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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
*/
#ifdef WIN32
#include "config-win32.h"
#else
#include "config.h"
#endif
#include "syshead.h"
#if P2MP_SERVER
#include "multi.h"
#include "push.h"
#include "misc.h"
#include "otime.h"
#include "gremlin.h"
#include "memdbg.h"
#include "forward-inline.h"
/*#define MULTI_DEBUG_EVENT_LOOP*/
#ifdef MULTI_DEBUG_EVENT_LOOP
static const char *
id (struct multi_instance *mi)
{
if (mi)
return tls_common_name (mi->context.c2.tls_multi, false);
else
return "NULL";
}
#endif
static bool
learn_address_script (const struct multi_context *m,
const struct multi_instance *mi,
const char *op,
const struct mroute_addr *addr)
{
struct gc_arena gc = gc_new ();
struct env_set *es;
bool ret = true;
/* get environmental variable source */
if (mi && mi->context.c2.es)
es = mi->context.c2.es;
else
es = env_set_create (&gc);
if (plugin_defined (m->top.c1.plugins, OPENVPN_PLUGIN_LEARN_ADDRESS))
{
struct buffer cmd = alloc_buf_gc (256, &gc);
buf_printf (&cmd, "\"%s\" \"%s\"",
op,
mroute_addr_print (addr, &gc));
if (mi)
buf_printf (&cmd, " \"%s\"", tls_common_name (mi->context.c2.tls_multi, false));
if (plugin_call (m->top.c1.plugins, OPENVPN_PLUGIN_LEARN_ADDRESS, BSTR (&cmd), es))
{
msg (M_WARN, "WARNING: learn-address plugin call failed");
ret = false;
}
}
if (m->top.options.learn_address_script)
{
struct buffer cmd = alloc_buf_gc (256, &gc);
setenv_str (es, "script_type", "learn-address");
buf_printf (&cmd, "%s \"%s\" \"%s\"",
m->top.options.learn_address_script,
op,
mroute_addr_print (addr, &gc));
if (mi)
buf_printf (&cmd, " \"%s\"", tls_common_name (mi->context.c2.tls_multi, false));
if (!system_check (BSTR (&cmd), es, S_SCRIPT, "WARNING: learn-address command failed"))
ret = false;
}
gc_free (&gc);
return ret;
}
void
multi_ifconfig_pool_persist (struct multi_context *m, bool force)
{
/* write pool data to file */
if (m->ifconfig_pool
&& m->top.c1.ifconfig_pool_persist
&& (force || ifconfig_pool_write_trigger (m->top.c1.ifconfig_pool_persist)))
{
ifconfig_pool_write (m->top.c1.ifconfig_pool_persist, m->ifconfig_pool);
}
}
static void
multi_reap_range (const struct multi_context *m,
int start_bucket,
int end_bucket)
{
struct gc_arena gc = gc_new ();
struct hash_iterator hi;
struct hash_element *he;
if (start_bucket < 0)
{
start_bucket = 0;
end_bucket = hash_n_buckets (m->vhash);
}
dmsg (D_MULTI_DEBUG, "MULTI: REAP range %d -> %d", start_bucket, end_bucket);
hash_iterator_init_range (m->vhash, &hi, true, start_bucket, end_bucket);
while ((he = hash_iterator_next (&hi)) != NULL)
{
struct multi_route *r = (struct multi_route *) he->value;
if (!multi_route_defined (m, r))
{
dmsg (D_MULTI_DEBUG, "MULTI: REAP DEL %s",
mroute_addr_print (&r->addr, &gc));
learn_address_script (m, NULL, "delete", &r->addr);
multi_route_del (r);
hash_iterator_delete_element (&hi);
}
}
hash_iterator_free (&hi);
gc_free (&gc);
}
static void
multi_reap_all (const struct multi_context *m)
{
multi_reap_range (m, -1, 0);
}
static struct multi_reap *
multi_reap_new (int buckets_per_pass)
{
struct multi_reap *mr;
ALLOC_OBJ (mr, struct multi_reap);
mr->bucket_base = 0;
mr->buckets_per_pass = buckets_per_pass;
mr->last_call = now;
return mr;
}
void
multi_reap_process_dowork (const struct multi_context *m)
{
struct multi_reap *mr = m->reaper;
if (mr->bucket_base >= hash_n_buckets (m->vhash))
mr->bucket_base = 0;
multi_reap_range (m, mr->bucket_base, mr->bucket_base + mr->buckets_per_pass);
mr->bucket_base += mr->buckets_per_pass;
mr->last_call = now;
}
static void
multi_reap_free (struct multi_reap *mr)
{
free (mr);
}
/*
* How many buckets in vhash to reap per pass.
*/
static int
reap_buckets_per_pass (int n_buckets)
{
return constrain_int (n_buckets / REAP_DIVISOR, REAP_MIN, REAP_MAX);
}
/*
* Main initialization function, init multi_context object.
*/
void
multi_init (struct multi_context *m, struct context *t, bool tcp_mode, int thread_mode)
{
int dev = DEV_TYPE_UNDEF;
msg (D_MULTI_LOW, "MULTI: multi_init called, r=%d v=%d",
t->options.real_hash_size,
t->options.virtual_hash_size);
/*
* Get tun/tap/null device type
*/
dev = dev_type_enum (t->options.dev, t->options.dev_type);
/*
* Init our multi_context object.
*/
CLEAR (*m);
m->thread_mode = thread_mode;
/*
* Real address hash table (source port number is
* considered to be part of the address). Used
* to determine which client sent an incoming packet
* which is seen on the TCP/UDP socket.
*/
m->hash = hash_init (t->options.real_hash_size,
mroute_addr_hash_function,
mroute_addr_compare_function);
/*
* Virtual address hash table. Used to determine
* which client to route a packet to.
*/
m->vhash = hash_init (t->options.virtual_hash_size,
mroute_addr_hash_function,
mroute_addr_compare_function);
/*
* This hash table is a clone of m->hash but with a
* bucket size of one so that it can be used
* for fast iteration through the list.
*/
m->iter = hash_init (1,
mroute_addr_hash_function,
mroute_addr_compare_function);
/*
* This is our scheduler, for time-based wakeup
* events.
*/
m->schedule = schedule_init ();
/*
* Limit frequency of incoming connections to control
* DoS.
*/
m->new_connection_limiter = frequency_limit_init (t->options.cf_max,
t->options.cf_per);
/*
* Allocate broadcast/multicast buffer list
*/
m->mbuf = mbuf_init (t->options.n_bcast_buf);
/*
* Different status file format options are available
*/
m->status_file_version = t->options.status_file_version;
/*
* Possibly allocate an ifconfig pool, do it
* differently based on whether a tun or tap style
* tunnel.
*/
if (t->options.ifconfig_pool_defined)
{
if (dev == DEV_TYPE_TAP || t->options.ifconfig_pool_linear)
{
m->ifconfig_pool = ifconfig_pool_init (IFCONFIG_POOL_INDIV,
t->options.ifconfig_pool_start,
t->options.ifconfig_pool_end,
t->options.duplicate_cn);
}
else if (dev == DEV_TYPE_TUN)
{
m->ifconfig_pool = ifconfig_pool_init (IFCONFIG_POOL_30NET,
t->options.ifconfig_pool_start,
t->options.ifconfig_pool_end,
t->options.duplicate_cn);
}
else
{
ASSERT (0);
}
/* reload pool data from file */
if (t->c1.ifconfig_pool_persist)
ifconfig_pool_read (t->c1.ifconfig_pool_persist, m->ifconfig_pool);
}
/*
* Help us keep track of routing table.
