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|
/*
This file is part of GNUnet
Copyright (C) 2010-2017 GNUnet e.V.
GNUnet 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 3, or (at your
option) any later version.
GNUnet 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 GNUnet; see the file COPYING. If not, write to the
Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
/**
* @file transport/plugin_transport_udp.c
* @brief Implementation of the UDP transport protocol
* @author Christian Grothoff
* @author Nathan Evans
* @author Matthias Wachs
*/
#include "platform.h"
#include "plugin_transport_udp.h"
#include "gnunet_hello_lib.h"
#include "gnunet_util_lib.h"
#include "gnunet_fragmentation_lib.h"
#include "gnunet_nat_service.h"
#include "gnunet_protocols.h"
#include "gnunet_resolver_service.h"
#include "gnunet_signatures.h"
#include "gnunet_constants.h"
#include "gnunet_statistics_service.h"
#include "gnunet_transport_service.h"
#include "gnunet_transport_plugin.h"
#include "transport.h"
#define LOG(kind,...) GNUNET_log_from (kind, "transport-udp", __VA_ARGS__)
/**
* After how much inactivity should a UDP session time out?
*/
#define UDP_SESSION_TIME_OUT GNUNET_TIME_relative_multiply (GNUNET_TIME_UNIT_SECONDS, 60)
/**
* Number of messages we can defragment in parallel. We only really
* defragment 1 message at a time, but if messages get re-ordered, we
* may want to keep knowledge about the previous message to avoid
* discarding the current message in favor of a single fragment of a
* previous message. 3 should be good since we don't expect massive
* message reorderings with UDP.
*/
#define UDP_MAX_MESSAGES_IN_DEFRAG 3
/**
* We keep a defragmentation queue per sender address. How many
* sender addresses do we support at the same time? Memory consumption
* is roughly a factor of 32k * #UDP_MAX_MESSAGES_IN_DEFRAG times this
* value. (So 128 corresponds to 12 MB and should suffice for
* connecting to roughly 128 peers via UDP).
*/
#define UDP_MAX_SENDER_ADDRESSES_WITH_DEFRAG 128
/**
* UDP Message-Packet header (after defragmentation).
*/
struct UDPMessage
{
/**
* Message header.
*/
struct GNUNET_MessageHeader header;
/**
* Always zero for now.
*/
uint32_t reserved;
/**
* What is the identity of the sender
*/
struct GNUNET_PeerIdentity sender;
};
/**
* Closure for #append_port().
*/
struct PrettyPrinterContext
{
/**
* DLL
*/
struct PrettyPrinterContext *next;
/**
* DLL
*/
struct PrettyPrinterContext *prev;
/**
* Our plugin.
*/
struct Plugin *plugin;
/**
* Resolver handle
*/
struct GNUNET_RESOLVER_RequestHandle *resolver_handle;
/**
* Function to call with the result.
*/
GNUNET_TRANSPORT_AddressStringCallback asc;
/**
* Clsoure for @e asc.
*/
void *asc_cls;
/**
* Timeout task
*/
struct GNUNET_SCHEDULER_Task *timeout_task;
/**
* Is this an IPv6 address?
*/
int ipv6;
/**
* Options
*/
uint32_t options;
/**
* Port to add after the IP address.
*/
uint16_t port;
};
/**
* Session with another peer.
*/
struct GNUNET_ATS_Session
{
/**
* Which peer is this session for?
*/
struct GNUNET_PeerIdentity target;
/**
* Tokenizer for inbound messages.
*/
struct GNUNET_MessageStreamTokenizer *mst;
/**
* Plugin this session belongs to.
*/
struct Plugin *plugin;
/**
* Context for dealing with fragments.
*/
struct UDP_FragmentationContext *frag_ctx;
/**
* Desired delay for next sending we send to other peer
*/
struct GNUNET_TIME_Relative flow_delay_for_other_peer;
/**
* Desired delay for transmissions we received from other peer.
* This is for full messages, the value needs to be adjusted for
* fragmented messages.
*/
struct GNUNET_TIME_Relative flow_delay_from_other_peer;
/**
* Session timeout task
*/
struct GNUNET_SCHEDULER_Task *timeout_task;
/**
* When does this session time out?
