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ircu2/ircd/s_bsd.c

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/*
* IRC - Internet Relay Chat, ircd/s_bsd.c
* Copyright (C) 1990 Jarkko Oikarinen and
* University of Oulu, Computing 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 Functions that now (or in the past) relied on BSD APIs.
* @version $Id: s_bsd.c 1932 2010-01-04 00:37:28Z entrope $
*/
#include "config.h"
#include "s_bsd.h"
#include "client.h"
#include "IPcheck.h"
#include "channel.h"
#include "class.h"
#include "gline.h"
#include "hash.h"
#include "ircd_alloc.h"
#include "ircd_log.h"
#include "ircd_features.h"
#include "ircd_osdep.h"
#include "ircd_reply.h"
#include "ircd_snprintf.h"
#include "ircd_string.h"
#include "ircd.h"
#include "list.h"
#include "listener.h"
#include "msg.h"
#include "msgq.h"
#include "numeric.h"
#include "numnicks.h"
#include "packet.h"
#include "parse.h"
#include "querycmds.h"
#include "res.h"
#include "s_auth.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 "uping.h"
#include "version.h"
#include "zline.h"
/* #include <assert.h> -- Now using assert in ircd_log.h */
#include <errno.h>
#include <fcntl.h>
#include <netdb.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <sys/utsname.h>
#include <unistd.h>
/** Array of my own clients, indexed by file descriptor. */
struct Client* LocalClientArray[MAXCONNECTIONS];
/** Maximum file descriptor in current use. */
int HighestFd = -1;
/** Default local address for outbound IPv4 connections. */
struct irc_sockaddr VirtualHost_v4;
/** Default local address for outbound IPv6 connections. */
struct irc_sockaddr VirtualHost_v6;
/** Temporary buffer for reading data from a peer. */
static char readbuf[SERVER_TCP_WINDOW];
/*
* report_error text constants
*/
const char* const ACCEPT_ERROR_MSG = "error accepting connection for %s: %s";
const char* const BIND_ERROR_MSG = "bind error for %s: %s";
const char* const CONNECT_ERROR_MSG = "connect to host %s failed: %s";
const char* const CONNLIMIT_ERROR_MSG = "connect limit exceeded for %s: %s";
const char* const LISTEN_ERROR_MSG = "listen error for %s: %s";
const char* const NONB_ERROR_MSG = "error setting non-blocking for %s: %s";
const char* const PEERNAME_ERROR_MSG = "getpeername failed for %s: %s";
const char* const POLL_ERROR_MSG = "poll error for %s: %s";
const char* const REGISTER_ERROR_MSG = "registering %s: %s";
const char* const REUSEADDR_ERROR_MSG = "error setting SO_REUSEADDR for %s: %s";
const char* const SELECT_ERROR_MSG = "select error for %s: %s";
const char* const SETBUFS_ERROR_MSG = "error setting buffer size for %s: %s";
const char* const SOCKET_ERROR_MSG = "error creating socket for %s: %s";
const char* const TOS_ERROR_MSG = "error setting TOS for %s: %s";
static void client_sock_callback(struct Event* ev);
static void client_timer_callback(struct Event* ev);
/*
* Cannot use perror() within daemon. stderr is closed in
* ircd and cannot be used. And, worse yet, it might have
* been reassigned to a normal connection...
*/
/** Replacement for perror(). Record error to log. Send a copy to all
* *LOCAL* opers, but only if no errors were sent to them in the last
* 20 seconds.
* @param text A *format* string for outputting error. It must contain
* only two '%s', the first will be replaced by the sockhost from the
* cptr, and the latter will be taken from sys_errlist[errno].
* @param who The client associated with the error.
* @param err The errno value to display.
*/
void report_error(const char* text, const char* who, int err)
{
static time_t last_notice = 0;
int errtmp = errno; /* debug may change 'errno' */
const char* errmsg = (err) ? strerror(err) : "";
if (!errmsg)
errmsg = "Unknown error";
if (EmptyString(who))
who = "unknown";
sendto_opmask_butone_ratelimited(0, SNO_OLDSNO, &last_notice, text, who, errmsg);
log_write(LS_SOCKET, L_ERROR, 0, text, who, errmsg);
errno = errtmp;
}
/** Called when resolver query finishes. If the DNS lookup was
* successful, start the connection; otherwise notify opers of the
* failure.
* @param vptr The struct ConfItem representing the Connect block.
* @param hp A pointer to the DNS lookup results (NULL on failure).
*/
static void connect_dns_callback(void* vptr, const struct irc_in_addr *addr, const char *h_name)
{
struct ConfItem* aconf = (struct ConfItem*) vptr;
assert(aconf);
aconf->dns_pending = 0;
if (addr) {
memcpy(&aconf->address, addr, sizeof(aconf->address));
connect_server(aconf, 0);
}
else
sendto_opmask_butone(0, SNO_OLDSNO, "Connect to %s failed: host lookup",
aconf->name);
}
/** Closes all file descriptors.
