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construct/ircd/conf.cc
2016-11-13 16:32:38 -08:00

3144 lines
77 KiB
C++

/*
* Copyright (C) 2016 Charybdis Development Team
* Copyright (C) 2016 Jason Volk <jason@zemos.net>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice is present in all copies.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*/
#include <boost/lexical_cast.hpp>
namespace ircd {
namespace conf {
newconf::topconf newconf::current;
newconf::topconf newconf::last;
struct log::log log
{
"conf", 'w' // both C's unavailable :/
};
std::array<top *, 256> confs;
std::map<std::type_index, type_handler> type_handlers
{
{
make_index<std::string>(), [](uint8_t *const &ptr, std::string text)
{
*reinterpret_cast<std::string *>(ptr) = std::move(text);
}
}
};
void reg(top *const &top);
void unreg(top *const &top);
bool execute(const std::string &line);
void parse_newconf(const std::string &path);
void bootstrap();
} // namespace conf
} // namespace ircd
using namespace ircd;
void
conf::parse(const std::string &path)
try
{
parse_newconf(path);
}
catch(const std::exception &e)
{
log.error("Failed to parse configuration: %s", e.what());
throw;
}
void
conf::execute()
try
{
if(newconf::current.empty())
throw error("No configuration supplied to parse and execute.");
// Translate to oldconf and linefeed
bootstrap();
/*
newconf::translate(newconf::current, []
(const std::string &line)
{
execute(line);
});
*/
}
catch(const std::exception &e)
{
log.error("Configuration init failed: %s", e.what());
throw;
}
void
conf::bootstrap()
{
log.debug("Bootstrapping L-Line module to load more modules...");
mods::load("conf_loadmodule");
}
void
conf::parse_newconf(const std::string &path)
{
newconf::last = std::move(newconf::current);
newconf::current = newconf::parse_file(path);
}
bool
conf::execute(const std::string &line)
try
{
log.debug("%s", line.c_str());
ircd::execute(*me, line);
return true;
}
catch(const std::exception &e)
{
log.error("%s", e.what());
//return false;
throw;
}
conf::top::top(const char &letter,
const std::string &name,
const items &list)
:cmd{std::string{letter}}
,letter{letter}
,name{name}
,map{begin(list), end(list)}
{
reg(this);
}
conf::top::~top()
noexcept
{
unreg(this);
}
void
conf::top::operator()(client &client,
line line)
try
{
if(line[0] == "*")
set(client, std::move(line[1]), std::move(line[2]));
else
set(client, std::move(line[0]), std::move(line[1]), std::move(line[2]));
}
catch(const std::out_of_range &e)
{
//throw err::NEEDMOREPARAMS(me.id, id(me, client), command(line).c_str());
throw error("NEEDMOREPARAMS");
}
catch(const boost::bad_lexical_cast &e)
{
throw bad_cast("conf[%c]: %s", letter, e.what());
}
__attribute__((noreturn))
void
conf::top::enu(client &client,
const std::string &label,
const std::string &key)
{
throw bad_topconf("conf[%c] is a singleton and the label must be '*'", letter);
}
__attribute__((noreturn))
void
conf::top::del(client &client,
const std::string &label,
const std::string &key)
{
throw bad_topconf("conf[%c] is a singleton and the label must be '*'", letter);
}
void
conf::top::set(client &client,
std::string label,
std::string key,
std::string val)
{
throw bad_topconf("conf[%c] is a singleton and the label must be '*'", letter);
}
__attribute__((noreturn))
const uint8_t *
conf::top::get(client &client,
const std::string &label,
const std::string &key)
const
{
throw bad_topconf("conf[%c] is a singleton and the label must be '*'", letter);
}
void
conf::top::enu(client &client,
const std::string &key)
{
}
void
conf::top::del(client &client,
const std::string &key)
{
if(!map.erase(key))
log.warning("conf[%c] tried to erase non-existent key \"%s\"",
letter,
key.c_str());
}
void
conf::top::set(client &client,
std::string key,
std::string val)
try
{
auto &item(map.at(key));
assign(item, std::move(val));
}
catch(const std::out_of_range &e)
{
throw not_found("key \"%s\"", key.c_str());
}
catch(const boost::bad_lexical_cast &e)
{
throw bad_cast("conf[%c]: failed to set key \"%s\": %s",
letter,
key.c_str(),
e.what());
}
const uint8_t *
conf::top::get(client &client,
const std::string &key)
const
try
{
const auto &item(map.at(key));
return item.ptr;
}
catch(const std::out_of_range &e)
{
throw not_found("key \"%s\"", key.c_str());
}
void
conf::top::assign(item &item,
std::string val)
const
try
{
const auto &handler(type_handlers.at(item.type));
handler(item.ptr, std::move(val));
}
catch(const std::out_of_range &e)
{
throw bad_cast("No handler to assign to value type \"%s\" @ %p",
item.type.name(),
item.ptr);
}
void
conf::unreg(top *const &top)
{
const auto &name(top->name);
const auto &letter(top->letter);
const uint8_t &idx(letter);
confs[idx] = nullptr;
newconf::registry[idx].clear();
log.info("Unregistered configuration letter '%c' (%s)",
letter,
name.c_str());
}
void
conf::reg(top *const &top)
{
const auto &name(top->name);
const auto &letter(top->letter);
const uint8_t &idx(letter);
if(!newconf::registry[idx].empty())
throw already_exists("Configuration letter '%c' already registered for \"%s\"",
letter,
newconf::registry[idx].c_str());
const auto it(std::find(begin(newconf::registry), end(newconf::registry), name));
if(it != end(newconf::registry))
throw already_exists("Configuration letter '%c' already registered topconf \"%s\"",
char(std::distance(begin(newconf::registry), it)),
it->c_str());
newconf::registry[idx] = name;
confs[idx] = top;
log.info("Registered configuration letter '%c' to conf type '%s'",
letter,
name.c_str());
}
/*
#define CF_TYPE(x) ((x) & CF_MTYPE)
static int yy_defer_accept = 1;
static int yy_wsock = 0;
struct TopConf *conf_cur_block;
static char *conf_cur_block_name = NULL;
static rb_dlink_list conf_items;
static struct ConfItem *yy_aconf = NULL;
static struct Class *yy_class = NULL;
static struct remote_conf *yy_shared = NULL;
static struct server_conf *yy_server = NULL;
static rb_dlink_list yy_aconf_list;
static rb_dlink_list yy_oper_list;
static rb_dlink_list yy_shared_list;
static rb_dlink_list yy_cluster_list;
static struct oper_conf *yy_oper = NULL;
static std::shared_ptr<alias_entry> yy_alias;
static char *yy_blacklist_host = NULL;
static char *yy_blacklist_reason = NULL;
static uint8_t yy_blacklist_iptype = 0;
static rb_dlink_list yy_blacklist_filters = { NULL, NULL, 0 };
static char *yy_opm_address_ipv4 = NULL;
static char *yy_opm_address_ipv6 = NULL;
static uint16_t yy_opm_port_ipv4 = 0;
static uint16_t yy_opm_port_ipv6 = 0;
static int yy_opm_timeout = 0;
static rb_dlink_list yy_opm_scanner_list;
static char *yy_privset_extends = NULL;
static const char *
conf_strtype(int type)
{
switch (CF_TYPE(type))
{
case CF_INT:
return "integer value";
case CF_STRING:
return "unquoted string";
case CF_YESNO:
return "yes/no value";
case CF_QSTRING:
return "quoted string";
case CF_TIME:
return "time/size value";
default:
return "unknown type";
}
}
int
add_top_conf(const char *name, int (*sfunc) (struct TopConf *),
int (*efunc) (struct TopConf *), struct ConfEntry *items)
{
struct TopConf *tc;
tc = (TopConf *)rb_malloc(sizeof(struct TopConf));
tc->tc_name = name;
tc->tc_sfunc = sfunc;
tc->tc_efunc = efunc;
tc->tc_entries = items;
rb_dlinkAddAlloc(tc, &conf_items);
return 0;
}
struct TopConf *
find_top_conf(const char *name)
{
rb_dlink_node *d;
struct TopConf *tc;
RB_DLINK_FOREACH(d, conf_items.head)
{
tc = (TopConf *)d->data;
if(rb_strcasecmp(tc->tc_name, name) == 0)
return tc;
}
return NULL;
}
struct ConfEntry *
find_conf_item(const struct TopConf *top, const char *name)
{
struct ConfEntry *cf;
rb_dlink_node *d;
if(top->tc_entries)
{
int i;
for(i = 0; top->tc_entries[i].cf_type; i++)
{
cf = &top->tc_entries[i];
if(!rb_strcasecmp(cf->cf_name, name))
return cf;
}
}
RB_DLINK_FOREACH(d, top->tc_items.head)
{
cf = (ConfEntry *)d->data;
if(rb_strcasecmp(cf->cf_name, name) == 0)
return cf;
}
return NULL;
}
int
remove_top_conf(const char *name)
{
struct TopConf *tc;
rb_dlink_node *ptr;
if((tc = find_top_conf(name)) == NULL)
return -1;
if((ptr = rb_dlinkFind(tc, &conf_items)) == NULL)
return -1;
rb_dlinkDestroy(ptr, &conf_items);
rb_free(tc);
return 0;
}
static void
conf_set_serverinfo_name(void *data)
{
if(ServerInfo.name == NULL)
{
const char *s;
int dots = 0;
for(s = (char *)data; *s != '\0'; s++)
{
if(!rfc1459::is_serv(*s))
{
conf_report_error("Ignoring serverinfo::name "
"-- bogus servername.");
return;
}
else if(*s == '.')
