/* This file is part of the Project Athena Zephyr Notification System. * It contains functions for dispatching a notice. * * Created by: John T. Kohl * * $Source$ * $Author$ * * Copyright (c) 1987, 1991 by the Massachusetts Institute of Technology. * For copying and distribution information, see the file * "mit-copyright.h". */ #include #include "zserver.h" #include #ifndef lint #ifndef SABER static const char rcsid_dispatch_c[] = "$Id$"; #endif #endif #define NACKTAB_HASHSIZE 1023 #define NACKTAB_HASHVAL(sockaddr, uid) (((sockaddr).sin_addr.s_addr ^ \ (sockaddr).sin_port ^ \ (uid).zuid_addr.s_addr ^ \ (uid).tv.tv_sec ^ \ (uid).tv.tv_usec) % NACKTAB_HASHSIZE) #define HOSTS_SIZE_INIT 256 #ifdef DEBUG ZCONST char *ZNoticeKinds[9] = {"UNSAFE", "UNACKED", "ACKED", "HMACK", "HMCTL", "SERVACK", "SERVNAK", "CLIENTACK", "STAT"}; #endif /* * * External Routines: * * void dispatch(notice, auth, who) * ZNotice_t *notice; * int auth; * struct sockaddr_in *who; * * void clt_ack(notice, who, sent) * ZNotice_t *notice; * struct sockaddr_in *who; * Sent_type sent; * * void nack_release(client) * Client *client; * * void sendit(notice, auth, who) * ZNotice_t *notice; * int auth; * struct sockaddr_in *who; * * void xmit(notice, dest, auth, client) * ZNotice_t *notice; * struct sockaddr_in *dest; * int auth; * Client *client; */ String *class_control, *class_admin, *class_hm, *class_ulogin, *class_ulocate; int rexmit_times[] = REXMIT_TIMES; static void nack_cancel __P((ZNotice_t *, struct sockaddr_in *)); static void dispatch __P((ZNotice_t *, int, struct sockaddr_in *, int)); static int send_to_dest __P((ZNotice_t *, int, Destination *dest, int, int)); static void hostm_deathgram __P((struct sockaddr_in *, Server *)); static char *hm_recipient __P((void)); Statistic realm_notices = {0, "inter-realm notices"}; Statistic interserver_notices = {0, "inter-server notices"}; Statistic hm_packets = {0, "hostmanager packets"}; Statistic control_notices = {0, "client control notices"}; Statistic message_notices = {0, "message notices"}; Statistic login_notices = {0, "login notices"}; Statistic i_s_ctls = {0, "inter-server control notices"}; Statistic i_s_logins = {0, "inter-server login notices"}; Statistic i_s_admins = {0, "inter-server admin notices"}; Statistic i_s_locates = {0, "inter-server locate notices"}; Statistic locate_notices = {0, "locate notices"}; Statistic admin_notices = {0, "admin notices"}; static Unacked *nacktab[NACKTAB_HASHSIZE]; static struct in_addr *hosts; static int hosts_size = 0, num_hosts = 0; static void dump_stats (arg) void *arg; { syslog(LOG_INFO, "stats: %s: %d", hm_packets.str, hm_packets.val); syslog(LOG_INFO, "stats: %s: %d", control_notices.str, control_notices.val); syslog(LOG_INFO, "stats: %s: %d", message_notices.str, message_notices.val); syslog(LOG_INFO, "stats: %s: %d", login_notices.str, login_notices.val); syslog(LOG_INFO, "stats: %s: %d", locate_notices.str, locate_notices.val); syslog(LOG_INFO, "stats: %s: %d", admin_notices.str, admin_notices.val); syslog(LOG_INFO, "stats: %s: %d", realm_notices.str, realm_notices.val); syslog(LOG_INFO, "stats: %s: %d", interserver_notices.str, interserver_notices.val); syslog(LOG_INFO, "stats: %s: %d", i_s_ctls.str, i_s_ctls.val); syslog(LOG_INFO, "stats: %s: %d", i_s_logins.str, i_s_logins.val); syslog(LOG_INFO, "stats: %s: %d", i_s_admins.str, i_s_admins.val); syslog(LOG_INFO, "stats: %s: %d", i_s_locates.str, i_s_locates.val); /* log stuff once an hour */ timer_set_rel ((long) 6*60*60, dump_stats, arg); } /* * Handle an input packet. * Warning: this function may be called from within a brain dump. */ void handle_packet() { Code_t