*/
struct GNUNET_TIME_Absolute timeout;
/**
* What time did we last transmit?
*/
struct GNUNET_TIME_Absolute last_transmit_time;
/**
* expected delay for ACKs
*/
struct GNUNET_TIME_Relative last_expected_ack_delay;
/**
* desired delay between UDP messages
*/
struct GNUNET_TIME_Relative last_expected_msg_delay;
/**
* Our own address.
*/
struct GNUNET_HELLO_Address *address;
/**
* Number of bytes waiting for transmission to this peer.
*/
unsigned long long bytes_in_queue;
/**
* Number of messages waiting for transmission to this peer.
*/
unsigned int msgs_in_queue;
/**
* Reference counter to indicate that this session is
* currently being used and must not be destroyed;
* setting @e in_destroy will destroy it as soon as
* possible.
*/
unsigned int rc;
/**
* Network type of the address.
*/
enum GNUNET_ATS_Network_Type scope;
/**
* Is this session about to be destroyed (sometimes we cannot
* destroy a session immediately as below us on the stack
* there might be code that still uses it; in this case,
* @e rc is non-zero).
*/
int in_destroy;
};
/**
* Data structure to track defragmentation contexts based
* on the source of the UDP traffic.
*/
struct DefragContext
{
/**
* Defragmentation context.
*/
struct GNUNET_DEFRAGMENT_Context *defrag;
/**
* Reference to master plugin struct.
*/
struct Plugin *plugin;
/**
* Node in the defrag heap.
*/
struct GNUNET_CONTAINER_HeapNode *hnode;
/**
* Source address this receive context is for (allocated at the
* end of the struct).
*/
const union UdpAddress *udp_addr;
/**
* Who's message(s) are we defragmenting here?
* Only initialized once we succeeded and
* @e have_sender is set.
*/
struct GNUNET_PeerIdentity sender;
/**
* Length of @e udp_addr.
*/
size_t udp_addr_len;
/**
* Network type the address belongs to.
*/
enum GNUNET_ATS_Network_Type network_type;
/**
* Has the @e sender field been initialized yet?
*/
int have_sender;
};
/**
* Context to send fragmented messages
*/
struct UDP_FragmentationContext
{
/**
* Next in linked list
*/
struct UDP_FragmentationContext *next;
/**
* Previous in linked list
*/
struct UDP_FragmentationContext *prev;
/**
* The plugin
*/
struct Plugin *plugin;
/**
* Handle for fragmentation.
*/
struct GNUNET_FRAGMENT_Context *frag;
/**
* The session this fragmentation context belongs to
*/
struct GNUNET_ATS_Session *session;
/**
* Function to call upon completion of the transmission.
*/
GNUNET_TRANSPORT_TransmitContinuation cont;
/**
* Closure for @e cont.
*/
void *cont_cls;
/**
* Start time.
*/
struct GNUNET_TIME_Absolute start_time;
/**
* Transmission time for the next fragment. Incremented by
* the @e flow_delay_from_other_peer for each fragment when
* we setup the fragments.
*/
struct GNUNET_TIME_Absolute next_frag_time;
/**
* Desired delay for transmissions we received from other peer.
* Adjusted to be per fragment (UDP_MTU), even though on the
* wire it was for "full messages".
*/
struct GNUNET_TIME_Relative flow_delay_from_other_peer;
/**
* Message timeout
*/
struct GNUNET_TIME_Absolute timeout;
/**
* Payload size of original unfragmented message
*/
size_t payload_size;
/**
* Bytes used to send all fragments on wire including UDP overhead
*/
size_t on_wire_size;
};
/**
* Function called when a message is removed from the
* transmission queue.
*
* @param cls closure
* @param udpw message wrapper finished
* @param result #GNUNET_OK on success (message was sent)
* #GNUNET_SYSERR if the target disconnected
* or we had a timeout or other trouble sending
*/
typedef void
(*QueueContinuation) (void *cls,
struct UDP_MessageWrapper *udpw,
int result);
/**
* Information we track for each message in the queue.