++dots;
}
if(!dots)
{
conf_report_error("Ignoring serverinfo::name -- must contain '.'");
return;
}
s = (char *)data;
if(rfc1459::is_digit(*s))
{
conf_report_error("Ignoring serverinfo::name -- cannot begin with digit.");
return;
}
// the ircd will exit() in main() if we dont set one
if(strlen(s) <= HOSTLEN)
ServerInfo.name = rb_strdup((char *) data);
}
}
static void
conf_set_serverinfo_sid(void *data)
{
char *sid = (char *)data;
if(ServerInfo.sid[0] == '\0')
{
if(!rfc1459::is_digit(sid[0]) ||
!rfc1459::is_id(sid[1]) ||
!rfc1459::is_id(sid[2]) ||
sid[3] != '\0')
{
conf_report_error("Ignoring serverinfo::sid "
"-- bogus sid.");
return;
}
rb_strlcpy(ServerInfo.sid, sid, sizeof(ServerInfo.sid));
}
}
static void
conf_set_serverinfo_network_name(void *data)
{
char *p;
if((p = strchr((char *) data, ' ')))
*p = '\0';
rb_free(ServerInfo.network_name);
ServerInfo.network_name = rb_strdup((char *) data);
}
static void
conf_set_serverinfo_vhost(void *data)
{
struct rb_sockaddr_storage addr;
if(rb_inet_pton_sock((const char *)data, (struct sockaddr *)&addr) <= 0 || GET_SS_FAMILY(&addr) != AF_INET)
{
conf_report_error("Invalid IPv4 address for server vhost (%s)", (char *) data);
return;
}
ServerInfo.bind4 = addr;
}
static void
conf_set_serverinfo_vhost6(void *data)
{
#ifdef RB_IPV6
struct rb_sockaddr_storage addr;
if(rb_inet_pton_sock((const char *)data, (struct sockaddr *)&addr) <= 0 || GET_SS_FAMILY(&addr) != AF_INET6)
{
conf_report_error("Invalid IPv6 address for server vhost (%s)", (char *) data);
return;
}
ServerInfo.bind6 = addr;
#else
conf_report_error("Warning -- ignoring serverinfo::vhost6 -- IPv6 support not available.");
#endif
}
static void
conf_set_serverinfo_nicklen(void *data)
{
ConfigFileEntry.nicklen = (*(unsigned int *) data) + 1;
if (ConfigFileEntry.nicklen > NICKLEN)
{
conf_report_error("Warning -- ignoring serverinfo::nicklen -- provided nicklen (%u) is greater than allowed nicklen (%u)",
ConfigFileEntry.nicklen - 1, NICKLEN - 1);
ConfigFileEntry.nicklen = NICKLEN;
}
else if (ConfigFileEntry.nicklen < 9 + 1)
{
conf_report_error("Warning -- serverinfo::nicklen is too low (%u) -- forcing 9",
ConfigFileEntry.nicklen - 1);
ConfigFileEntry.nicklen = 9 + 1;
}
}
static void
conf_set_modules_module(void *data)
{
char *const m_bn = rb_basename((char *) data);
const scope free([&m_bn] { rb_free(m_bn); });
if(!mods::loaded(m_bn))
mods::load((const char *)data);
}
static void
conf_set_modules_path(void *data)
{
mods::path_add((char *) data, std::nothrow);
}
struct mode_table_
{
const char *name;
umode::mask mode;
};
static struct mode_table_ umode_table[] = {
{"callerid", umode::CALLERID },
{"deaf", umode::DEAF },
{"invisible", umode::INVISIBLE },
{"locops", umode::LOCOPS },
{"noforward", umode::NOFORWARD },
{"regonlymsg", umode::REGONLYMSG},
{"servnotice", umode::SERVNOTICE},
{"wallop", umode::WALLOP },
{"operwall", umode::OPERWALL },
{NULL, 0}
};
static struct mode_table_ oper_table[] = {
{"encrypted", OPER_ENCRYPTED },
{"need_ssl", OPER_NEEDSSL },
{NULL, 0}
};
static struct mode_table_ auth_table[] = {
{"encrypted", CONF_FLAGS_ENCRYPTED },
{"spoof_notice", CONF_FLAGS_SPOOF_NOTICE },
{"exceed_limit", CONF_FLAGS_NOLIMIT },
{"dnsbl_exempt", CONF_FLAGS_EXEMPTDNSBL },
{"proxy_exempt", CONF_FLAGS_EXEMPTPROXY },
{"kline_exempt", CONF_FLAGS_EXEMPTKLINE },
{"flood_exempt", CONF_FLAGS_EXEMPTFLOOD },
{"spambot_exempt", CONF_FLAGS_EXEMPTSPAMBOT },
{"shide_exempt", CONF_FLAGS_EXEMPTSHIDE },
{"jupe_exempt", CONF_FLAGS_EXEMPTJUPE },
{"resv_exempt", CONF_FLAGS_EXEMPTRESV },
{"no_tilde", CONF_FLAGS_NO_TILDE },
{"need_ident", CONF_FLAGS_NEED_IDENTD },
{"have_ident", CONF_FLAGS_NEED_IDENTD },
{"need_ssl", CONF_FLAGS_NEED_SSL },
{"need_sasl", CONF_FLAGS_NEED_SASL },
{"extend_chans", CONF_FLAGS_EXTEND_CHANS },
{NULL, 0}
};
static struct mode_table_ connect_table[] = {
{ "autoconn", SERVER_AUTOCONN },
{ "compressed", SERVER_COMPRESSED },
{ "encrypted", SERVER_ENCRYPTED },
{ "topicburst", SERVER_TB },
{ "ssl", SERVER_SSL },
{ NULL, 0 },
};
static struct mode_table_ cluster_table[] = {
{ "kline", SHARED_PKLINE },
{ "tkline", SHARED_TKLINE },
{ "unkline", SHARED_UNKLINE },
{ "locops", SHARED_LOCOPS },
{ "xline", SHARED_PXLINE },
{ "txline", SHARED_TXLINE },
{ "unxline", SHARED_UNXLINE },
{ "resv", SHARED_PRESV },
{ "tresv", SHARED_TRESV },
{ "unresv", SHARED_UNRESV },
{ "all", CLUSTER_ALL },
{NULL, 0}
};
static struct mode_table_ shared_table[] =
{
{ "kline", SHARED_PKLINE|SHARED_TKLINE },
{ "xline", SHARED_PXLINE|SHARED_TXLINE },
{ "resv", SHARED_PRESV|SHARED_TRESV },
{ "dline", SHARED_PDLINE|SHARED_TDLINE },
{ "tdline", SHARED_TDLINE },
{ "pdline", SHARED_PDLINE },
{ "undline", SHARED_UNDLINE },
{ "tkline", SHARED_TKLINE },
{ "unkline", SHARED_UNKLINE },
{ "txline", SHARED_TXLINE },
{ "unxline", SHARED_UNXLINE },
{ "tresv", SHARED_TRESV },
{ "unresv", SHARED_UNRESV },
{ "locops", SHARED_LOCOPS },
{ "rehash", SHARED_REHASH },
{ "grant", SHARED_GRANT },
{ "die", SHARED_DIE },
{ "module", SHARED_MODULE },
{ "all", SHARED_ALL },
{ "none", 0 },
{NULL, 0}
};
static int
find_umode(struct mode_table_ *tab, const char *name)
{
int i;
for (i = 0; tab[i].name; i++)
{
if(strcmp(tab[i].name, name) == 0)
return tab[i].mode;
}
return -1;
}
static void
set_modes_from_table(int *modes, const char *whatis, struct mode_table_ *tab, conf_parm_t * args)
{
for (; args; args = args->next)
{
const char *umode;
int dir = 1;
int mode;
if(CF_TYPE(args->type) != CF_STRING)
{
conf_report_error("Warning -- %s is not a string; ignoring.", whatis);
continue;
}
umode = args->v.string;
if(*umode == '~')
{
dir = 0;
umode++;
}
mode = find_umode(tab, umode);
if(mode == -1)
{
conf_report_error("Warning -- unknown %s %s.", whatis, args->v.string);
continue;
}
if(mode)
{
if(dir)
*modes |= mode;
else
*modes &= ~mode;
}
else
*modes = 0;
}
}
static void
conf_set_privset_extends(void *data)
{
yy_privset_extends = rb_strdup((char *) data);
}
static void
conf_set_privset_privs(void *data)
{
char *privs = NULL;
conf_parm_t *args = (conf_parm_t *)data;
for (; args; args = args->next)
{
if (privs == NULL)
privs = rb_strdup(args->v.string);
else
{
char *privs_old = privs;
privs = (char *)rb_malloc(strlen(privs_old) + 1 + strlen(args->v.string) + 1);
strcpy(privs, privs_old);
strcat(privs, " ");
strcat(privs, args->v.string);
rb_free(privs_old);
}
}
if (privs)
{
if (yy_privset_extends)
{
struct PrivilegeSet *set = privilegeset_get(yy_privset_extends);
if (!set)
{
conf_report_error("Warning -- unknown parent privilege set %s for %s; assuming defaults", yy_privset_extends, conf_cur_block_name);
set = privilegeset_get("default");
}
privilegeset_extend(set, conf_cur_block_name != NULL ? conf_cur_block_name : "<unknown>", privs, 0);
rb_free(yy_privset_extends);
yy_privset_extends = NULL;
}
else
privilegeset_set_new(conf_cur_block_name != NULL ? conf_cur_block_name : "<unknown>", privs, 0);
rb_free(privs);
}
}
static int
conf_begin_oper(struct TopConf *tc)
{
rb_dlink_node *ptr;
rb_dlink_node *next_ptr;
if(yy_oper != NULL)
{
free_oper_conf(yy_oper);
yy_oper = NULL;
}
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_oper_list.head)
{
free_oper_conf((oper_conf *)ptr->data);
rb_dlinkDestroy(ptr, &yy_oper_list);
}
yy_oper = make_oper_conf();
yy_oper->flags |= OPER_ENCRYPTED;
return 0;
}
static int
conf_end_oper(struct TopConf *tc)
{
struct oper_conf *yy_tmpoper;
rb_dlink_node *ptr;
rb_dlink_node *next_ptr;
if(conf_cur_block_name != NULL)
{
if(strlen(conf_cur_block_name) > OPERNICKLEN)
conf_cur_block_name[OPERNICKLEN] = '\0';
yy_oper->name = rb_strdup(conf_cur_block_name);
}
if(EmptyString(yy_oper->name))
{
conf_report_error("Ignoring operator block -- missing name.");
return 0;
}
#ifdef HAVE_LIBCRYPTO
if(EmptyString(yy_oper->passwd) && EmptyString(yy_oper->rsa_pubkey_file))
#else
if(EmptyString(yy_oper->passwd))
#endif
{
conf_report_error("Ignoring operator block for %s -- missing password",
yy_oper->name);
return 0;
}
if (!yy_oper->privset)
yy_oper->privset = privilegeset_get("default");
// now, yy_oper_list contains a stack of oper_conf's with just user
// and host in, yy_oper contains the rest of the information which
// we need to copy into each element in yy_oper_list
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_oper_list.head)
{
yy_tmpoper = (oper_conf *)ptr->data;
yy_tmpoper->name = rb_strdup(yy_oper->name);
// could be an rsa key instead..