* @param close_stderr If non-zero, also close stderr.
*/
void close_connections(int close_stderr)
{
int i;
if (close_stderr)
{
close(0);
close(1);
close(2);
}
for (i = 3; i < MAXCONNECTIONS; ++i)
close(i);
}
/** Initialize process fd limit to MAXCONNECTIONS.
*/
int init_connection_limits(void)
{
int limit = os_set_fdlimit(MAXCONNECTIONS);
if (0 == limit)
return 1;
if (limit < 0) {
fprintf(stderr, "error setting max fds to %d: %s\n", limit, strerror(errno));
}
else if (limit > 0) {
fprintf(stderr, "ircd fd table too big\nHard Limit: %d IRC max: %d\n",
limit, MAXCONNECTIONS);
fprintf(stderr, "set MAXCONNECTIONS to a smaller value");
}
return 0;
}
/** Set up address and port and make a connection.
* @param aconf Provides the connection information.
* @param cptr Client structure for the peer.
* @return Non-zero on success; zero on failure.
*/
static int connect_inet(struct ConfItem* aconf, struct Client* cptr)
{
const struct irc_sockaddr *local;
IOResult result;
int family = 0;
assert(0 != aconf);
assert(0 != cptr);
/*
* Might as well get sockhost from here, the connection is attempted
* with it so if it fails its useless.
*/
if (irc_in_addr_valid(&aconf->origin.addr))
local = &aconf->origin;
else if (irc_in_addr_is_ipv4(&aconf->address.addr)) {
local = &VirtualHost_v4;
family = AF_INET;
} else
local = &VirtualHost_v6;
cli_fd(cptr) = os_socket(local, SOCK_STREAM, cli_name(cptr), family);
if (cli_fd(cptr) < 0)
return 0;
/*
* save connection info in client
*/
memcpy(&cli_ip(cptr), &aconf->address.addr, sizeof(cli_ip(cptr)));
cli_port(cptr) = aconf->address.port;
ircd_ntoa_r(cli_sock_ip(cptr), &cli_ip(cptr));
/*
* we want a big buffer for server connections
*/
if (!os_set_sockbufs(cli_fd(cptr), feature_int(FEAT_SOCKSENDBUF), feature_int(FEAT_SOCKRECVBUF))) {
cli_error(cptr) = errno;
report_error(SETBUFS_ERROR_MSG, cli_name(cptr), errno);
close(cli_fd(cptr));
cli_fd(cptr) = -1;
return 0;
}
/*
* Set the TOS bits - this is nonfatal if it doesn't stick.
*/
if (!os_set_tos(cli_fd(cptr), feature_int(FEAT_TOS_SERVER), family)) {
report_error(TOS_ERROR_MSG, cli_name(cptr), errno);
}
if ((result = os_connect_nonb(cli_fd(cptr), &aconf->address)) == IO_FAILURE) {
cli_error(cptr) = errno;
report_error(CONNECT_ERROR_MSG, cli_name(cptr), errno);
close(cli_fd(cptr));
cli_fd(cptr) = -1;
return 0;
}
if (!socket_add(&(cli_socket(cptr)), client_sock_callback,
(void*) cli_connect(cptr),
(result == IO_SUCCESS) ? SS_CONNECTED : SS_CONNECTING,
SOCK_EVENT_READABLE, cli_fd(cptr))) {
cli_error(cptr) = ENFILE;
report_error(REGISTER_ERROR_MSG, cli_name(cptr), ENFILE);
close(cli_fd(cptr));
cli_fd(cptr) = -1;
return 0;
}
cli_freeflag(cptr) |= FREEFLAG_SOCKET;
return 1;
}
#ifdef USE_SSL
/* Helper routines */
static IOResult client_recv(struct Client *cptr, char *buf, unsigned int length, unsigned int* count_out)
{
if (cli_socket(cptr).ssl)
return ssl_recv(&cli_socket(cptr), cptr, buf, length, count_out);
else
return os_recv_nonb(cli_fd(cptr), buf, length, count_out);
}
static IOResult client_sendv(struct Client *cptr, struct MsgQ *buf, unsigned int *count_in, unsigned int *count_out)
{
if (cli_socket(cptr).ssl)
return ssl_sendv(&cli_socket(cptr), cptr, buf, count_in, count_out);
else
return os_sendv_nonb(cli_fd(cptr), buf, count_in, count_out);
}
#endif /* USE_SSL */
/** Attempt to send a sequence of bytes to the connection.
* As a side effect, updates \a cptr's FLAG_BLOCKED setting
* and sendB/sendK fields.
* @param cptr Client that should receive data.
* @param buf Message buffer to send to client.
* @return Negative on connection-fatal error; otherwise
* number of bytes sent.