status; ZPacket_t input_packet; /* from the network */ ZNotice_t new_notice; /* parsed from input_packet */ int input_len; /* len of packet */ struct sockaddr_in input_sin; /* Zconstructed for authent */ struct sockaddr_in whoisit; /* for holding peer's address */ int authentic; /* authentic flag */ Pending *pending; /* pending packet */ int from_server; /* packet is from another server */ Realm *realm; /* foreign realm ptr */ #ifdef DEBUG static int first_time = 1; #endif #ifdef DEBUG /* Dump statistics five minutes after startup */ if (first_time) { first_time = 0; timer_set_rel(5*60, dump_stats, NULL); } #endif /* handle traffic */ if (otherservers[me_server_idx].queue) { /* something here for me; take care of it */ #if 1 zdbug((LOG_DEBUG, "internal queue process")); #endif pending = server_dequeue(me_server); status = ZParseNotice(pending->packet, pending->len, &new_notice); if (status != ZERR_NONE) { syslog(LOG_ERR, "bad notice parse (%s): %s", inet_ntoa(pending->who.sin_addr), error_message(status)); } else { dispatch(&new_notice, pending->auth, &pending->who, 1); } server_pending_free(pending); return; } /* * nothing in internal queue, go to the external library * queue/socket */ status = ZReceivePacket(input_packet, &input_len, &whoisit); if (status != ZERR_NONE) { syslog(LOG_ERR, "bad packet receive: %s from %s", error_message(status), inet_ntoa(whoisit.sin_addr)); return; } npackets++; status = ZParseNotice(input_packet, input_len, &new_notice); if (status != ZERR_NONE) { syslog(LOG_ERR, "bad notice parse (%s): %s", inet_ntoa(whoisit.sin_addr), error_message(status)); return; } if (server_which_server(&whoisit)) { /* we need to parse twice--once to get the source addr, second to check authentication */ memset(&input_sin, 0, sizeof(input_sin)); input_sin.sin_addr.s_addr = new_notice.z_sender_addr.s_addr; input_sin.sin_port = new_notice.z_port; input_sin.sin_family = AF_INET; realm = realm_which_realm(&input_sin); if (realm) { authentic = ZCheckRealmAuthentication(&new_notice, &input_sin, realm->name); } else { authentic = ZCheckAuthentication(&new_notice, &input_sin); } from_server = 1; } else { from_server = 0; realm = realm_which_realm(&whoisit); if (realm) { authentic = ZCheckRealmAuthentication(&new_notice, &whoisit, realm->name); } else { authentic = ZCheckAuthentication(&new_notice, &whoisit); } } if (whoisit.sin_port != hm_port && whoisit.sin_port != hm_srv_port && strcasecmp(new_notice.z_class, ZEPHYR_ADMIN_CLASS) != 0 && whoisit.sin_port != srv_addr.sin_port && new_notice.z_kind != CLIENTACK) { syslog(LOG_ERR, "bad port %s/%d", inet_ntoa(whoisit.sin_addr), ntohs(whoisit.sin_port)); return; } message_notices.val++; dispatch(&new_notice, authentic, &whoisit, from_server); return; } /* * Dispatch a notice. */ static void dispatch(notice, auth, who, from_server) ZNotice_t *notice; int auth; struct sockaddr_in *who; int from_server; { Code_t status; String *notice_class; struct sockaddr_in who2; int authflag; Realm *realm; char *cp; #ifdef DEBUG char dbg_buf[BUFSIZ]; #endif /* Set "authflag" to 1 or 0 for handler functions. Treat * ZAUTH_CKSUM_FAILED as authentic except for sendit(), which is * handled below. */ switch (auth) { case ZAUTH_YES: case ZAUTH_CKSUM_FAILED: authflag = 1; break; case ZAUTH_FAILED: case ZAUTH_NO: default: authflag = 0; break; } if ((int) notice->z_kind < (int) UNSAFE || (int) notice->z_kind > (int) CLIENTACK) { syslog(LOG_NOTICE, "bad notice kind 0x%x from %s", notice->z_kind, inet_ntoa(who->sin_addr)); return; } #if 0 if (zdebug) { sprintf(dbg_buf, "disp:%s '%s' '%s' '%s' notice to '%s' from '%s' %s/%d/%d", ZNoticeKinds[(int) notice->z_kind], notice->z_class, notice->z_class_inst, notice->z_opcode, notice->z_recipient, notice->z_sender, inet_ntoa(who->sin_addr), ntohs(who->sin_port), ntohs(notice->z_port)); syslog(LOG_DEBUG, "%s", dbg_buf); } #endif if (notice->z_kind == CLIENTACK) { nack_cancel(notice, who); return; } who2 = *who; #if 0 if (0 && from_server) { /* incorporate server_dispatch here */ } #endif notice_class = make_string(notice->z_class,1); if (from_server) { interserver_notices.val++; status = server_dispatch(notice, authflag, who); } else if (class_is_hm(notice_class)) { hm_packets.val++; status = hostm_dispatch(notice, authflag, who, me_server); } else if (realm_which_realm(who) && !(class_is_admin(notice_class))) { realm_notices.val++; status = realm_dispatch(notice, authflag, who, me_server); } else if (class_is_control(notice_class)) { control_notices.val++; status = control_dispatch(notice, authflag, who, me_server); } else if (class_is_ulogin(notice_class)) { login_notices.val++; status = ulogin_dispatch(notice, authflag, who, me_server); } else if (class_is_ulocate(notice_class)) { locate_notices.val++; status = ulocate_dispatch(notice, authflag, who, me_server); } else if (class_is_admin(notice_class)) { admin_notices.val++; status = server_adispatch(notice, authflag, who, me_server); } else { if (auth == ZAUTH_CKSUM_FAILED) authflag = 0; if (!bound_for_local_realm(notice)) { cp = strchr(notice->z_recipient, '@'); if (!cp || !(realm = realm_get_realm_by_name(realm_expand_realm(cp + 1)))) sendit(notice, authflag, who, 0); else realm_handoff(notice, authflag, who, realm, 1); } else { if (notice->z_recipient[0] == '@') notice->z_recipient = ""; sendit(notice, authflag, who, 1); } free_string(notice_class); return; } if (status == ZSRV_REQUEUE) server_self_queue(notice, authflag, who); free_string(notice_class); } /* * Send a notice off to those clients who have subscribed to it. */ void sendit(notice, auth, who, external) ZNotice_t *notice; int auth; struct sockaddr_in *who; int external; { static int send_counter = 0; char recipbuf[ANAME_SZ + INST_SZ + REALM_SZ + 3], *recipp; int any = 0; Acl *acl; Destination dest; String *class; class = make_string(notice->z_class, 1); acl = class_get_acl(class); if (acl != NULL) { /* if controlled and not auth, fail */ if (!auth) { syslog(LOG_WARNING, "sendit unauthentic %s from %s", notice->z_class, notice->z_sender); clt_ack(notice, who, AUTH_FAILED); free_string(class); return; } /* if not auth to transmit, fail */ if (!access_check(notice->z_sender, acl, TRANSMIT)) { syslog(LOG_WARNING, "sendit unauthorized %s from %s", notice->z_class, notice->z_sender); clt_ack(notice, who, AUTH_FAILED); free_string(class); return; } /* sender != inst and not auth to send to others --> fail */ if (strcmp(notice->z_sender, notice->z_class_inst) != 0 && !access_check(notice->z_sender, acl, INSTUID)) { syslog(LOG_WARNING, "sendit unauth uid %s %s.%s", notice->z_sender, notice->z_class, notice->z_class_inst); clt_ack(notice, who, AUTH_FAILED); free_string(class); return; } } if (!realm_which_realm(who)) { if (memcmp(¬ice->z_sender_addr.s_addr, &who->sin_addr.s_addr, sizeof(notice->z_sender_addr.s_addr))) { /* someone is playing games... */ /* inet_ntoa returns pointer to static area */ /* max size is 255.255.255.255 */ char buffer[16]; strcpy(buffer, inet_ntoa(who->sin_addr)); if (!auth) { syslog(LOG_WARNING, "sendit unauthentic fake packet: claimed %s, real %s", inet_ntoa(notice->z_sender_addr), buffer); clt_ack(notice, who, AUTH_FAILED); free_string(class); return; } if (ntohl(notice->z_sender_addr.s_addr) != 0) { syslog(LOG_WARNING, "sendit invalid address: claimed %s, real %s", inet_ntoa(notice->z_sender_addr), buffer); clt_ack(notice, who, AUTH_FAILED); free_string(class); return; } syslog(LOG_WARNING, "sendit addr mismatch: claimed %s, real %s", inet_ntoa(notice->z_sender_addr), buffer); } } /* Increment the send counter, used to prevent duplicate sends to * clients. On the off-chance that we wrap around to 0, skip over * it to prevent missing clients which have never had a packet * sent to them. */ send_counter++; if (send_counter == 0) send_counter = 1; /* Send to clients subscribed to the triplet itself. */ dest.classname = class; dest.inst = make_string(notice->z_class_inst, 1); if (bound_for_local_realm(notice) && *notice->z_recipient == '@') { dest.recip = make_string("", 0); } else { strncpy(recipbuf, notice->z_recipient, sizeof(recipbuf)); recipp = strrchr(&recipbuf, '@'); if (recipp) sprintf(recipp + 1, "%s", realm_expand_realm(recipp + 1)); dest.recip = make_string(recipbuf, 0); } if (send_to_dest(notice, auth, &dest, send_counter, external)) any = 1; /* Send to clients subscribed to the triplet with the instance * substituted with the wildcard instance. */ free_string(dest.inst); dest.inst = wildcard_instance; if (send_to_dest(notice, auth, &dest, send_counter, external)) any = 1; free_string(class); free_string(dest.recip); if (any) ack(notice, who); else nack(notice, who); } /* * Send to each client in the list. Avoid duplicates by setting * last_send on each client to send_counter, a nonce which is updated * by sendit() above. */ static int send_to_dest(notice, auth, dest, send_counter, external) ZNotice_t *notice; int auth; Destination *dest; int send_counter; int external; { Client **clientp; int any = 0; clientp = triplet_lookup(dest); if (!clientp) return 0; for (; *clientp; clientp++) { if ((*clientp)->last_send == send_counter) continue; (*clientp)->last_send = send_counter; if ((*clientp)->realm && external) realm_handoff(notice, auth, &clientp[0]->addr, clientp[0]->realm, 1); else xmit(notice, &((*clientp)->addr), auth, *clientp); any = 1; } return any; } /* * Release anything destined for the client in the not-yet-acked table. */ void nack_release(client) Client *client; { int i; Unacked *nacked, *next; for (i = 0; i < NACKTAB_HASHSIZE; i++) { for (nacked = nacktab[i]; nacked; nacked = next) { next = nacked->next; if (nacked->dest.addr.sin_addr.s_addr == client->addr.sin_addr.s_addr && nacked->dest.addr.sin_port == client->addr.sin_port) { timer_reset(nacked->timer); LIST_DELETE(nacked); free(nacked->packet); free(nacked); } } } } /* * Send one packet of a fragmented message to a client. After transmitting, * put it onto the not ack'ed list. */ /* the arguments must be the same as the arguments to Z_XmitFragment */ /*ARGSUSED*/ Code_t xmit_frag(notice, buf, len, waitforack) ZNotice_t *notice; char *buf; int len; int waitforack; { struct sockaddr_in sin; char *savebuf; Unacked *nacked; Code_t retval; int hashval; retval = ZSendPacket(buf, len, 0); if (retval != ZERR_NONE) { syslog(LOG_WARNING, "xmit_frag send: %s", error_message(retval)); return retval; } /* now we've sent it, mark it as not ack'ed */ nacked = (Unacked *) malloc(sizeof(Unacked)); if (!nacked) { /* no space: just punt */ syslog(LOG_WARNING, "xmit_frag nack malloc"); return ENOMEM; } savebuf = (char *) malloc(len); if (!savebuf) { /* no space: just punt */ syslog(LOG_WARNING, "xmit_frag pack malloc"); free(nacked); return ENOMEM; } memcpy(savebuf, buf, len); sin = ZGetDestAddr(); nacked->rexmits = 0; nacked->packet = savebuf; nacked->dest.addr = sin; nacked->packsz = len; nacked->uid = notice->z_uid; nacked->timer = timer_set_rel(rexmit_times[0], rexmit, nacked); LIST_INSERT(&nacktab[NACKTAB_HASHVAL(sin, nacked->uid)], nacked); return(ZERR_NONE); } /* * Send