if(!EmptyString(yy_oper->passwd))
yy_tmpoper->passwd = rb_strdup(yy_oper->passwd);
yy_tmpoper->flags = yy_oper->flags;
yy_tmpoper->umodes = yy_oper->umodes;
yy_tmpoper->snomask = yy_oper->snomask;
yy_tmpoper->privset = yy_oper->privset;
#ifdef HAVE_LIBCRYPTO
if(yy_oper->rsa_pubkey_file)
{
BIO *file;
if((file = BIO_new_file(yy_oper->rsa_pubkey_file, "r")) == NULL)
{
conf_report_error("Ignoring operator block for %s -- "
"rsa_public_key_file cant be opened",
yy_tmpoper->name);
return 0;
}
yy_tmpoper->rsa_pubkey =
(RSA *) PEM_read_bio_RSA_PUBKEY(file, NULL, 0, NULL);
(void)BIO_set_close(file, BIO_CLOSE);
BIO_free(file);
if(yy_tmpoper->rsa_pubkey == NULL)
{
conf_report_error("Ignoring operator block for %s -- "
"rsa_public_key_file key invalid; check syntax",
yy_tmpoper->name);
return 0;
}
}
if(!EmptyString(yy_oper->certfp))
yy_tmpoper->certfp = rb_strdup(yy_oper->certfp);
#endif
// all is ok, put it on oper_conf_list
rb_dlinkMoveNode(ptr, &yy_oper_list, &oper_conf_list);
}
free_oper_conf(yy_oper);
yy_oper = NULL;
return 0;
}
static void
conf_set_oper_flags(void *data)
{
conf_parm_t *args = (conf_parm_t *)data;
set_modes_from_table(&yy_oper->flags, "flag", oper_table, args);
}
static void
conf_set_oper_fingerprint(void *data)
{
if (yy_oper->certfp)
rb_free(yy_oper->certfp);
yy_oper->certfp = rb_strdup((char *) data);
}
static void
conf_set_oper_privset(void *data)
{
yy_oper->privset = privilegeset_get((char *) data);
}
static void
conf_set_oper_user(void *data)
{
struct oper_conf *yy_tmpoper;
char *p;
char *host = (char *) data;
yy_tmpoper = make_oper_conf();
if((p = strchr(host, '@')))
{
*p++ = '\0';
yy_tmpoper->username = rb_strdup(host);
yy_tmpoper->host = rb_strdup(p);
}
else
{
yy_tmpoper->username = rb_strdup("*");
yy_tmpoper->host = rb_strdup(host);
}
if(EmptyString(yy_tmpoper->username) || EmptyString(yy_tmpoper->host))
{
conf_report_error("Ignoring user -- missing username/host");
free_oper_conf(yy_tmpoper);
return;
}
rb_dlinkAddAlloc(yy_tmpoper, &yy_oper_list);
}
static void
conf_set_oper_password(void *data)
{
if(yy_oper->passwd)
{
memset(yy_oper->passwd, 0, strlen(yy_oper->passwd));
rb_free(yy_oper->passwd);
}
yy_oper->passwd = rb_strdup((char *) data);
}
static void
conf_set_oper_rsa_public_key_file(void *data)
{
#ifdef HAVE_LIBCRYPTO
rb_free(yy_oper->rsa_pubkey_file);
yy_oper->rsa_pubkey_file = rb_strdup((char *) data);
#else
conf_report_error("Warning -- ignoring rsa_public_key_file (OpenSSL support not available");
#endif
}
static void
conf_set_oper_umodes(void *data)
{
set_modes_from_table(&yy_oper->umodes, "umode", umode_table, (conf_parm_t *)data);
}
static void
conf_set_oper_snomask(void *data)
{
yy_oper->snomask = mask(sno::table, (const char *)data);
}
static int
conf_begin_class(struct TopConf *tc)
{
if(yy_class)
free_class(yy_class);
yy_class = make_class();
return 0;
}
static int
conf_end_class(struct TopConf *tc)
{
if(conf_cur_block_name != NULL)
yy_class->class_name = rb_strdup(conf_cur_block_name);
if(EmptyString(yy_class->class_name))
{
conf_report_error("Ignoring connect block -- missing name.");
return 0;
}
add_class(yy_class);
yy_class = NULL;
return 0;
}
static void
conf_set_class_ping_time(void *data)
{
yy_class->ping_freq = *(unsigned int *) data;
}
static void
conf_set_class_cidr_ipv4_bitlen(void *data)
{
unsigned int maxsize = 32;
if(*(unsigned int *) data > maxsize)
conf_report_error
("class::cidr_ipv4_bitlen argument exceeds maxsize (%d > %d) - ignoring.",
*(unsigned int *) data, maxsize);
else
yy_class->cidr_ipv4_bitlen = *(unsigned int *) data;
}
#ifdef RB_IPV6
static void
conf_set_class_cidr_ipv6_bitlen(void *data)
{
unsigned int maxsize = 128;
if(*(unsigned int *) data > maxsize)
conf_report_error
("class::cidr_ipv6_bitlen argument exceeds maxsize (%d > %d) - ignoring.",
*(unsigned int *) data, maxsize);
else
yy_class->cidr_ipv6_bitlen = *(unsigned int *) data;
}
#endif
static void
conf_set_class_number_per_cidr(void *data)
{
yy_class->cidr_amount = *(unsigned int *) data;
}
static void
conf_set_class_number_per_ip(void *data)
{
yy_class->max_local = *(unsigned int *) data;
}
static void
conf_set_class_number_per_ip_global(void *data)
{
yy_class->max_global = *(unsigned int *) data;
}
static void
conf_set_class_number_per_ident(void *data)
{
yy_class->max_ident = *(unsigned int *) data;
}
static void
conf_set_class_connectfreq(void *data)
{
yy_class->con_freq = *(unsigned int *) data;
}
static void
conf_set_class_max_number(void *data)
{
yy_class->max_total = *(unsigned int *) data;
}
static void
conf_set_class_sendq(void *data)
{
yy_class->max_sendq = *(unsigned int *) data;
}
static char *listener_address;
static int
conf_begin_listen(struct TopConf *tc)
{
rb_free(listener_address);
listener_address = NULL;
yy_wsock = 0;
yy_defer_accept = 0;
return 0;
}
static int
conf_end_listen(struct TopConf *tc)
{
rb_free(listener_address);
listener_address = NULL;
yy_wsock = 0;
yy_defer_accept = 0;
return 0;
}
static void
conf_set_listen_defer_accept(void *data)
{
yy_defer_accept = *(unsigned int *) data;
}
static void
conf_set_listen_wsock(void *data)
{
yy_wsock = *(unsigned int *) data;
}
static void
conf_set_listen_port_both(void *data, int ssl)
{
conf_parm_t *args = (conf_parm_t *)data;
for (; args; args = args->next)
{
if(CF_TYPE(args->type) != CF_INT)
{
conf_report_error
("listener::port argument is not an integer " "-- ignoring.");
continue;
}
if(listener_address == NULL)
{
if (!ssl)
{
conf_report_warning("listener 'ANY/%d': support for plaintext listeners may be removed in a future release per RFCs 7194 & 7258. "
"It is suggested that users be migrated to SSL/TLS connections.", args->v.number);
}
add_listener(args->v.number, listener_address, AF_INET, ssl, ssl || yy_defer_accept, yy_wsock);
#ifdef RB_IPV6
add_listener(args->v.number, listener_address, AF_INET6, ssl, ssl || yy_defer_accept, yy_wsock);
#endif
}
else
{
int family;
#ifdef RB_IPV6
if(strchr(listener_address, ':') != NULL)
family = AF_INET6;
else
#endif
family = AF_INET;
if (!ssl)
{
conf_report_warning("listener '%s/%d': support for plaintext listeners may be removed in a future release per RFCs 7194 & 7258. "
"It is suggested that users be migrated to SSL/TLS connections.", listener_address, args->v.number);
}
add_listener(args->v.number, listener_address, family, ssl, ssl || yy_defer_accept, yy_wsock);
}
}
}
static void
conf_set_listen_port(void *data)
{
conf_set_listen_port_both(data, 0);
}
static void
conf_set_listen_sslport(void *data)
{
conf_set_listen_port_both(data, 1);
}
static void
conf_set_listen_address(void *data)
{
rb_free(listener_address);
listener_address = rb_strdup((const char *)data);
}
static int
conf_begin_auth(struct TopConf *tc)
{
rb_dlink_node *ptr;
rb_dlink_node *next_ptr;
if(yy_aconf)
free_conf(yy_aconf);
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_aconf_list.head)
{
free_conf((ConfItem *)ptr->data);
rb_dlinkDestroy(ptr, &yy_aconf_list);
}
yy_aconf = make_conf();
yy_aconf->status = CONF_CLIENT;
return 0;
}
static int
conf_end_auth(struct TopConf *tc)
{
struct ConfItem *yy_tmp, *found_conf;
rb_dlink_node *ptr;
rb_dlink_node *next_ptr;
if(EmptyString(yy_aconf->info.name))
yy_aconf->info.name = rb_strdup("NOMATCH");
// didnt even get one ->host?
if(EmptyString(yy_aconf->host))
{
conf_report_error("Ignoring auth block -- missing user@host");
return 0;
}
// so the stacking works in order..
collapse(yy_aconf->user);
collapse(yy_aconf->host);
conf_add_class_to_conf(yy_aconf);
if ((found_conf = find_exact_conf_by_address("*", CONF_CLIENT, "*")) && found_conf->spasswd == NULL)
conf_report_error("Ignoring redundant auth block (after *@*)");
else if ((found_conf = find_exact_conf_by_address(yy_aconf->host, CONF_CLIENT, yy_aconf->user)) &&
(!found_conf->spasswd || (yy_aconf->spasswd &&
0 == irccmp(found_conf->spasswd, yy_aconf->spasswd))))
conf_report_error("Ignoring duplicate auth block for %s@%s",
yy_aconf->user, yy_aconf->host);
else
add_conf_by_address(yy_aconf->host, CONF_CLIENT, yy_aconf->user, yy_aconf->spasswd, yy_aconf);
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_aconf_list.head)
{
yy_tmp = (ConfItem *)ptr->data;
if(yy_aconf->passwd)
yy_tmp->passwd = rb_strdup(yy_aconf->passwd);
if(yy_aconf->spasswd)
yy_tmp->spasswd = rb_strdup(yy_aconf->spasswd);
// this will always exist..
yy_tmp->info.name = rb_strdup(yy_aconf->info.name);
if(yy_aconf->className)
yy_tmp->className = rb_strdup(yy_aconf->className);
yy_tmp->flags = yy_aconf->flags;
yy_tmp->port = yy_aconf->port;
collapse(yy_tmp->user);
collapse(yy_tmp->host);
conf_add_class_to_conf(yy_tmp);
if ((found_conf = find_exact_conf_by_address("*", CONF_CLIENT, "*")) && found_conf->spasswd == NULL)
conf_report_error("Ignoring redundant auth block (after *@*)");
else if ((found_conf = find_exact_conf_by_address(yy_tmp->host, CONF_CLIENT, yy_tmp->user)) &&
(!found_conf->spasswd || (yy_tmp->spasswd &&
0 == irccmp(found_conf->spasswd, yy_tmp->spasswd))))
conf_report_error("Ignoring duplicate auth block for %s@%s",
yy_tmp->user, yy_tmp->host);
else
add_conf_by_address(yy_tmp->host, CONF_CLIENT, yy_tmp->user, yy_tmp->spasswd, yy_tmp);
rb_dlinkDestroy(ptr, &yy_aconf_list);
}
yy_aconf = NULL;
return 0;
}
static void
conf_set_auth_user(void *data)
{
struct ConfItem *yy_tmp;
char *p;
// The first user= line doesn't allocate a new conf
if(!EmptyString(yy_aconf->host))
{
yy_tmp = make_conf();
yy_tmp->status = CONF_CLIENT;
}
else
yy_tmp = yy_aconf;
if((p = (char *)strchr((const char *)data, '@')))
{
*p++ = '\0';
yy_tmp->user = rb_strdup((const char *)data);
yy_tmp->host = rb_strdup(p);
}
else
{
yy_tmp->user = rb_strdup("*");
yy_tmp->host = rb_strdup((const char *)data);
}
if(yy_aconf != yy_tmp)
rb_dlinkAddAlloc(yy_tmp, &yy_aconf_list);
}
static void
conf_set_auth_auth_user(void *data)
{
if(yy_aconf->spasswd)
memset(yy_aconf->spasswd, 0, strlen(yy_aconf->spasswd));
rb_free(yy_aconf->spasswd);
yy_aconf->spasswd = rb_strdup((const char *)data);
}
static void
conf_set_auth_passwd(void *data)
{
if(yy_aconf->passwd)
memset(yy_aconf->passwd, 0, strlen(yy_aconf->passwd));
rb_free(yy_aconf->passwd);
yy_aconf->passwd = rb_strdup((const char *)data);
}
static void
conf_set_auth_spoof(void *data)
{
char *p;
char *user = NULL;
char *host = NULL;
host = (char *)data;
// user@host spoof
if((p = strchr(host, '@')) != NULL)
{
*p = '\0';
user = (char *)data;
host = p+1;
if(EmptyString(user))
{
conf_report_error("Warning -- spoof ident empty.");
return;
}
if(strlen(user) > USERLEN)
{
conf_report_error("Warning -- spoof ident length invalid.");
return;
}
if(!valid_username(user))
{
conf_report_error("Warning -- invalid spoof (ident).");
return;
}
// this must be restored!
