/*-GNU-GPL-BEGIN-*
nepim - network pipemeter
Copyright (C) 2005 Everton da Silva Marques
nepim is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
nepim is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with nepim; see the file COPYING. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*-GNU-GPL-END-*/
/* $Id: server.c,v 1.44 2005/10/13 19:02:20 evertonm Exp $ */
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netdb.h>
#include <assert.h>
#include <string.h>
#include <errno.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include "conf.h"
#include "sock.h"
#include "pipe.h"
#include "common.h"
#include "slot.h"
#include "usock.h"
#include "str.h"
#include "tcpwrap.h"
nepim_pipe_set_t pipes; /* tcp socket table */
nepim_slot_set_t slots; /* udp pseudo-sockets */
nepim_usock_set_t udp_tab; /* udp socket table */
const char *INET_ANY = "0.0.0.0";
const char *INET6_ANY = "::";
static void schedule_stat_interval(int sd);
static void tcp_pipe_cancel_timers(int sd);
static void tcp_pipe_cancel_io(int sd);
static void tcp_pipe_kill(int sd);
static void *on_tcp_rate_delay(oop_source *src, struct timeval tv, void *user);
static void *on_tcp_read(oop_source *src, int sd,
oop_event event, void *user)
{
char buf[nepim_global.tcp_read_size];
int rd;
nepim_pipe_t *pipe = user;
nepim_session_t *session = &pipe->session;
assert(nepim_global.tcp_read_size = sizeof(buf));
errno = 0;
rd = read(sd, buf, nepim_global.tcp_read_size);
if (rd <= 0) {
if (rd) {
switch (errno) {
case EINTR:
fprintf(stderr, "read: EINTR on TCP socket %d\n", sd);
return OOP_CONTINUE;
case EAGAIN:
fprintf(stderr, "read: EAGAIN on TCP socket %d\n", sd);
return OOP_CONTINUE;
default:
fprintf(stderr, "read: errno=%d: %s\n",
errno, strerror(errno));
}
}
fprintf(stderr, "read: connection lost on TCP socket %d\n", sd);
if (!session->duration_done)
report_broken_pipe_stat(stdout, pipe);
tcp_pipe_kill(sd);
return OOP_CONTINUE;
}
assert(rd >= 0);
assert(rd <= sizeof(buf));
nepim_session_read_add(session, rd);
return OOP_CONTINUE;
}
static void *on_tcp_write(oop_source *src, int sd,
oop_event event, void *user)
{
char buf[nepim_global.tcp_write_size];
int wr;
nepim_pipe_t *pipe = user;
nepim_session_t *session = &pipe->session;
assert(event == OOP_WRITE);
assert(sd == pipe->sd);
assert(session->max_bit_rate < 1);
assert(session->max_pkt_rate < 1);
assert(sizeof(buf) == nepim_global.tcp_write_size);
wr = write(sd, buf, nepim_global.tcp_write_size);
if (wr < 0) {
switch (errno) {
case EINTR:
fprintf(stderr, "write: EINTR on TCP socket %d\n", sd);
return OOP_CONTINUE;
case EAGAIN:
fprintf(stderr, "write: EAGAIN on TCP socket %d\n", sd);
return OOP_CONTINUE;
case EPIPE:
fprintf(stderr, "write: EPIPE on TCP socket %d\n", sd);
break;
}
fprintf(stderr, "write: connection lost on TCP socket %d\n", sd);
if (!session->duration_done)
report_broken_pipe_stat(stdout, pipe);
tcp_pipe_kill(sd);
return OOP_CONTINUE;
}
assert(wr >= 0);
assert(wr <= sizeof(buf));
nepim_session_write_add(session, wr);
return OOP_CONTINUE;
}
static void *on_tcp_rate_write(oop_source *src, int sd,
oop_event event, void *user)
{
char buf[nepim_global.tcp_write_size];
int wr;
nepim_pipe_t *pipe = user;
nepim_session_t *session = &pipe->session;
int to_write;
assert(event == OOP_WRITE);
assert(sd == pipe->sd);
#ifndef NDEBUG
{
if (session->max_bit_rate <= 0) {
assert(session->max_pkt_rate > 0);