the notice to the client. After transmitting, put it onto the * not ack'ed list. */ void xmit(notice, dest, auth, client) ZNotice_t *notice; struct sockaddr_in *dest; int auth; Client *client; { char *noticepack; Unacked *nacked; int packlen; Code_t retval; #if 0 zdbug((LOG_DEBUG,"xmit")); #endif noticepack = (char *) malloc(sizeof(ZPacket_t)); if (!noticepack) { syslog(LOG_ERR, "xmit malloc"); return; /* DON'T put on nack list */ } packlen = sizeof(ZPacket_t); if (auth && client) { /* we are distributing authentic and we have a pointer to auth info */ #ifdef ZEPHYR_USES_KERBEROS retval = ZFormatAuthenticNotice(notice, noticepack, packlen, &packlen, client->session_key); if (retval != ZERR_NONE) { syslog(LOG_ERR, "xmit auth format: %s", error_message(retval)); free(noticepack); return; } #else /* !ZEPHYR_USES_KERBEROS */ notice->z_auth = 1; retval = ZFormatSmallRawNotice(notice, noticepack, &packlen); if (retval != ZERR_NONE) { syslog(LOG_ERR, "xmit auth/raw format: %s", error_message(retval)); free(noticepack); return; } #endif /* ZEPHYR_USES_KERBEROS */ } else { notice->z_auth = 0; notice->z_authent_len = 0; notice->z_ascii_authent = (char *)""; retval = ZFormatSmallRawNotice(notice, noticepack, &packlen); if (retval != ZERR_NONE) { syslog(LOG_ERR, "xmit format: %s", error_message(retval)); free(noticepack); return; /* DON'T put on nack list */ } } #if 0 zdbug((LOG_DEBUG," to %s/%d", inet_ntoa(dest->sin_addr), ntohs(dest->sin_port))); #endif retval = ZSetDestAddr(dest); if (retval != ZERR_NONE) { syslog(LOG_WARNING, "xmit set addr: %s", error_message(retval)); free(noticepack); return; } retval = ZSendPacket(noticepack, packlen, 0); if (retval != ZERR_NONE) { syslog(LOG_WARNING, "xmit xmit: (%s/%d) %s", inet_ntoa(dest->sin_addr), ntohs(dest->sin_port), error_message(retval)); free(noticepack); return; } /* now we've sent it, mark it as not ack'ed */ nacked = (Unacked *) malloc(sizeof(Unacked)); if (!nacked) { /* no space: just punt */ syslog(LOG_WARNING, "xmit nack malloc"); free(noticepack); return; } nacked->rexmits = 0; nacked->packet = noticepack; nacked->dest.addr = *dest; nacked->packsz = packlen; nacked->uid = notice->z_uid; nacked->timer = timer_set_rel(rexmit_times[0], rexmit, nacked); LIST_INSERT(&nacktab[NACKTAB_HASHVAL(*dest, nacked->uid)], nacked); } /* * Retransmit the packet specified. If we have timed out or retransmitted * too many times, punt the packet and initiate the host recovery algorithm * Else, increment the count and re-send the notice packet. */ void rexmit(arg) void *arg; { Unacked *nacked = (Unacked *) arg; int retval; ZNotice_t dummy_notice; Client *client; #if 1 syslog(LOG_DEBUG, "rexmit %s/%d #%d time %d", inet_ntoa(nacked->dest.addr.sin_addr), ntohs(nacked->dest.addr.sin_port), nacked->rexmits + 1, NOW); #endif nacked->rexmits++; if (rexmit_times[nacked->rexmits] == -1) { /* Unresponsive client, find it in our database. */ dummy_notice.z_port = nacked->dest.addr.sin_port; client = client_which_client(&nacked->dest.addr.sin_addr, &dummy_notice); /* unlink & free nacked */ LIST_DELETE(nacked); free(nacked->packet); free(nacked); /* Kill the client. */ if (client) { server_kill_clt(client); client_deregister(client, 1); } return; } /* retransmit the packet */ #if 0 zdbug((LOG_DEBUG," to %s/%d", inet_ntoa(nacked->dest.addr.sin_addr), ntohs(nacked->dest.addr.sin_port))); #endif retval = ZSetDestAddr(&nacked->dest.addr); if (retval != ZERR_NONE) { syslog(LOG_WARNING, "rexmit set addr: %s", error_message(retval)); } else { retval = ZSendPacket(nacked->packet, nacked->packsz, 0); if (retval != ZERR_NONE) syslog(LOG_WARNING, "rexmit xmit: %s", error_message(retval)); } /* reset the timer */ nacked->timer = timer_set_rel(rexmit_times[nacked->rexmits], rexmit, nacked); return; } /* * Send an acknowledgement to the sending client, by sending back the * header from the original notice with the z_kind field changed to either * SERVACK or SERVNAK, and the contents of the message either SENT or * NOT_SENT, depending on the value of the sent argument. */ void clt_ack(notice, who, sent) ZNotice_t *notice; struct sockaddr_in *who; Sent_type sent; { ZNotice_t acknotice; ZPacket_t ackpack; int packlen; int notme = 0; char *sent_name; Code_t retval; if (bdumping) { /* don't ack while dumping */ #if 1 zdbug((LOG_DEBUG,"bdumping, no ack")); #endif return; } acknotice = *notice; acknotice.z_kind = SERVACK; switch (sent) { case SENT: acknotice.z_message = ZSRVACK_SENT; sent_name = "sent"; break; case NOT_FOUND: acknotice.z_message = ZSRVACK_FAIL; acknotice.z_kind = SERVNAK; sent_name = "fail"; break; case AUTH_FAILED: acknotice.z_kind = SERVNAK; acknotice.z_message = ZSRVACK_NOTSENT; sent_name = "nak/not_sent"; break; case NOT_SENT: acknotice.z_message = ZSRVACK_NOTSENT; sent_name = "not_sent"; break; default: abort (); } #if 0 zdbug((LOG_DEBUG,"clt_ack type %s for %d to %s/%d", sent_name, ntohs(notice->z_port), inet_ntoa(who->sin_addr), ntohs(who->sin_port))); #endif acknotice.z_multinotice = ""; /* leave room for the trailing null */ acknotice.z_message_len = strlen(acknotice.z_message) + 1; packlen = sizeof(ackpack); retval = ZFormatSmallRawNotice(&acknotice, ackpack, &packlen); if (retval != ZERR_NONE) { syslog(LOG_ERR, "clt_ack format: %s", error_message(retval)); return; } retval = ZSetDestAddr(who); if (retval != ZERR_NONE) { syslog(LOG_WARNING, "clt_ack set addr: %s", error_message(retval)); return; } retval = ZSendPacket(ackpack, packlen, 0); if (retval != ZERR_NONE) { syslog(LOG_WARNING, "clt_ack xmit: %s", error_message(retval)); return; } else { zdbug((LOG_DEBUG, "packet sent")); } return; } /* * An ack has arrived. * remove the packet matching this notice from the not-yet-acked queue */ static void nack_cancel(notice, who) ZNotice_t *notice; struct sockaddr_in *who; { Unacked *nacked; int hashval; /* search the not-yet-acked table for this packet, and flush it. */ #if 0 zdbug((LOG_DEBUG, "nack_cancel: %s:%08X,%08X", inet_ntoa(notice->z_uid.zuid_addr), notice->z_uid.tv.tv_sec, notice->z_uid.tv.tv_usec)); #endif hashval = NACKTAB_HASHVAL(*who, notice->z_uid); for (nacked = nacktab[hashval]; nacked; nacked = nacked->next) { if (nacked->dest.addr.sin_addr.s_addr == who->sin_addr.s_addr && nacked->dest.addr.sin_port == who->sin_port && ZCompareUID(&nacked->uid, ¬ice->z_uid)) { timer_reset(nacked->timer); free(nacked->packet); LIST_DELETE(nacked); free(nacked); return; } } #if 1 zdbug((LOG_DEBUG,"nack_cancel: nack not found %s:%08X,%08X", inet_ntoa (notice->z_uid.zuid_addr), notice->z_uid.tv.tv_sec, notice->z_uid.tv.tv_usec)); #endif } /* for compatibility when sending subscription information to old clients */ #ifdef OLD_COMPAT #define OLD_ZEPHYR_VERSION "ZEPH0.0" #endif /* OLD_COMPAT */ /* Dispatch an HM_CTL notice. */ Code_t hostm_dispatch(notice, auth, who, server) ZNotice_t *notice; int auth; struct sockaddr_in *who; Server *server; { Server *owner; char *opcode = notice->z_opcode; Code_t retval; int i, add = 0, remove = 0; #if 0 zdbug((LOG_DEBUG,"hm_disp")); #endif if (notice->z_kind == HMACK) { /* Ignore. */ ; } else if (notice->z_kind != HMCTL) { #if 0 zdbug((LOG_DEBUG, "bogus HM packet")); #endif clt_ack(notice, who, AUTH_FAILED); } else if (strcmp(opcode, HM_FLUSH) == 0) { client_flush_host(&who->sin_addr); if (server == me_server) server_forward(notice, auth, who); } else if (strcmp(opcode, HM_BOOT) == 0) { client_flush_host(&who->sin_addr); if (server == me_server) { server_forward(notice, auth, who); ack(notice, who); add = 1; } } else if (strcmp(opcode, HM_ATTACH) == 0) { if (server == me_server) { server_forward(notice, auth, who); ack(notice, who); add = 1; } else { remove = 1; } } else if (strcmp(opcode, HM_DETACH) == 0) { remove = 1; } else { syslog(LOG_WARNING, "hm_dispatch: unknown opcode %s", opcode); } if (add) { for (i = 0; i < num_hosts; i++) { if (hosts[i].s_addr == who->sin_addr.s_addr) break; } if (i == num_hosts) { if (hosts_size == 0) { hosts = (struct in_addr *) malloc(HOSTS_SIZE_INIT * sizeof(struct in_addr)); if (!hosts) return ENOMEM; hosts_size = HOSTS_SIZE_INIT; } else if (num_hosts == hosts_size) { hosts = (struct in_addr *) realloc(hosts, hosts_size * 2 * sizeof(struct in_addr)); if (!hosts) return ENOMEM; hosts_size *= 2; } hosts[num_hosts++] = who->sin_addr; } } else if (remove) { for (i = 0; i < num_hosts; i++) { if (hosts[i].s_addr == who->sin_addr.s_addr) { memmove(&hosts[i], &hosts[i + 1], num_hosts - (i + 1)); num_hosts--; break; } } } return ZERR_NONE; } /* * Dispatch a ZEPHYR_CTL notice. */ Code_t control_dispatch(notice, auth, who, server) ZNotice_t *notice; int auth; struct sockaddr_in *who; Server *server; { char *opcode = notice->z_opcode; Client *client; Code_t retval; int wantdefs; Realm *realm; struct sockaddr_in newwho; /* * ZEPHYR_CTL Opcodes expected are: * BOOT (inst HM): host has booted; flush data. * CLIENT_SUBSCRIBE: process with the subscription mananger. * CLIENT_UNSUBSCRIBE: "" * CLIENT_CANCELSUB: "" */ zdbug((LOG_DEBUG, "ctl_disp: opc=%s", opcode)); newwho.sin_addr.s_addr = notice->z_sender_addr.s_addr; newwho.sin_port = notice->z_port; realm = realm_which_realm(&newwho); if (realm) return(realm_control_dispatch(notice, auth, who, server, realm)); if (strcasecmp(notice->z_class_inst, ZEPHYR_CTL_HM) == 0) { return hostm_dispatch(notice, auth, who, server); } else if (strcmp(opcode, CLIENT_GIMMESUBS) == 0 || strcmp(opcode, CLIENT_GIMMEDEFS) == 0) { /* this special case is before the auth check so that someone who has no subscriptions does NOT get a SERVNAK but rather an empty list. Note we must therefore check authentication inside subscr_sendlist */ #ifdef OLD_COMPAT /* only acknowledge if *not* old version; the old version acknowledges the packet with the reply */ if (strcmp(notice->z_version, OLD_ZEPHYR_VERSION) != 0) ack(notice, who); #else /* !OLD_COMPAT */ ack(notice, who); #endif /* OLD_COMPAT */ subscr_sendlist(notice, auth, who); return ZERR_NONE; } else if (!auth) { #if 0 zdbug((LOG_DEBUG,"unauth ctrl_disp")); #endif if (server == me_server) clt_ack(notice, who, AUTH_FAILED); return ZERR_NONE; } wantdefs = strcmp(opcode, CLIENT_SUBSCRIBE_NODEFS); if (!wantdefs || strcmp(opcode, CLIENT_SUBSCRIBE) == 0) { /* subscription notice */ retval = client_register(notice, &who->sin_addr, &client, wantdefs); if (retval != ZERR_NONE) { syslog(LOG_NOTICE, "subscr %s/%s/%d failed: %s", notice->z_sender, inet_ntoa(who->sin_addr), ntohs(notice->z_port), error_message(retval)); if (server == me_server) { if (retval == ZSRV_BADSUBPORT) clt_ack(notice, who, AUTH_FAILED); else nack(notice, who); } return(ZERR_NONE); } if (strcmp(client->principal->string, notice->z_sender) != 0) { /* you may only subscribe for your own clients */ if (server == me_server) clt_ack(notice, who, AUTH_FAILED); return ZERR_NONE; } #ifdef ZEPHYR_USES_KERBEROS /* in case it's changed */ memcpy(client->session_key, ZGetSession(), sizeof(C_Block)); #endif retval = subscr_subscribe(client, notice); if (retval != ZERR_NONE) { syslog(LOG_WARNING, "subscr failed: %s", error_message(retval)); if (server == me_server) nack(notice, who); return ZERR_NONE; } } else if (strcmp(opcode, CLIENT_UNSUBSCRIBE) == 0) { client = client_which_client(&who->sin_addr, notice); if (client != NULL) { if (strcmp(client->principal->string, notice->z_sender) != 0) { /* you may only cancel for your own clients */ if (server == me_server) clt_ack(notice, who, AUTH_FAILED); return ZERR_NONE; } #if 0 if (zdebug) { if (server == me_server) { syslog(LOG_DEBUG, "subscription cancel for %s/%d\n", inet_ntoa(who->sin_addr), ntohs(who->sin_port)); } else { syslog(LOG_DEBUG, "subscription cancel for %s/%d from %s\n", inet_ntoa(who->sin_addr), ntohs(who->sin_port), server->addr_str); } } #endif subscr_cancel(who, notice); } else { nack(notice, who); return ZERR_NONE; } } else if (strcmp(opcode, CLIENT_CANCELSUB) == 0) { /* canceling subscriptions implies I can punt info about this client */ client = client_which_client(&who->sin_addr, notice); if (client == NULL) { #if 0 zdbug((LOG_DEBUG,"can_sub not found client")); #endif if (server == me_server) nack(notice, who); return ZERR_NONE; } if (strcmp(client->principal->string, notice->z_sender) != 0) { /* you may only cancel for your own clients */ if (server == me_server) clt_ack(notice, who, AUTH_FAILED); return ZERR_NONE; } /* don't flush locations here, let him do it explicitly */ #if 0 zdbug((LOG_DEBUG, "cancelsub clt_dereg %s/%d", inet_ntoa(who->sin_addr), ntohs(who->sin_port))); #endif client_deregister(client, 0); } else { syslog(LOG_WARNING, "unknown ctl opcode %s", opcode); if (server == me_server) nack(notice, who); return ZERR_NONE; } if (server == me_server) { ack(notice, who); server_forward(notice, auth, who); } return ZERR_NONE; } void hostm_shutdown() { int i, s, newserver; struct sockaddr_in sin; for (i = 0; i < nservers; i++) { if (i != me_server_idx && otherservers[i].state == SERV_UP) break; } newserver = (i < nservers); for (i = 0; i < num_hosts; i++) { sin.sin_addr = hosts[i]; sin.sin_port = hm_port; if (newserver) { while (1) { s = (random() % (nservers - 1)) + 1; if (otherservers[s].state == SERV_UP) break; } hostm_deathgram(&sin, &otherservers[s]); } else { hostm_deathgram(&sin, NULL); } } } static void hostm_deathgram(sin, server) struct sockaddr_in *sin; Server *server; { Code_t retval; int shutlen; ZNotice_t shutnotice; char *shutpack; shutnotice.z_kind = HMCTL; shutnotice.z_port = sin->sin_port; /* we are sending it */ shutnotice.z_class = HM_CTL_CLASS; shutnotice.z_class_inst = HM_CTL_SERVER; shutnotice.z_opcode = SERVER_SHUTDOWN; shutnotice.z_sender = HM_CTL_SERVER; shutnotice.z_recipient = hm_recipient(); shutnotice.z_default_format = ""; shutnotice.z_num_other_fields = 0; shutnotice.z_message = (server) ? server->addr_str : NULL; shutnotice.z_message_len = (server) ? strlen(server->addr_str) + 1 : 0; retval = ZFormatNotice(&shutnotice, &shutpack, &shutlen, ZNOAUTH); if (retval != ZERR_NONE) { syslog(LOG_ERR, "hm_shut format: %s",error_message(retval)); return; } retval = ZSetDestAddr(sin); if (retval != ZERR_NONE) { syslog(LOG_WARNING, "hm_shut set addr: %s", error_message(retval)); free(shutpack); return; } retval = ZSendPacket(shutpack, shutlen, 0); if (retval != ZERR_NONE) syslog(LOG_WARNING, "hm_shut xmit: %s", error_message(retval)); free(shutpack); } static char * hm_recipient() { static char *recipient; char *realm; if (recipient) return recipient; realm = ZGetRealm(); if (!realm) realm = "???"; recipient = (char *) malloc(strlen(realm) + 4); strcpy (recipient, "hm@"); strcat (recipient, realm); return recipient; }