*/
unsigned int deliver_it(struct Client *cptr, struct MsgQ *buf)
{
unsigned int bytes_written = 0;
unsigned int bytes_count = 0;
assert(0 != cptr);
#ifdef USE_SSL
switch (client_sendv(cptr, buf, &bytes_count, &bytes_written)) {
#else
switch (os_sendv_nonb(cli_fd(cptr), buf, &bytes_count, &bytes_written)) {
#endif /* USE_SSL */
case IO_SUCCESS:
ClrFlag(cptr, FLAG_BLOCKED);
cli_sendB(cptr) += bytes_written;
cli_sendB(&me) += bytes_written;
/* A partial write implies that future writes will block. */
if (bytes_written < bytes_count)
SetFlag(cptr, FLAG_BLOCKED);
break;
case IO_BLOCKED:
SetFlag(cptr, FLAG_BLOCKED);
break;
case IO_FAILURE:
cli_error(cptr) = errno;
SetFlag(cptr, FLAG_DEADSOCKET);
break;
}
return bytes_written;
}
/** Complete non-blocking connect()-sequence. Check access and
* terminate connection, if trouble detected.
* @param cptr Client to which we have connected, with all ConfItem structs attached.
* @return Zero on failure (caller should exit_client()), non-zero on success.
*/
static int completed_connection(struct Client* cptr)
{
struct ConfItem *aconf;
time_t newts;
struct Client *acptr;
int i;
#ifdef USE_SSL
int r;
char *sslfp;
#endif
assert(0 != cptr);
/*
* get the socket status from the fd first to check if
* connection actually succeeded
*/
if ((cli_error(cptr) = os_get_sockerr(cli_fd(cptr)))) {
const char* msg = strerror(cli_error(cptr));
if (!msg)
msg = "Unknown error";
sendto_opmask_butone(0, SNO_OLDSNO, "Connection failed to %s: %s",
cli_name(cptr), msg);
return 0;
}
if (!(aconf = find_conf_byname(cli_confs(cptr), cli_name(cptr), CONF_SERVER))) {
sendto_opmask_butone(0, SNO_OLDSNO, "Lost Server Line for %s", cli_name(cptr));
return 0;
}
if (aconf->flags & CONF_SSL) {
#ifdef USE_SSL
r = ssl_connect(&(cli_socket(cptr)), aconf);
if (r == -1) {
sendto_opmask_butone(0, SNO_OLDSNO, "Connection failed to %s: SSL error",
cli_name(cptr));
return 0;
} else if (r == -2) {
sendto_opmask_butone(0, SNO_OLDSNO, "Connection failed to %s: Unable to select SSL ciphers",
cli_name(cptr));
return 0;
} else if (r == 0)
return 1;
sslfp = ssl_get_fingerprint(cli_socket(cptr).ssl);
if (sslfp)
ircd_strncpy(cli_sslclifp(cptr), sslfp, BUFSIZE+1);
SetSSL(cptr);
#endif
}
if (s_state(&(cli_socket(cptr))) == SS_CONNECTING)
socket_state(&(cli_socket(cptr)), SS_CONNECTED);
if (!EmptyString(aconf->passwd))
sendrawto_one(cptr, MSG_PASS " :%s", aconf->passwd);
/*
* Create a unique timestamp
*/
newts = TStime();
for (i = HighestFd; i > -1; --i) {
if ((acptr = LocalClientArray[i]) &&
(IsServer(acptr) || IsHandshake(acptr))) {
if (cli_serv(acptr)->timestamp >= newts)
newts = cli_serv(acptr)->timestamp + 1;
}
}
assert(0 != cli_serv(cptr));
cli_serv(cptr)->timestamp = newts;
SetHandshake(cptr);
/*
* Make us timeout after twice the timeout for DNS look ups
*/
cli_lasttime(cptr) = CurrentTime;
ClearPingSent(cptr);
sendrawto_one(cptr, MSG_SERVER " %s 1 %Tu %Tu J%s %s%s +%s6%s :%s",
cli_name(&me), cli_serv(&me)->timestamp, newts,
MAJOR_PROTOCOL, NumServCap(&me),
feature_bool(FEAT_HUB) ? "h" : "",
feature_bool(FEAT_OPLEVELS) ? "o" : "",
cli_info(&me));
return (IsDead(cptr)) ? 0 : 1;
}
/** Close the physical connection. Side effects: MyConnect(cptr)
* becomes false and cptr->from becomes NULL.
* @param cptr Client to disconnect.
*/
void close_connection(struct Client *cptr)
{
struct ConfItem* aconf;
if (IsServer(cptr)) {
ServerStats->is_sv++;
ServerStats->is_sbs += cli_sendB(cptr);
ServerStats->is_sbr += cli_receiveB(cptr);
ServerStats->is_sti += CurrentTime - cli_firsttime(cptr);
/*
* If the connection has been up for a long amount of time, schedule
* a 'quick' reconnect, else reset the next-connect cycle.