*/
m->route_helper = mroute_helper_init (MULTI_CACHE_ROUTE_TTL);
/*
* Initialize route and instance reaper.
*/
m->reaper = multi_reap_new (reap_buckets_per_pass (t->options.virtual_hash_size));
/*
* Get local ifconfig address
*/
CLEAR (m->local);
ASSERT (t->c1.tuntap);
mroute_extract_in_addr_t (&m->local, t->c1.tuntap->local);
/*
* Per-client limits
*/
m->max_clients = t->options.max_clients;
/*
* Initialize multi-socket TCP I/O wait object
*/
if (tcp_mode)
m->mtcp = multi_tcp_init (t->options.max_clients, &m->max_clients);
m->tcp_queue_limit = t->options.tcp_queue_limit;
/*
* Allow client <-> client communication, without going through
* tun/tap interface and network stack?
*/
m->enable_c2c = t->options.enable_c2c;
}
const char *
multi_instance_string (const struct multi_instance *mi, bool null, struct gc_arena *gc)
{
if (mi)
{
struct buffer out = alloc_buf_gc (256, gc);
const char *cn = tls_common_name (mi->context.c2.tls_multi, true);
if (cn)
buf_printf (&out, "%s/", cn);
buf_printf (&out, "%s", mroute_addr_print (&mi->real, gc));
return BSTR (&out);
}
else if (null)
return NULL;
else
return "UNDEF";
}
void
generate_prefix (struct multi_instance *mi)
{
mi->msg_prefix = multi_instance_string (mi, true, &mi->gc);
set_prefix (mi);
}
void
ungenerate_prefix (struct multi_instance *mi)
{
mi->msg_prefix = NULL;
set_prefix (mi);
}
/*
* Tell the route helper about deleted iroutes so
* that it can update its mask of currently used
* CIDR netlengths.
*/
static void
multi_del_iroutes (struct multi_context *m,
struct multi_instance *mi)
{
const struct iroute *ir;
if (TUNNEL_TYPE (mi->context.c1.tuntap) == DEV_TYPE_TUN)
{
for (ir = mi->context.options.iroutes; ir != NULL; ir = ir->next)
mroute_helper_del_iroute (m->route_helper, ir);
}
}
static void
multi_client_disconnect_setenv (struct multi_context *m,
struct multi_instance *mi)
{
/* setenv client real IP address */
setenv_trusted (mi->context.c2.es, get_link_socket_info (&mi->context));
/* setenv stats */
setenv_counter (mi->context.c2.es, "bytes_received", mi->context.c2.link_read_bytes);
setenv_counter (mi->context.c2.es, "bytes_sent", mi->context.c2.link_write_bytes);
}
static void
multi_client_disconnect_script (struct multi_context *m,
struct multi_instance *mi)
{
if ((mi->context.c2.context_auth == CAS_SUCCEEDED && mi->connection_established_flag)
|| mi->context.c2.context_auth == CAS_PARTIAL)
{
multi_client_disconnect_setenv (m, mi);
if (plugin_defined (m->top.c1.plugins, OPENVPN_PLUGIN_CLIENT_DISCONNECT))
{
if (plugin_call (m->top.c1.plugins, OPENVPN_PLUGIN_CLIENT_DISCONNECT, NULL, mi->context.c2.es))
msg (M_WARN, "WARNING: client-disconnect plugin call failed");
}
if (mi->context.options.client_disconnect_script)
{
struct gc_arena gc = gc_new ();
struct buffer cmd = alloc_buf_gc (256, &gc);
setenv_str (mi->context.c2.es, "script_type", "client-disconnect");
buf_printf (&cmd, "%s", mi->context.options.client_disconnect_script);
system_check (BSTR (&cmd), mi->context.c2.es, S_SCRIPT, "client-disconnect command failed");
gc_free (&gc);
}
}
}
void
multi_close_instance (struct multi_context *m,
struct multi_instance *mi,
bool shutdown)
{
perf_push (PERF_MULTI_CLOSE_INSTANCE);
ASSERT (!mi->halt);
mi->halt = true;
dmsg (D_MULTI_DEBUG, "MULTI: multi_close_instance called");
/* prevent dangling pointers */
if (m->pending == mi)
multi_set_pending (m, NULL);
if (m->earliest_wakeup == mi)
m->earliest_wakeup = NULL;
if (!shutdown)
{
if (mi->did_real_hash)
{
ASSERT (hash_remove (m->hash, &mi->real));
}
if (mi->did_iter)
{
ASSERT (hash_remove (m->iter, &mi->real));
}
schedule_remove_entry (m->schedule, (struct schedule_entry *) mi);
ifconfig_pool_release (m->ifconfig_pool, mi->vaddr_handle, false);
if (mi->did_iroutes)
{
multi_del_iroutes (m, mi);
mi->did_iroutes = false;
}
if (m->mtcp)
multi_tcp_dereference_instance (m->mtcp, mi);
mbuf_dereference_instance (m->mbuf, mi);
}
multi_client_disconnect_script (m, mi);
if (mi->did_open_context)
close_context (&mi->context, SIGTERM, CC_GC_FREE);
multi_tcp_instance_specific_free (mi);
ungenerate_prefix (mi);
/*
* Don't actually delete the instance memory allocation yet,
* because virtual routes may still point to it. Let the
* vhash reaper deal with it.
*/
multi_instance_dec_refcount (mi);
perf_pop ();
}
/*
* Called on shutdown or restart.
*/
void
multi_uninit (struct multi_context *m)
{
if (m->thread_mode & MC_WORK_THREAD)
{
multi_top_free (m);
m->thread_mode = MC_UNDEF;
}
else if (m->thread_mode)
{
if (m->hash)
{
struct hash_iterator hi;
struct hash_element *he;
hash_iterator_init (m->iter, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
struct multi_instance *mi = (struct multi_instance *) he->value;
mi->did_iter = false;
multi_close_instance (m, mi, true);
}
hash_iterator_free (&hi);
multi_reap_all (m);
hash_free (m->hash);
hash_free (m->vhash);
hash_free (m->iter);
m->hash = NULL;
schedule_free (m->schedule);
mbuf_free (m->mbuf);
ifconfig_pool_free (m->ifconfig_pool);
frequency_limit_free (m->new_connection_limiter);
multi_reap_free (m->reaper);
mroute_helper_free (m->route_helper);
multi_tcp_free (m->mtcp);
m->thread_mode = MC_UNDEF;
}
}
}
/*
* Create a client instance object for a newly connected client.
