/* * IRC - Internet Relay Chat, ircd/uping.c * Copyright (C) 1994 Carlo Wood ( Run @ undernet.org ) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, 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. * * $Id: uping.c 796 2004-09-08 22:47:14Z r33d $ */ #include "config.h" #include "uping.h" #include "client.h" #include "ircd.h" #include "ircd_alloc.h" #include "ircd_events.h" #include "ircd_log.h" #include "ircd_osdep.h" #include "ircd_string.h" #include "match.h" #include "msg.h" #include "numeric.h" #include "numnicks.h" #include "s_bsd.h" /* VirtualHost */ #include "s_conf.h" #include "s_debug.h" #include "s_misc.h" #include "s_user.h" #include "send.h" #include "sys.h" #include #include #include #include #include #include #include #include #include #include #define UPINGTIMEOUT 60 /* Timeout waiting for ping responses */ #ifndef INADDR_NONE #define INADDR_NONE 0xffffffff #endif static struct UPing* pingList = 0; int UPingFileDescriptor = -1; /* UDP listener socket for upings */ static struct Socket upingSock; /* * pings_begin - iterator function for ping list */ struct UPing* uping_begin(void) { return pingList; } /* * pings_erase - removes ping struct from ping list */ static void uping_erase(struct UPing* p) { struct UPing* it; struct UPing* last = 0; assert(0 != p); for (it = pingList; it; last = it, it = it->next) { if (p == it) { if (last) last->next = p->next; else pingList = p->next; break; } } } /* Called when the event engine detects activity on the UPing socket */ static void uping_echo_callback(struct Event* ev) { assert(ev_type(ev) == ET_READ || ev_type(ev) == ET_ERROR); uping_echo(); } /* * Setup a UDP socket and listen for incoming packets */ int uping_init(void) { struct sockaddr_in from = { 0 }; int fd; memset(&from, 0, sizeof(from)); from.sin_addr = VirtualHost.sin_addr; from.sin_port = htons(atoi(UDP_PORT)); from.sin_family = AF_INET; if ((fd = socket(AF_INET, SOCK_DGRAM, 0)) == -1) { Debug((DEBUG_ERROR, "UPING: UDP listener socket call failed: %s", (strerror(errno)) ? strerror(errno) : "Unknown error")); return -1; } if (!os_set_reuseaddr(fd)) { log_write(LS_SOCKET, L_ERROR, 0, "UPING: set reuseaddr on UDP listener failed: %m (fd %d)", fd); Debug((DEBUG_ERROR, "UPING: set reuseaddr on UDP listener failed: %s", (strerror(errno)) ? strerror(errno) : "Unknown error")); close(fd); return -1; } if (bind(fd, (struct sockaddr*) &from, sizeof(from)) == -1) { log_write(LS_SOCKET, L_ERROR, 0, "UPING: bind on UDP listener (%d fd %d) failed: %m", htons(from.sin_port), fd); Debug((DEBUG_ERROR, "UPING: bind on UDP listener failed : %s", (strerror(errno)) ? strerror(errno) : "Unknown error")); close(fd); return -1; } if (!os_set_nonblocking(fd)) { Debug((DEBUG_ERROR, "UPING: set non-blocking: %s", (strerror(errno)) ? strerror(errno) : "Unknown error")); close(fd); return -1; } if (!socket_add(&upingSock, uping_echo_callback, 0, SS_DATAGRAM, SOCK_EVENT_READABLE, fd)) { Debug((DEBUG_ERROR, "UPING: Unable to queue fd to event system")); close(fd); return -1; } UPingFileDescriptor = fd; return fd; } /* * max # of pings set to 15/sec. */ void uping_echo() { struct sockaddr_in from = { 0 }; unsigned int len = 0; static time_t last = 0; static int counter = 0; char buf[BUFSIZE + 1]; Debug((DEBUG_DEBUG, "UPING: uping_echo")); if (IO_SUCCESS != os_recvfrom_nonb(UPingFileDescriptor, buf, BUFSIZE, &len, &from)) return; /* * count em even if we're getting flooded so we can tell we're getting * flooded. */ ++ServerStats->uping_recv; if (CurrentTime == last) { if (++counter > 10) return; } else { counter = 0; last = CurrentTime; } if (len < 19) return; sendto(UPingFileDescriptor, buf, len, 0, (struct sockaddr*) &from, sizeof(from)); } /* Callback when socket has data to read */ static void uping_read_callback(struct Event* ev) { struct UPing *pptr; assert(0 != ev_socket(ev)); assert(0 != s_data(ev_socket(ev))); pptr = s_data(ev_socket(ev)); Debug((DEBUG_SEND, "uping_read_callback called, %p (%d)", pptr, ev_type(ev))); if (ev_type(ev) == ET_DESTROY) { /* being destroyed */ pptr->freeable &= ~UPING_PENDING_SOCKET; if (!pptr->freeable) MyFree(pptr); /* done with it, finally */ } else { assert(ev_type(ev) == ET_READ || ev_type(ev) == ET_ERROR); uping_read(pptr); /* read uping response */ } } /* Callback to send another ping */ static void uping_sender_callback(struct Event* ev) { struct UPing *pptr; assert(0 != ev_timer(ev)); assert(0 != t_data(ev_timer(ev))); pptr = t_data(ev_timer(ev)); Debug((DEBUG_SEND, "uping_sender_callback called, %p (%d)", pptr, ev_type(ev))); if (ev_type(ev) == ET_DESTROY) { /* being destroyed */ pptr->freeable &= ~UPING_PENDING_SENDER; if (!pptr->freeable) MyFree(pptr); /* done with it, finally */ } else { assert(ev_type(ev) == ET_EXPIRE); pptr->lastsent = CurrentTime; /* store last ping time */ uping_send(pptr); /* send a ping */ if (pptr->sent == pptr->count) /* done sending pings, don't send more */ timer_del(ev_timer(ev)); } } /* Callback to kill a ping */ static void uping_killer_callback(struct Event* ev) { struct UPing *pptr; assert(0 != ev_timer(ev)); assert(0 != t_data(ev_timer(ev))); pptr = t_data(ev_timer(ev)); Debug((DEBUG_SEND, "uping_killer_callback called, %p (%d)", pptr, ev_type(ev))); if (ev_type(ev) == ET_DESTROY) { /* being destroyed */ pptr->freeable &= ~UPING_PENDING_KILLER; if (!pptr->freeable) MyFree(pptr); /* done with it, finally */ } else { assert(ev_type(ev) == ET_EXPIRE); uping_end(pptr); /* kill the uping, kill the uping! */ } } /* * start_ping */ static void uping_start(struct UPing* pptr) { assert(0 != pptr); timer_add(timer_init(&pptr->sender), uping_sender_callback, (void*) pptr, TT_PERIODIC, 1); timer_add(timer_init(&pptr->killer), uping_killer_callback, (void*) pptr, TT_RELATIVE, UPINGTIMEOUT); pptr->freeable |= UPING_PENDING_SENDER | UPING_PENDING_KILLER; sendcmdto_one(&me, CMD_NOTICE, pptr->client, "%C :Sending %d ping%s to %s", pptr->client, pptr->count, (pptr->count == 1) ? "" : "s", pptr->name); pptr->active = 1; } /* * uping_send * */ void uping_send(struct UPing* pptr) { struct timeval tv; char buf[BUFSIZE + 1]; assert(0 != pptr); if (pptr->sent == pptr->count) return; memset(buf, 0, sizeof(buf)); gettimeofday(&tv, NULL); sprintf(buf, " %10lu%c%6lu", tv.tv_sec, '\0', tv.tv_usec); Debug((DEBUG_SEND, "send_ping: sending [%s %s] to %s.%d on %d", buf, &buf[12], ircd_ntoa((const char*) &pptr->sin.sin_addr), ntohs(pptr->sin.sin_port), pptr->fd)); if (sendto(pptr->fd, buf, BUFSIZE, 0, (struct sockaddr*) &pptr->sin, sizeof(struct sockaddr_in)) != BUFSIZE) { const char* msg = strerror(errno); if (!msg) msg = "Unknown error"; if (pptr->client) sendcmdto_one(&me, CMD_NOTICE, pptr->client, "%C :UPING: send failed: " "%s", pptr->client, msg); Debug((DEBUG_DEBUG, "UPING: send_ping: sendto failed on %d: %s", pptr->fd, msg)); uping_end(pptr); return; } ++pptr->sent; } /* * read_ping */ void uping_read(struct UPing* pptr) { struct sockaddr_in sin; struct timeval tv; unsigned int len; unsigned int pingtime; char* s; char buf[BUFSIZE + 1]; IOResult ior; assert(0 != pptr); gettimeofday(&tv, NULL); ior = os_recvfrom_nonb(pptr->fd, buf, BUFSIZE, &len, &sin); if (IO_BLOCKED == ior) return; else if (IO_FAILURE == ior) { const char* msg = strerror(errno); if (!msg) msg = "Unknown error"; sendcmdto_one(&me, CMD_NOTICE, pptr->client, "%C :UPING: receive error: " "%s", pptr->client, msg); uping_end(pptr); return; } if (len < 19) return; /* Broken packet */ ++pptr->received; buf[len] = 0; pingtime = (tv.tv_sec - atol(&buf[1])) * 1000 + (tv.tv_usec - atol(buf + strlen(buf) + 1)) / 1000; pptr->ms_ave += pingtime; if (!pptr->ms_min || pptr->ms_min > pingtime) pptr->ms_min = pingtime; if (pingtime > pptr->ms_max) pptr->ms_max = pingtime; timer_chg(&pptr->killer, TT_RELATIVE, UPINGTIMEOUT); s = pptr->buf + strlen(pptr->buf); sprintf(s, " %u", pingtime); if (pptr->received == pptr->count) uping_end(pptr); return; } int uping_server(struct Client* sptr, struct ConfItem* aconf, int port, int count) { int fd; struct UPing* pptr; assert(0 != sptr); assert(0 != aconf); if (INADDR_NONE == aconf->ipnum.s_addr) { sendcmdto_one(&me, CMD_NOTICE, sptr, "%C :UPING: Host lookup failed for " "%s", sptr, aconf->name); return 0; } if (IsUPing(sptr)) uping_cancel(sptr, sptr); /* Cancel previous ping request */ if ((fd = socket(AF_INET, SOCK_DGRAM, 0)) == -1) { sendcmdto_one(&me, CMD_NOTICE, sptr, "%C :UPING: Unable to create udp " "ping socket", sptr); return 0; } if (!os_set_nonblocking(fd)) { sendcmdto_one(&me, CMD_NOTICE, sptr, "%C :UPING: Can't set fd non-" "blocking", sptr); close(fd); return 0; } pptr = (struct UPing*) MyMalloc(sizeof(struct UPing)); assert(0 != pptr); memset(pptr, 0, sizeof(struct UPing)); if (!socket_add(&pptr->socket, uping_read_callback, (void*) pptr, SS_DATAGRAM, SOCK_EVENT_READABLE, fd)) { sendcmdto_one(&me, CMD_NOTICE, sptr, "%C :UPING: Can't queue fd for " "reading", sptr); close(fd); MyFree(pptr); return 0; } pptr->fd = fd; pptr->sin.sin_port = htons(port); pptr->sin.sin_addr.s_addr = aconf->ipnum.s_addr; pptr->sin.sin_family = AF_INET; pptr->count = IRCD_MIN(20, count); pptr->client = sptr; pptr->index = -1; pptr->freeable = UPING_PENDING_SOCKET; strcpy(pptr->name, aconf->name); pptr->next = pingList; pingList = pptr; SetUPing(sptr); uping_start(pptr); return 0; } void uping_end(struct UPing* pptr) { Debug((DEBUG_DEBUG, "uping_end: %p", pptr)); if (pptr->client) { if (pptr->lastsent) { if (0 < pptr->received) { sendcmdto_one(&me, CMD_NOTICE, pptr->client, "%C :UPING %s%s", pptr->client, pptr->name, pptr->buf); sendcmdto_one(&me, CMD_NOTICE, pptr->client, "%C :UPING Stats: " "sent %d recvd %d ; min/avg/max = %1lu/%1lu/%1lu ms", pptr->client, pptr->sent, pptr->received, pptr->ms_min, (2 * pptr->ms_ave) / (2 * pptr->received), pptr->ms_max); } else sendcmdto_one(&me, CMD_NOTICE, pptr->client, "%C :UPING: no response " "from %s within %d seconds", pptr->client, pptr->name, UPINGTIMEOUT); } else sendcmdto_one(&me, CMD_NOTICE, pptr->client, "%C :UPING: Could not " "start ping to %s", pptr->client, pptr->name); } close(pptr->fd); pptr->fd = -1; uping_erase(pptr); if (pptr->client) ClearUPing(pptr->client); if (pptr->freeable & UPING_PENDING_SOCKET) socket_del(&pptr->socket); if (pptr->freeable & UPING_PENDING_SENDER) timer_del(&pptr->sender); if (pptr->freeable & UPING_PENDING_KILLER) timer_del(&pptr->killer); } void uping_cancel(struct Client *sptr, struct Client* acptr) { struct UPing* ping; struct UPing* ping_next; Debug((DEBUG_DEBUG, "UPING: cancelling uping for %s", cli_name(sptr))); for (ping = pingList; ping; ping = ping_next) { ping_next = ping->next; if (sptr == ping->client) { ping->client = acptr; uping_end(ping); } } ClearUPing(sptr); }