*p = '@';
}
if(EmptyString(host))
{
conf_report_error("Warning -- spoof host empty.");
return;
}
if(strlen(host) > HOSTLEN)
{
conf_report_error("Warning -- spoof host length invalid.");
return;
}
if(!valid_hostname(host))
{
conf_report_error("Warning -- invalid spoof (host).");
return;
}
rb_free(yy_aconf->info.name);
yy_aconf->info.name = rb_strdup((const char *)data);
yy_aconf->flags |= CONF_FLAGS_SPOOF_IP;
}
static void
conf_set_auth_flags(void *data)
{
conf_parm_t *args = (conf_parm_t *)data;
set_modes_from_table((int *) &yy_aconf->flags, "flag", auth_table, args);
}
static void
conf_set_auth_redir_serv(void *data)
{
yy_aconf->flags |= CONF_FLAGS_REDIR;
rb_free(yy_aconf->info.name);
yy_aconf->info.name = rb_strdup((const char *)data);
}
static void
conf_set_auth_redir_port(void *data)
{
int port = *(unsigned int *) data;
yy_aconf->flags |= CONF_FLAGS_REDIR;
yy_aconf->port = port;
}
static void
conf_set_auth_class(void *data)
{
rb_free(yy_aconf->className);
yy_aconf->className = rb_strdup((const char *)data);
}
// ok, shared_oper handles the stacking, shared_flags handles adding
// things.. so all we need to do when we start and end a shared block, is
// clean up anything thats been left over.
static int
conf_cleanup_shared(struct TopConf *tc)
{
rb_dlink_node *ptr, *next_ptr;
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_shared_list.head)
{
free_remote_conf((remote_conf *)ptr->data);
rb_dlinkDestroy(ptr, &yy_shared_list);
}
if(yy_shared != NULL)
{
free_remote_conf(yy_shared);
yy_shared = NULL;
}
return 0;
}
static void
conf_set_shared_oper(void *data)
{
conf_parm_t *args = (conf_parm_t *)data;
const char *username;
char *p;
if(yy_shared != NULL)
free_remote_conf(yy_shared);
yy_shared = make_remote_conf();
if(args->next != NULL)
{
if(CF_TYPE(args->type) != CF_QSTRING)
{
conf_report_error("Ignoring shared::oper -- server is not a qstring");
return;
}
yy_shared->server = rb_strdup(args->v.string);
args = args->next;
}
else
yy_shared->server = rb_strdup("*");
if(CF_TYPE(args->type) != CF_QSTRING)
{
conf_report_error("Ignoring shared::oper -- oper is not a qstring");
return;
}
if((p = strchr(args->v.string, '@')) == NULL)
{
conf_report_error("Ignoring shard::oper -- oper is not a user@host");
return;
}
username = args->v.string;
*p++ = '\0';
if(EmptyString(p))
yy_shared->host = rb_strdup("*");
else
yy_shared->host = rb_strdup(p);
if(EmptyString(username))
yy_shared->username = rb_strdup("*");
else
yy_shared->username = rb_strdup(username);
rb_dlinkAddAlloc(yy_shared, &yy_shared_list);
yy_shared = NULL;
}
static void
conf_set_shared_flags(void *data)
{
conf_parm_t *args = (conf_parm_t *)data;
int flags = 0;
rb_dlink_node *ptr, *next_ptr;
if(yy_shared != NULL)
free_remote_conf(yy_shared);
set_modes_from_table(&flags, "flag", shared_table, args);
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_shared_list.head)
{
yy_shared = (remote_conf *)ptr->data;
yy_shared->flags = flags;
rb_dlinkDestroy(ptr, &yy_shared_list);
rb_dlinkAddTail(yy_shared, &yy_shared->node, &shared_conf_list);
}
yy_shared = NULL;
}
static int
conf_begin_connect(struct TopConf *tc)
{
if(yy_server)
free_server_conf(yy_server);
yy_server = make_server_conf();
yy_server->port = PORTNUM;
yy_server->flags |= SERVER_TB;
if(conf_cur_block_name != NULL)
yy_server->name = rb_strdup(conf_cur_block_name);
return 0;
}
static int
conf_end_connect(struct TopConf *tc)
{
if(EmptyString(yy_server->name))
{
conf_report_error("Ignoring connect block -- missing name.");
return 0;
}
if(ServerInfo.name != NULL && !irccmp(ServerInfo.name, yy_server->name))
{
conf_report_error("Ignoring connect block for %s -- name is equal to my own name.",
yy_server->name);
return 0;
}
if((EmptyString(yy_server->passwd) || EmptyString(yy_server->spasswd)) && EmptyString(yy_server->certfp))
{
conf_report_error("Ignoring connect block for %s -- no fingerprint or password credentials provided.",
yy_server->name);
return 0;
}
if((yy_server->flags & SERVER_SSL) && EmptyString(yy_server->certfp))
{
conf_report_error("Ignoring connect block for %s -- no fingerprint provided for SSL connection.",
yy_server->name);
return 0;
}
if(EmptyString(yy_server->connect_host)
&& GET_SS_FAMILY(&yy_server->connect4) != AF_INET
#ifdef RB_IPV6
&& GET_SS_FAMILY(&yy_server->connect6) != AF_INET6
#endif
)
{
conf_report_error("Ignoring connect block for %s -- missing host.",
yy_server->name);
return 0;
}
#ifndef HAVE_LIBZ
if(ServerConfCompressed(yy_server))
{
conf_report_error("Ignoring connect::flags::compressed -- zlib not available.");
yy_server->flags &= ~SERVER_COMPRESSED;
}
#endif
add_server_conf(yy_server);
rb_dlinkAdd(yy_server, &yy_server->node, &server_conf_list);
yy_server = NULL;
return 0;
}
static void
conf_set_connect_host(void *data)
{
struct rb_sockaddr_storage addr;
if(rb_inet_pton_sock((const char *)data, (struct sockaddr *)&addr) <= 0)
{
rb_free(yy_server->connect_host);
yy_server->connect_host = rb_strdup((const char *)data);
}
else if(GET_SS_FAMILY(&addr) == AF_INET)
{
yy_server->connect4 = addr;
}
#ifdef RB_IPV6
else if(GET_SS_FAMILY(&addr) == AF_INET6)
{
yy_server->connect6 = addr;
}
#endif
else
{
conf_report_error("Unsupported IP address for server connect host (%s)",
(char *)data);
return;
}
}
static void
conf_set_connect_vhost(void *data)
{
struct rb_sockaddr_storage addr;
if(rb_inet_pton_sock((const char *)data, (struct sockaddr *)&addr) <= 0)
{
rb_free(yy_server->bind_host);
yy_server->bind_host = rb_strdup((const char *)data);
}
else if(GET_SS_FAMILY(&addr) == AF_INET)
{
yy_server->bind4 = addr;
}
#ifdef RB_IPV6
else if(GET_SS_FAMILY(&addr) == AF_INET6)
{
yy_server->bind6 = addr;
}
#endif
else
{
conf_report_error("Unsupported IP address for server connect vhost (%s)",
(char *)data);
return;
}
}
static void
conf_set_connect_send_password(void *data)
{
if(yy_server->spasswd)
{
memset(yy_server->spasswd, 0, strlen(yy_server->spasswd));
rb_free(yy_server->spasswd);
}
yy_server->spasswd = rb_strdup((const char *)data);
}
static void
conf_set_connect_accept_password(void *data)
{
if(yy_server->passwd)
{
memset(yy_server->passwd, 0, strlen(yy_server->passwd));
rb_free(yy_server->passwd);
}
yy_server->passwd = rb_strdup((const char *)data);
}
static void
conf_set_connect_fingerprint(void *data)
{
if (yy_server->certfp)
rb_free(yy_server->certfp);
yy_server->certfp = rb_strdup((char *) data);
// force SSL to be enabled if fingerprint is enabled.
yy_server->flags |= SERVER_SSL;
}
static void
conf_set_connect_port(void *data)
{
int port = *(unsigned int *) data;
if(port < 1)
port = PORTNUM;
yy_server->port = port;
}
static void
conf_set_connect_aftype(void *data)
{
char *aft = (char *)data;
if(rb_strcasecmp(aft, "ipv4") == 0)
yy_server->aftype = AF_INET;
#ifdef RB_IPV6
else if(rb_strcasecmp(aft, "ipv6") == 0)
yy_server->aftype = AF_INET6;
#endif
else
conf_report_error("connect::aftype '%s' is unknown.", aft);
}
static void
conf_set_connect_flags(void *data)
{
conf_parm_t *args = (conf_parm_t *)data;
// note, we allow them to set compressed, then remove it later if
// they do and LIBZ isnt available
set_modes_from_table(&yy_server->flags, "flag", connect_table, args);
}
static void
conf_set_connect_hub_mask(void *data)
{
struct remote_conf *yy_hub;
if(EmptyString(yy_server->name))
return;
yy_hub = make_remote_conf();
yy_hub->flags = CONF_HUB;
yy_hub->host = rb_strdup((const char *)data);
yy_hub->server = rb_strdup(yy_server->name);
rb_dlinkAdd(yy_hub, &yy_hub->node, &hubleaf_conf_list);
}
static void
conf_set_connect_leaf_mask(void *data)
{
struct remote_conf *yy_leaf;
if(EmptyString(yy_server->name))
return;
yy_leaf = make_remote_conf();
yy_leaf->flags = CONF_LEAF;
yy_leaf->host = rb_strdup((const char *)data);
yy_leaf->server = rb_strdup(yy_server->name);
rb_dlinkAdd(yy_leaf, &yy_leaf->node, &hubleaf_conf_list);
}
static void
conf_set_connect_class(void *data)
{
rb_free(yy_server->class_name);
yy_server->class_name = rb_strdup((const char *)data);
}
static void
conf_set_exempt_ip(void *data)
{
struct ConfItem *yy_tmp;
if(parse_netmask((const char *)data, NULL, NULL) == HM_HOST)
{
conf_report_error("Ignoring exempt -- invalid exempt::ip.");
return;
}
yy_tmp = make_conf();
yy_tmp->passwd = rb_strdup("*");
yy_tmp->host = rb_strdup((const char *)data);
yy_tmp->status = CONF_EXEMPTDLINE;
add_conf_by_address(yy_tmp->host, CONF_EXEMPTDLINE, NULL, NULL, yy_tmp);
}
static int
conf_cleanup_cluster(struct TopConf *tc)
{
rb_dlink_node *ptr, *next_ptr;
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_cluster_list.head)
{
free_remote_conf((remote_conf *)ptr->data);
rb_dlinkDestroy(ptr, &yy_cluster_list);
}
if(yy_shared != NULL)
{
free_remote_conf(yy_shared);
yy_shared = NULL;
}
return 0;
}
static void