*/
struct UDP_MessageWrapper
{
/**
* Session this message belongs to
*/
struct GNUNET_ATS_Session *session;
/**
* DLL of messages, previous element
*/
struct UDP_MessageWrapper *prev;
/**
* DLL of messages, next element
*/
struct UDP_MessageWrapper *next;
/**
* Message with @e msg_size bytes including UDP-specific overhead.
*/
char *msg_buf;
/**
* Function to call once the message wrapper is being removed
* from the queue (with success or failure).
*/
QueueContinuation qc;
/**
* Closure for @e qc.
*/
void *qc_cls;
/**
* External continuation to call upon completion of the
* transmission, NULL if this queue entry is not for a
* message from the application.
*/
GNUNET_TRANSPORT_TransmitContinuation cont;
/**
* Closure for @e cont.
*/
void *cont_cls;
/**
* Fragmentation context.
* frag_ctx == NULL if transport <= MTU
* frag_ctx != NULL if transport > MTU
*/
struct UDP_FragmentationContext *frag_ctx;
/**
* Message enqueue time.
*/
struct GNUNET_TIME_Absolute start_time;
/**
* Desired transmission time for this message, based on the
* flow limiting information we got from the other peer.
*/
struct GNUNET_TIME_Absolute transmission_time;
/**
* Message timeout.
*/
struct GNUNET_TIME_Absolute timeout;
/**
* Size of UDP message to send, including UDP-specific overhead.
*/
size_t msg_size;
/**
* Payload size of original message.
*/
size_t payload_size;
};
GNUNET_NETWORK_STRUCT_BEGIN
/**
* UDP ACK Message-Packet header.
*/
struct UDP_ACK_Message
{
/**
* Message header.
*/
struct GNUNET_MessageHeader header;
/**
* Desired delay for flow control, in us (in NBO).
* A value of UINT32_MAX indicates that the other
* peer wants us to disconnect.
*/
uint32_t delay GNUNET_PACKED;
/**
* What is the identity of the sender
*/
struct GNUNET_PeerIdentity sender;
};
GNUNET_NETWORK_STRUCT_END
/* ************************* Monitoring *********** */
/**
* If a session monitor is attached, notify it about the new
* session state.
*
* @param plugin our plugin
* @param session session that changed state
* @param state new state of the session
*/
static void
notify_session_monitor (struct Plugin *plugin,
struct GNUNET_ATS_Session *session,
enum GNUNET_TRANSPORT_SessionState state)
{
struct GNUNET_TRANSPORT_SessionInfo info;
if (NULL == plugin->sic)
return;
if (GNUNET_YES == session->in_destroy)
return; /* already destroyed, just RC>0 left-over actions */
memset (&info,
0,
sizeof (info));
info.state = state;
info.is_inbound = GNUNET_SYSERR; /* hard to say */
info.num_msg_pending = session->msgs_in_queue;
info.num_bytes_pending = session->bytes_in_queue;
/* info.receive_delay remains zero as this is not supported by UDP
(cannot selectively not receive from 'some' peer while continuing
to receive from others) */
info.session_timeout = session->timeout;
info.address = session->address;
plugin->sic (plugin->sic_cls,
session,
&info);
}
/**
* Return information about the given session to the monitor callback.
*
* @param cls the `struct Plugin` with the monitor callback (`sic`)
* @param peer peer we send information about
* @param value our `struct GNUNET_ATS_Session` to send information about
* @return #GNUNET_OK (continue to iterate)
*/
static int
send_session_info_iter (void *cls,
const struct GNUNET_PeerIdentity *peer,
void *value)
{
struct Plugin *plugin = cls;
struct GNUNET_ATS_Session *session = value;
notify_session_monitor (plugin,
session,
GNUNET_TRANSPORT_SS_INIT);
notify_session_monitor (plugin,
session,
GNUNET_TRANSPORT_SS_UP);
return GNUNET_OK;
}
/**
* Begin monitoring sessions of a plugin. There can only
* be one active monitor per plugin (i.e. if there are
* multiple monitors, the transport service needs to
* multiplex the generated events over all of them).