*/
struct multi_instance *
multi_create_instance (struct multi_context *m, const struct mroute_addr *real)
{
struct gc_arena gc = gc_new ();
struct multi_instance *mi;
perf_push (PERF_MULTI_CREATE_INSTANCE);
msg (D_MULTI_LOW, "MULTI: multi_create_instance called");
ALLOC_OBJ_CLEAR (mi, struct multi_instance);
mutex_init (&mi->mutex);
mi->gc = gc_new ();
multi_instance_inc_refcount (mi);
mi->vaddr_handle = -1;
mi->created = now;
mroute_addr_init (&mi->real);
if (real)
{
mi->real = *real;
generate_prefix (mi);
}
mi->did_open_context = true;
inherit_context_child (&mi->context, &m->top);
if (IS_SIG (&mi->context))
goto err;
mi->context.c2.context_auth = CAS_PENDING;
if (hash_n_elements (m->hash) >= m->max_clients)
{
msg (D_MULTI_ERRORS, "MULTI: new incoming connection would exceed maximum number of clients (%d)", m->max_clients);
goto err;
}
if (!real) /* TCP mode? */
{
if (!multi_tcp_instance_specific_init (m, mi))
goto err;
generate_prefix (mi);
}
if (!hash_add (m->iter, &mi->real, mi, false))
{
msg (D_MULTI_LOW, "MULTI: unable to add real address [%s] to iterator hash table",
mroute_addr_print (&mi->real, &gc));
goto err;
}
mi->did_iter = true;
mi->context.c2.push_reply_deferred = true;
if (!multi_process_post (m, mi, MPP_PRE_SELECT))
{
msg (D_MULTI_ERRORS, "MULTI: signal occurred during client instance initialization");
goto err;
}
perf_pop ();
gc_free (&gc);
return mi;
err:
multi_close_instance (m, mi, false);
perf_pop ();
gc_free (&gc);
return NULL;
}
/*
* Dump tables -- triggered by SIGUSR2.
* If status file is defined, write to file.
* If status file is NULL, write to syslog.
*/
void
multi_print_status (struct multi_context *m, struct status_output *so, const int version)
{
if (m->hash)
{
struct gc_arena gc_top = gc_new ();
struct hash_iterator hi;
const struct hash_element *he;
status_reset (so);
if (version == 1) /* WAS: m->status_file_version */
{
/*
* Status file version 1
*/
status_printf (so, PACKAGE_NAME " CLIENT LIST");
status_printf (so, "Updated,%s", time_string (0, 0, false, &gc_top));
status_printf (so, "Common Name,Real Address,Bytes Received,Bytes Sent,Connected Since");
hash_iterator_init (m->hash, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
struct gc_arena gc = gc_new ();
const struct multi_instance *mi = (struct multi_instance *) he->value;
if (!mi->halt)
{
status_printf (so, "%s,%s," counter_format "," counter_format ",%s",
tls_common_name (mi->context.c2.tls_multi, false),
mroute_addr_print (&mi->real, &gc),
mi->context.c2.link_read_bytes,
mi->context.c2.link_write_bytes,
time_string (mi->created, 0, false, &gc));
}
gc_free (&gc);
}
hash_iterator_free (&hi);
status_printf (so, "ROUTING TABLE");
status_printf (so, "Virtual Address,Common Name,Real Address,Last Ref");
hash_iterator_init (m->vhash, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
struct gc_arena gc = gc_new ();
const struct multi_route *route = (struct multi_route *) he->value;
if (multi_route_defined (m, route))
{
const struct multi_instance *mi = route->instance;
const struct mroute_addr *ma = &route->addr;
char flags[2] = {0, 0};
if (route->flags & MULTI_ROUTE_CACHE)
flags[0] = 'C';
status_printf (so, "%s%s,%s,%s,%s",
mroute_addr_print (ma, &gc),
flags,
tls_common_name (mi->context.c2.tls_multi, false),
mroute_addr_print (&mi->real, &gc),
time_string (route->last_reference, 0, false, &gc));
}
gc_free (&gc);
}
hash_iterator_free (&hi);
status_printf (so, "GLOBAL STATS");
if (m->mbuf)
status_printf (so, "Max bcast/mcast queue length,%d",
mbuf_maximum_queued (m->mbuf));
status_printf (so, "END");
}
else if (version == 2)
{
/*
* Status file version 2
*/
status_printf (so, "TITLE,%s", title_string);
status_printf (so, "TIME,%s,%u", time_string (now, 0, false, &gc_top), (unsigned int)now);
status_printf (so, "HEADER,CLIENT_LIST,Common Name,Real Address,Virtual Address,Bytes Received,Bytes Sent,Connected Since,Connected Since (time_t)");
hash_iterator_init (m->hash, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
struct gc_arena gc = gc_new ();
const struct multi_instance *mi = (struct multi_instance *) he->value;
if (!mi->halt)
{
status_printf (so, "CLIENT_LIST,%s,%s,%s," counter_format "," counter_format ",%s,%u",
tls_common_name (mi->context.c2.tls_multi, false),
mroute_addr_print (&mi->real, &gc),
print_in_addr_t (mi->reporting_addr, IA_EMPTY_IF_UNDEF, &gc),
mi->context.c2.link_read_bytes,
mi->context.c2.link_write_bytes,
time_string (mi->created, 0, false, &gc),
(unsigned int)mi->created);
}
gc_free (&gc);
}
hash_iterator_free (&hi);
status_printf (so, "HEADER,ROUTING_TABLE,Virtual Address,Common Name,Real Address,Last Ref,Last Ref (time_t)");
hash_iterator_init (m->vhash, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
struct gc_arena gc = gc_new ();
const struct multi_route *route = (struct multi_route *) he->value;
if (multi_route_defined (m, route))
{
const struct multi_instance *mi = route->instance;
const struct mroute_addr *ma = &route->addr;
char flags[2] = {0, 0};
if (route->flags & MULTI_ROUTE_CACHE)
flags[0] = 'C';
status_printf (so, "ROUTING_TABLE,%s%s,%s,%s,%s,%u",
mroute_addr_print (ma, &gc),
flags,
tls_common_name (mi->context.c2.tls_multi, false),
mroute_addr_print (&mi->real, &gc),
time_string (route->last_reference, 0, false, &gc),
(unsigned int)route->last_reference);
}
gc_free (&gc);
}
hash_iterator_free (&hi);
if (m->mbuf)
status_printf (so, "GLOBAL_STATS,Max bcast/mcast queue length,%d",
mbuf_maximum_queued (m->mbuf));
status_printf (so, "END");
}
else
{
status_printf (so, "ERROR: bad status format version number");
}
status_flush (so);
gc_free (&gc_top);
}
}
/*
* Learn a virtual address or route.
* The learn will fail if the learn address
* script/plugin fails. In this case the
* return value may be != mi.
* Return the instance which owns this route,
* or NULL if none.
*/
static struct multi_instance *
multi_learn_addr (struct multi_context *m,
struct multi_instance *mi,
const struct mroute_addr *addr,
const unsigned int flags)
{
struct hash_element *he;
const uint32_t hv = hash_value (m->vhash, addr);
struct hash_bucket *bucket = hash_bucket (m->vhash, hv);
struct multi_route *oldroute = NULL;
struct multi_instance *owner = NULL;
hash_bucket_lock (bucket);
/* if route currently exists, get the instance which owns it */
he = hash_lookup_fast (m->vhash, bucket, addr, hv);
if (he)
oldroute = (struct multi_route *) he->value;
if (oldroute && multi_route_defined (m, oldroute))
owner = oldroute->instance;
/* do we need to add address to hash table? */
if ((!owner || owner != mi)
&& mroute_learnable_address (addr)
&& !mroute_addr_equal (addr, &m->local))
{
struct gc_arena gc = gc_new ();
struct multi_route *newroute;
bool learn_succeeded = false;
ALLOC_OBJ (newroute, struct multi_route);
newroute->addr = *addr;
newroute->instance = mi;
newroute->flags = flags;
newroute->last_reference = now;
newroute->cache_generation = 0;
/* The cache is invalidated when cache_generation is incremented */
if (flags & MULTI_ROUTE_CACHE)
newroute->cache_generation = m->route_helper->cache_generation;
if (oldroute) /* route already exists? */
{
if (route_quota_test (m, mi) && learn_address_script (m, mi, "update", &newroute->addr))
{
learn_succeeded = true;
owner = mi;
multi_instance_inc_refcount (mi);
route_quota_inc (mi);
/* delete old route */
multi_route_del (oldroute);
/* modify hash table entry, replacing old route */
he->key = &newroute->addr;
he->value = newroute;
}
}
else
{
if (route_quota_test (m, mi) && learn_address_script (m, mi, "add", &newroute->addr))
{
learn_succeeded = true;
owner = mi;
multi_instance_inc_refcount (mi);
route_quota_inc (mi);
/* add new route */
hash_add_fast (m->vhash, bucket, &newroute->addr, hv, newroute);
}
}
msg (D_MULTI_LOW, "MULTI: Learn%s: %s -> %s",
learn_succeeded ? "" : " FAILED",
mroute_addr_print (&newroute->addr, &gc),
multi_instance_string (mi, false, &gc));
if (!learn_succeeded)
free (newroute);
gc_free (&gc);
}
hash_bucket_unlock (bucket);
return owner;
}
/*
* Get client instance based on virtual address.