conf_set_cluster_name(void *data)
{
if(yy_shared != NULL)
free_remote_conf(yy_shared);
yy_shared = make_remote_conf();
yy_shared->server = rb_strdup((const char *)data);
rb_dlinkAddAlloc(yy_shared, &yy_cluster_list);
yy_shared = NULL;
}
static void
conf_set_cluster_flags(void *data)
{
conf_parm_t *args = (conf_parm_t *)data;
int flags = 0;
rb_dlink_node *ptr, *next_ptr;
if(yy_shared != NULL)
free_remote_conf(yy_shared);
set_modes_from_table(&flags, "flag", cluster_table, args);
RB_DLINK_FOREACH_SAFE(ptr, next_ptr, yy_cluster_list.head)
{
yy_shared = (remote_conf *)ptr->data;
yy_shared->flags = flags;
rb_dlinkAddTail(yy_shared, &yy_shared->node, &cluster_conf_list);
rb_dlinkDestroy(ptr, &yy_cluster_list);
}
yy_shared = NULL;
}
static void
conf_set_general_havent_read_conf(void *data)
{
if(*(unsigned int *) data)
{
conf_report_error("You haven't read your config file properly.");
conf_report_error
("There is a line in the example conf that will kill your server if not removed.");
conf_report_error
("Consider actually reading/editing the conf file, and removing this line.");
if (!testing_conf)
exit(0);
}
}
static void
conf_set_general_hide_error_messages(void *data)
{
char *val = (char *)data;
if(rb_strcasecmp(val, "yes") == 0)
ConfigFileEntry.hide_error_messages = 2;
else if(rb_strcasecmp(val, "opers") == 0)
ConfigFileEntry.hide_error_messages = 1;
else if(rb_strcasecmp(val, "no") == 0)
ConfigFileEntry.hide_error_messages = 0;
else
conf_report_error("Invalid setting '%s' for general::hide_error_messages.", val);
}
static void
conf_set_general_kline_delay(void *data)
{
ConfigFileEntry.kline_delay = *(unsigned int *) data;
// THIS MUST BE HERE to stop us being unable to check klines
kline_queued = false;
}
static void
conf_set_general_stats_k_oper_only(void *data)
{
char *val = (char *)data;
if(rb_strcasecmp(val, "yes") == 0)
ConfigFileEntry.stats_k_oper_only = 2;
else if(rb_strcasecmp(val, "masked") == 0)
ConfigFileEntry.stats_k_oper_only = 1;
else if(rb_strcasecmp(val, "no") == 0)
ConfigFileEntry.stats_k_oper_only = 0;
else
conf_report_error("Invalid setting '%s' for general::stats_k_oper_only.", val);
}
static void
conf_set_general_stats_i_oper_only(void *data)
{
char *val = (char *)data;
if(rb_strcasecmp(val, "yes") == 0)
ConfigFileEntry.stats_i_oper_only = 2;
else if(rb_strcasecmp(val, "masked") == 0)
ConfigFileEntry.stats_i_oper_only = 1;
else if(rb_strcasecmp(val, "no") == 0)
ConfigFileEntry.stats_i_oper_only = 0;
else
conf_report_error("Invalid setting '%s' for general::stats_i_oper_only.", val);
}
static void
conf_set_general_compression_level(void *data)
{
#ifdef HAVE_LIBZ
ConfigFileEntry.compression_level = *(unsigned int *) data;
if((ConfigFileEntry.compression_level < 1) || (ConfigFileEntry.compression_level > 9))
{
conf_report_error
("Invalid general::compression_level %d -- using default.",
ConfigFileEntry.compression_level);
ConfigFileEntry.compression_level = 0;
}
#else
conf_report_error("Ignoring general::compression_level -- zlib not available.");
#endif
}
static void
conf_set_general_default_umodes(void *data)
{
char *pm;
int what = MODE_ADD, flag;
ConfigFileEntry.default_umodes = 0;
for (pm = (char *) data; *pm; pm++)
{
switch (*pm)
{
case '+':
what = MODE_ADD;
break;
case '-':
what = MODE_DEL;
break;
// don't allow +o
case 'o':
case 'S':
case 'Z':
case ' ':
break;
default:
if ((flag = umode::table[(unsigned char) *pm]))
{
// Proper value has probably not yet been set
// so don't check oper_only_umodes -- jilles
if (what == MODE_ADD)
ConfigFileEntry.default_umodes |= flag;
else
ConfigFileEntry.default_umodes &= ~flag;
}
break;
}
}
}
static void
conf_set_general_oper_umodes(void *data)
{
set_modes_from_table(&ConfigFileEntry.oper_umodes, "umode", umode_table, (conf_parm_t *)data);
}
static void
conf_set_general_certfp_method(void *data)
{
char *method = (char *)data;
if (!rb_strcasecmp(method, CERTFP_NAME_CERT_SHA1))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_CERT_SHA1;
else if (!rb_strcasecmp(method, CERTFP_NAME_CERT_SHA256))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_CERT_SHA256;
else if (!rb_strcasecmp(method, CERTFP_NAME_CERT_SHA512))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_CERT_SHA512;
else if (!rb_strcasecmp(method, CERTFP_NAME_SPKI_SHA256))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_SPKI_SHA256;
else if (!rb_strcasecmp(method, CERTFP_NAME_SPKI_SHA512))
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_SPKI_SHA512;
else
{
ConfigFileEntry.certfp_method = RB_SSL_CERTFP_METH_CERT_SHA1;
conf_report_error("Ignoring general::certfp_method -- bogus certfp method %s", method);
}
}
static void
conf_set_general_oper_only_umodes(void *data)
{
set_modes_from_table(&ConfigFileEntry.oper_only_umodes, "umode", umode_table, (conf_parm_t *)data);
}
static void
conf_set_general_oper_snomask(void *data)
{
ConfigFileEntry.oper_snomask = mask(sno::table, (const char *)data);
}
static void
conf_set_serverhide_links_delay(void *data)
{
int val = *(unsigned int *) data;
ConfigServerHide.links_delay = val;
}
static void
conf_set_service_name(void *data)
{
const char *s;
char *tmp;
int dots = 0;
for(s = (char *)data; *s != '\0'; s++)
{
if(!rfc1459::is_serv(*s))
{
conf_report_error("Ignoring service::name "
"-- bogus servername.");
return;
}
else if(*s == '.')
dots++;
}
if(!dots)
{
conf_report_error("Ignoring service::name -- must contain '.'");
return;
}
tmp = rb_strdup((const char *)data);
rb_dlinkAddAlloc(tmp, &service_list);
}
static int
conf_begin_alias(struct TopConf *tc)
{
yy_alias = std::make_shared<alias_entry>();
if (conf_cur_block_name != NULL)
yy_alias->name = conf_cur_block_name;
yy_alias->flags = 0;
return 0;
}
static int
conf_end_alias(struct TopConf *tc)
{
if (yy_alias == NULL)
return -1;
if (yy_alias->name.size() == 0)
{
conf_report_error("Ignoring alias -- must have a name.");
return -1;
}
if (yy_alias->target.size() == 0)
{
conf_report_error("Ignoring alias -- must have a target.");
return -1;
}
alias_dict[yy_alias->name] = std::move(yy_alias);
return 0;
}
static void
conf_set_alias_name(void *data)
{
if (data == NULL || yy_alias == NULL) // this shouldn't ever happen
return;
yy_alias->name = (const char *) data;
}
static void
conf_set_alias_target(void *data)
{
if (data == NULL || yy_alias == NULL) // this shouldn't ever happen
return;
yy_alias->target = (const char *) data;
}
static void
conf_set_channel_autochanmodes(void *data)
{
char *pm;
int what = MODE_ADD;
ConfigChannel.autochanmodes = 0;
for (pm = (char *) data; *pm; pm++)
{
switch (*pm)
{
case '+':
what = MODE_ADD;
break;
case '-':
what = MODE_DEL;
break;
default:
if (chan::mode::table[uint8_t(*pm)].set_func == chan::mode::functor::simple)
{
if (what == MODE_ADD)
ConfigChannel.autochanmodes |= chan::mode::table[uint8_t(*pm)].type;
else
ConfigChannel.autochanmodes &= ~chan::mode::table[uint8_t(*pm)].type;
}
else
{
conf_report_error("channel::autochanmodes -- Invalid channel mode %c", *pm);
continue;
}
break;
}
}
}
// XXX for below
static void conf_set_blacklist_reason(void *data);
#define IPTYPE_IPV4 1
#define IPTYPE_IPV6 2
static void
conf_set_blacklist_host(void *data)
{
if (yy_blacklist_host)
{
conf_report_error("blacklist::host %s overlaps existing host %s",
(char *)data, yy_blacklist_host);
// Cleanup
conf_set_blacklist_reason(NULL);
return;
}
yy_blacklist_iptype |= IPTYPE_IPV4;
yy_blacklist_host = rb_strdup((const char *)data);
}
static void
conf_set_blacklist_type(void *data)
{
conf_parm_t *args = (conf_parm_t *)data;
/// Don't assume we have either if we got here
yy_blacklist_iptype = 0;
for (; args; args = args->next)
{
if (!rb_strcasecmp(args->v.string, "ipv4"))
yy_blacklist_iptype |= IPTYPE_IPV4;
else if (!rb_strcasecmp(args->v.string, "ipv6"))
yy_blacklist_iptype |= IPTYPE_IPV6;
else
conf_report_error("blacklist::type has unknown address family %s",
args->v.string);
}
// If we have neither, just default to IPv4
if (!yy_blacklist_iptype)
{
conf_report_warning("blacklist::type has neither IPv4 nor IPv6 (defaulting to IPv4)");
yy_blacklist_iptype = IPTYPE_IPV4;
}
}
static void
conf_set_blacklist_matches(void *data)
{
conf_parm_t *args = (conf_parm_t *)data;
enum filter_t { FILTER_NONE, FILTER_ALL, FILTER_LAST };
for (; args; args = args->next)
{
char *str = args->v.string;
char *p;
enum filter_t type = FILTER_LAST;
if (CF_TYPE(args->type) != CF_QSTRING)
{
conf_report_error("blacklist::matches -- must be quoted string");
continue;
}
if (str == NULL)
{
conf_report_error("blacklist::matches -- invalid entry");
continue;
}
if (strlen(str) > HOSTIPLEN)
{
conf_report_error("blacklist::matches has an entry too long: %s",
str);
continue;
}
for (p = str; *p != '\0'; p++)
{
// Check for validity
if (*p == '.')