*
* @param cls closure of the plugin
* @param sic callback to invoke, NULL to disable monitor;
* plugin will being by iterating over all active
* sessions immediately and then enter monitor mode
* @param sic_cls closure for @a sic
*/
static void
udp_plugin_setup_monitor (void *cls,
GNUNET_TRANSPORT_SessionInfoCallback sic,
void *sic_cls)
{
struct Plugin *plugin = cls;
plugin->sic = sic;
plugin->sic_cls = sic_cls;
if (NULL != sic)
{
GNUNET_CONTAINER_multipeermap_iterate (plugin->sessions,
&send_session_info_iter,
plugin);
/* signal end of first iteration */
sic (sic_cls,
NULL,
NULL);
}
}
/* ****************** Little Helpers ****************** */
/**
* Function to free last resources associated with a session.
*
* @param s session to free
*/
static void
free_session (struct GNUNET_ATS_Session *s)
{
if (NULL != s->address)
{
GNUNET_HELLO_address_free (s->address);
s->address = NULL;
}
if (NULL != s->frag_ctx)
{
GNUNET_FRAGMENT_context_destroy (s->frag_ctx->frag,
NULL,
NULL);
GNUNET_free (s->frag_ctx);
s->frag_ctx = NULL;
}
if (NULL != s->mst)
{
GNUNET_MST_destroy (s->mst);
s->mst = NULL;
}
GNUNET_free (s);
}
/**
* Function that is called to get the keepalive factor.
* #GNUNET_CONSTANTS_IDLE_CONNECTION_TIMEOUT is divided by this number to
* calculate the interval between keepalive packets.
*
* @param cls closure with the `struct Plugin`
* @return keepalive factor
*/
static unsigned int
udp_query_keepalive_factor (void *cls)
{
return 15;
}
/**
* Function obtain the network type for a session
*
* @param cls closure (`struct Plugin *`)
* @param session the session
* @return the network type
*/
static enum GNUNET_ATS_Network_Type
udp_plugin_get_network (void *cls,
struct GNUNET_ATS_Session *session)
{
return session->scope;
}
/**
* Function obtain the network type for an address.
*
* @param cls closure (`struct Plugin *`)
* @param address the address
* @return the network type
*/
static enum GNUNET_ATS_Network_Type
udp_plugin_get_network_for_address (void *cls,
const struct GNUNET_HELLO_Address *address)
{
struct Plugin *plugin = cls;
size_t addrlen;
struct sockaddr_in a4;
struct sockaddr_in6 a6;
const struct IPv4UdpAddress *u4;
const struct IPv6UdpAddress *u6;
const void *sb;
size_t sbs;
addrlen = address->address_length;
if (addrlen == sizeof(struct IPv6UdpAddress))
{
GNUNET_assert (NULL != address->address); /* make static analysis happy */
u6 = address->address;
memset (&a6, 0, sizeof(a6));
#if HAVE_SOCKADDR_IN_SIN_LEN
a6.sin6_len = sizeof (a6);
#endif
a6.sin6_family = AF_INET6;
a6.sin6_port = u6->u6_port;
GNUNET_memcpy (&a6.sin6_addr, &u6->ipv6_addr, sizeof(struct in6_addr));
sb = &a6;
sbs = sizeof(a6);
}
else if (addrlen == sizeof(struct IPv4UdpAddress))
{
GNUNET_assert (NULL != address->address); /* make static analysis happy */
u4 = address->address;
memset (&a4, 0, sizeof(a4));
#if HAVE_SOCKADDR_IN_SIN_LEN
a4.sin_len = sizeof (a4);
#endif
a4.sin_family = AF_INET;
a4.sin_port = u4->u4_port;
a4.sin_addr.s_addr = u4->ipv4_addr;
sb = &a4;
sbs = sizeof(a4);
}
else
{
GNUNET_break (0);
return GNUNET_ATS_NET_UNSPECIFIED;
}
return plugin->env->get_address_type (plugin->env->cls,
sb,
sbs);
}
/* ******************* Event loop ******************** */
/**
* We have been notified that our readset has something to read. We don't
* know which socket needs to be read, so we have to check each one
* Then reschedule this function to be called again once more is available.
*
* @param cls the plugin handle
*/
static void
udp_plugin_select_v4 (void *cls);
/**
* We have been notified that our readset has something to read. We don't
* know which socket needs to be read, so we have to check each one
* Then reschedule this function to be called again once more is available.