*/
if ((aconf = find_conf_exact(cli_name(cptr), cptr, CONF_SERVER))) {
/*
* Reschedule a faster reconnect, if this was a automatically
* connected configuration entry. (Note that if we have had
* a rehash in between, the status has been changed to
* CONF_ILLEGAL). But only do this if it was a "good" link.
*/
aconf->hold = CurrentTime;
aconf->hold += ((aconf->hold - cli_since(cptr) >
feature_int(FEAT_HANGONGOODLINK)) ?
feature_int(FEAT_HANGONRETRYDELAY) : ConfConFreq(aconf));
/* if (nextconnect > aconf->hold) */
/* nextconnect = aconf->hold; */
}
}
else if (IsUser(cptr)) {
ServerStats->is_cl++;
ServerStats->is_cbs += cli_sendB(cptr);
ServerStats->is_cbr += cli_receiveB(cptr);
ServerStats->is_cti += CurrentTime - cli_firsttime(cptr);
}
else
ServerStats->is_ni++;
if (-1 < cli_fd(cptr)) {
flush_connections(cptr);
LocalClientArray[cli_fd(cptr)] = 0;
close(cli_fd(cptr));
socket_del(&(cli_socket(cptr))); /* queue a socket delete */
cli_fd(cptr) = -1;
}
SetFlag(cptr, FLAG_DEADSOCKET);
MsgQClear(&(cli_sendQ(cptr)));
client_drop_sendq(cli_connect(cptr));
DBufClear(&(cli_recvQ(cptr)));
memset(cli_passwd(cptr), 0, sizeof(cli_passwd(cptr)));
set_snomask(cptr, 0, SNO_SET);
det_confs_butmask(cptr, 0);
if (cli_listener(cptr)) {
release_listener(cli_listener(cptr));
cli_listener(cptr) = 0;
}
for ( ; HighestFd > 0; --HighestFd) {
if (LocalClientArray[HighestFd])
break;
}
}
/** Close all unregistered connections.
* @param source Oper who requested the close.
* @return Number of closed connections.
*/
int net_close_unregistered_connections(struct Client* source)
{
int i;
struct Client* cptr;
int count = 0;
assert(0 != source);
for (i = HighestFd; i > 0; --i) {
if ((cptr = LocalClientArray[i]) && !IsRegistered(cptr)) {
send_reply(source, RPL_CLOSING, get_client_name(source, HIDE_IP));
exit_client(source, cptr, &me, "Oper Closing");
++count;
}
}
return count;
}
/** Creates a client which has just connected to us on the given fd.
* The sockhost field is initialized with the ip# of the host.
* The client is not added to the linked list of clients, it is
* passed off to the auth handler for dns and ident queries.
* @param listener Listening socket that received the connection.
* @param fd File descriptor of new connection.
*/
#ifdef USE_SSL
void add_connection(struct Listener* listener, int fd, void *ssl) {
#else
void add_connection(struct Listener* listener, int fd) {
#endif /* USE_SSL */
struct irc_sockaddr addr;
struct Client *new_client;
time_t next_target = 0;
struct Zline* azline = NULL;
struct Gline* agline = NULL;
char zreason[256];
char greason[256];
#ifdef USE_SSL
char *sslfp;
#endif
const char* const throttle_message =
"ERROR :Your host is trying to (re)connect too fast -- throttled\r\n";
/* 12345678901234567890123456789012345679012345678901234567890123456 */
const char* const register_message =
"ERROR :Unable to complete your registration\r\n";
#ifdef USE_SSL
const char* const sslerr_message =
"ERROR :SSL connection error\r\n";
#endif
assert(0 != listener);
/*
* Removed preliminary access check. Full check is performed in m_server and
* m_user instead. Also connection time out help to get rid of unwanted
* connections.
*/
if (!os_get_peername(fd, &addr) || !os_set_nonblocking(fd)) {
++ServerStats->is_ref;
#ifdef USE_SSL
ssl_murder(ssl, fd, NULL);
#else
close(fd);
#endif /* USE_SSL */
return;
}
/*
* Disable IP (*not* TCP) options. In particular, this makes it impossible
* to use source routing to connect to the server. If we didn't do this
* (and if intermediate networks didn't drop source-routed packets), an
* attacker could successfully IP spoof us...and even return the anti-spoof
* ping, because the options would cause the packet to be routed back to
* the spoofer's machine. When we disable the IP options, we delete the
* source route, and the normal routing takes over.
*/
os_disable_options(fd);
if (listener_server(listener))
{
new_client = make_client(0, STAT_UNKNOWN_SERVER);
}
else
{
int isipcexempt = 0;
/*
* Add this local client to the IPcheck registry.
*
* If they're throttled, murder them, but tell them why first.
