/* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * kdc/network.c * * Copyright 1990,2000 by the Massachusetts Institute of Technology. * * Export of this software from the United States of America may * require a specific license from the United States Government. * It is the responsibility of any person or organization contemplating * export to obtain such a license before exporting. * * WITHIN THAT CONSTRAINT, permission to use, copy, modify, and * distribute this software and its documentation for any purpose and * without fee is hereby granted, provided that the above copyright * notice appear in all copies and that both that copyright notice and * this permission notice appear in supporting documentation, and that * the name of M.I.T. not be used in advertising or publicity pertaining * to distribution of the software without specific, written prior * permission. Furthermore if you modify this software you must label * your software as modified software and not distribute it in such a * fashion that it might be confused with the original M.I.T. software. * M.I.T. makes no representations about the suitability of * this software for any purpose. It is provided "as is" without express * or implied warranty. * * * Network code for Kerberos v5 KDC. */ #pragma ident "%Z%%M% %I% %E% SMI" #define NEED_SOCKETS #include "k5-int.h" #include "com_err.h" #include "kdc_util.h" #include "extern.h" #include "kdc5_err.h" #include "adm_proto.h" #include #include #include #include #include /* #include */ #ifdef HAVE_NETINET_IN_H #include #include #include #ifdef HAVE_SYS_SOCKIO_H /* for SIOCGIFCONF, etc. */ #include #endif #include #include #if HAVE_SYS_SELECT_H #include #endif #include #include #include #ifndef ARPHRD_ETHER /* OpenBSD breaks on multiple inclusions */ #include #endif #ifdef HAVE_SYS_FILIO_H #include /* FIONBIO */ #endif #include /* Misc utility routines. */ static void set_sa_port(struct sockaddr *addr, int port) { switch (addr->sa_family) { case AF_INET: sa2sin(addr)->sin_port = port; break; #ifdef KRB5_USE_INET6 case AF_INET6: sa2sin6(addr)->sin6_port = port; break; #endif default: break; } } static int ipv6_enabled() { #ifdef KRB5_USE_INET6 static int result = -1; if (result == -1) { int s; s = socket(AF_INET6, SOCK_STREAM, 0); if (s >= 0) { result = 1; close(s); } else result = 0; } return result; #else return 0; #endif } static int setreuseaddr(int sock, int value) { return setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, &value, sizeof(value)); } #if defined(KRB5_USE_INET6) && defined(IPV6_V6ONLY) static int setv6only(int sock, int value) { return setsockopt(sock, IPPROTO_IPV6, IPV6_V6ONLY, &value, sizeof(value)); } #endif static const char *paddr (struct sockaddr *sa) { static char buf[100]; char portbuf[10]; if (getnameinfo(sa, socklen(sa), buf, sizeof(buf), portbuf, sizeof(portbuf), NI_NUMERICHOST|NI_NUMERICSERV)) strcpy(buf, ""); else { unsigned int len = sizeof(buf) - strlen(buf); char *p = buf + strlen(buf); if (len > 2+strlen(portbuf)) { *p++ = '.'; len--; strncpy(p, portbuf, len); } } return buf; } /* KDC data. */ enum kdc_conn_type { CONN_UDP, CONN_TCP_LISTENER, CONN_TCP }; /* Per-connection info. */ struct connection { int fd; enum kdc_conn_type type; void (*service)(struct connection *, const char *, int); /* Solaris Kerberos: for auditing */ in_port_t port; /* local port */ union { /* Type-specific information. */ struct { int x; } udp; struct { int x; } tcp_listener; struct { /* connection */ struct sockaddr_storage addr_s; socklen_t addrlen; char