*
* @param cls the plugin handle
*/
static void
udp_plugin_select_v6 (void *cls);
/**
* (re)schedule IPv4-select tasks for this plugin.
*
* @param plugin plugin to reschedule
*/
static void
schedule_select_v4 (struct Plugin *plugin)
{
struct GNUNET_TIME_Relative min_delay;
struct GNUNET_TIME_Relative delay;
struct UDP_MessageWrapper *udpw;
struct UDP_MessageWrapper *min_udpw;
if ( (GNUNET_YES == plugin->enable_ipv4) &&
(NULL != plugin->sockv4) )
{
/* Find a message ready to send:
* Flow delay from other peer is expired or not set (0) */
min_delay = GNUNET_TIME_UNIT_FOREVER_REL;
min_udpw = NULL;
for (udpw = plugin->ipv4_queue_head; NULL != udpw; udpw = udpw->next)
{
delay = GNUNET_TIME_absolute_get_remaining (udpw->transmission_time);
if (delay.rel_value_us < min_delay.rel_value_us)
{
min_delay = delay;
min_udpw = udpw;
}
}
if (NULL != plugin->select_task_v4)
GNUNET_SCHEDULER_cancel (plugin->select_task_v4);
if (NULL != min_udpw)
{
if (min_delay.rel_value_us > GNUNET_CONSTANTS_LATENCY_WARN.rel_value_us)
{
GNUNET_log (GNUNET_ERROR_TYPE_WARNING,
"Calculated flow delay for UDPv4 at %s for %s\n",
GNUNET_STRINGS_relative_time_to_string (min_delay,
GNUNET_YES),
GNUNET_i2s (&min_udpw->session->target));
}
else
{
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Calculated flow delay for UDPv4 at %s for %s\n",
GNUNET_STRINGS_relative_time_to_string (min_delay,
GNUNET_YES),
GNUNET_i2s (&min_udpw->session->target));
}
}
plugin->select_task_v4
= GNUNET_SCHEDULER_add_read_net (min_delay,
plugin->sockv4,
&udp_plugin_select_v4,
plugin);
}
}
/**
* (re)schedule IPv6-select tasks for this plugin.
*
* @param plugin plugin to reschedule
*/
static void
schedule_select_v6 (struct Plugin *plugin)
{
struct GNUNET_TIME_Relative min_delay;
struct GNUNET_TIME_Relative delay;
struct UDP_MessageWrapper *udpw;
struct UDP_MessageWrapper *min_udpw;
if ( (GNUNET_YES == plugin->enable_ipv6) &&
(NULL != plugin->sockv6) )
{
min_delay = GNUNET_TIME_UNIT_FOREVER_REL;
min_udpw = NULL;
for (udpw = plugin->ipv6_queue_head; NULL != udpw; udpw = udpw->next)
{
delay = GNUNET_TIME_absolute_get_remaining (udpw->transmission_time);
if (delay.rel_value_us < min_delay.rel_value_us)
{
min_delay = delay;
min_udpw = udpw;
}
}
if (NULL != plugin->select_task_v6)
GNUNET_SCHEDULER_cancel (plugin->select_task_v6);
if (NULL != min_udpw)
{
if (min_delay.rel_value_us > GNUNET_CONSTANTS_LATENCY_WARN.rel_value_us)
{
GNUNET_log (GNUNET_ERROR_TYPE_WARNING,
"Calculated flow delay for UDPv6 at %s for %s\n",
GNUNET_STRINGS_relative_time_to_string (min_delay,
GNUNET_YES),
GNUNET_i2s (&min_udpw->session->target));
}
else
{
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Calculated flow delay for UDPv6 at %s for %s\n",
GNUNET_STRINGS_relative_time_to_string (min_delay,
GNUNET_YES),
GNUNET_i2s (&min_udpw->session->target));
}
}
plugin->select_task_v6
= GNUNET_SCHEDULER_add_read_net (min_delay,
plugin->sockv6,
&udp_plugin_select_v6,
plugin);
}
}
/* ******************* Address to string and back ***************** */
/**
* Function called for a quick conversion of the binary address to
* a numeric address. Note that the caller must not free the
* address and that the next call to this function is allowed
* to override the address again.
