/* vi: set sw=4 ts=4: */ /* $Slackware: inetd.c 1.79s 2001/02/06 13:18:00 volkerdi Exp $ */ /* $OpenBSD: inetd.c,v 1.79 2001/01/30 08:30:57 deraadt Exp $ */ /* $NetBSD: inetd.c,v 1.11 1996/02/22 11:14:41 mycroft Exp $ */ /* Busybox port by Vladimir Oleynik (C) 2001-2005 <dzo@simtreas.ru> */ /* IPv6 support, many bug fixes by Denys Vlasenko (c) 2008 */ /* * Copyright (c) 1983,1991 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* Inetd - Internet super-server * * This program invokes configured services when a connection * from a peer is established or a datagram arrives. * Connection-oriented services are invoked each time a * connection is made, by creating a process. This process * is passed the connection as file descriptor 0 and is * expected to do a getpeername to find out peer's host * and port. * Datagram oriented services are invoked when a datagram * arrives; a process is created and passed a pending message * on file descriptor 0. peer's address can be obtained * using recvfrom. * * Inetd uses a configuration file which is read at startup * and, possibly, at some later time in response to a hangup signal. * The configuration file is "free format" with fields given in the * order shown below. Continuation lines for an entry must begin with * a space or tab. All fields must be present in each entry. * * service_name must be in /etc/services * socket_type stream/dgram/raw/rdm/seqpacket * protocol must be in /etc/protocols * (usually "tcp" or "udp") * wait/nowait[.max] single-threaded/multi-threaded, max # * user[.group] or user[:group] user/group to run daemon as * server_program full path name * server_program_arguments maximum of MAXARGS (20) * * For RPC services * service_name/version must be in /etc/rpc * socket_type stream/dgram/raw/rdm/seqpacket * rpc/protocol "rpc/tcp" etc * wait/nowait[.max] single-threaded/multi-threaded * user[.group] or user[:group] user to run daemon as * server_program full path name * server_program_arguments maximum of MAXARGS (20) * * For non-RPC services, the "service name" can be of the form * hostaddress:servicename, in which case the hostaddress is used * as the host portion of the address to listen on. If hostaddress * consists of a single '*' character, INADDR_ANY is used. * * A line can also consist of just * hostaddress: * where hostaddress is as in the preceding paragraph. Such a line must * have no further fields; the specified hostaddress is remembered and * used for all further lines that have no hostaddress specified, * until the next such line (or EOF). (This is why * is provided to * allow explicit specification of INADDR_ANY.) A line * *: * is implicitly in effect at the beginning of the file. * * The hostaddress specifier may (and often will) contain dots; * the service name must not. * * For RPC services, host-address specifiers are accepted and will * work to some extent; however, because of limitations in the * portmapper interface, it will not work to try to give more than * one line for any given RPC service, even if the host-address * specifiers are different. * * Comment lines are indicated by a '#' in column 1. */ /* inetd rules for passing file descriptors to children * (http://www.freebsd.org/cgi/man.cgi?query=inetd): * * The wait/nowait entry specifies whether the server that is invoked by * inetd will take over the socket associated with the service access point, * and thus whether inetd should wait for the server to exit before listen- * ing for new service requests. Datagram servers must use "wait", as * they are always invoked with the original datagram socket bound to the * specified service address. These servers must read at least one datagram * from the socket before exiting. If a datagram server connects to its * peer, freeing the socket so inetd can receive further messages on the * socket, it is said to be a "multi-threaded" server; it should read one * datagram from the socket and create a new socket connected to the peer. * It should fork, and the parent should then exit to allow inetd to check * for new service requests to spawn new servers. Datagram servers which * process all incoming datagrams on a socket and eventually time out are * said to be "single-threaded". The comsat(8), biff(1) and talkd(8) * utilities are both examples of the latter type of datagram server. The * tftpd(8) utility is an example of a multi-threaded datagram server. * * Servers using stream sockets generally are multi-threaded and use the * "nowait" entry. Connection requests for these services are accepted by * inetd, and the server is given only the newly-accepted socket connected * to a client of the service. Most stream-based services operate in this * manner. Stream-based servers that use "wait" are started with the lis- * tening service socket, and must accept at least one connection request * before exiting. Such a server would normally accept and process incoming * connection requests until a timeout. */ /* Despite of above doc saying that dgram services must use "wait", * "udp nowait" servers are implemented in busyboxed inetd. * IPv6 addresses are also implemented. However, they may look ugly - * ":::service..." means "address '::' (IPv6 wildcard addr)":"service"... * You have to put "tcp6"/"udp6" in