}
if (session->max_pkt_rate <= 0) {
assert(session->max_bit_rate > 0);
}
}
#endif /* NDEBUG */
assert(sizeof(buf) == nepim_global.tcp_write_size);
#ifndef NDEBUG
{
if (session->rate_remaining <= 0) {
assert(session->pkt_remaining > 0);
}
if (session->pkt_remaining <= 0) {
assert(session->rate_remaining > 0);
}
}
#endif /* NDEBUG */
if (session->rate_remaining > 0)
to_write = NEPIM_MIN(session->rate_remaining, sizeof(buf));
else
to_write = sizeof(buf);
assert(to_write >= 0);
assert(to_write <= sizeof(buf));
wr = write(sd, buf, to_write);
if (wr < 0) {
switch (errno) {
case EINTR:
fprintf(stderr, "rate_write: EINTR on TCP socket %d\n", sd);
return OOP_CONTINUE;
case EAGAIN:
fprintf(stderr, "rate_write: EAGAIN on TCP socket %d\n", sd);
return OOP_CONTINUE;
case EPIPE:
fprintf(stderr, "rate_write: EPIPE on TCP socket %d\n", sd);
break;
}
fprintf(stderr, "rate_write: connection lost on TCP socket %d\n", sd);
if (!session->duration_done)
report_broken_pipe_stat(stdout, pipe);
tcp_pipe_kill(sd);
return OOP_CONTINUE;
}
assert(wr >= 0);
assert(wr <= sizeof(buf));
assert(wr <= to_write);
session->rate_remaining -= wr;
--session->pkt_remaining;
nepim_session_write_add(session, wr);
/* finished ? */
if (
((session->max_bit_rate > 0) && (session->rate_remaining < 1))
||
((session->max_pkt_rate > 0) && (session->pkt_remaining < 1))
){
/* stop writing */
nepim_global.oop_src->cancel_fd(nepim_global.oop_src,
sd, OOP_WRITE);
/* schedule for next time saved by on_tcp_rate_delay() */
nepim_global.oop_src->on_time(nepim_global.oop_src,
session->tv_send_rate,
on_tcp_rate_delay, pipe);
}
return OOP_CONTINUE;
}
static void *on_tcp_rate_delay(oop_source *src, struct timeval tv, void *user)
{
nepim_pipe_t *pipe = user;
nepim_session_t *session = &pipe->session;
assert(timercmp(&tv, &session->tv_send_rate, ==));
#ifndef NDEBUG
{
if (session->max_bit_rate <= 0) {
assert(session->max_pkt_rate > 0);
}
if (session->max_pkt_rate <= 0) {
assert(session->max_bit_rate > 0);
}
}
#endif /* NDEBUG */
/* save next scheduling time */
{
int result = gettimeofday(&session->tv_send_rate, 0);
assert(!result);
}
nepim_timer_usec_add(&session->tv_send_rate, session->write_delay);
/* calculate bytes to be written from rate */
session->rate_remaining = nepim_bps2bytes(session->max_bit_rate,
session->write_delay);
session->pkt_remaining = nepim_pps2packets(session->max_pkt_rate,
session->write_delay);
#ifndef NDEBUG
{
if (session->rate_remaining <= 0) {
assert(session->pkt_remaining > 0);
}
if (session->pkt_remaining <= 0) {
assert(session->rate_remaining > 0);
}
}
#endif /* NDEBUG */
/* start to write */
nepim_global.oop_src->on_fd(nepim_global.oop_src,
pipe->sd, OOP_WRITE,
on_tcp_rate_write, pipe);
return OOP_CONTINUE;
}
static void *on_tcp_duration(oop_source *src, struct timeval tv, void *user)
{
nepim_pipe_t *pipe = user;
nepim_session_t *session = &pipe->session;
nepim_pipe_stat(stdout, NEPIM_LABEL_TOTAL, pipe->sd,
session->byte_total_recv,
session->byte_total_sent,
session->test_duration,
session->tv_start.tv_sec,
session->test_duration,
session->total_reads,
session->total_writes);
session->byte_total_recv = 0;
session->byte_total_sent = 0;
session->total_reads = 0;
session->total_writes = 0;
session->duration_done = 1;
tcp_pipe_cancel_timers(pipe->sd);
return OOP_CONTINUE;
}
static void *on_tcp_interval(oop_source *src, struct timeval tv, void *user)