*
* @param cls closure
* @param addr binary address (a `union UdpAddress`)
* @param addrlen length of the @a addr
* @return string representing the same address
*/
const char *
udp_address_to_string (void *cls,
const void *addr,
size_t addrlen)
{
static char rbuf[INET6_ADDRSTRLEN + 10];
char buf[INET6_ADDRSTRLEN];
const void *sb;
struct in_addr a4;
struct in6_addr a6;
const struct IPv4UdpAddress *t4;
const struct IPv6UdpAddress *t6;
int af;
uint16_t port;
uint32_t options;
if (NULL == addr)
{
GNUNET_break_op (0);
return NULL;
}
if (addrlen == sizeof(struct IPv6UdpAddress))
{
t6 = addr;
af = AF_INET6;
options = ntohl (t6->options);
port = ntohs (t6->u6_port);
a6 = t6->ipv6_addr;
sb = &a6;
}
else if (addrlen == sizeof(struct IPv4UdpAddress))
{
t4 = addr;
af = AF_INET;
options = ntohl (t4->options);
port = ntohs (t4->u4_port);
a4.s_addr = t4->ipv4_addr;
sb = &a4;
}
else
{
GNUNET_break_op (0);
return NULL;
}
inet_ntop (af,
sb,
buf,
INET6_ADDRSTRLEN);
GNUNET_snprintf (rbuf,
sizeof(rbuf),
(af == AF_INET6)
? "%s.%u.[%s]:%u"
: "%s.%u.%s:%u",
PLUGIN_NAME,
options,
buf,
port);
return rbuf;
}
/**
* Function called to convert a string address to a binary address.
*
* @param cls closure (`struct Plugin *`)
* @param addr string address
* @param addrlen length of the address
* @param buf location to store the buffer
* @param added location to store the number of bytes in the buffer.
* If the function returns #GNUNET_SYSERR, its contents are undefined.
* @return #GNUNET_OK on success, #GNUNET_SYSERR on failure
*/
static int
udp_string_to_address (void *cls,
const char *addr,
uint16_t addrlen,
void **buf,
size_t *added)
{
struct sockaddr_storage socket_address;
char *address;
char *plugin;
char *optionstr;
uint32_t options;
/* Format tcp.options.address:port */
address = NULL;
plugin = NULL;
optionstr = NULL;
if ((NULL == addr) || (0 == addrlen))
{
GNUNET_break (0);
return GNUNET_SYSERR;
}
if ('\0' != addr[addrlen - 1])
{
GNUNET_break (0);
return GNUNET_SYSERR;
}
if (strlen (addr) != addrlen - 1)
{
GNUNET_break (0);
return GNUNET_SYSERR;
}
plugin = GNUNET_strdup (addr);
optionstr = strchr (plugin, '.');
if (NULL == optionstr)
{
GNUNET_break (0);
GNUNET_free (plugin);
return GNUNET_SYSERR;
}
optionstr[0] = '\0';
optionstr++;
options = atol (optionstr);
address = strchr (optionstr, '.');
if (NULL == address)
{
GNUNET_break (0);
GNUNET_free (plugin);
return GNUNET_SYSERR;
}
address[0] = '\0';
address++;
if (GNUNET_OK !=
GNUNET_STRINGS_to_address_ip (address,
strlen (address),
&socket_address))
{
GNUNET_break (0);
GNUNET_free (plugin);
return GNUNET_SYSERR;
}
GNUNET_free(plugin);
switch (socket_address.ss_family)
{
case AF_INET:
{
struct IPv4UdpAddress *u4;
const struct sockaddr_in *in4 = (const struct sockaddr_in *) &socket_address;
u4 = GNUNET_new (struct IPv4UdpAddress);
u4->options = htonl (options);
u4->ipv4_addr = in4->sin_addr.s_addr;
u4->u4_port = in4->sin_port;
*buf = u4;
*added = sizeof (struct IPv4UdpAddress);
return GNUNET_OK;
}
case AF_INET6:
{
struct IPv6UdpAddress *u6;
const struct sockaddr_in6 *in6 = (const struct sockaddr_in6 *) &socket_address;
u6 = GNUNET_new (struct IPv6UdpAddress);
u6->options = htonl (options);
u6->ipv6_addr = in6->sin6_addr;
u6->u6_port = in6->sin6_port;
*buf = u6;
*added = sizeof (struct IPv6UdpAddress);
return GNUNET_OK;
}
default:
GNUNET_break (0);
return GNUNET_SYSERR;
}
}
/**
* Append our port and forward the result.