*/
static struct multi_instance *
multi_get_instance_by_virtual_addr (struct multi_context *m,
const struct mroute_addr *addr,
bool cidr_routing)
{
struct multi_route *route;
struct multi_instance *ret = NULL;
/* check for local address */
if (mroute_addr_equal (addr, &m->local))
return NULL;
route = (struct multi_route *) hash_lookup (m->vhash, addr);
/* does host route (possible cached) exist? */
if (route && multi_route_defined (m, route))
{
struct multi_instance *mi = route->instance;
route->last_reference = now;
ret = mi;
}
else if (cidr_routing) /* do we need to regenerate a host route cache entry? */
{
struct mroute_helper *rh = m->route_helper;
struct mroute_addr tryaddr;
int i;
mroute_helper_lock (rh);
/* cycle through each CIDR length */
for (i = 0; i < rh->n_net_len; ++i)
{
tryaddr = *addr;
tryaddr.type |= MR_WITH_NETBITS;
tryaddr.netbits = rh->net_len[i];
mroute_addr_mask_host_bits (&tryaddr);
/* look up a possible route with netbits netmask */
route = (struct multi_route *) hash_lookup (m->vhash, &tryaddr);
if (route && multi_route_defined (m, route))
{
/* found an applicable route, cache host route */
struct multi_instance *mi = route->instance;
multi_learn_addr (m, mi, addr, MULTI_ROUTE_CACHE|MULTI_ROUTE_AGEABLE);
ret = mi;
break;
}
}
mroute_helper_unlock (rh);
}
#ifdef ENABLE_DEBUG
if (check_debug_level (D_MULTI_DEBUG))
{
struct gc_arena gc = gc_new ();
const char *addr_text = mroute_addr_print (addr, &gc);
if (ret)
{
dmsg (D_MULTI_DEBUG, "GET INST BY VIRT: %s -> %s via %s",
addr_text,
multi_instance_string (ret, false, &gc),
mroute_addr_print (&route->addr, &gc));
}
else
{
dmsg (D_MULTI_DEBUG, "GET INST BY VIRT: %s [failed]",
addr_text);
}
gc_free (&gc);
}
#endif
ASSERT (!(ret && ret->halt));
return ret;
}
/*
* Helper function to multi_learn_addr().
*/
static struct multi_instance *
multi_learn_in_addr_t (struct multi_context *m,
struct multi_instance *mi,
in_addr_t a,
int netbits) /* -1 if host route, otherwise # of network bits in address */
{
struct sockaddr_in remote_si;
struct mroute_addr addr;
CLEAR (remote_si);
remote_si.sin_family = AF_INET;
remote_si.sin_addr.s_addr = htonl (a);
ASSERT (mroute_extract_sockaddr_in (&addr, &remote_si, false));
if (netbits >= 0)
{
addr.type |= MR_WITH_NETBITS;
addr.netbits = (uint8_t) netbits;
}
return multi_learn_addr (m, mi, &addr, 0);
}
/*
* A new client has connected, add routes (server -> client)
* to internal routing table.
*/
static void
multi_add_iroutes (struct multi_context *m,
struct multi_instance *mi)
{
struct gc_arena gc = gc_new ();
const struct iroute *ir;
if (TUNNEL_TYPE (mi->context.c1.tuntap) == DEV_TYPE_TUN)
{
mi->did_iroutes = true;
for (ir = mi->context.options.iroutes; ir != NULL; ir = ir->next)
{
if (ir->netbits >= 0)
msg (D_MULTI_LOW, "MULTI: internal route %s/%d -> %s",
print_in_addr_t (ir->network, 0, &gc),
ir->netbits,
multi_instance_string (mi, false, &gc));
else
msg (D_MULTI_LOW, "MULTI: internal route %s -> %s",
print_in_addr_t (ir->network, 0, &gc),
multi_instance_string (mi, false, &gc));
mroute_helper_add_iroute (m->route_helper, ir);
multi_learn_in_addr_t (m, mi, ir->network, ir->netbits);
}
}
gc_free (&gc);
}
/*
* Given an instance (new_mi), delete all other instances which use the
* same common name.
*/
static void
multi_delete_dup (struct multi_context *m, struct multi_instance *new_mi)
{
if (new_mi)
{
const char *new_cn = tls_common_name (new_mi->context.c2.tls_multi, true);
if (new_cn)
{
struct hash_iterator hi;
struct hash_element *he;
int count = 0;
hash_iterator_init (m->iter, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
struct multi_instance *mi = (struct multi_instance *) he->value;
if (mi != new_mi && !mi->halt)
{
const char *cn = tls_common_name (mi->context.c2.tls_multi, true);
if (cn && !strcmp (cn, new_cn))
{
mi->did_iter = false;
multi_close_instance (m, mi, false);
hash_iterator_delete_element (&hi);
++count;
}
}
}
hash_iterator_free (&hi);
if (count)
msg (D_MULTI_LOW, "MULTI: new connection by client '%s' will cause previous active sessions by this client to be dropped. Remember to use the --duplicate-cn option if you want multiple clients using the same certificate or username to concurrently connect.", new_cn);
}
}
}
/*
* Select a virtual address for a new client instance.
* Use an --ifconfig-push directive, if given (static IP).
* Otherwise use an --ifconfig-pool address (dynamic IP).
*/
static void
multi_select_virtual_addr (struct multi_context *m, struct multi_instance *mi)
{
struct gc_arena gc = gc_new ();
/*
* If ifconfig addresses were set by dynamic config file,
* release pool addresses, otherwise keep them.