*/
if (find_except_conf_by_ip(&addr.addr, EFLAG_IPCHECK))
isipcexempt = 1;
if (!isipcexempt &&
!IPcheck_local_connect(&addr.addr, &next_target))
{
++ServerStats->is_ref;
#ifdef USE_SSL
ssl_murder(ssl, fd, throttle_message);
#else
write(fd, throttle_message, strlen(throttle_message));
close(fd);
#endif /* USE_SSL */
return;
}
new_client = make_client(0, STAT_UNKNOWN_USER);
if (!isipcexempt)
SetIPChecked(new_client);
}
/*
* Copy ascii address to 'sockhost' just in case. Then we have something
* valid to put into error messages...
*/
ircd_ntoa_r(cli_sock_ip(new_client), &addr.addr);
strcpy(cli_sockhost(new_client), cli_sock_ip(new_client));
memcpy(&cli_ip(new_client), &addr.addr, sizeof(cli_ip(new_client)));
cli_port(new_client) = addr.port;
if (next_target)
cli_nexttarget(new_client) = next_target;
/* Begin Zline */
if (!feature_bool(FEAT_DISABLE_ZLINES) && (azline = zline_lookup(new_client, 0))) {
ircd_snprintf(0, zreason, sizeof(zreason), "ERROR :Z-lined (%s)", azline->zl_reason);
if (IsIPChecked(new_client))
IPcheck_connect_fail(new_client, 1);
#ifdef USE_SSL
ssl_murder(ssl, fd, zreason);
#else
write(fd, zreason, strlen(zreason));
close(fd);
#endif
cli_fd(new_client) = -1;
return;
}
/* End Zline */
/* Begin Gline */
if (!feature_bool(FEAT_DISABLE_GLINES) && (agline = gline_lookup(new_client, 0))) {
ircd_snprintf(0, greason, sizeof(greason), "ERROR :G-lined (%s)", agline->gl_reason);
if (IsIPChecked(new_client))
IPcheck_connect_fail(new_client, 1);
#ifdef USE_SSL
ssl_murder(ssl, fd, greason);
#else
write(fd, greason, strlen(greason));
close(fd);
#endif
cli_fd(new_client) = -1;
return;
}
/* End Gline */
cli_fd(new_client) = fd;
if (!socket_add(&(cli_socket(new_client)), client_sock_callback,
(void*) cli_connect(new_client), SS_CONNECTED, 0, fd)) {
++ServerStats->is_ref;
#ifdef USE_SSL
ssl_murder(ssl, fd, register_message);
#else
write(fd, register_message, strlen(register_message));
close(fd);
#endif /* USE_SSL */
cli_fd(new_client) = -1;
return;
}
#ifdef USE_SSL
if (ssl) {
cli_socket(new_client).ssl = ssl;
SetSSLNeedAccept(new_client);
if (!ssl_accept(new_client)) {
socket_del(&(cli_socket(new_client)));
cli_socket(new_client).ssl = NULL;
ssl_murder(NULL, fd, sslerr_message);
cli_fd(new_client) = -1;
return;
}
}
#endif
cli_freeflag(new_client) |= FREEFLAG_SOCKET;
cli_listener(new_client) = listener;
++listener->ref_count;
#ifdef USE_SSL
if (ssl) {
SetSSL(new_client);
cli_socket(new_client).ssl = ssl;
sslfp = ssl_get_fingerprint(ssl);
if (sslfp)
ircd_strncpy(cli_sslclifp(new_client), sslfp, BUFSIZE+1);
}
#endif
Count_newunknown(UserStats);
/* if we've made it this far we can put the client on the auth query pile */
start_auth(new_client);
}
/** Determines whether to tell the events engine we're interested in
* writable events.
* @param cptr Client for which to decide this.
*/
void update_write(struct Client* cptr)
{
/* If there are messages that need to be sent along, or if the client
* is in the middle of a /list, then we need to tell the engine that
* we're interested in writable events--otherwise, we need to drop
* that interest.
*/
socket_events(&(cli_socket(cptr)),
((MsgQLength(&cli_sendQ(cptr)) || cli_listing(cptr)) ?
SOCK_ACTION_ADD : SOCK_ACTION_DEL) | SOCK_EVENT_WRITABLE);
}
/** Read a 'packet' of data from a connection and process it. Read in
* 8k chunks to give a better performance rating (for server
* connections). Do some tricky stuff for client connections to make
* sure they don't do any flooding >:-) -avalon
* @param cptr Client from which to read data.
* @param socket_ready If non-zero, more data can be read from the client's socket.
* @return Positive number on success, zero on connection-fatal failure, negative
* if user is killed.
