NetBSD/gnu/dist/postfix/master/single_server.c

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/*++
/* NAME
/* single_server 3
/* SUMMARY
/* skeleton single-threaded mail subsystem
/* SYNOPSIS
/* #include <mail_server.h>
/*
/* NORETURN single_server_main(argc, argv, service, key, value, ...)
/* int argc;
/* char **argv;
/* void (*service)(VSTREAM *stream, char *service_name, char **argv);
/* int key;
/* DESCRIPTION
/* This module implements a skeleton for single-threaded
/* mail subsystems: mail subsystem programs that service one
/* client at a time. The resulting program expects to be run
/* from the \fBmaster\fR process.
/*
/* single_server_main() is the skeleton entry point. It should be
/* called from the application main program. The skeleton does the
/* generic command-line options processing, initialization of
/* configurable parameters, and connection management.
/* The skeleton never returns.
/*
/* Arguments:
/* .IP "void (*service)(VSTREAM *fp, char *service_name, char **argv)"
/* A pointer to a function that is called by the skeleton each time
/* a client connects to the program's service port. The function is
/* run after the program has irrevocably dropped its privileges.
/* The stream initial state is non-blocking mode.
/* The service name argument corresponds to the service name in the
/* master.cf file.
/* The argv argument specifies command-line arguments left over
/* after options processing.
/* .PP
/* Optional arguments are specified as a null-terminated (key, value)
/* list. Keys and expected values are:
/* .IP "MAIL_SERVER_INT_TABLE (CONFIG_INT_TABLE *)"
/* A table with configurable parameters, to be loaded from the
/* global Postfix configuration file. Tables are loaded in the
/* order as specified, and multiple instances of the same type
/* are allowed.
/* .IP "MAIL_SERVER_STR_TABLE (CONFIG_STR_TABLE *)"
/* A table with configurable parameters, to be loaded from the
/* global Postfix configuration file. Tables are loaded in the
/* order as specified, and multiple instances of the same type
/* are allowed.
/* .IP "MAIL_SERVER_BOOL_TABLE (CONFIG_BOOL_TABLE *)"
/* A table with configurable parameters, to be loaded from the
/* global Postfix configuration file. Tables are loaded in the
/* order as specified, and multiple instances of the same type
/* are allowed.
/* .IP "MAIL_SERVER_RAW_TABLE (CONFIG_STR_TABLE *)"
/* A table with configurable parameters, to be loaded from the
/* global Postfix configuration file. Tables are loaded in the
/* order as specified, and multiple instances of the same type
/* are allowed. Raw parameters are not subjected to $name
/* evaluation.
/* .IP "MAIL_SERVER_PRE_INIT (void *(char *service_name char **argv))"
/* A pointer to a function that is called once
/* by the skeleton after it has read the global configuration file
/* and after it has processed command-line arguments, but before
/* the skeleton has optionally relinquished the process privileges.
/* .IP "MAIL_SERVER_POST_INIT (void *(char *service_name char **argv))"
/* A pointer to a function that is called once
/* by the skeleton after it has optionally relinquished the process
/* privileges, but before servicing client connection requests.
/* .IP "MAIL_SERVER_LOOP (int *(char *service_name char **argv))"
/* A pointer to function that is executed from
/* within the event loop, whenever an I/O or timer event has happened,
/* or whenever nothing has happened for a specified amount of time.
/* The result value of the function specifies how long to wait until
/* the next event. Specify -1 to wait for "as long as it takes".
/* .IP "MAIL_SERVER_EXIT (void *(void))"
/* A pointer to function that is executed immediately before normal
/* process termination.
/* .IP "MAIL_SERVER_PRE_ACCEPT (void *(char *service_name char **argv))"
/* Function to be executed prior to accepting a new connection.
/* .PP
/* The var_use_limit variable limits the number of clients that
/* a server can service before it commits suicide.
/* This value is taken from the global \fBmain.cf\fR configuration
/* file. Setting \fBvar_idle_limit\fR to zero disables the client limit.
/*
/* The var_idle_limit variable limits the time that a service
/* receives no client connection requests before it commits suicide.
/* This value is taken from the global \fBmain.cf\fR configuration
/* file. Setting \fBvar_use_limit\fR to zero disables the idle limit.
/* DIAGNOSTICS
/* Problems and transactions are logged to \fBsyslogd\fR(8).
/* BUGS
/* SEE ALSO
/* master(8), master process
/* syslogd(8) system logging
/* LICENSE
/* .ad
/* .fi
/* The Secure Mailer license must be distributed with this software.