*
* @param cls a `struct PrettyPrinterContext *`
* @param hostname result from DNS resolver
*/
static void
append_port (void *cls,
const char *hostname)
{
struct PrettyPrinterContext *ppc = cls;
struct Plugin *plugin = ppc->plugin;
char *ret;
if (NULL == hostname)
{
/* Final call, done */
GNUNET_CONTAINER_DLL_remove (plugin->ppc_dll_head,
plugin->ppc_dll_tail,
ppc);
ppc->resolver_handle = NULL;
ppc->asc (ppc->asc_cls,
NULL,
GNUNET_OK);
GNUNET_free (ppc);
return;
}
if (GNUNET_YES == ppc->ipv6)
GNUNET_asprintf (&ret,
"%s.%u.[%s]:%d",
PLUGIN_NAME,
ppc->options,
hostname,
ppc->port);
else
GNUNET_asprintf (&ret,
"%s.%u.%s:%d",
PLUGIN_NAME,
ppc->options,
hostname,
ppc->port);
ppc->asc (ppc->asc_cls,
ret,
GNUNET_OK);
GNUNET_free (ret);
}
/**
* Convert the transports address to a nice, human-readable format.
*
* @param cls closure with the `struct Plugin *`
* @param type name of the transport that generated the address
* @param addr one of the addresses of the host, NULL for the last address
* the specific address format depends on the transport;
* a `union UdpAddress`
* @param addrlen length of the address
* @param numeric should (IP) addresses be displayed in numeric form?
* @param timeout after how long should we give up?
* @param asc function to call on each string
* @param asc_cls closure for @a asc
*/
static void
udp_plugin_address_pretty_printer (void *cls,
const char *type,
const void *addr,
size_t addrlen,
int numeric,
struct GNUNET_TIME_Relative timeout,
GNUNET_TRANSPORT_AddressStringCallback asc,
void *asc_cls)
{
struct Plugin *plugin = cls;
struct PrettyPrinterContext *ppc;
const struct sockaddr *sb;
size_t sbs;
struct sockaddr_in a4;
struct sockaddr_in6 a6;
const struct IPv4UdpAddress *u4;
const struct IPv6UdpAddress *u6;
uint16_t port;
uint32_t options;
if (addrlen == sizeof(struct IPv6UdpAddress))
{
u6 = addr;
memset (&a6,
0,
sizeof (a6));
a6.sin6_family = AF_INET6;
#if HAVE_SOCKADDR_IN_SIN_LEN
a6.sin6_len = sizeof (a6);
#endif
a6.sin6_port = u6->u6_port;
a6.sin6_addr = u6->ipv6_addr;
port = ntohs (u6->u6_port);
options = ntohl (u6->options);
sb = (const struct sockaddr *) &a6;
sbs = sizeof (a6);
}
else if (addrlen == sizeof (struct IPv4UdpAddress))
{
u4 = addr;
memset (&a4,
0,
sizeof(a4));
a4.sin_family = AF_INET;
#if HAVE_SOCKADDR_IN_SIN_LEN
a4.sin_len = sizeof (a4);
#endif
a4.sin_port = u4->u4_port;
a4.sin_addr.s_addr = u4->ipv4_addr;
port = ntohs (u4->u4_port);
options = ntohl (u4->options);
sb = (const struct sockaddr *) &a4;
sbs = sizeof(a4);
}
else
{
/* invalid address */
GNUNET_break_op (0);
asc (asc_cls,
NULL,
GNUNET_SYSERR);
asc (asc_cls,
NULL,
GNUNET_OK);
return;
}
ppc = GNUNET_new (struct PrettyPrinterContext);
ppc->plugin = plugin;
ppc->asc = asc;
ppc->asc_cls = asc_cls;
ppc->port = port;
ppc->options = options;
if (addrlen == sizeof (struct IPv6UdpAddress))
ppc->ipv6 = GNUNET_YES;
else
ppc->ipv6 = GNUNET_NO;
GNUNET_CONTAINER_DLL_insert (plugin->ppc_dll_head,
plugin->ppc_dll_tail,
ppc);
ppc->resolver_handle
= GNUNET_RESOLVER_hostname_get (sb,
sbs,
! numeric,
timeout,
&append_port,
ppc);
}
/**
* Check if the given port is plausible (must be either our listen
* port or our advertised port). If it is neither, we return
* #GNUNET_SYSERR.
