openvpn.git - Copy of the official OpenVPN git repo

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/* * OpenVPN -- An application to securely tunnel IP networks * over a single TCP/UDP port, with support for SSL/TLS-based * session authentication and key exchange, * packet encryption, packet authentication, and * packet compression. * * Copyright (C) 2002-2005 OpenVPN Solutions LLC <info@openvpn.net> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation. * * This program 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 this program (see the file COPYING included with this * distribution); if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "syshead.h" #if P2MP_SERVER #include "multi.h" #include "forward-inline.h" #include "memdbg.h" /* * Get a client instance based on real address. If * the instance doesn't exist, create it while * maintaining real address hash table atomicity. */ struct multi_instance * multi_get_create_instance_udp (struct multi_context *m) { struct gc_arena gc = gc_new (); struct mroute_addr real; struct multi_instance *mi = NULL; struct hash *hash = m->hash; if (mroute_extract_openvpn_sockaddr (&real, &m->top.c2.from.dest, true)) { struct hash_element *he; const uint32_t hv = hash_value (hash, &real); struct hash_bucket *bucket = hash_bucket (hash, hv); hash_bucket_lock (bucket); he = hash_lookup_fast (hash, bucket, &real, hv); if (he) { mi = (struct multi_instance *) he->value; } else { if (!m->top.c2.tls_auth_standalone || tls_pre_decrypt_lite (m->top.c2.tls_auth_standalone, &m->top.c2.from, &m->top.c2.buf)) { if (frequency_limit_event_allowed (m->new_connection_limiter)) { mi = multi_create_instance (m, &real); if (mi) { hash_add_fast (hash, bucket, &mi->real, hv, mi); mi->did_real_hash = true; } } else { msg (D_MULTI_ERRORS, "MULTI: Connection from %s would exceed new connection frequency limit as controlled by --connect-freq", mroute_addr_print (&real, &gc)); } } } hash_bucket_unlock (bucket); #ifdef ENABLE_DEBUG if (check_debug_level (D_MULTI_DEBUG)) { const char *status; if (he && mi) status = "[succeeded]"; else if (!he && mi) status = "[created]"; else status = "[failed]"; dmsg (D_MULTI_DEBUG, "GET INST BY REAL: %s %s", mroute_addr_print (&real, &gc), status); } #endif } gc_free (&gc); ASSERT (!(mi && mi->halt)); return mi; } /* * Send a packet to TCP/UDP socket. */ static inline void multi_process_outgoing_link (struct multi_context *m, const unsigned int mpp_flags) { struct multi_instance *mi = multi_process_outgoing_link_pre (m); if (mi) multi_process_outgoing_link_dowork (m, mi, mpp_flags); } /* * Process an I/O event. */ static void multi_process_io_udp (struct multi_context *m) { const unsigned int status = m->top.c2.event_set_status; const unsigned int mpp_flags = m->top.c2.fast_io ? (MPP_CONDITIONAL_PRE_SELECT | MPP_CLOSE_ON_SIGNAL) : (MPP_PRE_SELECT | MPP_CLOSE_ON_SIGNAL); #ifdef MULTI_DEBUG_EVENT_LOOP char buf[16]; buf[0] = 0; if (status & SOCKET_READ) strcat (buf, "SR/"); else if (status & SOCKET_WRITE) strcat (buf, "SW/"); else if (status & TUN_READ) strcat (buf, "TR/"); else if (status & TUN_WRITE) strcat (buf, "TW/"); printf ("IO %s\n", buf); #endif #ifdef ENABLE_MANAGEMENT if (status & (MANAGEMENT_READ|MANAGEMENT_WRITE)) { ASSERT (management); management_io (management); } #endif /* UDP port ready to accept write */ if (status & SOCKET_WRITE) { multi_process_outgoing_link (m, mpp_flags); } /* TUN device ready to accept write */ else if (status & TUN_WRITE) { multi_process_outgoing_tun (m, mpp_flags); } /* Incoming data on UDP port */ else if (status & SOCKET_READ) { read_incoming_link (&m->top); multi_release_io_lock (m); if (!IS_SIG (&m->top)) multi_process_incoming_link (m, NULL, mpp_flags); } /* Incoming data on TUN device */ else if (status & TUN_READ) { read_incoming_tun (&m->top); multi_release_io_lock (m); if (!IS_SIG (&m->top)) multi_process_incoming_tun (m, mpp_flags); } } /* * Return the io_wait() flags appropriate for * a point-to-multipoint tunnel. */ static inline unsigned int p2mp_iow_flags (const struct multi_context *m) { unsigned int flags = IOW_WAIT_SIGNAL; if (m->pending) { if (TUN_OUT (&m->pending->context)) flags |= IOW_TO_TUN; if (LINK_OUT (&m->pending->context)) flags |= IOW_TO_LINK; } else if (mbuf_defined (m->mbuf)) flags |= IOW_MBUF; else flags |= IOW_READ; return flags; } /* * Top level event loop for single-threaded operation. * UDP mode. */ static void tunnel_server_udp_single_threaded (struct context *top) { struct multi_context multi; top->mode = CM_TOP; context_clear_2 (top); /* initialize top-tunnel instance */ init_instance_handle_signals (top, top->es, CC_HARD_USR1_TO_HUP); if (IS_SIG (top)) return; /* initialize global multi_context object */ multi_init (&multi, top, false, MC_SINGLE_THREADED); /* initialize our cloned top object */ multi_top_init (&multi, top, true); /* initialize management interface */ init_management_callback_multi (&multi); /* finished with initialization */ initialization_sequence_completed (top, ISC_SERVER); /* --mode server --proto udp */ /* per-packet event loop */ while (true) { perf_push (PERF_EVENT_LOOP); /* set up and do the io_wait() */ multi_get_timeout (&multi, &multi.top.c2.timeval); io_wait (&multi.top, p2mp_iow_flags (&multi)); MULTI_CHECK_SIG (&multi); /* check on status of coarse timers */ multi_process_per_second_timers (&multi); /* timeout? */ if (multi.top.c2.event_set_status == ES_TIMEOUT) { multi_process_timeout (&multi, MPP_PRE_SELECT|MPP_CLOSE_ON_SIGNAL); } else { /* process I/O */ multi_process_io_udp (&multi); MULTI_CHECK_SIG (&multi); } perf_pop (); } /* shut down management interface */ uninit_management_callback_multi (&multi); /* save ifconfig-pool */ multi_ifconfig_pool_persist (&multi, true); /* tear down tunnel instance (unless --persist-tun) */ multi_uninit (&multi); multi_top_free (&multi); close_instance (top); } void tunnel_server_udp (struct context *top) { tunnel_server_udp_single_threaded (top); } #endif


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