/* AUTHOR(S)
/* Wietse Venema
/* IBM T.J. Watson Research
/* P.O. Box 704
/* Yorktown Heights, NY 10598, USA
/*--*/
/* System library. */
#include <sys_defs.h>
#include <sys/socket.h>
#include <unistd.h>
#include <signal.h>
#include <syslog.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <fcntl.h>
#include <stdarg.h>
#ifdef STRCASECMP_IN_STRINGS_H
#include <strings.h>
#endif
/* Utility library. */
#include <msg.h>
#include <msg_syslog.h>
#include <chroot_uid.h>
#include <vstring.h>
#include <vstream.h>
#include <msg_vstream.h>
#include <mymalloc.h>
#include <events.h>
#include <iostuff.h>
#include <stringops.h>
#include <sane_accept.h>
#include <myflock.h>
#include <safe_open.h>
#include <listen.h>
#include <watchdog.h>
/* Global library. */
#include <mail_params.h>
#include <mail_task.h>
#include <debug_process.h>
#include <mail_conf.h>
#include <timed_ipc.h>
#include <resolve_local.h>
/* Process manager. */
#include "master_proto.h"
/* Application-specific */
#include "mail_server.h"
/*
* Global state.
*/
static int use_count;
static void (*single_server_service) (VSTREAM *, char *, char **);
static char *single_server_name;
static char **single_server_argv;
static void (*single_server_accept) (int, char *);
static void (*single_server_onexit) (char *, char **);
static void (*single_server_pre_accept) (char *, char **);
static VSTREAM *single_server_lock;
/* single_server_exit - normal termination */
static NORETURN single_server_exit(void)
{
if (single_server_onexit)
single_server_onexit(single_server_name, single_server_argv);
exit(0);
}
/* single_server_abort - terminate after abnormal master exit */
static void single_server_abort(int unused_event, char *unused_context)
{
if (msg_verbose)
msg_info("master disconnect -- exiting");
single_server_exit();
}
/* single_server_timeout - idle time exceeded */
static void single_server_timeout(int unused_event, char *unused_context)
{
if (msg_verbose)
msg_info("idle timeout -- exiting");
single_server_exit();
}
/* single_server_wakeup - wake up application */
static void single_server_wakeup(int fd)
{
VSTREAM *stream;
/*
* If the accept() succeeds, be sure to disable non-blocking I/O, because
* the application is supposed to be single-threaded. Notice the master
* of our (un)availability to service connection requests. Commit suicide
* when the master process disconnected from us.
*/
if (msg_verbose)
msg_info("connection established");
non_blocking(fd, BLOCKING);
close_on_exec(fd, CLOSE_ON_EXEC);
stream = vstream_fdopen(fd, O_RDWR);
timed_ipc_setup(stream);
if (master_notify(var_pid, MASTER_STAT_TAKEN) < 0)
single_server_abort(EVENT_NULL_TYPE, EVENT_NULL_CONTEXT);
single_server_service(stream, single_server_name, single_server_argv);
(void) vstream_fclose(stream);
if (master_notify(var_pid, MASTER_STAT_AVAIL) < 0)
single_server_abort(EVENT_NULL_TYPE, EVENT_NULL_CONTEXT);
if (msg_verbose)
msg_info("connection closed");
use_count++;
if (var_idle_limit > 0)
event_request_timer(single_server_timeout, (char *) 0, var_idle_limit);
}
/* single_server_accept_local - accept client connection request */
static void single_server_accept_local(int unused_event, char *context)
{
int listen_fd = (int) (long) context;
int time_left = -1;
int fd;
/*
* Be prepared for accept() to fail because some other process already
* got the connection. We use select() + accept(), instead of simply
* blocking in accept(), because we must be able to detect that the
* master process has gone away unexpectedly.
*/
if (var_idle_limit > 0)
time_left = event_cancel_timer(single_server_timeout, (char *) 0);
if (single_server_pre_accept)
single_server_pre_accept(single_server_name, single_server_argv);
fd = LOCAL_ACCEPT(listen_fd);
if (single_server_lock != 0
&& myflock(vstream_fileno(single_server_lock), MYFLOCK_NONE) < 0)
msg_fatal("select unlock: %m");
if (fd < 0) {
if (errno != EAGAIN)
msg_fatal("accept connection: %m");
if (time_left >= 0)
event_request_timer(single_server_timeout, (char *) 0, time_left);
return;
}
single_server_wakeup(fd);
}
/* single_server_accept_inet - accept client connection request */
static void single_server_accept_inet(int unused_event, char *context)
{
int listen_fd = (int) (long) context;
int time_left = -1;
int fd;
/*
* Be prepared for accept() to fail because some other process already
* got the connection. We use select() + accept(), instead of simply
* blocking in accept(), because we must be able to detect that the
* master process has gone away unexpectedly.