type = FILTER_ALL;
else if (!isdigit((unsigned char)*p))
{
conf_report_error("blacklist::matches has invalid IP match entry %s",
str);
type = FILTER_NONE;
break;
}
}
if (type == FILTER_ALL)
{
// Basic IP sanity check
struct rb_sockaddr_storage tmp;
if (rb_inet_pton(AF_INET, str, &tmp) <= 0)
{
conf_report_error("blacklist::matches has invalid IP match entry %s",
str);
continue;
}
}
else if (type == FILTER_LAST)
{
// Verify it's the correct length
if (strlen(str) > 3)
{
conf_report_error("blacklist::matches has invalid octet match entry %s",
str);
continue;
}
}
else
{
continue; // Invalid entry
}
rb_dlinkAddAlloc(rb_strdup(str), &yy_blacklist_filters);
}
}
static void
conf_set_blacklist_reason(void *data)
{
rb_dlink_node *ptr, *nptr;
if (yy_blacklist_host && data)
{
yy_blacklist_reason = rb_strdup((const char *)data);
if (yy_blacklist_iptype & IPTYPE_IPV6)
{
// Make sure things fit (magic number 64 = alnum count + dots)
// Example: 1.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.ip6.arpa
if ((64 + strlen(yy_blacklist_host)) > IRCD_RES_HOSTLEN)
{
conf_report_error("blacklist::host %s results in IPv6 queries that are too long",
yy_blacklist_host);
goto cleanup_bl;
}
}
// Avoid doing redundant check, IPv6 is bigger than IPv4 --Elizabeth
if ((yy_blacklist_iptype & IPTYPE_IPV4) && !(yy_blacklist_iptype & IPTYPE_IPV6))
{
// Make sure things fit for worst case (magic number 16 = number of nums + dots)
// Example: 127.127.127.127.in-addr.arpa
if ((16 + strlen(yy_blacklist_host)) > IRCD_RES_HOSTLEN)
{
conf_report_error("blacklist::host %s results in IPv4 queries that are too long",
yy_blacklist_host);
goto cleanup_bl;
}
}
add_blacklist(yy_blacklist_host, yy_blacklist_reason, yy_blacklist_iptype, &yy_blacklist_filters);
}
cleanup_bl:
RB_DLINK_FOREACH_SAFE(ptr, nptr, yy_blacklist_filters.head)
{
rb_free(ptr->data);
rb_dlinkDestroy(ptr, &yy_blacklist_filters);
}
yy_blacklist_filters = (rb_dlink_list){ NULL, NULL, 0 };
rb_free(yy_blacklist_host);
rb_free(yy_blacklist_reason);
yy_blacklist_host = NULL;
yy_blacklist_reason = NULL;
yy_blacklist_iptype = 0;
}
struct opm_scanner
{
const char *type;
uint16_t port;
rb_dlink_node node;
};
static int
conf_begin_opm(struct TopConf *tc)
{
yy_opm_address_ipv4 = yy_opm_address_ipv6 = NULL;
yy_opm_port_ipv4 = yy_opm_port_ipv6 = yy_opm_timeout = 0;
delete_opm_proxy_scanner_all();
delete_opm_listener_all();
return 0;
}
static int
conf_end_opm(struct TopConf *tc)
{
rb_dlink_node *ptr, *nptr;
bool fail = false;
if(rb_dlink_list_length(&yy_opm_scanner_list) == 0)
{
conf_report_error("No opm scanners configured -- disabling opm.");
fail = true;
goto end;
}
if(yy_opm_port_ipv4 > 0)
{
if(yy_opm_address_ipv4 != NULL)
conf_create_opm_listener(yy_opm_address_ipv4, yy_opm_port_ipv4);
else
{
char ip[HOSTIPLEN];
if(!rb_inet_ntop_sock((struct sockaddr *)&ServerInfo.bind4, ip, sizeof(ip)))
conf_report_error("No opm::listen_ipv4 nor serverinfo::vhost directive; cannot listen on IPv4");
else
conf_create_opm_listener(ip, yy_opm_port_ipv4);
}
}
if(yy_opm_port_ipv6 > 0)
{
if(yy_opm_address_ipv6 != NULL)
conf_create_opm_listener(yy_opm_address_ipv6, yy_opm_port_ipv6);
else
{
char ip[HOSTIPLEN];
if(!rb_inet_ntop_sock((struct sockaddr *)&ServerInfo.bind6, ip, sizeof(ip)))
conf_report_error("No opm::listen_ipv6 nor serverinfo::vhost directive; cannot listen on IPv6");
else
conf_create_opm_listener(ip, yy_opm_port_ipv6);
}
}
// If there's no listeners...
fail = (yy_opm_port_ipv4 == 0 || yy_opm_port_ipv6 == 0);
if(!fail && yy_opm_timeout > 0 && yy_opm_timeout < 60)
// Send timeout
set_authd_timeout("opm_timeout", yy_opm_timeout);
else if(fail)
conf_report_error("No opm listeners -- disabling");
else if(yy_opm_timeout <= 0 || yy_opm_timeout >= 60)
conf_report_error("opm::timeout value is invalid -- ignoring");
end:
RB_DLINK_FOREACH_SAFE(ptr, nptr, yy_opm_scanner_list.head)
{
struct opm_scanner *scanner = (opm_scanner *)ptr->data;
if(!fail)
create_opm_proxy_scanner(scanner->type, scanner->port);
rb_dlinkDelete(&scanner->node, &yy_opm_scanner_list);
rb_free(scanner);
}
if(!fail)
opm_check_enable(true);
rb_free(yy_opm_address_ipv4);
rb_free(yy_opm_address_ipv6);
return 0;
}
static void
conf_set_opm_timeout(void *data)
{
int timeout = *((int *)data);
if(timeout <= 0 || timeout > 60)
{
conf_report_error("opm::timeout value %d is bogus, ignoring", timeout);
return;
}
yy_opm_timeout = timeout;
}
static void
conf_set_opm_listen_address_both(void *data, bool ipv6)
{
struct rb_sockaddr_storage addr;
const char *confstr = (ipv6 ? "opm::listen_ipv6" : "opm::listen_ipv4");
char *ip = (char *)data;
if(!rb_inet_pton_sock(ip, (struct sockaddr *)&addr))
{
conf_report_error("%s is an invalid address: %s", confstr, ip);
return;
}
if(ipv6)
{
#ifdef RB_IPV6
if(GET_SS_FAMILY(&addr) != AF_INET6)
{
conf_report_error("%s is of the wrong address type: %s", confstr, ip);
return;
}
if(yy_opm_address_ipv6 != NULL)
{
conf_report_error("%s overwrites previous address %s", confstr, ip);
return;
}
yy_opm_address_ipv6 = rb_strdup(ip);
#else
conf_report_error("%s requires IPv6 support in your ircd", confstr, ip);
return;
#endif
}
else
{
if(GET_SS_FAMILY(&addr) != AF_INET)
{
conf_report_error("%s is of the wrong address type: %s", confstr, ip);
return;
}
if(yy_opm_address_ipv4 != NULL)
{
conf_report_error("%s overwrites previous address %s", confstr, ip);
return;
}
yy_opm_address_ipv4 = rb_strdup(ip);
}
}
static void
conf_set_opm_listen_address_ipv4(void *data)
{
conf_set_opm_listen_address_both(data, false);
}
static void
conf_set_opm_listen_address_ipv6(void *data)
{
conf_set_opm_listen_address_both(data, true);
}
static void
conf_set_opm_listen_port_both(void *data, bool ipv6)
{
int port = *((int *)data);
const char *confstr = (ipv6 ? "opm::port_ipv6" : "opm::port_ipv4");
#ifndef RB_IPV6
if(ipv6)
{
conf_report_error("%s requires IPv6 support in your ircd", confstr);
return;
}
#endif
if(port > 65535 || port <= 0)
{
conf_report_error("%s is out of range: %d", confstr, port);
return;
}
if(ipv6)
{
if(yy_opm_port_ipv4)
{
conf_report_error("%s overwrites existing port %hu",
confstr, yy_opm_port_ipv4);
return;
}
yy_opm_port_ipv4 = port;
}
else
{
if(yy_opm_port_ipv6)
{
conf_report_error("%s overwrites existing port %hu",
confstr, yy_opm_port_ipv6);
return;
}
yy_opm_port_ipv6 = port;
}
}
static void
conf_set_opm_listen_port_ipv4(void *data)
{
conf_set_opm_listen_port_both(data, false);
}
static void
conf_set_opm_listen_port_ipv6(void *data)
{
conf_set_opm_listen_port_both(data, true);
}
static void
conf_set_opm_listen_port(void *data)
{
conf_set_opm_listen_port_both(data, true);
conf_set_opm_listen_port_both(data, false);
}
static void
conf_set_opm_scan_ports_all(void *data, const char *node, const char *type)
{
conf_parm_t *args = (conf_parm_t *)data;
for (; args; args = args->next)
{
rb_dlink_node *ptr;
bool dup = false;
if(CF_TYPE(args->type) != CF_INT)
{
conf_report_error("%s argument is not an integer -- ignoring.", node);
continue;
}
if(args->v.number > 65535 || args->v.number <= 0)
{
conf_report_error("%s argument is not an integer between 1 and 65535 -- ignoring.", node);
continue;
}
// Check for duplicates
RB_DLINK_FOREACH(ptr, yy_opm_scanner_list.head)
{
struct opm_scanner *scanner = (opm_scanner *)ptr->data;
if(scanner->port == args->v.number && strcmp(type, scanner->type) == 0)
{
conf_report_error("%s argument is duplicate", node);
dup = true;
break;
}
}
if(!dup)
{
struct opm_scanner *scanner = (opm_scanner *)rb_malloc(sizeof(struct opm_scanner));
scanner->port = args->v.number;
scanner->type = type;
rb_dlinkAdd(scanner, &scanner->node, &yy_opm_scanner_list);
}
}
}
static void
conf_set_opm_scan_ports_socks4(void *data)
{
conf_set_opm_scan_ports_all(data, "opm::socks4_ports", "socks4");
}
static void
conf_set_opm_scan_ports_socks5(void *data)
{
conf_set_opm_scan_ports_all(data, "opm::socks5_ports", "socks5");
}
static void
conf_set_opm_scan_ports_httpconnect(void *data)
{
conf_set_opm_scan_ports_all(data, "opm::httpconnect_ports", "httpconnect");
}
static void
conf_set_opm_scan_ports_httpsconnect(void *data)
{
conf_set_opm_scan_ports_all(data, "opm::httpsconnect_ports", "httpsconnect");
}
void
conf_report_error(const char *fmt, ...)
{
va_list ap;
char msg[BUFSIZE + 1] = { 0 };
va_start(ap, fmt);
vsnprintf(msg, BUFSIZE, fmt, ap);
va_end(ap);
if (testing_conf)
{
fprintf(stderr, "\"%s\", line %d: %s\n", current_file, lineno + 1, msg);
return;
}
ierror("\"%s\", line %d: %s", current_file, lineno + 1, msg);
sendto_realops_snomask(sno::GENERAL, L_ALL, "error: \"%s\", line %d: %s", current_file, lineno + 1, msg);
}
void
conf_report_warning(const char *fmt, ...)
{
va_list ap;
char msg[BUFSIZE + 1] = { 0 };
va_start(ap, fmt);
vsnprintf(msg, BUFSIZE, fmt, ap);
va_end(ap);
if (testing_conf)
{
fprintf(stderr, "\"%s\", line %d: %s\n", current_file, lineno + 1, msg);
return;
}
iwarn("\"%s\", line %d: %s", current_file, lineno + 1, msg);
sendto_realops_snomask(sno::GENERAL, L_ALL, "warning: \"%s\", line %d: %s", current_file, lineno + 1, msg);
}
int
conf_start_block(char *block, char *name)
{
if((conf_cur_block = find_top_conf(block)) == NULL)
{
conf_report_error("Configuration block '%s' is not defined.", block);
return -1;
}
if(name)
conf_cur_block_name = rb_strdup(name);
else
conf_cur_block_name = NULL;
if(conf_cur_block->tc_sfunc)
if(conf_cur_block->tc_sfunc(conf_cur_block) < 0)
return -1;
return 0;
}
int
conf_end_block(struct TopConf *tc)
{
int ret = 0;
if(tc->tc_efunc)
ret = tc->tc_efunc(tc);
rb_free(conf_cur_block_name);
conf_cur_block_name = NULL;
return ret;
}
static void
conf_set_generic_int(void *data, void *location)
{
*((int *) location) = *((unsigned int *) data);
}
static void
conf_set_generic_string(void *data, int len, void *location)
{
char **loc = (char **)location;
char *input = (char *)data;
if(len && strlen(input) > (unsigned int)len)
input[len] = '\0';
rb_free(*loc);
*loc = rb_strdup(input);
}
int
conf_call_set(struct TopConf *tc, char *item, conf_parm_t * value)
{
struct ConfEntry *cf;
conf_parm_t *cp;
if(!tc)
return -1;
if((cf = find_conf_item(tc, item)) == NULL)
{
conf_report_error
("Non-existent configuration setting %s::%s.", tc->tc_name, (char *) item);
return -1;
}
// if it takes one thing, make sure they only passed one thing,
// and handle as needed.