*/
if (mi->context.options.push_ifconfig_defined)
{
/* ifconfig addresses were set statically,
release dynamic allocation */
if (mi->vaddr_handle >= 0)
{
ifconfig_pool_release (m->ifconfig_pool, mi->vaddr_handle, true);
mi->vaddr_handle = -1;
}
mi->context.c2.push_ifconfig_defined = true;
mi->context.c2.push_ifconfig_local = mi->context.options.push_ifconfig_local;
mi->context.c2.push_ifconfig_remote_netmask = mi->context.options.push_ifconfig_remote_netmask;
}
else if (m->ifconfig_pool && mi->vaddr_handle < 0) /* otherwise, choose a pool address */
{
in_addr_t local=0, remote=0;
const char *cn = NULL;
if (!mi->context.options.duplicate_cn)
cn = tls_common_name (mi->context.c2.tls_multi, true);
mi->vaddr_handle = ifconfig_pool_acquire (m->ifconfig_pool, &local, &remote, cn);
if (mi->vaddr_handle >= 0)
{
/* use pool ifconfig address(es) */
mi->context.c2.push_ifconfig_local = remote;
if (TUNNEL_TYPE (mi->context.c1.tuntap) == DEV_TYPE_TUN)
{
if (mi->context.options.ifconfig_pool_linear)
mi->context.c2.push_ifconfig_remote_netmask = mi->context.c1.tuntap->local;
else
mi->context.c2.push_ifconfig_remote_netmask = local;
mi->context.c2.push_ifconfig_defined = true;
}
else if (TUNNEL_TYPE (mi->context.c1.tuntap) == DEV_TYPE_TAP)
{
mi->context.c2.push_ifconfig_remote_netmask = mi->context.options.ifconfig_pool_netmask;
if (!mi->context.c2.push_ifconfig_remote_netmask)
mi->context.c2.push_ifconfig_remote_netmask = mi->context.c1.tuntap->remote_netmask;
if (mi->context.c2.push_ifconfig_remote_netmask)
mi->context.c2.push_ifconfig_defined = true;
else
msg (D_MULTI_ERRORS, "MULTI: no --ifconfig-pool netmask parameter is available to push to %s",
multi_instance_string (mi, false, &gc));
}
}
else
{
msg (D_MULTI_ERRORS, "MULTI: no free --ifconfig-pool addresses are available");
}
}
gc_free (&gc);
}
/*
* Set virtual address environmental variables.
*/
static void
multi_set_virtual_addr_env (struct multi_context *m, struct multi_instance *mi)
{
setenv_del (mi->context.c2.es, "ifconfig_pool_local_ip");
setenv_del (mi->context.c2.es, "ifconfig_pool_remote_ip");
setenv_del (mi->context.c2.es, "ifconfig_pool_netmask");
if (mi->context.c2.push_ifconfig_defined)
{
setenv_in_addr_t (mi->context.c2.es,
"ifconfig_pool_remote_ip",
mi->context.c2.push_ifconfig_local,
SA_SET_IF_NONZERO);
if (TUNNEL_TYPE (mi->context.c1.tuntap) == DEV_TYPE_TUN)
{
setenv_in_addr_t (mi->context.c2.es,
"ifconfig_pool_local_ip",
mi->context.c2.push_ifconfig_remote_netmask,
SA_SET_IF_NONZERO);
}
else if (TUNNEL_TYPE (mi->context.c1.tuntap) == DEV_TYPE_TAP)
{
setenv_in_addr_t (mi->context.c2.es,
"ifconfig_pool_netmask",
mi->context.c2.push_ifconfig_remote_netmask,
SA_SET_IF_NONZERO);
}
}
}
/*
* Called after client-connect script or plug-in is called
*/
static void
multi_client_connect_post (struct multi_context *m,
struct multi_instance *mi,
const char *dc_file,
unsigned int option_permissions_mask,
unsigned int *option_types_found)
{
/* Did script generate a dynamic config file? */
if (test_file (dc_file))
{
options_server_import (&mi->context.options,
dc_file,
D_IMPORT_ERRORS|M_OPTERR,
option_permissions_mask,
option_types_found,
mi->context.c2.es);
if (!delete_file (dc_file))
msg (D_MULTI_ERRORS, "MULTI: problem deleting temporary file: %s",
dc_file);
/*
* If the --client-connect script generates a config file
* with an --ifconfig-push directive, it will override any
* --ifconfig-push directive from the --client-config-dir
* directory or any --ifconfig-pool dynamic address.
*/
multi_select_virtual_addr (m, mi);
multi_set_virtual_addr_env (m, mi);
}
}
/*
* Called as soon as the SSL/TLS connection authenticates.
*
* Instance-specific directives to be processed:
*
* iroute start-ip end-ip
* ifconfig-push local remote-netmask
* push
*/
static void
multi_connection_established (struct multi_context *m, struct multi_instance *mi)
{
if (tls_authenticated (mi->context.c2.tls_multi))
{
struct gc_arena gc = gc_new ();
unsigned int option_types_found = 0;
const unsigned int option_permissions_mask = OPT_P_INSTANCE|OPT_P_INHERIT|OPT_P_PUSH|OPT_P_TIMER|OPT_P_CONFIG|OPT_P_ECHO;
int cc_succeeded = true; /* client connect script status */
int cc_succeeded_count = 0;
ASSERT (mi->context.c1.tuntap);
/* lock down the common name so it can't change during future TLS renegotiations */
tls_lock_common_name (mi->context.c2.tls_multi);
/* generate a msg() prefix for this client instance */
generate_prefix (mi);
/* delete instances of previous clients with same common-name */
if (!mi->context.options.duplicate_cn)
multi_delete_dup (m, mi);
/* reset pool handle to null */
mi->vaddr_handle = -1;
/*
* Try to source a dynamic config file from the
* --client-config-dir directory.
*/
if (mi->context.options.client_config_dir)
{
const char *ccd_file;
ccd_file = gen_path (mi->context.options.client_config_dir,
tls_common_name (mi->context.c2.tls_multi, false),
&gc);
/* try common-name file */
if (test_file (ccd_file))
{
options_server_import (&mi->context.options,
ccd_file,
D_IMPORT_ERRORS|M_OPTERR,
option_permissions_mask,
&option_types_found,
mi->context.c2.es);
}
else /* try default file */
{
ccd_file = gen_path (mi->context.options.client_config_dir,
CCD_DEFAULT,
&gc);
if (test_file (ccd_file))
{
options_server_import (&mi->context.options,
ccd_file,
D_IMPORT_ERRORS|M_OPTERR,
option_permissions_mask,
&option_types_found,
mi->context.c2.es);
}
}
}
/*
* Select a virtual address from either --ifconfig-push in --client-config-dir file
* or --ifconfig-pool.
*/
multi_select_virtual_addr (m, mi);
/* setenv incoming cert common name for script */
setenv_str (mi->context.c2.es, "common_name", tls_common_name (mi->context.c2.tls_multi, true));
/* setenv client real IP address */
setenv_trusted (mi->context.c2.es, get_link_socket_info (&mi->context));
/* setenv client virtual IP address */
multi_set_virtual_addr_env (m, mi);
/*
* Call client-connect plug-in.
*/
if (plugin_defined (m->top.c1.plugins, OPENVPN_PLUGIN_CLIENT_CONNECT))
{
const char *dc_file = create_temp_filename (mi->context.options.tmp_dir, &gc);
delete_file (dc_file);
if (plugin_call (m->top.c1.plugins, OPENVPN_PLUGIN_CLIENT_CONNECT, dc_file, mi->context.c2.es))
{
msg (M_WARN, "WARNING: client-connect plugin call failed");
cc_succeeded = false;
}
else
{
multi_client_connect_post (m, mi, dc_file, option_permissions_mask, &option_types_found);
++cc_succeeded_count;
}
}
/*
* Run --client-connect script.
*/
if (mi->context.options.client_connect_script && cc_succeeded)
{
struct buffer cmd = alloc_buf_gc (256, &gc);
const char *dc_file = NULL;
setenv_str (mi->context.c2.es, "script_type", "client-connect");
dc_file = create_temp_filename (mi->context.options.tmp_dir, &gc);
delete_file (dc_file);
buf_printf (&cmd, "%s %s",
mi->context.options.client_connect_script,
dc_file);
if (system_check (BSTR (&cmd), mi->context.c2.es, S_SCRIPT, "client-connect command failed"))
{
multi_client_connect_post (m, mi, dc_file, option_permissions_mask, &option_types_found);
++cc_succeeded_count;
}
else
cc_succeeded = false;
}
/*
* Check for "disable" directive in client-config-dir file
* or config file generated by --client-connect script.