protocol field to select IPv6. */ /* Here's the scoop concerning the user[:group] feature: * 1) group is not specified: * a) user = root: NO setuid() or setgid() is done * b) other: initgroups(name, primary group) * setgid(primary group as found in passwd) * setuid() * 2) group is specified: * a) user = root: setgid(specified group) * NO initgroups() * NO setuid() * b) other: initgroups(name, specified group) * setgid(specified group) * setuid() */ #include <syslog.h> #include <sys/un.h> #include "libbb.h" #if ENABLE_FEATURE_INETD_RPC #include <rpc/rpc.h> #include <rpc/pmap_clnt.h> #endif #if !BB_MMU /* stream version of chargen is forking but not execing, * can't do that (easily) on NOMMU */ #undef ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_CHARGEN #define ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_CHARGEN 0 #endif #define _PATH_INETDPID "/var/run/inetd.pid" #define CNT_INTERVAL 60 /* servers in CNT_INTERVAL sec. */ #define RETRYTIME 60 /* retry after bind or server fail */ // TODO: explain, or get rid of setrlimit games #ifndef RLIMIT_NOFILE #define RLIMIT_NOFILE RLIMIT_OFILE #endif #ifndef OPEN_MAX #define OPEN_MAX 64 #endif /* Reserve some descriptors, 3 stdio + at least: 1 log, 1 conf. file */ #define FD_MARGIN 8 #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_DISCARD \ || ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_ECHO \ || ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_CHARGEN \ || ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_TIME \ || ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_DAYTIME # define INETD_BUILTINS_ENABLED #endif typedef struct servtab_t { /* The most frequently referenced one: */ int se_fd; /* open descriptor */ /* NB: 'biggest fields last' saves on code size (~250 bytes) */ /* [addr:]service socktype proto wait user[:group] prog [args] */ char *se_local_hostname; /* addr to listen on */ char *se_service; /* "80" or "www" or "mount/2[-3]" */ /* socktype is in se_socktype */ /* "stream" "dgram" "raw" "rdm" "seqpacket" */ char *se_proto; /* "unix" or "[rpc/]tcp[6]" */ #if ENABLE_FEATURE_INETD_RPC int se_rpcprog; /* rpc program number */ int se_rpcver_lo; /* rpc program lowest version */ int se_rpcver_hi; /* rpc program highest version */ #define is_rpc_service(sep) ((sep)->se_rpcver_lo != 0) #else #define is_rpc_service(sep) 0 #endif pid_t se_wait; /* 0:"nowait", 1:"wait", >1:"wait" */ /* and waiting for this pid */ socktype_t se_socktype; /* SOCK_STREAM/DGRAM/RDM/... */ family_t se_family; /* AF_UNIX/INET[6] */ /* se_proto_no is used by RPC code only... hmm */ smallint se_proto_no; /* IPPROTO_TCP/UDP, n/a for AF_UNIX */ smallint se_checked; /* looked at during merge */ unsigned se_max; /* allowed instances per minute */ unsigned se_count; /* number started since se_time */ unsigned se_time; /* when we started counting */ char *se_user; /* user name to run as */ char *se_group; /* group name to run as, can be NULL */ #ifdef INETD_BUILTINS_ENABLED const struct builtin *se_builtin; /* if built-in, description */ #endif struct servtab_t *se_next; len_and_sockaddr *se_lsa; char *se_program; /* server program */ #define MAXARGV 20 char *se_argv[MAXARGV + 1]; /* program arguments */ } servtab_t; #ifdef INETD_BUILTINS_ENABLED /* Echo received data */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_ECHO static void FAST_FUNC echo_stream(int, servtab_t *); static void FAST_FUNC echo_dg(int, servtab_t *); #endif /* Internet /dev/null */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_DISCARD static void FAST_FUNC discard_stream(int, servtab_t *); static void FAST_FUNC discard_dg(int, servtab_t *); #endif /* Return 32 bit time since 1900 */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_TIME static void FAST_FUNC machtime_stream(int, servtab_t *); static void FAST_FUNC machtime_dg(int, servtab_t *); #endif /* Return human-readable time */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_DAYTIME static void FAST_FUNC daytime_stream(int, servtab_t *); static void FAST_FUNC daytime_dg(int, servtab_t *); #endif /* Familiar character generator */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_CHARGEN static void FAST_FUNC chargen_stream(int, servtab_t *); static void FAST_FUNC chargen_dg(int, servtab_t *); #endif struct builtin { /* NB: not necessarily NUL terminated */ char bi_service7[7]; /* internally provided service name */ uint8_t bi_fork; /* 1 if stream fn should run in child */ void (*bi_stream_fn)(int, servtab_t *) FAST_FUNC; void (*bi_dgram_fn)(int, servtab_t *) FAST_FUNC; }; static const struct builtin builtins[] = { #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_ECHO { "echo", 1, echo_stream, echo_dg }, #endif #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_DISCARD { "discard", 1, discard_stream, discard_dg }, #endif #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_CHARGEN { "chargen", 1, chargen_stream, chargen_dg }, #endif #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_TIME { "time", 0, machtime_stream, machtime_dg }, #endif #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_DAYTIME { "daytime", 0, daytime_stream, daytime_dg }, #endif }; #endif /* INETD_BUILTINS_ENABLED */ struct globals { rlim_t rlim_ofile_cur; struct rlimit rlim_ofile; servtab_t *serv_list; int global_queuelen; int maxsock; /* max fd# in allsock, -1: unknown */ /* whenever maxsock grows, prev_maxsock is set to new maxsock, * but if maxsock is set to -1, prev_maxsock is not changed */ int prev_maxsock; unsigned max_concurrency; smallint alarm_armed; uid_t real_uid; /* user ID who ran us */ const char *config_filename; parser_t *parser; char *default_local_hostname; #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_CHARGEN char *end_ring; char *ring_pos; char ring[128]; #endif fd_set allsock; /* Used in next_line(), and as scratch read buffer */ char line[256]; /* _at least_ 256, see LINE_SIZE */ }; #define G (*(struct globals*)&bb_common_bufsiz1) enum { LINE_SIZE = COMMON_BUFSIZE - offsetof(struct globals, line) }; struct BUG_G_too_big { char BUG_G_too_big[sizeof(G) <= COMMON_BUFSIZE ? 1 : -1]; }; #define rlim_ofile_cur (G.rlim_ofile_cur ) #define rlim_ofile (G.rlim_ofile ) #define serv_list (G.serv_list ) #define global_queuelen (G.global_queuelen) #define maxsock (G.maxsock ) #define prev_maxsock (G.prev_maxsock ) #define max_concurrency (G.max_concurrency) #define alarm_armed (G.alarm_armed ) #define real_uid (G.real_uid ) #define config_filename (G.config_filename) #define parser (G.parser ) #define default_local_hostname (G.default_local_hostname) #define first_ps_byte (G.first_ps_byte ) #define last_ps_byte (G.last_ps_byte ) #define end_ring (G.end_ring ) #define ring_pos (G.ring_pos ) #define ring (G.ring ) #define allsock (G.allsock ) #define line (G.line ) #define INIT_G() do { \ rlim_ofile_cur = OPEN_MAX; \ global_queuelen = 128; \ config_filename = "/etc/inetd.conf"; \ } while (0) static void maybe_close(int fd) { if (fd >= 0) close(fd); } // TODO: move to libbb? static len_and_sockaddr *xzalloc_lsa(int family) { len_and_sockaddr *lsa; int sz; sz = sizeof(struct sockaddr_in); if (family == AF_UNIX) sz = sizeof(struct sockaddr_un); #if ENABLE_FEATURE_IPV6 if (family == AF_INET6) sz = sizeof(struct sockaddr_in6); #endif lsa = xzalloc(LSA_LEN_SIZE + sz); lsa->len = sz; lsa->u.sa.sa_family = family; return lsa; } static void rearm_alarm(void) { if (!alarm_armed) { alarm_armed = 1; alarm(RETRYTIME); } } static void block_CHLD_HUP_ALRM(sigset_t *m) { sigemptyset(m); sigaddset(m, SIGCHLD); sigaddset(m, SIGHUP); sigaddset(m, SIGALRM); sigprocmask(SIG_BLOCK, m, m); /* old sigmask is stored in m */ } static void restore_sigmask(sigset_t *m) { sigprocmask(SIG_SETMASK, m, NULL); } #if ENABLE_FEATURE_INETD_RPC static void register_rpc(servtab_t *sep) { int n; struct sockaddr_in ir_sin; socklen_t size; size = sizeof(ir_sin); if (getsockname(sep->se_fd, (struct sockaddr *) &ir_sin, &size) < 0) { bb_perror_msg("getsockname"); return; } for (n = sep->se_rpcver_lo; n <= sep->se_rpcver_hi; n++) { pmap_unset(sep->se_rpcprog, n); if (!pmap_set(sep->se_rpcprog, n, sep->se_proto_no, ntohs(ir_sin.sin_port))) bb_perror_msg("%s %s: pmap_set(%u,%u,%u,%u)", sep->se_service, sep->se_proto, sep->se_rpcprog, n, sep->se_proto_no, ntohs(ir_sin.sin_port)); } } static void unregister_rpc(servtab_t *sep) { int n; for (n = sep->se_rpcver_lo; n <= sep->se_rpcver_hi; n++) { if (!pmap_unset(sep->se_rpcprog, n)) bb_perror_msg("pmap_unset(%u,%u)", sep->se_rpcprog, n); } } #endif /* FEATURE_INETD_RPC */ static void bump_nofile(void) { enum { FD_CHUNK = 32 }; struct rlimit rl; /* Never fails under Linux (except if you pass it bad arguments) */ getrlimit(RLIMIT_NOFILE, &rl); rl.rlim_cur = MIN(rl.rlim_max, rl.rlim_cur + FD_CHUNK); rl.rlim_cur = MIN(FD_SETSIZE, rl.rlim_cur + FD_CHUNK); if (rl.rlim_cur <= rlim_ofile_cur) { bb_error_msg("can't extend file limit, max = %d", (int) rl.rlim_cur); return; } if (setrlimit(RLIMIT_NOFILE, &rl) < 0) { bb_perror_msg("setrlimit"); return; } rlim_ofile_cur = rl.rlim_cur; } static void remove_fd_from_set(int fd) { if (fd >= 0) { FD_CLR(fd, &allsock); maxsock = -1; } } static void add_fd_to_set(int fd) { if (fd >= 0) { FD_SET(fd, &allsock); if (maxsock >= 0 && fd > maxsock) { prev_maxsock = maxsock = fd; if ((rlim_t)fd > rlim_ofile_cur - FD_MARGIN) bump_nofile(); } } } static void recalculate_maxsock(void) { int fd = 0; /* We may have no services, in this case maxsock should still be >= 0 * (code elsewhere is not happy with maxsock == -1) */ maxsock = 0; while (fd <= prev_maxsock) { if (FD_ISSET(fd, &allsock)) maxsock = fd; fd++; } prev_maxsock = maxsock; if ((rlim_t)maxsock > rlim_ofile_cur - FD_MARGIN) bump_nofile(); } static void prepare_socket_fd(servtab_t *sep) { int r, fd; fd = socket(sep->se_family, sep->se_socktype, 0); if (fd < 0) { bb_perror_msg("socket"); return; } setsockopt_reuseaddr(fd); #if ENABLE_FEATURE_INETD_RPC if (is_rpc_service(sep)) { struct passwd *pwd; /* zero out the port for all RPC services; let bind() * find one. */ set_nport(sep->se_lsa, 0); /* for RPC services, attempt to use a reserved port * if they are going to be running as root. */ if (real_uid == 0 && sep->se_family == AF_INET && (pwd = getpwnam(sep->se_user)) != NULL && pwd->pw_uid == 0 ) { r = bindresvport(fd, &sep->se_lsa->u.sin); } else { r = bind(fd, &sep->se_lsa->u.sa, sep->se_lsa->len); } if (r == 0) { int saveerrno = errno; /* update lsa with port# */ getsockname(fd, &sep->se_lsa->u.sa, &sep->se_lsa->len); errno = saveerrno; } } else #endif { if (sep->se_family == AF_UNIX) { struct sockaddr_un *sun; sun = (struct sockaddr_un*)&(sep->se_lsa->u.sa); unlink(sun->sun_path); } r = bind(fd, &sep->se_lsa->u.sa, sep->se_lsa->len); } if (r < 0) { bb_perror_msg("%s/%s: bind", sep->se_service, sep->se_proto); close(fd); rearm_alarm(); return; } if (sep->se_socktype == SOCK_STREAM) listen(fd, global_queuelen); add_fd_to_set(fd); sep->se_fd = fd; } static int reopen_config_file(void) { free(default_local_hostname); default_local_hostname = xstrdup("*"); if (parser != NULL) config_close(parser); parser = config_open(config_filename); return (parser != NULL); } static void close_config_file(void) { if (parser) { config_close(parser); parser = NULL; } } static void free_servtab_strings(servtab_t *cp) { int i; free(cp->se_local_hostname); free(cp->se_service); free(cp->se_proto); free(cp->se_user); free(cp->se_group); free(cp->se_lsa); /* not a string in fact */ free(cp->se_program); for (i = 0; i < MAXARGV; i++) free(cp->se_argv[i]); } static servtab_t *new_servtab(void) { servtab_t *newtab = xzalloc(sizeof(servtab_t)); newtab->se_fd = -1; /* paranoia */ return newtab; } static servtab_t *dup_servtab(servtab_t *sep) { servtab_t *newtab; int argc; newtab = new_servtab(); *newtab = *sep; /* struct copy */ /* deep-copying strings */ newtab->se_service = xstrdup(newtab->se_service); newtab->se_proto = xstrdup(newtab->se_proto); newtab->se_user = xstrdup(newtab->se_user); newtab->se_group = xstrdup(newtab->se_group); newtab->se_program = xstrdup(newtab->se_program); for (argc = 0; argc <= MAXARGV; argc++) newtab->se_argv[argc] = xstrdup(newtab->se_argv[argc]); /* NB: se_fd, se_hostaddr and se_next are always * overwrittend by callers, so we don't bother resetting them * to NULL/0/-1 etc */ return newtab; } /* gcc generates much more code if this is inlined */ static servtab_t *parse_one_line(void) { int argc; char *token[6+MAXARGV]; char *p, *arg; char *hostdelim; servtab_t *sep; servtab_t *nsep; new: sep = new_servtab(); more: argc = config_read(parser, token, 6+MAXARGV, 1, "# \t", PARSE_NORMAL); if (!argc) { free(sep); return NULL; } /* [host:]service socktype proto wait user[:group] prog [args] */ /* Check for "host:...." line */ arg = token[0]; hostdelim = strrchr(arg, ':'); if (hostdelim) { *hostdelim = '\0'; sep->se_local_hostname = xstrdup(arg); arg = hostdelim + 1; if (*arg == '\0' && argc == 1) { /* Line has just "host:", change the * default host for the following lines. */ free(default_local_hostname); default_local_hostname = sep->se_local_hostname; goto more; } } else sep->se_local_hostname = xstrdup(default_local_hostname); /* service socktype proto wait user[:group] prog [args] */ sep->se_service = xstrdup(arg); /* socktype proto wait user[:group] prog [args] */ if (argc < 6) { parse_err: bb_error_msg("parse error on line %u, line is ignored", parser->lineno); free_servtab_strings(sep); /* Just "goto more" can make sep to carry over e.g. * "rpc"-ness (by having se_rpcver_lo != 0). * We will be more paranoid: */ free(sep); goto new; } { static const int8_t SOCK_xxx[] ALIGN1 = { -1, SOCK_STREAM, SOCK_DGRAM, SOCK_RDM, SOCK_SEQPACKET, SOCK_RAW }; sep->se_socktype = SOCK_xxx[1 + index_in_strings( "stream""\0" "dgram""\0" "rdm""\0" "seqpacket""\0" "raw""\0" , token[1])]; } /* {unix,[rpc/]{tcp,udp}[6]} wait user[:group] prog [args] */ sep->se_proto = arg = xstrdup(token[2]); if (strcmp(arg, "unix") == 0) { sep->se_family = AF_UNIX; } else { char *six; sep->se_family = AF_INET; six = last_char_is(arg, '6'); if (six) { #if ENABLE_FEATURE_IPV6 *six = '\0'; sep->se_family = AF_INET6; #else bb_error_msg("%s: no support for IPv6", sep->se_proto); goto parse_err; #endif } if (strncmp(arg, "rpc/", 4) == 0) { #if ENABLE_FEATURE_INETD_RPC unsigned n; arg += 4; p = strchr(sep->se_service, '/'); if (p == NULL) { bb_error_msg("no rpc version: '%s'", sep->se_service); goto parse_err; } *p++ = '\0'; n = bb_strtou(p, &p, 10); if (n > INT_MAX) { bad_ver_spec: bb_error_msg("bad rpc version"); goto parse_err; } sep->se_rpcver_lo = sep->se_rpcver_hi = n; if (*p == '-') { p++; n = bb_strtou(p, &p, 10); if (n > INT_MAX || (int)n < sep->se_rpcver_lo) goto bad_ver_spec; sep->se_rpcver_hi = n; } if (*p != '\0') goto bad_ver_spec; #else bb_error_msg("no support for rpc services"); goto parse_err; #endif } /* we don't really need getprotobyname()! */ if (strcmp(arg, "tcp") == 0) sep->se_proto_no = IPPROTO_TCP; /* = 6 */ if (strcmp(arg, "udp") == 0) sep->se_proto_no = IPPROTO_UDP; /* = 17 */ if (six) *six = '6'; if (!sep->se_proto_no) /* not tcp/udp?? */ goto parse_err; } /* [no]wait[.max] user[:group] prog [args] */ arg = token[3]; sep->se_max = max_concurrency; p = strchr(arg, '.'); if (p) { *p++ = '\0'; sep->se_max = bb_strtou(p, NULL, 10); if (errno) goto parse_err; } sep->se_wait = (arg[0] != 'n' || arg[1] != 'o'); if (!sep->se_wait) /* "no" seen */ arg += 2; if (strcmp(arg, "wait") != 0) goto parse_err; /* user[:group] prog [args] */ sep->se_user = xstrdup(token[4]); arg = strchr(sep->se_user, '.'); if (arg == NULL) arg = strchr(sep->se_user, ':'); if (arg) { *arg++ = '\0'; sep->se_group = xstrdup(arg); } /* prog [args] */ sep->se_program = xstrdup(token[5]); #ifdef INETD_BUILTINS_ENABLED if (strcmp(sep->se_program, "internal") == 0 && strlen(sep->se_service) <= 