if((value->v.list->type & CF_FLIST) && !(cf->cf_type & CF_FLIST))
{
conf_report_error
("Option %s::%s does not take a list of values.", tc->tc_name, item);
return -1;
}
cp = value->v.list;
if(CF_TYPE(value->v.list->type) != CF_TYPE(cf->cf_type))
{
// if it expects a string value, but we got a yesno,
// convert it back
if((CF_TYPE(value->v.list->type) == CF_YESNO) &&
(CF_TYPE(cf->cf_type) == CF_STRING))
{
value->v.list->type = CF_STRING;
if(cp->v.number == 1)
cp->v.string = rb_strdup("yes");
else
cp->v.string = rb_strdup("no");
}
// maybe it's a CF_TIME and they passed CF_INT --
// should still be valid
else if(!((CF_TYPE(value->v.list->type) == CF_INT) &&
(CF_TYPE(cf->cf_type) == CF_TIME)))
{
conf_report_error
("Wrong type for %s::%s (expected %s, got %s)",
tc->tc_name, (char *) item,
conf_strtype(cf->cf_type), conf_strtype(value->v.list->type));
return -1;
}
}
if(cf->cf_type & CF_FLIST)
{
#if 0
if(cf->cf_arg)
conf_set_generic_list(value->v.list, cf->cf_arg);
else
#endif
// just pass it the extended argument list
cf->cf_func(value->v.list);
}
else
{
// it's old-style, needs only one arg
switch (cf->cf_type)
{
case CF_INT:
case CF_TIME:
case CF_YESNO:
if(cf->cf_arg)
conf_set_generic_int(&cp->v.number, cf->cf_arg);
else
cf->cf_func(&cp->v.number);
break;
case CF_STRING:
case CF_QSTRING:
if(EmptyString(cp->v.string))
conf_report_error("Ignoring %s::%s -- empty field",
tc->tc_name, item);
else if(cf->cf_arg)
conf_set_generic_string(cp->v.string, cf->cf_len, cf->cf_arg);
else
cf->cf_func(cp->v.string);
break;
}
}
return 0;
}
int
add_conf_item(const char *topconf, const char *name, int type, void (*func) (void *))
{
struct TopConf *tc;
struct ConfEntry *cf;
if((tc = find_top_conf(topconf)) == NULL)
return -1;
if(find_conf_item(tc, name) != NULL)
return -1;
cf = (ConfEntry *)rb_malloc(sizeof(struct ConfEntry));
cf->cf_name = name;
cf->cf_type = type;
cf->cf_func = func;
cf->cf_arg = NULL;
rb_dlinkAddAlloc(cf, &tc->tc_items);
return 0;
}
int
remove_conf_item(const char *topconf, const char *name)
{
struct TopConf *tc;
struct ConfEntry *cf;
rb_dlink_node *ptr;
if((tc = find_top_conf(topconf)) == NULL)
return -1;
if((cf = find_conf_item(tc, name)) == NULL)
return -1;
if((ptr = rb_dlinkFind(cf, &tc->tc_items)) == NULL)
return -1;
rb_dlinkDestroy(ptr, &tc->tc_items);
rb_free(cf);
return 0;
}
static struct ConfEntry conf_serverinfo_table[] =
{
{ "description", CF_QSTRING, NULL, 0, &ServerInfo.description },
{ "network_name", CF_QSTRING, conf_set_serverinfo_network_name, 0, NULL },
{ "name", CF_QSTRING, conf_set_serverinfo_name, 0, NULL },
{ "sid", CF_QSTRING, conf_set_serverinfo_sid, 0, NULL },
{ "vhost", CF_QSTRING, conf_set_serverinfo_vhost, 0, NULL },
{ "vhost6", CF_QSTRING, conf_set_serverinfo_vhost6, 0, NULL },
{ "ssl_private_key", CF_QSTRING, NULL, 0, &ServerInfo.ssl_private_key },
{ "ssl_ca_cert", CF_QSTRING, NULL, 0, &ServerInfo.ssl_ca_cert },
{ "ssl_cert", CF_QSTRING, NULL, 0, &ServerInfo.ssl_cert },
{ "ssl_dh_params", CF_QSTRING, NULL, 0, &ServerInfo.ssl_dh_params },
{ "ssl_cipher_list", CF_QSTRING, NULL, 0, &ServerInfo.ssl_cipher_list },
{ "ssld_count", CF_INT, NULL, 0, &ServerInfo.ssld_count },
{ "default_max_clients",CF_INT, NULL, 0, &ServerInfo.default_max_clients },
{ "nicklen", CF_INT, conf_set_serverinfo_nicklen, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_admin_table[] =
{
{ "name", CF_QSTRING, NULL, 200, &AdminInfo.name },
{ "description",CF_QSTRING, NULL, 200, &AdminInfo.description },
{ "email", CF_QSTRING, NULL, 200, &AdminInfo.email },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_operator_table[] =
{
{ "rsa_public_key_file", CF_QSTRING, conf_set_oper_rsa_public_key_file, 0, NULL },
{ "flags", CF_STRING | CF_FLIST, conf_set_oper_flags, 0, NULL },
{ "umodes", CF_STRING | CF_FLIST, conf_set_oper_umodes, 0, NULL },
{ "privset", CF_QSTRING, conf_set_oper_privset, 0, NULL },
{ "snomask", CF_QSTRING, conf_set_oper_snomask, 0, NULL },
{ "user", CF_QSTRING, conf_set_oper_user, 0, NULL },
{ "password", CF_QSTRING, conf_set_oper_password, 0, NULL },
{ "fingerprint", CF_QSTRING, conf_set_oper_fingerprint, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_privset_table[] =
{
{ "extends", CF_QSTRING, conf_set_privset_extends, 0, NULL },
{ "privs", CF_STRING | CF_FLIST, conf_set_privset_privs, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_class_table[] =
{
{ "ping_time", CF_TIME, conf_set_class_ping_time, 0, NULL },
{ "cidr_ipv4_bitlen", CF_INT, conf_set_class_cidr_ipv4_bitlen, 0, NULL },
#ifdef RB_IPV6
{ "cidr_ipv6_bitlen", CF_INT, conf_set_class_cidr_ipv6_bitlen, 0, NULL },
#endif
{ "number_per_cidr", CF_INT, conf_set_class_number_per_cidr, 0, NULL },
{ "number_per_ip", CF_INT, conf_set_class_number_per_ip, 0, NULL },
{ "number_per_ip_global", CF_INT,conf_set_class_number_per_ip_global, 0, NULL },
{ "number_per_ident", CF_INT, conf_set_class_number_per_ident, 0, NULL },
{ "connectfreq", CF_TIME, conf_set_class_connectfreq, 0, NULL },
{ "max_number", CF_INT, conf_set_class_max_number, 0, NULL },
{ "sendq", CF_TIME, conf_set_class_sendq, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_auth_table[] =
{
{ "user", CF_QSTRING, conf_set_auth_user, 0, NULL },
{ "auth_user", CF_QSTRING, conf_set_auth_auth_user, 0, NULL },
{ "password", CF_QSTRING, conf_set_auth_passwd, 0, NULL },
{ "class", CF_QSTRING, conf_set_auth_class, 0, NULL },
{ "spoof", CF_QSTRING, conf_set_auth_spoof, 0, NULL },
{ "redirserv", CF_QSTRING, conf_set_auth_redir_serv, 0, NULL },
{ "redirport", CF_INT, conf_set_auth_redir_port, 0, NULL },
{ "flags", CF_STRING | CF_FLIST, conf_set_auth_flags, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_connect_table[] =
{
{ "send_password", CF_QSTRING, conf_set_connect_send_password, 0, NULL },
{ "accept_password", CF_QSTRING, conf_set_connect_accept_password, 0, NULL },
{ "fingerprint", CF_QSTRING, conf_set_connect_fingerprint, 0, NULL },
{ "flags", CF_STRING | CF_FLIST, conf_set_connect_flags, 0, NULL },
{ "host", CF_QSTRING, conf_set_connect_host, 0, NULL },
{ "vhost", CF_QSTRING, conf_set_connect_vhost, 0, NULL },
{ "port", CF_INT, conf_set_connect_port, 0, NULL },
{ "aftype", CF_STRING, conf_set_connect_aftype, 0, NULL },
{ "hub_mask", CF_QSTRING, conf_set_connect_hub_mask, 0, NULL },
{ "leaf_mask", CF_QSTRING, conf_set_connect_leaf_mask, 0, NULL },
{ "class", CF_QSTRING, conf_set_connect_class, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_general_table[] =
{
{ "oper_only_umodes", CF_STRING | CF_FLIST, conf_set_general_oper_only_umodes, 0, NULL },
{ "oper_umodes", CF_STRING | CF_FLIST, conf_set_general_oper_umodes, 0, NULL },
{ "oper_snomask", CF_QSTRING, conf_set_general_oper_snomask, 0, NULL },
{ "compression_level", CF_INT, conf_set_general_compression_level, 0, NULL },
{ "havent_read_conf", CF_YESNO, conf_set_general_havent_read_conf, 0, NULL },
{ "hide_error_messages",CF_STRING, conf_set_general_hide_error_messages,0, NULL },
{ "kline_delay", CF_TIME, conf_set_general_kline_delay, 0, NULL },
{ "stats_k_oper_only", CF_STRING, conf_set_general_stats_k_oper_only, 0, NULL },
{ "stats_i_oper_only", CF_STRING, conf_set_general_stats_i_oper_only, 0, NULL },
{ "default_umodes", CF_QSTRING, conf_set_general_default_umodes, 0, NULL },
{ "default_operstring", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.default_operstring },
{ "default_adminstring",CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.default_adminstring },
{ "servicestring", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.servicestring },
{ "kline_reason", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.kline_reason },
{ "identify_service", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.identifyservice },
{ "identify_command", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.identifycommand },
{ "sasl_service", CF_QSTRING, NULL, REALLEN, &ConfigFileEntry.sasl_service },
{ "anti_spam_exit_message_time", CF_TIME, NULL, 0, &ConfigFileEntry.anti_spam_exit_message_time },
{ "disable_fake_channels", CF_YESNO, NULL, 0, &ConfigFileEntry.disable_fake_channels },
{ "min_nonwildcard_simple", CF_INT, NULL, 0, &ConfigFileEntry.min_nonwildcard_simple },
{ "non_redundant_klines", CF_YESNO, NULL, 0, &ConfigFileEntry.non_redundant_klines },
{ "tkline_expire_notices", CF_YESNO, NULL, 0, &ConfigFileEntry.tkline_expire_notices },
{ "anti_nick_flood", CF_YESNO, NULL, 0, &ConfigFileEntry.anti_nick_flood },
{ "burst_away", CF_YESNO, NULL, 0, &ConfigFileEntry.burst_away },
{ "caller_id_wait", CF_TIME, NULL, 0, &ConfigFileEntry.caller_id_wait },
{ "client_exit", CF_YESNO, NULL, 0, &ConfigFileEntry.client_exit },
{ "collision_fnc", CF_YESNO, NULL, 0, &ConfigFileEntry.collision_fnc },
{ "resv_fnc", CF_YESNO, NULL, 0, &ConfigFileEntry.resv_fnc },
{ "connect_timeout", CF_TIME, NULL, 0, &ConfigFileEntry.connect_timeout },
{ "default_floodcount", CF_INT, NULL, 0, &ConfigFileEntry.default_floodcount },
{ "default_ident_timeout", CF_INT, NULL, 0, &ConfigFileEntry.default_ident_timeout },
{ "disable_auth", CF_YESNO, NULL, 0, &ConfigFileEntry.disable_auth },
{ "dots_in_ident", CF_INT, NULL, 0, &ConfigFileEntry.dots_in_ident },
{ "failed_oper_notice", CF_YESNO, NULL, 0, &ConfigFileEntry.failed_oper_notice },