*/
if (mi->context.options.disable)
{
msg (D_MULTI_ERRORS, "MULTI: client has been rejected due to 'disable' directive");
cc_succeeded = false;
}
if (cc_succeeded)
{
/*
* Process sourced options.
*/
do_deferred_options (&mi->context, option_types_found);
/*
* make sure we got ifconfig settings from somewhere
*/
if (!mi->context.c2.push_ifconfig_defined)
{
msg (D_MULTI_ERRORS, "MULTI: no dynamic or static remote --ifconfig address is available for %s",
multi_instance_string (mi, false, &gc));
}
/*
* For routed tunnels, set up internal route to endpoint
* plus add all iroute routes.
*/
if (TUNNEL_TYPE (mi->context.c1.tuntap) == DEV_TYPE_TUN)
{
if (mi->context.c2.push_ifconfig_defined)
{
multi_learn_in_addr_t (m, mi, mi->context.c2.push_ifconfig_local, -1);
msg (D_MULTI_LOW, "MULTI: primary virtual IP for %s: %s",
multi_instance_string (mi, false, &gc),
print_in_addr_t (mi->context.c2.push_ifconfig_local, 0, &gc));
}
/* add routes locally, pointing to new client, if
--iroute options have been specified */
multi_add_iroutes (m, mi);
/*
* iroutes represent subnets which are "owned" by a particular
* client. Therefore, do not actually push a route to a client
* if it matches one of the client's iroutes.
*/
remove_iroutes_from_push_route_list (&mi->context.options);
}
else if (mi->context.options.iroutes)
{
msg (D_MULTI_ERRORS, "MULTI: --iroute options rejected for %s -- iroute only works with tun-style tunnels",
multi_instance_string (mi, false, &gc));
}
/* set our client's VPN endpoint for status reporting purposes */
mi->reporting_addr = mi->context.c2.push_ifconfig_local;
/* set context-level authentication flag */
mi->context.c2.context_auth = CAS_SUCCEEDED;
}
else
{
/* set context-level authentication flag */
mi->context.c2.context_auth = cc_succeeded_count ? CAS_PARTIAL : CAS_FAILED;
}
/* set flag so we don't get called again */
mi->connection_established_flag = true;
gc_free (&gc);
}
/*
* Reply now to client's PUSH_REQUEST query
*/
mi->context.c2.push_reply_deferred = false;
}
/*
* Add a mbuf buffer to a particular
* instance.
*/
void
multi_add_mbuf (struct multi_context *m,
struct multi_instance *mi,
struct mbuf_buffer *mb)
{
if (multi_output_queue_ready (m, mi))
{
struct mbuf_item item;
item.buffer = mb;
item.instance = mi;
mbuf_add_item (m->mbuf, &item);
}
else
{
msg (D_MULTI_DROPPED, "MULTI: packet dropped due to output saturation (multi_add_mbuf)");
}
}
/*
* Add a packet to a client instance output queue.
*/
static inline void
multi_unicast (struct multi_context *m,
const struct buffer *buf,
struct multi_instance *mi)
{
struct mbuf_buffer *mb;
if (BLEN (buf) > 0)
{
mb = mbuf_alloc_buf (buf);
mb->flags = MF_UNICAST;
multi_add_mbuf (m, mi, mb);
mbuf_free_buf (mb);
}
}
/*
* Broadcast a packet to all clients.
*/
void
multi_bcast (struct multi_context *m,
const struct buffer *buf,
struct multi_instance *omit)
{
struct hash_iterator hi;
struct hash_element *he;
struct multi_instance *mi;
struct mbuf_buffer *mb;
if (BLEN (buf) > 0)
{
perf_push (PERF_MULTI_BCAST);
#ifdef MULTI_DEBUG_EVENT_LOOP
printf ("BCAST len=%d\n", BLEN (buf));
#endif
mb = mbuf_alloc_buf (buf);
hash_iterator_init (m->iter, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
mi = (struct multi_instance *) he->value;
if (mi != omit && !mi->halt)
multi_add_mbuf (m, mi, mb);
}
hash_iterator_free (&hi);
mbuf_free_buf (mb);
perf_pop ();
}
}
/*
* Given a time delta, indicating that we wish to be
* awoken by the scheduler at time now + delta, figure
* a sigma parameter (in microseconds) that represents
* a sort of fuzz factor around delta, so that we're
* really telling the scheduler to wake us up any time
* between now + delta - sigma and now + delta + sigma.
*
* The sigma parameter helps the scheduler to run more efficiently.
* Sigma should be no larger than TV_WITHIN_SIGMA_MAX_USEC
*/
static inline unsigned int
compute_wakeup_sigma (const struct timeval *delta)
{
if (delta->tv_sec < 1)
{
/* if < 1 sec, fuzz = # of microseconds / 8 */
return delta->tv_usec >> 3;
}
else
{
/* if < 10 minutes, fuzz = 13.1% of timeout */
if (delta->tv_sec < 600)
return delta->tv_sec << 17;
else
return 120000000; /* if >= 10 minutes, fuzz = 2 minutes */
}
}
/*
* Figure instance-specific timers, convert
* earliest to absolute time in mi->wakeup,
* call scheduler with our future wakeup time.
*
* Also close context on signal.
*/
bool
multi_process_post (struct multi_context *m, struct multi_instance *mi, const unsigned int flags)
{
bool ret = true;
if (!IS_SIG (&mi->context) && ((flags & MPP_PRE_SELECT) || ((flags & MPP_CONDITIONAL_PRE_SELECT) && !ANY_OUT (&mi->context))))
{
/* figure timeouts and fetch possible outgoing
to_link packets (such as ping or TLS control) */
pre_select (&mi->context);
if (!IS_SIG (&mi->context))
{
/* calculate an absolute wakeup time */
ASSERT (!gettimeofday (&mi->wakeup, NULL));
tv_add (&mi->wakeup, &mi->context.c2.timeval);
/* tell scheduler to wake us up at some point in the future */
schedule_add_entry (m->schedule,
(struct schedule_entry *) mi,
&mi->wakeup,
compute_wakeup_sigma (&mi->context.c2.timeval));
/* connection is "established" when SSL/TLS key negotiation succeeds
and (if specified) auth user/pass succeeds */
if (!mi->connection_established_flag && CONNECTION_ESTABLISHED (&mi->context))
multi_connection_established (m, mi);
}
}
if (IS_SIG (&mi->context))
{
if (flags & MPP_CLOSE_ON_SIGNAL)
{
multi_close_instance_on_signal (m, mi);
ret = false;
}
}
else
{
/* continue to pend on output? */
multi_set_pending (m, ANY_OUT (&mi->context) ? mi : NULL);
#ifdef MULTI_DEBUG_EVENT_LOOP
printf ("POST %s[%d] to=%d lo=%d/%d w=%d/%d\n",
id(mi),
(int) (mi == m->pending),
mi ? mi->context.c2.to_tun.len : -1,
mi ? mi->context.c2.to_link.len : -1,
(mi && mi->context.c2.fragment) ? mi->context.c2.fragment->outgoing.len : -1,
(int)mi->context.c2.timeval.tv_sec,
(int)mi->context.c2.timeval.tv_usec);
#endif
}
if ((flags & MPP_RECORD_TOUCH) && m->mpp_touched)
*m->mpp_touched = mi;
return ret;
}
/*
* Process packets in the TCP/UDP socket -> TUN/TAP interface direction,
* i.e. client -> server direction.