*/
static int read_packet(struct Client *cptr, int socket_ready)
{
unsigned int dolen = 0;
unsigned int length = 0;
if (socket_ready &&
!(IsUser(cptr) &&
DBufLength(&(cli_recvQ(cptr))) > get_recvq(cptr))) {
#ifdef USE_SSL
switch (client_recv(cptr, readbuf, sizeof(readbuf), &length)) {
#else
switch (os_recv_nonb(cli_fd(cptr), readbuf, sizeof(readbuf), &length)) {
#endif /* USE_SSL */
case IO_SUCCESS:
if (length)
{
cli_lasttime(cptr) = CurrentTime;
ClearPingSent(cptr);
ClrFlag(cptr, FLAG_NONL);
if (cli_lasttime(cptr) > cli_since(cptr))
cli_since(cptr) = cli_lasttime(cptr);
}
break;
case IO_BLOCKED:
break;
case IO_FAILURE:
cli_error(cptr) = errno;
/* SetFlag(cptr, FLAG_DEADSOCKET); */
return 0;
}
}
/*
* For server connections, we process as many as we can without
* worrying about the time of day or anything :)
*/
if (length > 0 && IsServer(cptr))
return server_dopacket(cptr, readbuf, length);
else if (length > 0 && (IsHandshake(cptr) || IsConnecting(cptr)))
return connect_dopacket(cptr, readbuf, length);
else
{
/*
* Before we even think of parsing what we just read, stick
* it on the end of the receive queue and do it when its
* turn comes around.
*/
if (length > 0 && dbuf_put(&(cli_recvQ(cptr)), readbuf, length) == 0)
return exit_client(cptr, cptr, &me, "dbuf_put fail");
if (DBufLength(&(cli_recvQ(cptr))) > get_recvq(cptr))
return exit_client(cptr, cptr, &me, "Excess Flood");
while (DBufLength(&(cli_recvQ(cptr))) && !NoNewLine(cptr) &&
(IsTrusted(cptr) || cli_since(cptr) - CurrentTime < 10))
{
dolen = dbuf_getmsg(&(cli_recvQ(cptr)), cli_buffer(cptr), BUFSIZE);
/*
* Devious looking...whats it do ? well..if a client
* sends a *long* message without any CR or LF, then
* dbuf_getmsg fails and we pull it out using this
* loop which just gets the next 512 bytes and then
* deletes the rest of the buffer contents.
* -avalon
*/
if (dolen == 0)
{
if (DBufLength(&(cli_recvQ(cptr))) < 510)
SetFlag(cptr, FLAG_NONL);
else
{
/* More than 512 bytes in the line - drop the input and yell
* at the client.
*/
DBufClear(&(cli_recvQ(cptr)));
send_reply(cptr, ERR_INPUTTOOLONG);
}
}
else if (client_dopacket(cptr, dolen) == CPTR_KILLED)
return CPTR_KILLED;
/*
* If it has become registered as a Server
* then skip the per-message parsing below.
*/
if (IsHandshake(cptr) || IsServer(cptr))
{
while (-1)
{
dolen = dbuf_get(&(cli_recvQ(cptr)), readbuf, sizeof(readbuf));
if (dolen <= 0)
return 1;
else if (dolen == 0)
{
if (DBufLength(&(cli_recvQ(cptr))) < 510)
SetFlag(cptr, FLAG_NONL);
else
DBufClear(&(cli_recvQ(cptr)));
}
else if ((IsServer(cptr) &&
server_dopacket(cptr, readbuf, dolen) == CPTR_KILLED) ||
(!IsServer(cptr) &&
connect_dopacket(cptr, readbuf, dolen) == CPTR_KILLED))
return CPTR_KILLED;
}
}
}
/* If there's still data to process, wait 2 seconds first */
if (DBufLength(&(cli_recvQ(cptr))) && !NoNewLine(cptr) &&
!t_onqueue(&(cli_proc(cptr))))
{
Debug((DEBUG_LIST, "Adding client process timer for %C", cptr));
cli_freeflag(cptr) |= FREEFLAG_TIMER;
timer_add(&(cli_proc(cptr)), client_timer_callback, cli_connect(cptr),
TT_RELATIVE, 2);
}
}
return 1;
}
/** Start a connection to another server.
* @param aconf Connect block data for target server.
* @param by Client who requested the connection (if any).
* @return Non-zero on success; zero on failure.
*/
int connect_server(struct ConfItem* aconf, struct Client* by)
{
struct Client* cptr = 0;
assert(0 != aconf);
if (aconf->dns_pending) {
sendto_opmask_butone(0, SNO_OLDSNO, "Server %s connect DNS pending",
aconf->name);
return 0;
}
Debug((DEBUG_NOTICE, "Connect to %s[@%s]", aconf->name,
ircd_ntoa(&aconf->address.addr)));
if ((cptr = FindClient(aconf->name))) {
if (IsServer(cptr) || IsMe(cptr)) {
sendto_opmask_butone(0, SNO_OLDSNO, "Server %s already present from %s",
aconf->name, cli_name(cli_from(cptr)));
if (by && IsUser(by) && !MyUser(by)) {
sendcmdto_one(&me, CMD_NOTICE, by, "%C :Server %s already present "
"from %s", by, aconf->name, cli_name(cli_from(cptr)));
}
return 0;
}
else if (IsHandshake(cptr) || IsConnecting(cptr)) {
if (by && IsUser(by)) {
sendcmdto_one(&me, CMD_NOTICE, by, "%C :Connection to %s already in "
"progress", by, cli_name(cptr));
}
return 0;
}
}
/*
* If we don't know the IP# for this host and it is a hostname and
* not a ip# string, then try and find the appropriate host record.