addrbuf[56]; krb5_fulladdr faddr; krb5_address kaddr; /* incoming */ size_t bufsiz; size_t offset; char *buffer; size_t msglen; /* outgoing */ krb5_data *response; unsigned char lenbuf[4]; sg_buf sgbuf[2]; sg_buf *sgp; int sgnum; /* crude denial-of-service avoidance support */ time_t start_time; } tcp; } u; }; #define SET(TYPE) struct { TYPE *data; int n, max; } /* Start at the top and work down -- this should allow for deletions without disrupting the iteration, since we delete by overwriting the element to be removed with the last element. */ #define FOREACH_ELT(set,idx,vvar) \ for (idx = set.n-1; idx >= 0 && (vvar = set.data[idx], 1); idx--) #define GROW_SET(set, incr, tmpptr) \ (((int)(set.max + incr) < set.max \ || (((size_t)((int)(set.max + incr) * sizeof(set.data[0])) \ / sizeof(set.data[0])) \ != (set.max + incr))) \ ? 0 /* overflow */ \ : ((tmpptr = realloc(set.data, \ (int)(set.max + incr) * sizeof(set.data[0]))) \ ? (set.data = tmpptr, set.max += incr, 1) \ : 0)) /* 1 = success, 0 = failure */ #define ADD(set, val, tmpptr) \ ((set.n < set.max || GROW_SET(set, 10, tmpptr)) \ ? (set.data[set.n++] = val, 1) \ : 0) #define DEL(set, idx) \ (set.data[idx] = set.data[--set.n], 0) #define FREE_SET_DATA(set) if(set.data) free(set.data); \ (set.data = 0, set.max = 0) /* Set connections; */ static SET(struct connection *) connections; #define n_sockets connections.n #define conns connections.data /* Set udp_port_data, tcp_port_data; */ static SET(u_short) udp_port_data, tcp_port_data; #include static struct select_state sstate; static krb5_error_code add_udp_port(int port) { int i; void *tmp; u_short val; u_short s_port = port; if (s_port != port) return EINVAL; FOREACH_ELT (udp_port_data, i, val) if (s_port == val) return 0; if (!ADD(udp_port_data, s_port, tmp)) return ENOMEM; return 0; } static krb5_error_code add_tcp_port(int port) { int i; void *tmp; u_short val; u_short s_port = port; if (s_port != port) return EINVAL; FOREACH_ELT (tcp_port_data, i, val) if (s_port == val) return 0; if (!ADD(tcp_port_data, s_port, tmp)) return ENOMEM; return 0; } #define USE_AF AF_INET #define USE_TYPE SOCK_DGRAM #define USE_PROTO 0 #define SOCKET_ERRNO errno #include "foreachaddr.h" struct socksetup { const char *prog; krb5_error_code retval; }; static struct connection * add_fd (struct socksetup *data, int sock, enum kdc_conn_type conntype, void (*service)(struct connection *, const char *, int)) { struct connection *newconn; void *tmp; newconn = malloc(sizeof(*newconn)); if (newconn == 0) { data->retval = errno; com_err(data->prog, errno, gettext("cannot allocate storage for connection info")); return 0; } if (!ADD(connections, newconn, tmp)) { data->retval = errno; com_err(data->prog, data->retval, gettext("cannot save socket info")); free(newconn); return 0; } memset(newconn, 0, sizeof(*newconn)); newconn->type = conntype; newconn->fd = sock; newconn->service = service; return newconn; } static void process_packet(struct connection *, const char *, int); static void accept_tcp_connection(struct connection *, const char *, int); static void process_tcp_connection(struct connection *, const char *, int); static struct connection * add_udp_fd (struct socksetup *data, int sock) { return add_fd(data, sock, CONN_UDP, process_packet); } static struct connection * add_tcp_listener_fd (struct socksetup *data, int sock) { return add_fd(data, sock, CONN_TCP_LISTENER, accept_tcp_connection); } static struct connection * add_tcp_data_fd (struct socksetup *data, int sock) { return add_fd(data, sock, CONN_TCP, process_tcp_connection); } static