*/
bool
multi_process_incoming_link (struct multi_context *m, struct multi_instance *instance, const unsigned int mpp_flags)
{
struct gc_arena gc = gc_new ();
struct context *c;
struct mroute_addr src, dest;
unsigned int mroute_flags;
struct multi_instance *mi;
bool ret = true;
if (m->pending)
return true;
if (!instance)
{
#ifdef MULTI_DEBUG_EVENT_LOOP
printf ("TCP/UDP -> TUN [%d]\n", BLEN (&m->top.c2.buf));
#endif
multi_set_pending (m, multi_get_create_instance_udp (m));
}
else
multi_set_pending (m, instance);
if (m->pending)
{
set_prefix (m->pending);
/* get instance context */
c = &m->pending->context;
if (!instance)
{
/* transfer packet pointer from top-level context buffer to instance */
c->c2.buf = m->top.c2.buf;
/* transfer from-addr from top-level context buffer to instance */
c->c2.from = m->top.c2.from;
}
if (BLEN (&c->c2.buf) > 0)
{
/* decrypt in instance context */
process_incoming_link (c);
if (TUNNEL_TYPE (m->top.c1.tuntap) == DEV_TYPE_TUN)
{
/* extract packet source and dest addresses */
mroute_flags = mroute_extract_addr_from_packet (&src,
&dest,
&c->c2.to_tun,
DEV_TYPE_TUN);
/* drop packet if extract failed */
if (!(mroute_flags & MROUTE_EXTRACT_SUCCEEDED))
{
c->c2.to_tun.len = 0;
}
/* make sure that source address is associated with this client */
else if (multi_get_instance_by_virtual_addr (m, &src, true) != m->pending)
{
msg (D_MULTI_DROPPED, "MULTI: bad source address from client [%s], packet dropped",
mroute_addr_print (&src, &gc));
c->c2.to_tun.len = 0;
}
/* client-to-client communication enabled? */
else if (m->enable_c2c)
{
/* multicast? */
if (mroute_flags & MROUTE_EXTRACT_MCAST)
{
/* for now, treat multicast as broadcast */
multi_bcast (m, &c->c2.to_tun, m->pending);
}
else /* possible client to client routing */
{
ASSERT (!(mroute_flags & MROUTE_EXTRACT_BCAST));
mi = multi_get_instance_by_virtual_addr (m, &dest, true);
/* if dest addr is a known client, route to it */
if (mi)
{
multi_unicast (m, &c->c2.to_tun, mi);
register_activity (c);
c->c2.to_tun.len = 0;
}
}
}
}
else if (TUNNEL_TYPE (m->top.c1.tuntap) == DEV_TYPE_TAP)
{
/* extract packet source and dest addresses */
mroute_flags = mroute_extract_addr_from_packet (&src,
&dest,
&c->c2.to_tun,
DEV_TYPE_TAP);
if (mroute_flags & MROUTE_EXTRACT_SUCCEEDED)
{
if (multi_learn_addr (m, m->pending, &src, 0) == m->pending)
{
/* check for broadcast */
if (m->enable_c2c)
{
if (mroute_flags & (MROUTE_EXTRACT_BCAST|MROUTE_EXTRACT_MCAST))
{
multi_bcast (m, &c->c2.to_tun, m->pending);
}
else /* try client-to-client routing */
{
mi = multi_get_instance_by_virtual_addr (m, &dest, false);
/* if dest addr is a known client, route to it */
if (mi)
{
multi_unicast (m, &c->c2.to_tun, mi);
register_activity (c);
c->c2.to_tun.len = 0;
}
}
}
}
else
{
msg (D_MULTI_DROPPED, "MULTI: bad source address from client [%s], packet dropped",
mroute_addr_print (&src, &gc));
c->c2.to_tun.len = 0;
}
}
else
{
c->c2.to_tun.len = 0;
}
}
}
/* postprocess and set wakeup */
ret = multi_process_post (m, m->pending, mpp_flags);
clear_prefix ();
}
gc_free (&gc);
return ret;
}
/*
* Process packets in the TUN/TAP interface -> TCP/UDP socket direction,
* i.e. server -> client direction.
*/
bool
multi_process_incoming_tun (struct multi_context *m, const unsigned int mpp_flags)
{
struct gc_arena gc = gc_new ();
bool ret = true;
if (BLEN (&m->top.c2.buf) > 0)
{
unsigned int mroute_flags;
struct mroute_addr src, dest;
const int dev_type = TUNNEL_TYPE (m->top.c1.tuntap);
#ifdef MULTI_DEBUG_EVENT_LOOP
printf ("TUN -> TCP/UDP [%d]\n", BLEN (&m->top.c2.buf));
#endif
if (m->pending)
return true;
/*
* Route an incoming tun/tap packet to
* the appropriate multi_instance object.
*/
mroute_flags = mroute_extract_addr_from_packet (&src,
&dest,
&m->top.c2.buf,
dev_type);
if (mroute_flags & MROUTE_EXTRACT_SUCCEEDED)
{
struct context *c;
/* broadcast or multicast dest addr? */
if (mroute_flags & (MROUTE_EXTRACT_BCAST|MROUTE_EXTRACT_MCAST))
{
/* for now, treat multicast as broadcast */
multi_bcast (m, &m->top.c2.buf, NULL);
}
else
{
multi_set_pending (m, multi_get_instance_by_virtual_addr (m, &dest, dev_type == DEV_TYPE_TUN));
if (m->pending)
{
/* get instance context */
c = &m->pending->context;
set_prefix (m->pending);
if (multi_output_queue_ready (m, m->pending))
{
/* transfer packet pointer from top-level context buffer to instance */
c->c2.buf = m->top.c2.buf;
}
else
{
/* drop packet */
msg (D_MULTI_DROPPED, "MULTI: packet dropped due to output saturation (multi_process_incoming_tun)");
buf_clear (&c->c2.buf);
}
/* encrypt in instance context */
process_incoming_tun (c);
/* postprocess and set wakeup */
ret = multi_process_post (m, m->pending, mpp_flags);
clear_prefix ();
}
}
}
}
gc_free (&gc);
return ret;
}
/*
* Process a possible client-to-client/bcast/mcast message in the
* queue.
*/
struct multi_instance *
multi_get_queue (struct mbuf_set *ms)
{
struct mbuf_item item;
if (mbuf_extract_item (ms, &item, true)) /* cleartext IP packet */
{
unsigned int pipv4_flags = PIPV4_PASSTOS;
set_prefix (item.instance);
item.instance->context.c2.buf = item.buffer->buf;
if (item.buffer->flags & MF_UNICAST) /* --mssfix doesn't make sense for broadcast or multicast */
pipv4_flags |= PIPV4_MSSFIX;
process_ipv4_header (&item.instance->context, pipv4_flags, &item.instance->context.c2.buf);
encrypt_sign (&item.instance->context, true);
mbuf_free_buf (item.buffer);
dmsg (D_MULTI_DEBUG, "MULTI: C2C/MCAST/BCAST");
clear_prefix ();
return item.instance;
}
else
{
return NULL;
}
}
/*
* Called when an I/O wait times out. Usually means that a particular
* client instance object needs timer-based service.