{ "global_snotices", CF_YESNO, NULL, 0, &ConfigFileEntry.global_snotices },
{ "hide_spoof_ips", CF_YESNO, NULL, 0, &ConfigFileEntry.hide_spoof_ips },
{ "dline_with_reason", CF_YESNO, NULL, 0, &ConfigFileEntry.dline_with_reason },
{ "kline_with_reason", CF_YESNO, NULL, 0, &ConfigFileEntry.kline_with_reason },
{ "map_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.map_oper_only },
{ "max_accept", CF_INT, NULL, 0, &ConfigFileEntry.max_accept },
{ "max_monitor", CF_INT, NULL, 0, &ConfigFileEntry.max_monitor },
{ "max_nick_time", CF_TIME, NULL, 0, &ConfigFileEntry.max_nick_time },
{ "max_nick_changes", CF_INT, NULL, 0, &ConfigFileEntry.max_nick_changes },
{ "max_targets", CF_INT, NULL, 0, &ConfigFileEntry.max_targets },
{ "min_nonwildcard", CF_INT, NULL, 0, &ConfigFileEntry.min_nonwildcard },
{ "nick_delay", CF_TIME, NULL, 0, &ConfigFileEntry.nick_delay },
{ "no_oper_flood", CF_YESNO, NULL, 0, &ConfigFileEntry.no_oper_flood },
{ "operspy_admin_only", CF_YESNO, NULL, 0, &ConfigFileEntry.operspy_admin_only },
{ "operspy_dont_care_user_info", CF_YESNO, NULL, 0, &ConfigFileEntry.operspy_dont_care_user_info },
{ "pace_wait", CF_TIME, NULL, 0, &ConfigFileEntry.pace_wait },
{ "pace_wait_simple", CF_TIME, NULL, 0, &ConfigFileEntry.pace_wait_simple },
{ "ping_cookie", CF_YESNO, NULL, 0, &ConfigFileEntry.ping_cookie },
{ "reject_after_count", CF_INT, NULL, 0, &ConfigFileEntry.reject_after_count },
{ "reject_ban_time", CF_TIME, NULL, 0, &ConfigFileEntry.reject_ban_time },
{ "reject_duration", CF_TIME, NULL, 0, &ConfigFileEntry.reject_duration },
{ "throttle_count", CF_INT, NULL, 0, &ConfigFileEntry.throttle_count },
{ "throttle_duration", CF_TIME, NULL, 0, &ConfigFileEntry.throttle_duration },
{ "short_motd", CF_YESNO, NULL, 0, &ConfigFileEntry.short_motd },
{ "stats_c_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_c_oper_only },
{ "stats_e_disabled", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_e_disabled },
{ "stats_h_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_h_oper_only },
{ "stats_o_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_o_oper_only },
{ "stats_P_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_P_oper_only },
{ "stats_y_oper_only", CF_YESNO, NULL, 0, &ConfigFileEntry.stats_y_oper_only },
{ "target_change", CF_YESNO, NULL, 0, &ConfigFileEntry.target_change },
{ "ts_max_delta", CF_TIME, NULL, 0, &ConfigFileEntry.ts_max_delta },
{ "ts_warn_delta", CF_TIME, NULL, 0, &ConfigFileEntry.ts_warn_delta },
{ "use_whois_actually", CF_YESNO, NULL, 0, &ConfigFileEntry.use_whois_actually },
{ "warn_no_nline", CF_YESNO, NULL, 0, &ConfigFileEntry.warn_no_nline },
{ "use_propagated_bans",CF_YESNO, NULL, 0, &ConfigFileEntry.use_propagated_bans },
{ "client_flood_max_lines", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_max_lines },
{ "client_flood_burst_rate", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_burst_rate },
{ "client_flood_burst_max", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_burst_max },
{ "client_flood_message_num", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_message_num },
{ "client_flood_message_time", CF_INT, NULL, 0, &ConfigFileEntry.client_flood_message_time },
{ "max_ratelimit_tokens", CF_INT, NULL, 0, &ConfigFileEntry.max_ratelimit_tokens },
{ "away_interval", CF_INT, NULL, 0, &ConfigFileEntry.away_interval },
{ "hide_opers_in_whois", CF_YESNO, NULL, 0, &ConfigFileEntry.hide_opers_in_whois },
{ "certfp_method", CF_STRING, conf_set_general_certfp_method, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_channel_table[] =
{
{ "default_split_user_count", CF_INT, NULL, 0, &ConfigChannel.default_split_user_count },
{ "default_split_server_count", CF_INT, NULL, 0, &ConfigChannel.default_split_server_count },
{ "burst_topicwho", CF_YESNO, NULL, 0, &ConfigChannel.burst_topicwho },
{ "kick_on_split_riding", CF_YESNO, NULL, 0, &ConfigChannel.kick_on_split_riding },
{ "knock_delay", CF_TIME, NULL, 0, &ConfigChannel.knock_delay },
{ "knock_delay_channel",CF_TIME, NULL, 0, &ConfigChannel.knock_delay_channel },
{ "max_bans", CF_INT, NULL, 0, &ConfigChannel.max_bans },
{ "max_bans_large", CF_INT, NULL, 0, &ConfigChannel.max_bans_large },
{ "max_chans_per_user", CF_INT, NULL, 0, &ConfigChannel.max_chans_per_user },
{ "max_chans_per_user_large", CF_INT, NULL, 0, &ConfigChannel.max_chans_per_user_large },
{ "no_create_on_split", CF_YESNO, NULL, 0, &ConfigChannel.no_create_on_split },
{ "no_join_on_split", CF_YESNO, NULL, 0, &ConfigChannel.no_join_on_split },
{ "only_ascii_channels", CF_YESNO, NULL, 0, &ConfigChannel.only_ascii_channels },
{ "use_except", CF_YESNO, NULL, 0, &ConfigChannel.use_except },
{ "use_invex", CF_YESNO, NULL, 0, &ConfigChannel.use_invex },
{ "use_forward", CF_YESNO, NULL, 0, &ConfigChannel.use_forward },
{ "use_knock", CF_YESNO, NULL, 0, &ConfigChannel.use_knock },
{ "resv_forcepart", CF_YESNO, NULL, 0, &ConfigChannel.resv_forcepart },
{ "channel_target_change", CF_YESNO, NULL, 0, &ConfigChannel.channel_target_change },
{ "disable_local_channels", CF_YESNO, NULL, 0, &ConfigChannel.disable_local_channels },
{ "autochanmodes", CF_QSTRING, conf_set_channel_autochanmodes, 0, NULL },
{ "displayed_usercount", CF_INT, NULL, 0, &ConfigChannel.displayed_usercount },
{ "strip_topic_colors", CF_YESNO, NULL, 0, &ConfigChannel.strip_topic_colors },
{ "\0", 0, NULL, 0, NULL }
};
static struct ConfEntry conf_serverhide_table[] =
{
{ "disable_hidden", CF_YESNO, NULL, 0, &ConfigServerHide.disable_hidden },
{ "flatten_links", CF_YESNO, NULL, 0, &ConfigServerHide.flatten_links },
{ "hidden", CF_YESNO, NULL, 0, &ConfigServerHide.hidden },
{ "links_delay", CF_TIME, conf_set_serverhide_links_delay, 0, NULL },
{ "\0", 0, NULL, 0, NULL }
};
void
newconf_init()
{
add_top_conf("modules", NULL, NULL, NULL);
add_conf_item("modules", "path", CF_QSTRING, conf_set_modules_path);
add_conf_item("modules", "module", CF_QSTRING, conf_set_modules_module);
add_top_conf("serverinfo", NULL, NULL, conf_serverinfo_table);
add_top_conf("admin", NULL, NULL, conf_admin_table);
add_top_conf("operator", conf_begin_oper, conf_end_oper, conf_operator_table);
add_top_conf("class", conf_begin_class, conf_end_class, conf_class_table);
add_top_conf("privset", NULL, NULL, conf_privset_table);
add_top_conf("listen", conf_begin_listen, conf_end_listen, NULL);
add_conf_item("listen", "defer_accept", CF_YESNO, conf_set_listen_defer_accept);
add_conf_item("listen", "wsock", CF_YESNO, conf_set_listen_wsock);
add_conf_item("listen", "port", CF_INT | CF_FLIST, conf_set_listen_port);
add_conf_item("listen", "sslport", CF_INT | CF_FLIST, conf_set_listen_sslport);
add_conf_item("listen", "ip", CF_QSTRING, conf_set_listen_address);
add_conf_item("listen", "host", CF_QSTRING, conf_set_listen_address);
add_top_conf("auth", conf_begin_auth, conf_end_auth, conf_auth_table);
add_top_conf("shared", conf_cleanup_shared, conf_cleanup_shared, NULL);
add_conf_item("shared", "oper", CF_QSTRING | CF_FLIST, conf_set_shared_oper);
add_conf_item("shared", "flags", CF_STRING | CF_FLIST, conf_set_shared_flags);
add_top_conf("connect", conf_begin_connect, conf_end_connect, conf_connect_table);
add_top_conf("exempt", NULL, NULL, NULL);
add_conf_item("exempt", "ip", CF_QSTRING, conf_set_exempt_ip);
add_top_conf("cluster", conf_cleanup_cluster, conf_cleanup_cluster, NULL);
add_conf_item("cluster", "name", CF_QSTRING, conf_set_cluster_name);
add_conf_item("cluster", "flags", CF_STRING | CF_FLIST, conf_set_cluster_flags);
add_top_conf("general", NULL, NULL, conf_general_table);
add_top_conf("channel", NULL, NULL, conf_channel_table);
add_top_conf("serverhide", NULL, NULL, conf_serverhide_table);
add_top_conf("service", NULL, NULL, NULL);
add_conf_item("service", "name", CF_QSTRING, conf_set_service_name);
add_top_conf("alias", conf_begin_alias, conf_end_alias, NULL);
add_conf_item("alias", "name", CF_QSTRING, conf_set_alias_name);
add_conf_item("alias", "target", CF_QSTRING, conf_set_alias_target);
add_top_conf("blacklist", NULL, NULL, NULL);
add_conf_item("blacklist", "host", CF_QSTRING, conf_set_blacklist_host);
add_conf_item("blacklist", "type", CF_STRING | CF_FLIST, conf_set_blacklist_type);
add_conf_item("blacklist", "matches", CF_QSTRING | CF_FLIST, conf_set_blacklist_matches);
add_conf_item("blacklist", "reject_reason", CF_QSTRING, conf_set_blacklist_reason);
add_top_conf("opm", conf_begin_opm, conf_end_opm, NULL);
add_conf_item("opm", "timeout", CF_INT, conf_set_opm_timeout);
add_conf_item("opm", "listen_ipv4", CF_QSTRING, conf_set_opm_listen_address_ipv4);
add_conf_item("opm", "listen_ipv6", CF_QSTRING, conf_set_opm_listen_address_ipv6);
add_conf_item("opm", "port_v4", CF_INT, conf_set_opm_listen_port_ipv4);
add_conf_item("opm", "port_v6", CF_INT, conf_set_opm_listen_port_ipv6);
add_conf_item("opm", "listen_port", CF_INT, conf_set_opm_listen_port);
add_conf_item("opm", "socks4_ports", CF_INT | CF_FLIST, conf_set_opm_scan_ports_socks4);
add_conf_item("opm", "socks5_ports", CF_INT | CF_FLIST, conf_set_opm_scan_ports_socks5);
add_conf_item("opm", "httpconnect_ports", CF_INT | CF_FLIST, conf_set_opm_scan_ports_httpconnect);
add_conf_item("opm", "httpsconnect_ports", CF_INT | CF_FLIST, conf_set_opm_scan_ports_httpsconnect);
}
*/