void delete_fd (struct connection *xconn) { struct connection *conn; int i; FOREACH_ELT(connections, i, conn) if (conn == xconn) { DEL(connections, i); break; } free(xconn); } static int setnbio(int sock) { static const int one = 1; return ioctlsocket(sock, FIONBIO, (const void *)&one); } static int setnolinger(int s) { static const struct linger ling = { 0, 0 }; return setsockopt(s, SOL_SOCKET, SO_LINGER, &ling, sizeof(ling)); } /* Returns -1 or socket fd. */ static int setup_a_tcp_listener(struct socksetup *data, struct sockaddr *addr) { int sock; sock = socket(addr->sa_family, SOCK_STREAM, 0); if (sock == -1) { com_err(data->prog, errno, gettext("Cannot create TCP server socket on %s"), paddr(addr)); return -1; } /* * Solaris Kerberos: noticed that there where bind problems for tcp sockets * if kdc restarted quickly. Setting SO_REUSEADDR allowed binds to succeed. */ if (setreuseaddr(sock, 1) < 0) { com_err(data->prog, errno, gettext("enabling SO_REUSEADDR on TCP socket")); close(sock); return -1; } if (bind(sock, addr, socklen(addr)) == -1) { com_err(data->prog, errno, gettext("Cannot bind TCP server socket on %s"), paddr(addr)); close(sock); return -1; } if (listen(sock, 5) < 0) { com_err(data->prog, errno, gettext("Cannot listen on TCP server socket on %s"), paddr(addr)); close(sock); return -1; } if (setnbio(sock)) { com_err(data->prog, errno, gettext("cannot set listening tcp socket on %s non-blocking"), paddr(addr)); close(sock); return -1; } if (setnolinger(sock)) { com_err(data->prog, errno, gettext("disabling SO_LINGER on TCP socket on %s"), paddr(addr)); close(sock); return -1; } return sock; } static int setup_tcp_listener_ports(struct socksetup *data) { struct sockaddr_in sin4; #ifdef KRB5_USE_INET6 struct sockaddr_in6 sin6; #endif int i, port; memset(&sin4, 0, sizeof(sin4)); sin4.sin_family = AF_INET; #ifdef HAVE_SA_LEN sin4.sin_len = sizeof(sin4); #endif sin4.sin_addr.s_addr = INADDR_ANY; #ifdef KRB5_USE_INET6 memset(&sin6, 0, sizeof(sin6)); sin6.sin6_family = AF_INET6; #ifdef SIN6_LEN sin6.sin6_len = sizeof(sin6); #endif sin6.sin6_addr = in6addr_any; #endif FOREACH_ELT (tcp_port_data, i, port) { int s4, s6; set_sa_port((struct sockaddr *)&sin4, htons(port)); if (!ipv6_enabled()) { s4 = setup_a_tcp_listener(data, (struct sockaddr *)&sin4); if (s4 < 0) return -1; s6 = -1; } else { #ifndef KRB5_USE_INET6 abort(); #else s4 = s6 = -1; set_sa_port((struct sockaddr *)&sin6, htons(port)); s6 = setup_a_tcp_listener(data, (struct sockaddr *)&sin6); if (s6 < 0) return -1; #ifdef IPV6_V6ONLY if (setv6only(s6, 0)) com_err(data->prog, errno, gettext("setsockopt(IPV6_V6ONLY,0) failed")); #endif s4 = setup_a_tcp_listener(data, (struct sockaddr *)&sin4); #endif /* KRB5_USE_INET6 */ } /* Sockets are created, prepare to listen on them. */ if (s4 >= 0) { FD_SET(s4, &sstate.rfds); if (s4 >= sstate.max) sstate.max = s4 + 1; if (add_tcp_listener_fd(data, s4) == 0) close(s4); else krb5_klog_syslog(LOG_INFO, "listening on fd %d: tcp %s", s4, paddr((struct sockaddr *)&sin4)); } #ifdef KRB5_USE_INET6 if (s6 >= 0) { FD_SET(s6, &sstate.rfds); if (s6 >= sstate.max) sstate.max = s6 + 1; if (add_tcp_listener_fd(data, s6) == 0) { close(s6); s6 = -1; } else krb5_klog_syslog(LOG_INFO, "listening on fd %d: tcp %s", s6, paddr((struct sockaddr *)&sin6)); if (s4 < 0) krb5_klog_syslog(LOG_INFO, "assuming IPv6 socket accepts IPv4"); } #endif } return 0; } static int setup_udp_port(void *P_data, struct sockaddr *addr) { struct socksetup *data = P_data; int sock = -1, i; char haddrbuf[NI_MAXHOST]; int