7 && (sep->se_socktype == SOCK_STREAM || sep->se_socktype == SOCK_DGRAM) ) { unsigned i; for (i = 0; i < ARRAY_SIZE(builtins); i++) if (strncmp(builtins[i].bi_service7, sep->se_service, 7) == 0) goto found_bi; bb_error_msg("unknown internal service %s", sep->se_service); goto parse_err; found_bi: sep->se_builtin = &builtins[i]; /* stream builtins must be "nowait", dgram must be "wait" */ if (sep->se_wait != (sep->se_socktype == SOCK_DGRAM)) goto parse_err; } #endif argc = 0; while ((arg = token[6+argc]) != NULL && argc < MAXARGV) sep->se_argv[argc++] = xstrdup(arg); /* catch mixups. "<service> stream udp ..." == wtf */ if (sep->se_socktype == SOCK_STREAM) { if (sep->se_proto_no == IPPROTO_UDP) goto parse_err; } if (sep->se_socktype == SOCK_DGRAM) { if (sep->se_proto_no == IPPROTO_TCP) goto parse_err; } // bb_info_msg( // "ENTRY[%s][%s][%s][%d][%d][%d][%d][%d][%s][%s][%s]", // sep->se_local_hostname, sep->se_service, sep->se_proto, sep->se_wait, sep->se_proto_no, // sep->se_max, sep->se_count, sep->se_time, sep->se_user, sep->se_group, sep->se_program); /* check if the hostname specifier is a comma separated list * of hostnames. we'll make new entries for each address. */ while ((hostdelim = strrchr(sep->se_local_hostname, ',')) != NULL) { nsep = dup_servtab(sep); /* NUL terminate the hostname field of the existing entry, * and make a dup for the new entry. */ *hostdelim++ = '\0'; nsep->se_local_hostname = xstrdup(hostdelim); nsep->se_next = sep->se_next; sep->se_next = nsep; } /* was doing it here: */ /* DNS resolution, create copies for each IP address */ /* IPv6-ization destroyed it :( */ return sep; } static servtab_t *insert_in_servlist(servtab_t *cp) { servtab_t *sep; sigset_t omask; sep = new_servtab(); *sep = *cp; /* struct copy */ sep->se_fd = -1; #if ENABLE_FEATURE_INETD_RPC sep->se_rpcprog = -1; #endif block_CHLD_HUP_ALRM(&omask); sep->se_next = serv_list; serv_list = sep; restore_sigmask(&omask); return sep; } static int same_serv_addr_proto(servtab_t *old, servtab_t *new) { if (strcmp(old->se_local_hostname, new->se_local_hostname) != 0) return 0; if (strcmp(old->se_service, new->se_service) != 0) return 0; if (strcmp(old->se_proto, new->se_proto) != 0) return 0; return 1; } static void reread_config_file(int sig UNUSED_PARAM) { servtab_t *sep, *cp, **sepp; len_and_sockaddr *lsa; sigset_t omask; unsigned n; uint16_t port; int save_errno = errno; if (!reopen_config_file()) goto ret; for (sep = serv_list; sep; sep = sep->se_next) sep->se_checked = 0; goto first_line; while (1) { if (cp == NULL) { first_line: cp = parse_one_line(); if (cp == NULL) break; } for (sep = serv_list; sep; sep = sep->se_next) if (same_serv_addr_proto(sep, cp)) goto equal_servtab; /* not an "equal" servtab */ sep = insert_in_servlist(cp); goto after_check; equal_servtab: { int i; block_CHLD_HUP_ALRM(&omask); #if ENABLE_FEATURE_INETD_RPC if (is_rpc_service(sep)) unregister_rpc(sep); sep->se_rpcver_lo = cp->se_rpcver_lo; sep->se_rpcver_hi = cp->se_rpcver_hi; #endif if (cp->se_wait == 0) { /* New config says "nowait". If old one * was "wait", we currently may be waiting * for a child (and not accepting connects). * Stop waiting, start listening again. * (if it's not true, this op is harmless) */ add_fd_to_set(sep->se_fd); } sep->se_wait = cp->se_wait; sep->se_max = cp->se_max; /* string fields need more love - we don't want to leak them */ #define SWAP(type, a, b) do { type c = (type)a; a = (type)b; b = (type)c; } while (0) SWAP(char*, sep->se_user, cp->se_user); SWAP(char*, sep->se_group, cp->se_group); SWAP(char*, sep->se_program, cp->se_program); for (i = 0; i < MAXARGV; i++) SWAP(char*, sep->se_argv[i], cp->se_argv[i]); #undef SWAP restore_sigmask(&omask); free_servtab_strings(cp); } after_check: /* cp->string_fields are consumed by insert_in_servlist() * or freed at this point, cp itself is not yet freed. */ sep->se_checked = 1; /* create new len_and_sockaddr */ switch (sep->se_family) { struct sockaddr_un *sun; case AF_UNIX: lsa = xzalloc_lsa(AF_UNIX); sun = (struct sockaddr_un*)&lsa->u.sa; safe_strncpy(sun->sun_path, sep->se_service, sizeof(sun->sun_path)); break; default: /* case AF_INET, case AF_INET6 */ n = bb_strtou(sep->se_service, NULL, 10); #if ENABLE_FEATURE_INETD_RPC if (is_rpc_service(sep)) { sep->se_rpcprog = n; if (errno) { /* se_service is not numeric */ struct rpcent *rp = getrpcbyname(sep->se_service); if (rp == NULL) { bb_error_msg("%s: unknown rpc service", sep->se_service); goto next_cp; } sep->se_rpcprog = rp->r_number; } if (sep->se_fd == -1) prepare_socket_fd(sep); if (sep->se_fd != -1) register_rpc(sep); goto next_cp; } #endif /* what port to listen on? */ port = htons(n); if (errno || n > 0xffff) { /* se_service is not numeric */ char protoname[4]; struct servent *sp; /* can result only in "tcp" or "udp": */ safe_strncpy(protoname, sep->se_proto, 4); sp = getservbyname(sep->se_service, protoname); if (sp == NULL) { bb_error_msg("%s/%s: unknown service", sep->se_service, sep->se_proto); goto next_cp; } port = sp->s_port; } if (LONE_CHAR(sep->se_local_hostname, '*')) { lsa = xzalloc_lsa(sep->se_family); set_nport(lsa, port); } else { lsa = host_and_af2sockaddr(sep->se_local_hostname, ntohs(port), sep->se_family); if (!lsa) { bb_error_msg("%s/%s: unknown