*/
if (!irc_in_addr_valid(&aconf->address.addr)
&& !ircd_aton(&aconf->address.addr, aconf->host)) {
char buf[HOSTLEN + 1];
host_from_uh(buf, aconf->host, HOSTLEN);
gethost_byname(buf, connect_dns_callback, aconf);
aconf->dns_pending = 1;
return 0;
}
cptr = make_client(NULL, STAT_UNKNOWN_SERVER);
/*
* Copy these in so we have something for error detection.
*/
ircd_strncpy(cli_name(cptr), aconf->name, HOSTLEN + 1);
ircd_strncpy(cli_sockhost(cptr), aconf->host, HOSTLEN + 1);
/*
* Attach config entries to client here rather than in
* completed_connection. This to avoid null pointer references
*/
attach_confs_byhost(cptr, aconf->host, CONF_SERVER);
if (!find_conf_byhost(cli_confs(cptr), aconf->host, CONF_SERVER)) {
sendto_opmask_butone(0, SNO_OLDSNO, "Host %s is not enabled for "
"connecting: no Connect block", aconf->name);
if (by && IsUser(by) && !MyUser(by)) {
sendcmdto_one(&me, CMD_NOTICE, by, "%C :Connect to host %s failed: no "
"Connect block", by, aconf->name);
}
det_confs_butmask(cptr, 0);
free_client(cptr);
return 0;
}
/*
* attempt to connect to the server in the conf line
*/
if (!connect_inet(aconf, cptr)) {
if (by && IsUser(by) && !MyUser(by)) {
sendcmdto_one(&me, CMD_NOTICE, by, "%C :Couldn't connect to %s", by,
cli_name(cptr));
}
det_confs_butmask(cptr, 0);
free_client(cptr);
return 0;
}
/*
* NOTE: if we're here we have a valid C:Line and the client should
* have started the connection and stored the remote address/port and
* ip address name in itself
*
* The socket has been connected or connect is in progress.
*/
make_server(cptr);
if (by && IsUser(by)) {
ircd_snprintf(0, cli_serv(cptr)->by, sizeof(cli_serv(cptr)->by), "%s%s",
NumNick(by));
assert(0 == cli_serv(cptr)->user);
cli_serv(cptr)->user = cli_user(by);
cli_user(by)->refcnt++;
}
else {
*(cli_serv(cptr))->by = '\0';
/* strcpy(cptr->serv->by, "Auto"); */
}
cli_serv(cptr)->up = &me;
SetConnecting(cptr);
if (cli_fd(cptr) > HighestFd)
HighestFd = cli_fd(cptr);
LocalClientArray[cli_fd(cptr)] = cptr;
Count_newunknown(UserStats);
/* Actually we lie, the connect hasn't succeeded yet, but we have a valid
* cptr, so we register it now.
* Maybe these two calls should be merged.
*/
add_client_to_list(cptr);
hAddClient(cptr);
/* nextping = CurrentTime; */
return (s_state(&cli_socket(cptr)) == SS_CONNECTED) ?
completed_connection(cptr) : 1;
}
/** Find the real hostname for the host running the server (or one which
* matches the server's name) and its primary IP#. Hostname is stored
* in the client structure passed as a pointer.
*/
void init_server_identity(void)
{
const struct LocalConf* conf = conf_get_local();
assert(0 != conf);
ircd_strncpy(cli_name(&me), conf->name, HOSTLEN + 1);
SetYXXServerName(&me, conf->numeric);
}
/** Process events on a client socket.
* @param ev Socket event structure that has a struct Connection as
* its associated data.
*/
static void client_sock_callback(struct Event* ev)
{
struct Client* cptr;
struct Connection* con;
char *fmt = "%s";
char *fallback = 0;
assert(0 != ev_socket(ev));
assert(0 != s_data(ev_socket(ev)));
con = (struct Connection*) s_data(ev_socket(ev));
assert(0 != con_client(con) || ev_type(ev) == ET_DESTROY);
cptr = con_client(con);
assert(0 == cptr || con == cli_connect(cptr));
switch (ev_type(ev)) {
case ET_DESTROY:
con_freeflag(con) &= ~FREEFLAG_SOCKET;
if (!con_freeflag(con) && !cptr)
free_connection(con);
#ifdef USE_SSL
ssl_free(ev_socket(ev));
#endif /* USE_SSL */
break;
case ET_CONNECT: /* socket connection completed */
if (!completed_connection(cptr) || IsDead(cptr))
fallback = cli_info(cptr);
break;
case ET_ERROR: /* an error occurred */
fallback = cli_info(cptr);
cli_error(cptr) = ev_data(ev);
/* If the OS told us we have a bad file descriptor, we should
* record that for future reference.