err; u_short port; err = getnameinfo(addr, socklen(addr), haddrbuf, sizeof(haddrbuf), 0, 0, NI_NUMERICHOST); if (err) strcpy(haddrbuf, ""); switch (addr->sa_family) { case AF_INET: break; #ifdef AF_INET6 case AF_INET6: #ifdef KRB5_USE_INET6 break; #else { static int first = 1; if (first) { krb5_klog_syslog (LOG_INFO, "skipping local ipv6 addresses"); first = 0; } return 0; } #endif #endif #ifdef AF_LINK /* some BSD systems, AIX */ case AF_LINK: return 0; #endif #ifdef AF_DLI /* Direct Link Interface - DEC Ultrix/OSF1 link layer? */ case AF_DLI: return 0; #endif default: krb5_klog_syslog (LOG_INFO, "skipping unrecognized local address family %d", addr->sa_family); return 0; } FOREACH_ELT (udp_port_data, i, port) { sock = socket (addr->sa_family, SOCK_DGRAM, 0); if (sock == -1) { data->retval = errno; com_err(data->prog, data->retval, gettext("Cannot create server socket for port %d address %s"), port, haddrbuf); return 1; } set_sa_port(addr, htons(port)); if (bind (sock, (struct sockaddr *)addr, socklen (addr)) == -1) { data->retval = errno; com_err(data->prog, data->retval, gettext("Cannot bind server socket to port %d address %s"), port, haddrbuf); return 1; } FD_SET (sock, &sstate.rfds); if (sock >= sstate.max) sstate.max = sock + 1; krb5_klog_syslog (LOG_INFO, "listening on fd %d: udp %s", sock, paddr((struct sockaddr *)addr)); if (add_udp_fd (data, sock) == 0) return 1; } return 0; } #if 1 static void klog_handler(const void *data, size_t len) { static char buf[BUFSIZ]; static int bufoffset; void *p; #define flush_buf() \ (bufoffset \ ? (((buf[0] == 0 || buf[0] == '\n') \ ? (fork()==0?abort():(void)0) \ : (void)0), \ krb5_klog_syslog(LOG_INFO, "%s", buf), \ memset(buf, 0, sizeof(buf)), \ bufoffset = 0) \ : 0) p = memchr(data, 0, len); if (p) len = (const char *)p - (const char *)data; scan_for_newlines: if (len == 0) return; p = memchr(data, '\n', len); if (p) { if (p != data) klog_handler(data, (size_t)((const char *)p - (const char *)data)); flush_buf(); len -= ((const char *)p - (const char *)data) + 1; data = 1 + (const char *)p; goto scan_for_newlines; } else if (len > sizeof(buf) - 1 || len + bufoffset > sizeof(buf) - 1) { size_t x = sizeof(buf) - len - 1; klog_handler(data, x); flush_buf(); len -= x; data = (const char *)data + x; goto scan_for_newlines; } else { memcpy(buf + bufoffset, data, len); bufoffset += len; } } #endif /* XXX */ extern int krb5int_debug_sendto_kdc; extern void (*krb5int_sendtokdc_debug_handler)(const void*, size_t); krb5_error_code setup_network(const char *prog) { struct socksetup setup_data; krb5_error_code retval; char *cp; int i, port; FD_ZERO(&sstate.rfds); FD_ZERO(&sstate.wfds); FD_ZERO(&sstate.xfds); sstate.max = 0; /* krb5int_debug_sendto_kdc = 1; */ krb5int_sendtokdc_debug_handler = klog_handler; /* Handle each realm's ports */ for (i=0; irealm_ports; while (cp && *cp) { if (*cp == ',' || isspace((int) *cp)) { cp++; continue; } port = strtol(cp, &cp, 10); if (cp == 0) break; retval = add_udp_port(port); if (retval) return retval; } cp = kdc_realmlist[i]->realm_tcp_ports; while (cp && *cp) { if (*cp == ',' || isspace((int) *cp)) { cp++; continue; } port = strtol(cp, &cp, 10); if (cp == 0) break; retval = add_tcp_port(port); if (retval) return retval; } } setup_data.prog = prog; setup_data.retval = 0; krb5_klog_syslog (LOG_INFO, "setting up network..."); /* To do: Use RFC 2292 interface (or follow-on) and IPV6_PKTINFO, so we might need only one UDP socket; fall back to binding sockets on each address only if IPV6_PKTINFO isn't supported. */ if (foreach_localaddr (&setup_data, setup_udp_port, 0, 0)) { return setup_data.retval; } setup_tcp_listener_ports(&setup_data); krb5_klog_syslog (LOG_INFO, "set up %d sockets", n_sockets); if (n_sockets == 0) { com_err(prog, 0, gettext("no sockets set up?")); exit (1); } return 0; } static void init_addr(krb5_fulladdr *faddr, struct sockaddr *sa) { switch (sa->sa_family) { case AF_INET: faddr->address->addrtype = ADDRTYPE_INET; faddr->address->length = IPV4_ADDR_LEN; faddr->address->contents = (krb5_octet *) &sa2sin(sa)->sin_addr; faddr->port = ntohs(sa2sin(sa)->sin_port); break; #ifdef KRB5_USE_INET6 case AF_INET6: if (IN6_IS_ADDR_V4MAPPED(&sa2sin6(sa)->sin6_addr)) { faddr->address->addrtype = ADDRTYPE_INET; faddr->address->length = IPV4_ADDR_LEN; /* offset to RAM address of ipv4 part of ipv6 address */ faddr->address->contents = (IPV6_ADDR_LEN - IPV4_ADDR_LEN) + (krb5_octet *) &sa2sin6(sa)->sin6_addr; } else { faddr->address->addrtype = ADDRTYPE_INET6; faddr->address->length = IPV6_ADDR_LEN; faddr->address->contents = (krb5_octet *) &sa2sin6(sa)->sin6_addr; } faddr->port = ntohs(sa2sin6(sa)->sin6_port); break; #endif default: faddr->address->addrtype = -1; faddr->address->length = 0; faddr->address->contents = 0; faddr->port = 0; break; } } static void process_packet(struct connection *conn, const char *prog, int selflags) { int cc; socklen_t saddr_len; krb5_fulladdr faddr; krb5_error_code retval; struct sockaddr_storage saddr; krb5_address addr; krb5_data request; krb5_data *response; char pktbuf[MAX_DGRAM_SIZE]; int port_fd = conn->fd; response = NULL; saddr_len = sizeof(saddr); cc = recvfrom(port_fd, pktbuf, sizeof(pktbuf), 0, (struct sockaddr *)&saddr, &saddr_len); if (cc == -1) { if (errno != EINTR /* This is how Linux indicates that a previous transmission was refused, e.g., if the client timed out before getting the response packet. */ && errno != ECONNREFUSED ) com_err(prog, errno, gettext("while receiving from network")); return; } if (!cc) return; /* zero-length packet? */ request.length = cc; request.data = pktbuf; faddr.address = &addr; init_addr(&faddr, ss2sa(&saddr)); /* this address is in net order */ if ((retval = dispatch(&request, &faddr, &response))) { com_err(prog, retval, gettext("while dispatching (udp)")); return; } cc = sendto(port_fd, response->data, (socklen_t) response->length, 0, (struct sockaddr *)&saddr, saddr_len); if (cc == -1) { char addrbuf[46]; krb5_free_data(kdc_context, response); if (inet_ntop(((struct sockaddr *)&saddr)->sa_family, addr.contents, addrbuf, sizeof(addrbuf)) == 0) { strcpy(addrbuf, "?"); } com_err(prog, errno, gettext("while sending reply to %s/%d"), addrbuf, faddr.port); return; } if (cc != response->length) { krb5_free_data(kdc_context, response); com_err(prog, 0, gettext("short reply write %d vs %d\n"), response->length, cc); return; } krb5_free_data(kdc_context, response); return; } static int tcp_data_counter; /* Solaris kerberos: getting this value from elsewhere */ extern int max_tcp_data_connections; static void kill_tcp_connection(struct connection *); static void accept_tcp_connection(struct connection *conn, const char *prog, int selflags) { int s; struct sockaddr_storage addr_s; struct sockaddr *addr = (struct sockaddr *)&addr_s; socklen_t addrlen = sizeof(addr_s); struct socksetup sockdata; struct connection *newconn; char tmpbuf[10]; s = accept(conn->fd, addr, &addrlen); if (s < 0) return; setnbio(s), setnolinger(s); sockdata.prog = prog; sockdata.retval = 0; newconn = add_tcp_data_fd(&sockdata, s); if (newconn == 0) return; if (getnameinfo((struct sockaddr *)&addr_s, addrlen, newconn->u.tcp.addrbuf, sizeof(newconn->u.tcp.addrbuf), tmpbuf, sizeof(tmpbuf), NI_NUMERICHOST | NI_NUMERICSERV)) strcpy(newconn->u.tcp.addrbuf, "???"); else { char *p, *end; p = newconn->u.tcp.addrbuf; end = p + sizeof(newconn->u.tcp.addrbuf); p += strlen(p); if (end - p > 2 + strlen(tmpbuf)) { *p++ = '.'; strcpy(p, tmpbuf); } } #if 0 krb5_klog_syslog(LOG_INFO, "accepted TCP connection on socket %d from %s", s, newconn->u.tcp.addrbuf); #endif newconn->u.tcp.addr_s = addr_s; newconn->u.tcp.addrlen = addrlen; newconn->u.tcp.bufsiz = 1024 * 1024; newconn->u.tcp.buffer = malloc(newconn->u.tcp.bufsiz); newconn->u.tcp.start_time = time(0); if (++tcp_data_counter > max_tcp_data_connections) { struct connection *oldest_tcp = NULL; struct connection *c; int i; krb5_klog_syslog(LOG_INFO, "too many connections"); FOREACH_ELT (connections, i, c) { if (c->type != CONN_TCP) continue; if (c == newconn) continue; #if 0 krb5_klog_syslog(LOG_INFO, "fd %d started at %ld", c->fd, c->u.tcp.start_time); #endif if (oldest_tcp == NULL || oldest_tcp->u.tcp.start_time > c->u.tcp.start_time) oldest_tcp = c; } if (oldest_tcp != NULL) { krb5_klog_syslog(LOG_INFO, "dropping tcp fd %d from %s", oldest_tcp->fd, oldest_tcp->u.tcp.addrbuf); kill_tcp_connection(oldest_tcp); oldest_tcp = NULL; } } if (newconn->u.tcp.buffer == 0) { com_err(prog, errno, gettext("allocating buffer for new TCP session from %s"), newconn->u.tcp.addrbuf); delete_fd(newconn); close(s); tcp_data_counter--; return; } newconn->u.tcp.offset = 0; newconn->u.tcp.faddr.address = &newconn->u.tcp.kaddr; init_addr(&newconn->u.tcp.faddr, ss2sa(&newconn->u.tcp.addr_s)); SG_SET(&newconn->u.tcp.sgbuf[0], newconn->u.tcp.lenbuf, 4); SG_SET(&newconn->u.tcp.sgbuf[1], 0, 0); FD_SET(s, &sstate.rfds); if (sstate.max <= s) sstate.max = s + 1; } static void kill_tcp_connection(struct connection *conn) { if (conn->u.tcp.response) krb5_free_data(kdc_context, conn->u.tcp.response); if (conn->u.tcp.buffer) free(conn->u.tcp.buffer); FD_CLR(conn->fd, &sstate.rfds); FD_CLR(conn->fd, &sstate.wfds); if (sstate.max == conn->fd + 1) while (sstate.max > 0 && ! FD_ISSET(sstate.max-1, &sstate.rfds) && ! FD_ISSET(sstate.max-1, &sstate.wfds) /* && ! FD_ISSET(sstate.max-1, &sstate.xfds) */ ) sstate.max--; close(conn->fd); conn->fd = -1; delete_fd(conn); tcp_data_counter--; } static void process_tcp_connection(struct connection *conn, const char *prog, int selflags) { if (selflags & SSF_WRITE) { ssize_t nwrote; SOCKET_WRITEV_TEMP tmp; nwrote = SOCKET_WRITEV(conn->fd, conn->u.tcp.sgp, conn->u.tcp.sgnum, tmp); if (nwrote < 0) { goto kill_tcp_connection; } if (nwrote == 0) /* eof */ goto kill_tcp_connection; while (nwrote) { sg_buf *sgp = conn->u.tcp.sgp; if (nwrote < SG_LEN(sgp)) { SG_ADVANCE(sgp, nwrote); nwrote = 0; } else { nwrote -= SG_LEN(sgp); conn->u.tcp.sgp++; conn->u.tcp.sgnum--; if (conn->u.tcp.sgnum == 0 && nwrote != 0) abort(); } } if (conn->u.tcp.sgnum == 0) { /* finished sending */ /* should go back to reading */ goto kill_tcp_connection; } } else if (selflags & SSF_READ) { /* Read message length and data into one big buffer, already allocated at connect time. If we have a complete message, we stop reading, so we should only be here if there is no data in the buffer, or only an incomplete message. */ size_t len; ssize_t nread; if (conn->u.tcp.offset < 4) { /* msglen has not been computed */ /* XXX Doing at least two reads here, letting the kernel worry about buffering. It'll be faster when we add code to manage the buffer here. */ len = 4 - conn->u.tcp.offset; nread = SOCKET_READ(conn->fd, conn->u.tcp.buffer + conn->u.tcp.offset, len); if (nread < 0) /* error */ goto kill_tcp_connection; if (nread == 0) /* eof */ goto kill_tcp_connection; conn->u.tcp.offset += nread; if (conn->u.tcp.offset == 4) { unsigned char *p = (unsigned char *)conn->u.tcp.buffer; conn->u.tcp.msglen = ((p[0] << 24) | (p[1] << 16) | (p[2] << 8) | p[3]); if (conn->u.tcp.msglen > conn->u.tcp.bufsiz - 4) { /* message too big */ krb5_klog_syslog(LOG_ERR, "TCP client %s wants %lu bytes, cap is %lu", conn->u.tcp.addrbuf, (unsigned long) conn->u.tcp.msglen, (unsigned long) conn->u.tcp.bufsiz - 4); /* XXX Should return an error. */ goto kill_tcp_connection; } } } else { /* msglen known */ krb5_data request; krb5_error_code err; len = conn->u.tcp.msglen - (conn->u.tcp.offset - 4); nread = SOCKET_READ(conn->fd, conn->u.tcp.buffer + conn->u.tcp.offset, len); if (nread < 0) /* error */ goto kill_tcp_connection; if (nread == 0) /* eof */ goto kill_tcp_connection; conn->u.tcp.offset += nread; if (conn->u.tcp.offset < conn->u.tcp.msglen + 4) return; /* have a complete message, and exactly one message */ request.length = conn->u.tcp.msglen; request.data = conn->u.tcp.buffer + 4; err = dispatch(&request, &conn->u.tcp.faddr, &conn->u.tcp.response); if (err) { com_err(prog, err, gettext("while dispatching (tcp)")); goto kill_tcp_connection; } conn->u.tcp.lenbuf[0] = 0xff & (conn->u.tcp.response->length >> 24); conn->u.tcp.lenbuf[1] = 0xff & (conn->u.tcp.response->length >> 16); conn->u.tcp.lenbuf[2] = 0xff & (conn->u.tcp.response->length >> 8); conn->u.tcp.lenbuf[3] = 0xff & (conn->u.tcp.response->length >> 0); SG_SET(&conn->u.tcp.sgbuf[1], conn->u.tcp.response->data, conn->u.tcp.response->length); conn->u.tcp.sgp = conn->u.tcp.sgbuf; conn->u.tcp.sgnum = 2; FD_CLR(conn->fd, &sstate.rfds); FD_SET(conn->fd, &sstate.wfds); } } else abort(); return; kill_tcp_connection: kill_tcp_connection(conn); } static void service_conn(struct connection *conn, const char *prog, int selflags) { conn->service(conn, prog, selflags); } krb5_error_code listen_and_process(const char *prog) { int nfound; struct select_state sout; int i, sret; krb5_error_code err; if (conns == (struct connection **) NULL) return KDC5_NONET; while (!signal_requests_exit) { if (signal_requests_hup) { krb5_klog_reopen(kdc_context); signal_requests_hup = 0; } sstate.end_time.tv_sec = sstate.end_time.tv_usec = 0; err = krb5int_cm_call_select(&sstate, &sout, &sret); if (err) { com_err(prog, err, gettext("while selecting for network input(1)")); continue; } if (sret == -1) { if (errno != EINTR) com_err(prog, errno, gettext("while selecting for network input(2)")); continue; } nfound = sret; for (i=0; i 0; i++) { int sflags = 0; if (conns[i]->fd < 0) abort(); if (FD_ISSET(conns[i]->fd, &sout.rfds)) sflags |= SSF_READ, nfound--; if (FD_ISSET(conns[i]->fd, &sout.wfds)) sflags |= SSF_WRITE, nfound--; if (sflags) service_conn(conns[i], prog, sflags); } } return 0; } krb5_error_code closedown_network(const char *prog) { int i; struct connection *conn; if (conns == (struct connection **) NULL) return KDC5_NONET; FOREACH_ELT (connections, i, conn) { if (conn->fd >= 0) (void) close(conn->fd); DEL (connections, i); /* There may also be per-connection data in the tcp structure (tcp.buffer, tcp.response) that we're not freeing here. That should only happen if we quit with a connection in progress. */ free(conn); } FREE_SET_DATA(connections); FREE_SET_DATA(udp_port_data); FREE_SET_DATA(tcp_port_data); return 0; } #endif /* INET */