{
nepim_pipe_t *pipe = user;
nepim_session_t *session = &pipe->session;
nepim_pipe_stat(stdout, NEPIM_LABEL_PARTIAL, pipe->sd,
session->byte_interval_recv,
session->byte_interval_sent,
session->stat_interval,
session->tv_start.tv_sec,
session->test_duration,
session->interval_reads,
session->interval_writes);
session->byte_interval_recv = 0;
session->byte_interval_sent = 0;
session->interval_reads = 0;
session->interval_writes = 0;
schedule_stat_interval(pipe->sd);
return OOP_CONTINUE;
}
static int parse_greetings(int sd,
const struct sockaddr *remote,
socklen_t remote_len,
const char *buf, const char *past_end)
{
nepim_greet_t opt;
int result;
char password_buf[100];
opt.password_buf = password_buf;
opt.password_buf_size = sizeof(password_buf);
result = nepim_parse_greetings(&opt, buf, past_end);
if (result)
return result;
fprintf(stderr,
"%d: send=%d bit_rate=%lld pkt_rate=%d "
"interval=%d duration=%d delay=%ld ka_send=%d ka_req=%d "
"password=%s\n",
sd, opt.must_send, opt.bit_rate, opt.pkt_rate,
opt.stat_interval, opt.test_duration,
opt.write_delay, opt.udp_keepalive_send,
opt.udp_keepalive_require,
password_buf);
if (nepim_global.password)
if (strcmp(nepim_global.password, password_buf)) {
fprintf(stderr, "%d: bad client password=%s\n",
sd, password_buf);
return 1;
}
nepim_pipe_set_add(&pipes, sd, remote, remote_len, &opt);
return 0;
}
static int read_greetings(int sd,
const struct sockaddr *remote,
socklen_t remote_len)
{
char buf[1024];
int len = 0;
char *eos;
int result;
for (;;) {
char *curr = buf + len;
int left = sizeof(buf) - len;
int rd;
assert(left > 0);
rd = read(sd, curr, left);
if (!rd) {
fprintf(stderr,
"%s: incoming connection lost\n",
__PRETTY_FUNCTION__);
return -1;
}
if (rd < 0) {
if (errno == EAGAIN)
continue;
}
assert(rd > 0);
assert(rd <= left);
len += rd;
eos = memchr(curr, '\n', rd);
if (eos)
break;
}
*eos = '\0';
result = parse_greetings(sd, remote, remote_len, buf, eos);
if (result) {
fprintf(stderr,
"%d: bad client greetings: %d [%s]\n",
sd, result, buf);
return result;
}
return 0;
}
static void schedule_stat_interval(int sd)
{
nepim_pipe_t *pipe = nepim_pipe_set_get(&pipes, sd);
nepim_session_t *session;
assert(pipe);
session = &pipe->session;
{
int result = gettimeofday(&session->tv_interval, 0);
assert(!result);
}
session->tv_interval.tv_sec += session->stat_interval;
nepim_global.oop_src->on_time(nepim_global.oop_src,
session->tv_interval,
on_tcp_interval, pipe);
}
static void tcp_pipe_start(int sd)
{
nepim_pipe_t *pipe = nepim_pipe_set_get(&pipes, sd);
nepim_session_t *session;
assert(pipe);
session = &pipe->session;
nepim_global.oop_src->on_fd(nepim_global.oop_src,
sd, OOP_READ,
on_tcp_read, pipe);
if (session->must_send) {
if ((session->max_bit_rate > 0) || (session->max_pkt_rate > 0)) {
session->tv_send_rate = OOP_TIME_NOW;
nepim_global.oop_src->on_time(nepim_global.oop_src,
session->tv_send_rate,
on_tcp_rate_delay, pipe);
}
else {
nepim_global.oop_src->on_fd(nepim_global.oop_src,
sd, OOP_WRITE,
on_tcp_write, pipe);
}
}
{
int result = gettimeofday(&session->tv_start, 0);
assert(!result);
session->tv_duration = session->tv_start;
}
session->tv_duration.tv_sec += session->test_duration;
nepim_global.oop_src->on_time(nepim_global.oop_src,
session->tv_duration,
on_tcp_duration, pipe);
nepim_sock_show_opt(stderr, sd);
schedule_stat_interval(sd);
}