*/
bool
multi_process_timeout (struct multi_context *m, const unsigned int mpp_flags)
{
bool ret = true;
#ifdef MULTI_DEBUG_EVENT_LOOP
printf ("%s -> TIMEOUT\n", id(m->earliest_wakeup));
#endif
/* instance marked for wakeup? */
if (m->earliest_wakeup)
{
set_prefix (m->earliest_wakeup);
ret = multi_process_post (m, m->earliest_wakeup, mpp_flags);
m->earliest_wakeup = NULL;
clear_prefix ();
}
return ret;
}
/*
* Drop a TUN/TAP outgoing packet..
*/
void
multi_process_drop_outgoing_tun (struct multi_context *m, const unsigned int mpp_flags)
{
struct multi_instance *mi = m->pending;
ASSERT (mi);
set_prefix (mi);
msg (D_MULTI_ERRORS, "MULTI: Outgoing TUN queue full, dropped packet len=%d",
mi->context.c2.to_tun.len);
buf_reset (&mi->context.c2.to_tun);
multi_process_post (m, mi, mpp_flags);
clear_prefix ();
}
/*
* Per-client route quota management
*/
void
route_quota_exceeded (const struct multi_context *m, const struct multi_instance *mi)
{
struct gc_arena gc = gc_new ();
msg (D_ROUTE_QUOTA, "MULTI ROUTE: route quota (%d) exceeded for %s (see --max-routes-per-client option)",
mi->context.options.max_routes_per_client,
multi_instance_string (mi, false, &gc));
gc_free (&gc);
}
#ifdef ENABLE_DEBUG
/*
* Flood clients with random packets
*/
static void
gremlin_flood_clients (struct multi_context *m)
{
const int level = GREMLIN_PACKET_FLOOD_LEVEL (m->top.options.gremlin);
if (level)
{
struct gc_arena gc = gc_new ();
struct buffer buf = alloc_buf_gc (BUF_SIZE (&m->top.c2.frame), &gc);
struct packet_flood_parms parm = get_packet_flood_parms (level);
int i;
ASSERT (buf_init (&buf, FRAME_HEADROOM (&m->top.c2.frame)));
parm.packet_size = min_int (parm.packet_size, MAX_RW_SIZE_TUN (&m->top.c2.frame));
msg (D_GREMLIN, "GREMLIN_FLOOD_CLIENTS: flooding clients with %d packets of size %d",
parm.n_packets,
parm.packet_size);
for (i = 0; i < parm.packet_size; ++i)
ASSERT (buf_write_u8 (&buf, get_random () & 0xFF));
for (i = 0; i < parm.n_packets; ++i)
multi_bcast (m, &buf, NULL);
gc_free (&gc);
}
}
#endif
/*
* Process timers in the top-level context
*/
void
multi_process_per_second_timers_dowork (struct multi_context *m)
{
/* possibly reap instances/routes in vhash */
multi_reap_process (m);
/* possibly print to status log */
if (m->top.c1.status_output)
{
if (status_trigger (m->top.c1.status_output))
multi_print_status (m, m->top.c1.status_output, m->status_file_version);
}
/* possibly flush ifconfig-pool file */
multi_ifconfig_pool_persist (m, false);
#ifdef ENABLE_DEBUG
gremlin_flood_clients (m);
#endif
}
void
multi_top_init (struct multi_context *m, const struct context *top, const bool alloc_buffers)
{
inherit_context_top (&m->top, top);
m->top.c2.buffers = NULL;
if (alloc_buffers)
m->top.c2.buffers = init_context_buffers (&top->c2.frame);
}
void
multi_top_free (struct multi_context *m)
{
close_context (&m->top, -1, CC_GC_FREE);
free_context_buffers (m->top.c2.buffers);
}
/*
* Return true if event loop should break,
* false if it should continue.
*/
bool
multi_process_signal (struct multi_context *m)
{
if (m->top.sig->signal_received == SIGUSR2)
{
struct status_output *so = status_open (NULL, 0, M_INFO, NULL, 0);
multi_print_status (m, so, m->status_file_version);
status_close (so);
m->top.sig->signal_received = 0;
return false;
}
return true;
}
/*
* Called when an instance should be closed due to the
* reception of a soft signal.
*/
void
multi_close_instance_on_signal (struct multi_context *m, struct multi_instance *mi)
{
remap_signal (&mi->context);
set_prefix (mi);
print_signal (mi->context.sig, "client-instance", D_MULTI_LOW);
clear_prefix ();
multi_close_instance (m, mi, false);
}
static void
multi_signal_instance (struct multi_context *m, struct multi_instance *mi, const int sig)
{
mi->context.sig->signal_received = sig;
multi_close_instance_on_signal (m, mi);
}
/*
* Management subsystem callbacks
*/
#ifdef ENABLE_MANAGEMENT
static void
management_callback_status (void *arg, const int version, struct status_output *so)
{
struct multi_context *m = (struct multi_context *) arg;
if (!version)
multi_print_status (m, so, m->status_file_version);
else
multi_print_status (m, so, version);
}
static int
management_callback_kill_by_cn (void *arg, const char *del_cn)
{
struct multi_context *m = (struct multi_context *) arg;
struct hash_iterator hi;
struct hash_element *he;
int count = 0;
hash_iterator_init (m->iter, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
struct multi_instance *mi = (struct multi_instance *) he->value;
if (!mi->halt)
{
const char *cn = tls_common_name (mi->context.c2.tls_multi, false);
if (cn && !strcmp (cn, del_cn))
{
multi_signal_instance (m, mi, SIGTERM);
++count;
}
}
}
hash_iterator_free (&hi);
return count;
}
static int
management_callback_kill_by_addr (void *arg, const in_addr_t addr, const int port)
{
struct multi_context *m = (struct multi_context *) arg;
struct hash_iterator hi;
struct hash_element *he;
struct sockaddr_in saddr;
struct mroute_addr maddr;
int count = 0;
CLEAR (saddr);
saddr.sin_family = AF_INET;
saddr.sin_addr.s_addr = htonl (addr);
saddr.sin_port = htons (port);
if (mroute_extract_sockaddr_in (&maddr, &saddr, true))
{
hash_iterator_init (m->iter, &hi, true);
while ((he = hash_iterator_next (&hi)))
{
struct multi_instance *mi = (struct multi_instance *) he->value;
if (!mi->halt && mroute_addr_equal (&maddr, &mi->real))
{
multi_signal_instance (m, mi, SIGTERM);
++count;
}
}
hash_iterator_free (&hi);
}
return count;
}
static void
management_delete_event (void *arg, event_t event)
{
struct multi_context *m = (struct multi_context *) arg;
if (m->mtcp)
multi_tcp_delete_event (m->mtcp, event);
}
#endif
void
init_management_callback_multi (struct multi_context *m)
{
#ifdef ENABLE_MANAGEMENT
if (management)
{
struct management_callback cb;
CLEAR (cb);
cb.arg = m;
cb.status = management_callback_status;
cb.show_net = management_show_net_callback;
cb.kill_by_cn = management_callback_kill_by_cn;
cb.kill_by_addr = management_callback_kill_by_addr;
cb.delete_event = management_delete_event;
management_set_callback (management, &cb);
}
#endif
}
void
uninit_management_callback_multi (struct multi_context *m)
{
uninit_management_callback ();
}
/*
* Top level event loop.
*/
void
tunnel_server (struct context *top)
{
ASSERT (top->options.mode == MODE_SERVER);
switch (top->options.proto) {
case PROTO_UDPv4:
tunnel_server_udp (top);
break;
case PROTO_TCPv4_SERVER:
tunnel_server_tcp (top);
break;
default:
ASSERT (0);
}
}
#else
static void dummy(void) {}
#endif /* P2MP_SERVER */
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