*/
if (cli_error(cptr) == EBADF)
cli_fd(cptr) = -1;
if (s_state(&(con_socket(con))) == SS_CONNECTING) {
completed_connection(cptr);
/* for some reason, the os_get_sockerr() in completed_connect()
* can return 0 even when ev_data(ev) indicates a real error, so
* re-assign the client error here.
*/
cli_error(cptr) = ev_data(ev);
break;
}
/*FALLTHROUGH*/
case ET_EOF: /* end of file on socket */
Debug((DEBUG_ERROR, "READ ERROR: fd = %d %d", cli_fd(cptr),
cli_error(cptr)));
SetFlag(cptr, FLAG_DEADSOCKET);
if ((IsServer(cptr) || IsHandshake(cptr)) && cli_error(cptr) == 0) {
exit_client_msg(cptr, cptr, &me, "Server %s closed the connection (%s)",
cli_name(cptr), cli_serv(cptr)->last_error_msg);
return;
} else {
fmt = "Read error: %s";
fallback = "EOF from client";
}
#ifdef USE_SSL
ssl_abort(cptr);
#endif
break;
case ET_WRITE: /* socket is writable */
#ifdef USE_SSL
if (IsSSLNeedAccept(cptr)) {
int r = ssl_accept(cptr);
if (r == 1) {
break;
} else if (r == 0) {
SetFlag(cptr, FLAG_DEADSOCKET);
fmt = "SSL Write error: %s";
fallback = "SSL_accept failed";
ssl_abort(cptr);
break;
}
}
if (s_state(&(con_socket(con))) == SS_CONNECTING) {
completed_connection(cptr);
}
#endif
ClrFlag(cptr, FLAG_BLOCKED);
if (cli_listing(cptr) && MsgQLength(&(cli_sendQ(cptr))) < 2048)
list_next_channels(cptr);
Debug((DEBUG_SEND, "Sending queued data to %C", cptr));
send_queued(cptr);
break;
case ET_READ: /* socket is readable */
if (!IsDead(cptr)) {
#ifdef USE_SSL
if (IsSSLNeedAccept(cptr)) {
int r = ssl_accept(cptr);
if (r == 1) {
break;
} else if (r == 0) {
SetFlag(cptr, FLAG_DEADSOCKET);
fmt = "SSL Read error: %s";
fallback = "SSL_accept failed";
ssl_abort(cptr);
break;
}
}
if (s_state(&(con_socket(con))) == SS_CONNECTING)
completed_connection(cptr);
#endif
Debug((DEBUG_DEBUG, "Reading data from %C", cptr));
if (read_packet(cptr, 1) == 0) /* error while reading packet */
fallback = "EOF from client";
}
break;
default:
assert(0 && "Unrecognized socket event in client_sock_callback()");
break;
}
assert(0 == cptr || 0 == cli_connect(cptr) || con == cli_connect(cptr));
if (fallback) {
const char* msg = (cli_error(cptr)) ? strerror(cli_error(cptr)) : fallback;
msg = (cli_sslerror(cptr)) ? cli_sslerror(cptr) : msg;
if (!msg)
msg = "Unknown error";
exit_client_msg(cptr, cptr, &me, fmt, msg);
}
}
/** Process a timer on client socket.
* @param ev Timer event that has a struct Connection as its
* associated data.
*/
static void client_timer_callback(struct Event* ev)
{
struct Client* cptr;
struct Connection* con;
assert(0 != ev_timer(ev));
assert(0 != t_data(ev_timer(ev)));
assert(ET_DESTROY == ev_type(ev) || ET_EXPIRE == ev_type(ev));
con = (struct Connection*) t_data(ev_timer(ev));
assert(0 != con_client(con) || ev_type(ev) == ET_DESTROY);
cptr = con_client(con);
assert(0 == cptr || con == cli_connect(cptr));
if (ev_type(ev)== ET_DESTROY) {
con_freeflag(con) &= ~FREEFLAG_TIMER; /* timer has expired... */
if (!con_freeflag(con) && !cptr)
free_connection(con); /* client is being destroyed */
} else {
Debug((DEBUG_LIST, "Client process timer for %C expired; processing",
cptr));
read_packet(cptr, 0); /* read_packet will re-add timer if needed */
}
assert(0 == cptr || 0 == cli_connect(cptr) || con == cli_connect(cptr));
}
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