static void tcp_pipe_cancel_timers(int sd)
{
nepim_pipe_t *pipe = nepim_pipe_set_get(&pipes, sd);
nepim_session_t *session;
assert(pipe);
session = &pipe->session;
nepim_global.oop_src->cancel_time(nepim_global.oop_src,
session->tv_duration,
on_tcp_duration, pipe);
nepim_global.oop_src->cancel_time(nepim_global.oop_src,
session->tv_interval,
on_tcp_interval, pipe);
}
static void tcp_pipe_cancel_io(int sd)
{
nepim_pipe_t *pipe = nepim_pipe_set_get(&pipes, sd);
nepim_session_t *session;
assert(pipe);
session = &pipe->session;
nepim_global.oop_src->cancel_fd(nepim_global.oop_src,
sd, OOP_READ);
if (session->must_send) {
if ((session->max_bit_rate > 0) || (session->max_pkt_rate > 0)) {
/* stop current writing, if any */
nepim_global.oop_src->cancel_fd(nepim_global.oop_src,
sd, OOP_WRITE);
/* stop periodic write scheduler */
nepim_global.oop_src->cancel_time(nepim_global.oop_src,
session->tv_send_rate,
on_tcp_rate_delay, pipe);
}
else {
nepim_global.oop_src->cancel_fd(nepim_global.oop_src,
sd, OOP_WRITE);
}
}
}
static void tcp_pipe_kill(int sd)
{
nepim_pipe_t *pipe = nepim_pipe_set_get(&pipes, sd);
assert(pipe);
tcp_pipe_cancel_timers(sd);
tcp_pipe_cancel_io(sd);
nepim_sock_show_opt(stderr, sd);
if (close(sd))
fprintf(stderr, "%d: close failed\n", sd);
nepim_pipe_set_del(&pipes, sd);
}
static void *on_tcp_connect(oop_source *src, int sd,
oop_event event, void *unnused)
{
int conn_sd;
union {
struct sockaddr_in inet;
struct sockaddr_in6 inet6;
} sa;
int len = sizeof(sa);
int result;
char addr_buf[100];
conn_sd = accept(sd, (struct sockaddr *) &sa, &len);
if (conn_sd < 0) {
fprintf(stderr,
"%s: %s: could not accept connection: errno=%d: %s\n",
__FILE__, __PRETTY_FUNCTION__, errno, strerror(errno));
return OOP_CONTINUE;
}
nepim_sock_dump_addr(addr_buf, sizeof(addr_buf),
(const struct sockaddr *) &sa);
fprintf(stderr,
"%d: TCP incoming: %s,%d\n",
conn_sd, addr_buf,
nepim_sock_get_port((const struct sockaddr *) &sa));
if (nepim_global.tcpwrap) {
if (!nepim_hosts_ctl(nepim_global.tcpwrap,
nepim_global.prog_name,
addr_buf)) {
fprintf(stderr,
"%d: %s: %s: TCP wrapper denied access from client=[%s] to service=[%s]\n",
conn_sd, __FILE__, __PRETTY_FUNCTION__,
addr_buf, nepim_global.prog_name);
close(conn_sd);
return OOP_CONTINUE;
}
}
result = nepim_socket_opt(conn_sd, nepim_global.pmtu_mode,
nepim_global.ttl);
if (result) {
fprintf(stderr,
"%d: %s: %s: could not set socket options: %d\n",
conn_sd, __FILE__, __PRETTY_FUNCTION__, result);
close(conn_sd);
return OOP_CONTINUE;
}
result = nepim_socket_tcp_opt(conn_sd);
if (result) {
fprintf(stderr,
"%d: %s: %s: could not set tcp options: %d\n",
conn_sd, __FILE__, __PRETTY_FUNCTION__, result);
close(conn_sd);
return OOP_CONTINUE;
}
if (nepim_socket_block(conn_sd)) {
fprintf(stderr,
"%d: %s: %s: could not set blocking socket mode\n",
conn_sd, __FILE__, __PRETTY_FUNCTION__);
close(conn_sd);
return OOP_CONTINUE;
}
if (read_greetings(conn_sd, (const struct sockaddr *) &sa, len)) {
fprintf(stderr,
"%d: %s: %s: could not parse client greetings\n",
conn_sd, __FILE__, __PRETTY_FUNCTION__);
close(conn_sd);
return OOP_CONTINUE;
}
if (nepim_socket_nonblock(conn_sd)) {
fprintf(stderr,
"%d: %s: %s: could not set non-blocking socket mode\n",
conn_sd, __FILE__, __PRETTY_FUNCTION__);
close(conn_sd);
return OOP_CONTINUE;
}
tcp_pipe_start(conn_sd);
return OOP_CONTINUE;
}