*/
if (var_idle_limit > 0)
time_left = event_cancel_timer(single_server_timeout, (char *) 0);
if (single_server_pre_accept)
single_server_pre_accept(single_server_name, single_server_argv);
fd = inet_accept(listen_fd);
if (single_server_lock != 0
&& myflock(vstream_fileno(single_server_lock), MYFLOCK_NONE) < 0)
msg_fatal("select unlock: %m");
if (fd < 0) {
if (errno != EAGAIN)
msg_fatal("accept connection: %m");
if (time_left >= 0)
event_request_timer(single_server_timeout, (char *) 0, time_left);
return;
}
single_server_wakeup(fd);
}
/* single_server_main - the real main program */
NORETURN single_server_main(int argc, char **argv, SINGLE_SERVER_FN service,...)
{
char *myname = "single_server_main";
VSTREAM *stream = 0;
char *root_dir = 0;
char *user_name = 0;
int debug_me = 0;
char *service_name = basename(argv[0]);
int delay;
int c;
int socket_count = 1;
int fd;
va_list ap;
MAIL_SERVER_INIT_FN pre_init = 0;
MAIL_SERVER_INIT_FN post_init = 0;
MAIL_SERVER_LOOP_FN loop = 0;
int key;
char *transport = 0;
char *lock_path;
VSTRING *why;
int alone = 0;
WATCHDOG *watchdog;
/*
* Process environment options as early as we can.
*/
if (getenv(CONF_ENV_VERB))
msg_verbose = 1;
if (getenv(CONF_ENV_DEBUG))
debug_me = 1;
/*
* Don't die when a process goes away unexpectedly.
*/
signal(SIGPIPE, SIG_IGN);
/*
* May need this every now and then.
*/
var_procname = mystrdup(basename(argv[0]));
set_mail_conf_str(VAR_PROCNAME, var_procname);
/*
* Initialize logging and exit handler. Do the syslog first, so that its
* initialization completes before we enter the optional chroot jail.
*/
msg_syslog_init(mail_task(var_procname), LOG_PID, LOG_FACILITY);
if (msg_verbose)
msg_info("daemon started");
/*
* Initialize from the configuration file. Allow command-line options to
* override compiled-in defaults or configured parameter values.
*/
mail_conf_read();
va_start(ap, service);
while ((key = va_arg(ap, int)) != 0) {
switch (key) {
case MAIL_SERVER_INT_TABLE:
get_mail_conf_int_table(va_arg(ap, CONFIG_INT_TABLE *));
break;
case MAIL_SERVER_STR_TABLE:
get_mail_conf_str_table(va_arg(ap, CONFIG_STR_TABLE *));
break;
case MAIL_SERVER_BOOL_TABLE:
get_mail_conf_bool_table(va_arg(ap, CONFIG_BOOL_TABLE *));
break;
case MAIL_SERVER_RAW_TABLE:
get_mail_conf_raw_table(va_arg(ap, CONFIG_STR_TABLE *));
break;
case MAIL_SERVER_PRE_INIT:
pre_init = va_arg(ap, MAIL_SERVER_INIT_FN);
break;
case MAIL_SERVER_POST_INIT:
post_init = va_arg(ap, MAIL_SERVER_INIT_FN);
break;
case MAIL_SERVER_LOOP:
loop = va_arg(ap, MAIL_SERVER_LOOP_FN);
break;
case MAIL_SERVER_EXIT:
single_server_onexit = va_arg(ap, MAIL_SERVER_EXIT_FN);
break;
case MAIL_SERVER_PRE_ACCEPT:
single_server_pre_accept = va_arg(ap, MAIL_SERVER_ACCEPT_FN);
break;
default:
msg_panic("%s: unknown argument type: %d", myname, key);
}
}
va_end(ap);
/*
* Pick up policy settings from master process. Shut up error messages to
* stderr, because no-one is going to see them.
