);
auto empty(const chan &);
auto local_size(const chan &);
auto size(const chan &);
void add(chan &, client::client &, const int &flags = PEON);
void del(chan &, client::client &);
void del(client::client &); // remove from all channels
// Channels
extern std::map<const std::string *, std::unique_ptr<chan>, rfc1459::less> chans;
bool exists(const std::string &name);
chan *get(const std::string &name, std::nothrow_t);
chan &get(const std::string &name);
chan &add(const std::string &name, client::client &); // get or add (but does not join the client)
bool del(const std::string &name);
bool del(const chan &);
// Initialize subsystem
void init();
inline auto
size(const chan &chan)
{
return size(chan.members);
}
inline auto
local_size(const chan &chan)
{
return local_size(chan.members);
}
inline auto
empty(const chan &chan)
{
return empty(chan.members);
}
inline bool
is_secret(const chan &c)
{
return c.mode.mode & mode::SECRET;
}
inline bool
is_secret(const chan *const &c)
{
return c && is_secret(*c);
}
inline bool
is_hidden(const chan &c)
{
return c.mode.mode & mode::PRIVATE;
}
inline bool
is_hidden(const chan *const &c)
{
return c && is_hidden(*c);
}
inline bool
is_public(const chan &c)
{
return ~c.mode.mode & (mode::PRIVATE | mode::SECRET);
}
inline bool
is_public(const chan *const &c)
{
return !c || is_public(*c);
}
inline bool
is_member(const chan &c, const client::client &client)
{
return exists(c.members, client);
}
inline bool
is_member(const chan *const &c, const client::client *const &client)
{
return c && client && is_member(*c, *client);
}
inline bool
can_show(const chan &c, const client::client &client)
{
return is_public(c) || is_member(c, client);
}
inline bool
can_show(const chan *const &c, const client::client *const &client)
{
return is_public(c) || is_member(c, client);
}
inline bool
has_prefix(const char *const &name)
{
return name && rfc1459::is_chan_prefix(name[0]);
}
inline bool
has_prefix(const std::string &name)
{
return !name.empty() && rfc1459::is_chan_prefix(name[0]);
}
inline bool
valid_name(const char *const &name)
{
return name && name[0] && std::all_of(name, name + strlen(name), rfc1459::is_chan);
}
inline bool
valid_name(const std::string &name)
{
return !name.empty() && std::all_of(begin(name), end(name), rfc1459::is_chan);
}
inline const auto &
name(const chan &chan)
{
return chan.name;
}
inline size_t
local_size(const members &m)
{
return std::distance(begin(m.local), end(m.local));
}
inline bool
local_empty(const members &m)
{
return m.local.empty();
}
inline size_t
size(const members &m)
{
return m.global.size();
}
inline bool
empty(const members &m)
{
return m.global.empty();
}
inline bool
exists(const members &m, const client::client &c)
{
return m.global.count(const_cast<client::client *>(&c));
}
inline client::client &
get_client(membership &m)
{
return *m.git->first;
}
inline const client::client &
get_client(const membership &m)
{
return *m.git->first;
}
inline bool
can_send_banned(const membership *const &m)
{
return m && can_send_banned(*m);
}
inline bool
can_send_banned(const membership &m)
{
return m.flags & (BANNED | QUIETED);
}
inline bool
is_voiced(const membership *const &m)
{
return m && is_voiced(*m);
}
inline bool
is_voiced(const membership &m)
{
return m.flags & VOICE;
}
inline bool
is_chanop(const membership *const &m)
{
return m && is_chanop(*m);
}
inline bool
is_chanop(const membership &m)
{
return m.flags & CHANOP;
}
inline uint
operator~(const modes &modes)
{
return ~modes.mode;
}
inline uint
operator&(const modes &modes, const mode::type &value)
{
return modes.mode & value;
}
inline uint
operator|(const modes &modes, const mode::type &value)
{
return modes.mode | value;
}
inline bool
operator<(const ban &a, const ban &b)
{
return irccmp(a.banstr, b.banstr);
}
inline bool
operator!(const topic &topic)
{
return !bool(topic);
}
inline
topic::operator bool()
const
{
return !text.empty();
}
} // namespace chan
} // namespace ircd
#endif // __cplusplus