static int spawn_tcp_listener(const char *hostname, const char *portname)
{
struct addrinfo hints;
struct addrinfo *ai_res;
struct addrinfo *ai;
int result;
int tcp_listeners = 0;
memset(&hints, 0, sizeof(hints));
hints.ai_socktype = SOCK_STREAM;
hints.ai_protocol = IPPROTO_TCP;
hints.ai_flags = AI_PASSIVE | AI_CANONNAME;
hints.ai_family = PF_UNSPEC;
hints.ai_addrlen = 0;
hints.ai_addr = 0;
hints.ai_canonname = 0;
result = getaddrinfo(hostname, portname, &hints, &ai_res);
if (result) {
fprintf(stderr, "%s: getaddrinfo(%s,%s): %s\n",
__PRETTY_FUNCTION__,
hostname, portname, gai_strerror(result));
return 0;
}
for (ai = ai_res; ai; ai = ai->ai_next) {
int sd;
#if 0
fprintf(stderr,
"TCP listener: host=%s,%s(%d) len=%d family=%d type=%d proto=%d\n",
hostname, portname, nepim_sock_get_port(ai->ai_addr),
ai->ai_addrlen, ai->ai_family,
ai->ai_socktype, ai->ai_protocol);
#endif
if (nepim_global.no_inet6 && (ai->ai_family == PF_INET6))
continue;
if (nepim_global.no_inet4 && (ai->ai_family == PF_INET))
continue;
sd = nepim_create_listener_socket(ai->ai_addr, ai->ai_addrlen,
ai->ai_family, ai->ai_socktype,
ai->ai_protocol,
nepim_global.listen_backlog,
nepim_global.pmtu_mode,
nepim_global.ttl,
nepim_global.win_recv,
nepim_global.win_send);
if (sd < 0) {
fprintf(stderr,
"%s: TCP listener socket failed for %s,%s(%d): %d\n",
__PRETTY_FUNCTION__, hostname, portname,
nepim_sock_get_port(ai->ai_addr), sd);
break;
}
nepim_global.oop_src->on_fd(nepim_global.oop_src,
sd, OOP_READ,
on_tcp_connect, 0);
++tcp_listeners;
fprintf(stderr,
"%d: TCP socket listening on %s,%s(%d)\n",
sd, hostname, portname, nepim_sock_get_port(ai->ai_addr));
}
freeaddrinfo(ai_res);
return tcp_listeners;
}
extern int nepim_udp_listener(const char *hostname,
const char *portname, int join);
static void parse_listeners(const char *list, int *udp, int *tcp, int join)
{
int i;
int size = addr_list_size(list);
for (i = 0; i < size; ++i) {
char buf[100];
const char *portname;
if (addr_list_get(list, i, buf, sizeof(buf))) {
fprintf(stderr,
"%s: failure parsing address %d/%d from list: %s\n",
nepim_global.prog_name, i, size, list);
continue;
}
if (addr_split_port(buf, sizeof(buf), &portname))
portname = nepim_global.portname;
*tcp += spawn_tcp_listener(buf, portname);
*udp += nepim_udp_listener(buf, portname, join);
}
}
void nepim_server_run()
{
void *result;
int tcp_listeners = 0;
int udp_listeners = 0;
/* these must be initialized before spawning listeners */
nepim_pipe_set_init(&pipes);
nepim_slot_set_init(&slots);
nepim_usock_set_init(&udp_tab);
if (nepim_global.bind_list)
parse_listeners(nepim_global.bind_list, &udp_listeners, &tcp_listeners,
0 /* no join */);
if (nepim_global.join_list)
parse_listeners(nepim_global.join_list, &udp_listeners, &tcp_listeners,
1 /* do join */);
if (!nepim_global.bind_list && !nepim_global.join_list) {
if (!nepim_global.no_inet6)
tcp_listeners += spawn_tcp_listener(INET6_ANY, nepim_global.portname);
tcp_listeners += spawn_tcp_listener(INET_ANY, nepim_global.portname);
if (!nepim_global.no_inet6)
udp_listeners += nepim_udp_listener(INET6_ANY, nepim_global.portname,
0 /* no join */);
udp_listeners += nepim_udp_listener(INET_ANY, nepim_global.portname,
0 /* no join */);
}
if (tcp_listeners || udp_listeners)
fprintf(stderr, "%s: server ready\n", nepim_global.prog_name);
result = oop_sys_run(nepim_global.oop_sys);
}
syntax highlighted by Code2HTML, v. 0.9.1