*/
opterr = 0;
while ((c = GETOPT(argc, argv, "cDi:lm:n:s:St:uv")) > 0) {
switch (c) {
case 'c':
root_dir = var_queue_dir;
break;
case 'D':
debug_me = 1;
break;
case 'i':
if ((var_idle_limit = atoi(optarg)) <= 0)
msg_fatal("invalid max_idle time: %s", optarg);
break;
case 'l':
alone = 1;
break;
case 'm':
if ((var_use_limit = atoi(optarg)) <= 0)
msg_fatal("invalid max_use: %s", optarg);
break;
case 'n':
service_name = optarg;
break;
case 's':
if ((socket_count = atoi(optarg)) <= 0)
msg_fatal("invalid socket_count: %s", optarg);
break;
case 'S':
stream = VSTREAM_IN;
break;
case 'u':
user_name = var_mail_owner;
break;
case 't':
transport = optarg;
break;
case 'v':
msg_verbose++;
break;
default:
msg_fatal("invalid option: %c", c);
break;
}
}
/*
* If not connected to stdin, stdin must not be a terminal.
*/
if (stream == 0 && isatty(STDIN_FILENO)) {
msg_vstream_init(var_procname, VSTREAM_ERR);
msg_fatal("do not run this command by hand");
}
/*
* Can options be required?
*/
if (stream == 0) {
if (transport == 0)
msg_fatal("no transport type specified");
if (strcasecmp(transport, MASTER_XPORT_NAME_INET) == 0)
single_server_accept = single_server_accept_inet;
else if (strcasecmp(transport, MASTER_XPORT_NAME_UNIX) == 0)
single_server_accept = single_server_accept_local;
else
msg_fatal("unsupported transport type: %s", transport);
}
/*
* Optionally start the debugger on ourself.
*/
if (debug_me)
debug_process();
/*
* Traditionally, BSD select() can't handle multiple processes selecting
* on the same socket, and wakes up every process in select(). See TCP/IP
* Illustrated volume 2 page 532. We avoid select() collisions with an
* external lock file.
*/
if (stream == 0 && !alone) {
lock_path = concatenate(DEF_PID_DIR, "/", transport,
".", service_name, (char *) 0);
why = vstring_alloc(1);
if ((single_server_lock = safe_open(lock_path, O_CREAT | O_RDWR, 0600,
-1, -1, why)) == 0)
msg_fatal("%s", vstring_str(why));
close_on_exec(vstream_fileno(single_server_lock), CLOSE_ON_EXEC);
myfree(lock_path);
vstring_free(why);
}
/*
* Run pre-jail initialization.
*/
if (pre_init)
pre_init(single_server_name, single_server_argv);
/*
* Optionally, restrict the damage that this process can do.
*/
if (chdir(var_queue_dir) < 0)
msg_fatal("chdir(\"%s\"): %m", var_queue_dir);
resolve_local_init();
chroot_uid(root_dir, user_name);
/*
* Run post-jail initialization.
*/
if (post_init)
post_init(single_server_name, single_server_argv);
/*
* Are we running as a one-shot server with the client connection on
* standard input? If so, make sure the output is written to stdout so as
* to satisfy common expectation.
*/
if (stream != 0) {
vstream_control(stream,
VSTREAM_CTL_DOUBLE,
VSTREAM_CTL_WRITE_FD, STDOUT_FILENO,
VSTREAM_CTL_END);
service(stream, service_name, argv + optind);
vstream_fflush(stream);
single_server_exit();
}
/*
* Running as a semi-resident server. Service connection requests.
* Terminate when we have serviced a sufficient number of clients, when
* no-one has been talking to us for a configurable amount of time, or
* when the master process terminated abnormally.
*/
single_server_service = service;
single_server_name = service_name;
single_server_argv = argv + optind;
if (var_idle_limit > 0)
event_request_timer(single_server_timeout, (char *) 0, var_idle_limit);
for (fd = MASTER_LISTEN_FD; fd < MASTER_LISTEN_FD + socket_count; fd++) {
event_enable_read(fd, single_server_accept, (char *) (long) fd);
close_on_exec(fd, CLOSE_ON_EXEC);
}
event_enable_read(MASTER_STATUS_FD, single_server_abort, (char *) 0);
close_on_exec(MASTER_STATUS_FD, CLOSE_ON_EXEC);
watchdog = watchdog_create(var_daemon_timeout, (WATCHDOG_FN) 0, (char *) 0);
/*
* The event loop, at last.
*/
while (var_use_limit == 0 || use_count < var_use_limit) {
if (single_server_lock != 0) {
watchdog_stop(watchdog);
if (myflock(vstream_fileno(single_server_lock), MYFLOCK_EXCLUSIVE) < 0)
msg_fatal("select lock: %m");
}
watchdog_start(watchdog);
delay = loop ? loop(single_server_name, single_server_argv) : -1;
event_loop(delay);
}
single_server_exit();
}