host '%s'", sep->se_service, sep->se_proto, sep->se_local_hostname); goto next_cp; } } break; } /* end of "switch (sep->se_family)" */ /* did lsa change? Then close/open */ if (sep->se_lsa == NULL || lsa->len != sep->se_lsa->len || memcmp(&lsa->u.sa, &sep->se_lsa->u.sa, lsa->len) != 0 ) { remove_fd_from_set(sep->se_fd); maybe_close(sep->se_fd); free(sep->se_lsa); sep->se_lsa = lsa; sep->se_fd = -1; } else { free(lsa); } if (sep->se_fd == -1) prepare_socket_fd(sep); next_cp: sep = cp->se_next; free(cp); cp = sep; } /* end of "while (1) parse lines" */ close_config_file(); /* Purge anything not looked at above - these are stale entries, * new config file doesnt have them. */ block_CHLD_HUP_ALRM(&omask); sepp = &serv_list; while ((sep = *sepp)) { if (sep->se_checked) { sepp = &sep->se_next; continue; } *sepp = sep->se_next; remove_fd_from_set(sep->se_fd); maybe_close(sep->se_fd); #if ENABLE_FEATURE_INETD_RPC if (is_rpc_service(sep)) unregister_rpc(sep); #endif if (sep->se_family == AF_UNIX) unlink(sep->se_service); free_servtab_strings(sep); free(sep); } restore_sigmask(&omask); ret: errno = save_errno; } static void reap_child(int sig UNUSED_PARAM) { pid_t pid; int status; servtab_t *sep; int save_errno = errno; for (;;) { pid = wait_any_nohang(&status); if (pid <= 0) break; for (sep = serv_list; sep; sep = sep->se_next) { if (sep->se_wait != pid) continue; /* One of our "wait" services */ if (WIFEXITED(status) && WEXITSTATUS(status)) bb_error_msg("%s: exit status 0x%x", sep->se_program, WEXITSTATUS(status)); else if (WIFSIGNALED(status)) bb_error_msg("%s: exit signal 0x%x", sep->se_program, WTERMSIG(status)); sep->se_wait = 1; add_fd_to_set(sep->se_fd); break; } } errno = save_errno; } static void retry_network_setup(int sig UNUSED_PARAM) { int save_errno = errno; servtab_t *sep; alarm_armed = 0; for (sep = serv_list; sep; sep = sep->se_next) { if (sep->se_fd == -1) { prepare_socket_fd(sep); #if ENABLE_FEATURE_INETD_RPC if (sep->se_fd != -1 && is_rpc_service(sep)) register_rpc(sep); #endif } } errno = save_errno; } static void clean_up_and_exit(int sig UNUSED_PARAM) { servtab_t *sep; /* XXX signal race walking sep list */ for (sep = serv_list; sep; sep = sep->se_next) { if (sep->se_fd == -1) continue; switch (sep->se_family) { case AF_UNIX: unlink(sep->se_service); break; default: /* case AF_INET, AF_INET6 */ #if ENABLE_FEATURE_INETD_RPC if (sep->se_wait == 1 && is_rpc_service(sep)) unregister_rpc(sep); /* XXX signal race */ #endif break; } if (ENABLE_FEATURE_CLEAN_UP) close(sep->se_fd); } remove_pidfile(_PATH_INETDPID); exit(EXIT_SUCCESS); } int inetd_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int inetd_main(int argc UNUSED_PARAM, char **argv) { struct sigaction sa, saved_pipe_handler; servtab_t *sep, *sep2; struct passwd *pwd; struct group *grp = grp; /* for compiler */ int opt; pid_t pid; sigset_t omask; INIT_G(); real_uid = getuid(); if (real_uid != 0) /* run by non-root user */ config_filename = NULL; opt_complementary = "R+:q+"; /* -q N, -R N */ opt = getopt32(argv, "R:feq:", &max_concurrency, &global_queuelen); argv += optind; //argc -= optind; if (argv[0]) config_filename = argv[0]; if (config_filename == NULL) bb_error_msg_and_die("non-root must specify config file"); if (!(opt & 2)) bb_daemonize_or_rexec(0, argv - optind); else bb_sanitize_stdio(); if (!(opt & 4)) { openlog(applet_name, LOG_PID, LOG_DAEMON); logmode = LOGMODE_SYSLOG; } if (real_uid == 0) { /* run by root, ensure groups vector gets trashed */ gid_t gid = getgid(); setgroups(1, &gid); } write_pidfile(_PATH_INETDPID); /* never fails under Linux (except if you pass it bad arguments) */ getrlimit(RLIMIT_NOFILE, &rlim_ofile); rlim_ofile_cur = rlim_ofile.rlim_cur; if (rlim_ofile_cur == RLIM_INFINITY) /* ! */ rlim_ofile_cur = OPEN_MAX; memset(&sa, 0, sizeof(sa)); /*sigemptyset(&sa.sa_mask); - memset did it */ sigaddset(&sa.sa_mask, SIGALRM); sigaddset(&sa.sa_mask, SIGCHLD); sigaddset(&sa.sa_mask, SIGHUP); sa.sa_handler = retry_network_setup; sigaction_set(SIGALRM, &sa); sa.sa_handler = reread_config_file; sigaction_set(SIGHUP, &sa); sa.sa_handler = reap_child; sigaction_set(SIGCHLD, &sa); sa.sa_handler = clean_up_and_exit; sigaction_set(SIGTERM, &sa); sa.sa_handler = clean_up_and_exit; sigaction_set(SIGINT, &sa); sa.sa_handler = SIG_IGN; sigaction(SIGPIPE, &sa, &saved_pipe_handler); reread_config_file(SIGHUP); /* load config from file */ for (;;) { int ready_fd_cnt; int ctrl, accepted_fd, new_udp_fd; fd_set readable; if (maxsock < 0) recalculate_maxsock(); readable = allsock; /* struct copy */ /* if there are no fds to wait on, we will block * until signal wakes us up (maxsock == 0, but readable * never contains fds 0 and 1...) */ ready_fd_cnt = select(maxsock + 1, &readable, NULL, NULL, NULL); if (ready_fd_cnt < 0) { if (errno != EINTR) { bb_perror_msg("select"); sleep(1); } continue; } for (sep = serv_list; ready_fd_cnt && sep; sep = sep->se_next) { if (sep->se_fd == -1 || !FD_ISSET(sep->se_fd, &readable)) continue; ready_fd_cnt--; ctrl = sep->se_fd; accepted_fd = -1; new_udp_fd = -1; if (!sep->se_wait) { if (sep->se_socktype == SOCK_STREAM) { ctrl = accepted_fd = accept(sep->se_fd, NULL, NULL); if (ctrl < 0) { if (errno != EINTR) bb_perror_msg("accept (for %s)", sep->se_service); continue; } } /* "nowait" udp */ if (sep->se_socktype == SOCK_DGRAM && sep->se_family != AF_UNIX ) { /* How udp "nowait" works: * child peeks at (received and buffered by kernel) UDP packet, * performs connect() on the socket so that it is linked only * to this peer. But this also affects parent, because descriptors * are shared after fork() a-la dup(). When parent performs * select(), it will see this descriptor connected to the peer (!) * and still readable, will act on it and mess things up * (can create many copies of same child, etc). * Parent must create and use new socket instead. */ new_udp_fd = socket(sep->se_family, SOCK_DGRAM, 0); if (new_udp_fd < 0) { /* error: eat packet, forget about it */ udp_err: recv(sep->se_fd, line, LINE_SIZE, MSG_DONTWAIT); continue; } setsockopt_reuseaddr(new_udp_fd); /* TODO: better do bind after vfork in parent, * so that we don't have two wildcard bound sockets * even for a brief moment? */ if (bind(new_udp_fd, &sep->se_lsa->u.sa, sep->se_lsa->len) < 0) { close(new_udp_fd); goto udp_err; } } } block_CHLD_HUP_ALRM(&omask); pid = 0; #ifdef INETD_BUILTINS_ENABLED /* do we need to fork? */ if (sep->se_builtin == NULL || (sep->se_socktype == SOCK_STREAM && sep->se_builtin->bi_fork)) #endif { if (sep->se_max != 0) { if (++sep->se_count == 1) sep->se_time = monotonic_sec(); else if (sep->se_count >= sep->se_max) { unsigned now = monotonic_sec(); /* did we accumulate se_max connects too quickly? */ if (now - sep->se_time <= CNT_INTERVAL) { bb_error_msg("%s/%s: too many connections, pausing", sep->se_service, sep->se_proto); remove_fd_from_set(sep->se_fd); close(sep->se_fd); sep->se_fd = -1; sep->se_count = 0; rearm_alarm(); /* will revive it in RETRYTIME sec */ restore_sigmask(&omask); maybe_close(accepted_fd); continue; /* -> check next fd in fd set */ } sep->se_count = 0; } } /* on NOMMU, streamed chargen * builtin wouldn't work, but it is * not allowed on NOMMU (ifdefed out) */ #ifdef INETD_BUILTINS_ENABLED if (BB_MMU && sep->se_builtin) pid = fork(); else #endif pid = vfork(); if (pid < 0) { /* fork error */ bb_perror_msg("fork"); sleep(1); restore_sigmask(&omask); maybe_close(accepted_fd); continue; /* -> check next fd in fd set */ } if (pid == 0) pid--; /* -1: "we did fork and we are child" */ } /* if pid == 0 here, we never forked */ if (pid > 0) { /* parent */ if (sep->se_wait) { /* tcp wait: we passed listening socket to child, * will wait for child to terminate */ sep->se_wait = pid; remove_fd_from_set(sep->se_fd); } if (new_udp_fd >= 0) { /* udp nowait: child connected the socket, * we created and will use new, unconnected one */ xmove_fd(new_udp_fd, sep->se_fd); } restore_sigmask(&omask); maybe_close(accepted_fd); continue; /* -> check next fd in fd set */ } /* we are either child or didn't vfork at all */ #ifdef INETD_BUILTINS_ENABLED if (sep->se_builtin) { if (pid) { /* "pid" is -1: we did vfork */ close(sep->se_fd); /* listening socket */ logmode = LOGMODE_NONE; /* make xwrite etc silent */ } restore_sigmask(&omask); if (sep->se_socktype == SOCK_STREAM) sep->se_builtin->bi_stream_fn(ctrl, sep); else sep->se_builtin->bi_dgram_fn(ctrl, sep); if (pid) /* we did vfork */ _exit(EXIT_FAILURE); maybe_close(accepted_fd); continue; /* -> check next fd in fd set */ } #endif /* child */ setsid(); /* "nowait" udp */ if (new_udp_fd >= 0) { len_and_sockaddr *lsa = xzalloc_lsa(sep->se_family); /* peek at the packet and remember peer addr */ int r = recvfrom(ctrl, NULL, 0, MSG_PEEK|MSG_DONTWAIT, &lsa->u.sa, &lsa->len); if (r < 0) goto do_exit1; /* make this socket "connected" to peer addr: * only packets from this peer will be recv'ed, * and bare write()/send() will work on it */ connect(ctrl, &lsa->u.sa, lsa->len); free(lsa); } /* prepare env and exec program */ pwd = getpwnam(sep->se_user); if (pwd == NULL) { bb_error_msg("%s: no such %s", sep->se_user, "user"); goto do_exit1; } if (sep->se_group && (grp = getgrnam(sep->se_group)) == NULL) { bb_error_msg("%s: no such %s", sep->se_group, "group"); goto do_exit1; } if (real_uid != 0 && real_uid != pwd->pw_uid) { /* a user running private inetd */ bb_error_msg("non-root must run services as himself"); goto do_exit1; } if (pwd->pw_uid) { if (sep->se_group) pwd->pw_gid = grp->gr_gid; /* initgroups, setgid, setuid: */ change_identity(pwd); } else if (sep->se_group) { xsetgid(grp->gr_gid); setgroups(1, &grp->gr_gid); } if (rlim_ofile.rlim_cur != rlim_ofile_cur) if (setrlimit(RLIMIT_NOFILE, &rlim_ofile) < 0) bb_perror_msg("setrlimit"); closelog(); xmove_fd(ctrl, STDIN_FILENO); xdup2(STDIN_FILENO, STDOUT_FILENO); /* manpages of inetd I managed to find either say * that stderr is also redirected to the network, * or do not talk about redirection at all (!) */ xdup2(STDIN_FILENO, STDERR_FILENO); /* NB: among others, this loop closes listening socket * for nowait stream children */ for (sep2 = serv_list; sep2; sep2 = sep2->se_next) maybe_close(sep2->se_fd); sigaction_set(SIGPIPE, &saved_pipe_handler); restore_sigmask(&omask); BB_EXECVP(sep->se_program, sep->se_argv); bb_perror_msg("exec %s", sep->se_program); do_exit1: /* eat packet in udp case */ if (sep->se_socktype != SOCK_STREAM) recv(0, line, LINE_SIZE, MSG_DONTWAIT); _exit(EXIT_FAILURE); } /* for (sep = servtab...) */ } /* for (;;) */ } #if !BB_MMU static const char *const cat_args[] = { "cat", NULL }; #endif /* * Internet services provided internally by inetd: */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_ECHO /* Echo service -- echo data back. */ /* ARGSUSED */ static void FAST_FUNC echo_stream(int s, servtab_t *sep UNUSED_PARAM) { #if BB_MMU while (1) { ssize_t sz = safe_read(s, line, LINE_SIZE); if (sz <= 0) break; xwrite(s, line, sz); } #else /* We are after vfork here! */ /* move network socket to stdin/stdout */ xmove_fd(s, STDIN_FILENO); xdup2(STDIN_FILENO, STDOUT_FILENO); /* no error messages please... */ close(STDERR_FILENO); xopen(bb_dev_null, O_WRONLY); BB_EXECVP("cat", (char**)cat_args); /* on failure we return to main, which does exit(EXIT_FAILURE) */ #endif } static void FAST_FUNC echo_dg(int s, servtab_t *sep) { enum { BUFSIZE = 12*1024 }; /* for jumbo sized packets! :) */ char *buf = xmalloc(BUFSIZE); /* too big for stack */ int sz; len_and_sockaddr *lsa = alloca(LSA_LEN_SIZE + sep->se_lsa->len); lsa->len = sep->se_lsa->len; /* dgram builtins are non-forking - DONT BLOCK! */ sz = recvfrom(s, buf, BUFSIZE, MSG_DONTWAIT, &lsa->u.sa, &lsa->len); if (sz > 0) sendto(s, buf, sz, 0, &lsa->u.sa, lsa->len); free(buf); } #endif /* FEATURE_INETD_SUPPORT_BUILTIN_ECHO */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_DISCARD /* Discard service -- ignore data. */ /* ARGSUSED */ static void FAST_FUNC discard_stream(int s, servtab_t *sep UNUSED_PARAM) { #if BB_MMU while (safe_read(s, line, LINE_SIZE) > 0) continue; #else /* We are after vfork here! */ /* move network socket to stdin */ xmove_fd(s, STDIN_FILENO); /* discard output */ close(STDOUT_FILENO); xopen(bb_dev_null, O_WRONLY); /* no error messages please... */ xdup2(STDOUT_FILENO, STDERR_FILENO); BB_EXECVP("cat", (char**)cat_args); /* on failure we return to main, which does exit(EXIT_FAILURE) */ #endif } /* ARGSUSED */ static void FAST_FUNC discard_dg(int s, servtab_t *sep UNUSED_PARAM) { /* dgram builtins are non-forking - DONT BLOCK! */ recv(s, line, LINE_SIZE, MSG_DONTWAIT); } #endif /* FEATURE_INETD_SUPPORT_BUILTIN_DISCARD */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_CHARGEN #define LINESIZ 72 static void init_ring(void) { int i; end_ring = ring; for (i = 0; i <= 128; ++i) if (isprint(i)) *end_ring++ = i; } /* Character generator. MMU arches only. */ /* ARGSUSED */ static void FAST_FUNC chargen_stream(int s, servtab_t *sep UNUSED_PARAM) { char *rs; int len; char text[LINESIZ + 2]; if (!end_ring) { init_ring(); rs = ring; } text[LINESIZ] = '\r'; text[LINESIZ + 1] = '\n'; rs = ring; for (;;) { len = end_ring - rs; if (len >= LINESIZ) memmove(text, rs, LINESIZ); else { memmove(text, rs, len); memmove(text + len, ring, LINESIZ - len); } if (++rs == end_ring) rs = ring; xwrite(s, text, sizeof(text)); } } /* ARGSUSED */ static void FAST_FUNC chargen_dg(int s, servtab_t *sep) { int len; char text[LINESIZ + 2]; len_and_sockaddr *lsa = alloca(LSA_LEN_SIZE + sep->se_lsa->len); /* Eat UDP packet which started it all */ /* dgram builtins are non-forking - DONT BLOCK! */ lsa->len = sep->se_lsa->len; if (recvfrom(s, text, sizeof(text), MSG_DONTWAIT, &lsa->u.sa, &lsa->len) < 0) return; if (!end_ring) { init_ring(); ring_pos = ring; } len = end_ring - ring_pos; if (len >= LINESIZ) memmove(text, ring_pos, LINESIZ); else { memmove(text, ring_pos, len); memmove(text + len, ring, LINESIZ - len); } if (++ring_pos == end_ring) ring_pos = ring; text[LINESIZ] = '\r'; text[LINESIZ + 1] = '\n'; sendto(s, text, sizeof(text), 0, &lsa->u.sa, lsa->len); } #endif /* FEATURE_INETD_SUPPORT_BUILTIN_CHARGEN */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_TIME /* * Return a machine readable date and time, in the form of the * number of seconds since midnight, Jan 1, 1900. Since gettimeofday * returns the number of seconds since midnight, Jan 1, 1970, * we must add 2208988800 seconds to this figure to make up for * some seventy years Bell Labs was asleep. */ static uint32_t machtime(void) { struct timeval tv; gettimeofday(&tv, NULL); return htonl((uint32_t)(tv.tv_sec + 2208988800)); } /* ARGSUSED */ static void FAST_FUNC machtime_stream(int s, servtab_t *sep UNUSED_PARAM) { uint32_t result; result = machtime(); full_write(s, &result, sizeof(result)); } static void FAST_FUNC machtime_dg(int s, servtab_t *sep) { uint32_t result; len_and_sockaddr *lsa = alloca(LSA_LEN_SIZE + sep->se_lsa->len); lsa->len = sep->se_lsa->len; if (recvfrom(s, line, LINE_SIZE, MSG_DONTWAIT, &lsa->u.sa, &lsa->len) < 0) return; result = machtime(); sendto(s, &result, sizeof(result), 0, &lsa->u.sa, lsa->len); } #endif /* FEATURE_INETD_SUPPORT_BUILTIN_TIME */ #if ENABLE_FEATURE_INETD_SUPPORT_BUILTIN_DAYTIME /* Return human-readable time of day */ /* ARGSUSED */ static void FAST_FUNC daytime_stream(int s, servtab_t *sep UNUSED_PARAM) { time_t t; t = time(NULL); fdprintf(s, "%.24s\r\n", ctime(&t)); } static void FAST_FUNC daytime_dg(int s, servtab_t *sep) { time_t t; len_and_sockaddr *lsa = alloca(LSA_LEN_SIZE + sep->se_lsa->len); lsa->len = sep->se_lsa->len; if (recvfrom(s, line, LINE_SIZE, MSG_DONTWAIT, &lsa->u.sa, &lsa->len) < 0) return; t = time(NULL); sprintf(line, "%.24s\r\n", ctime(&t)); sendto(s, line, strlen(line), 0, &lsa->u.sa, lsa->len); } #endif /* FEATURE_INETD_SUPPORT_BUILTIN_DAYTIME */