*
* @param plugin global variables
* @param in_port port number to check
* @return #GNUNET_OK if port is either our open or advertised port
*/
static int
check_port (const struct Plugin *plugin,
uint16_t in_port)
{
if ( (plugin->port == in_port) ||
(plugin->aport == in_port) )
return GNUNET_OK;
return GNUNET_SYSERR;
}
/**
* Function that will be called to check if a binary address for this
* plugin is well-formed and corresponds to an address for THIS peer
* (as per our configuration). Naturally, if absolutely necessary,
* plugins can be a bit conservative in their answer, but in general
* plugins should make sure that the address does not redirect
* traffic to a 3rd party that might try to man-in-the-middle our
* traffic.
*
* @param cls closure, should be our handle to the Plugin
* @param addr pointer to a `union UdpAddress`
* @param addrlen length of @a addr
* @return #GNUNET_OK if this is a plausible address for this peer
* and transport, #GNUNET_SYSERR if not
*/
static int
udp_plugin_check_address (void *cls,
const void *addr,
size_t addrlen)
{
struct Plugin *plugin = cls;
const struct IPv4UdpAddress *v4;
const struct IPv6UdpAddress *v6;
if (sizeof(struct IPv4UdpAddress) == addrlen)
{
struct sockaddr_in s4;
v4 = (const struct IPv4UdpAddress *) addr;
if (GNUNET_OK != check_port (plugin,
ntohs (v4->u4_port)))
return GNUNET_SYSERR;
memset (&s4, 0, sizeof (s4));
s4.sin_family = AF_INET;
#if HAVE_SOCKADDR_IN_SIN_LEN
s4.sin_len = sizeof (s4);
#endif
s4.sin_port = v4->u4_port;
s4.sin_addr.s_addr = v4->ipv4_addr;
if (GNUNET_OK !=
GNUNET_NAT_test_address (plugin->nat,
&s4,
sizeof (struct sockaddr_in)))
return GNUNET_SYSERR;
}
else if (sizeof(struct IPv6UdpAddress) == addrlen)
{
struct sockaddr_in6 s6;
v6 = (const struct IPv6UdpAddress *) addr;
if (IN6_IS_ADDR_LINKLOCAL (&v6->ipv6_addr))
return GNUNET_OK; /* plausible, if unlikely... */
memset (&s6, 0, sizeof (s6));
s6.sin6_family = AF_INET6;
#if HAVE_SOCKADDR_IN_SIN_LEN
s6.sin6_len = sizeof (s6);
#endif
s6.sin6_port = v6->u6_port;
s6.sin6_addr = v6->ipv6_addr;
if (GNUNET_OK !=
GNUNET_NAT_test_address (plugin->nat,
&s6,
sizeof(struct sockaddr_in6)))
return GNUNET_SYSERR;
}
else
{
GNUNET_break_op (0);
return GNUNET_SYSERR;
}
return GNUNET_OK;
}
/**
* Our external IP address/port mapping has changed.
*
* @param cls closure, the `struct Plugin`
* @param add_remove #GNUNET_YES to mean the new public IP address,
* #GNUNET_NO to mean the previous (now invalid) one
* @param ac address class the address belongs to
* @param addr either the previous or the new public IP address
* @param addrlen actual length of the @a addr
*/
static void
udp_nat_port_map_callback (void *cls,
int add_remove,
enum GNUNET_NAT_AddressClass ac,
const struct sockaddr *addr,
socklen_t addrlen)
{
struct Plugin *plugin = cls;
struct GNUNET_HELLO_Address *address;
struct IPv4UdpAddress u4;
struct IPv6UdpAddress u6;
void *arg;
size_t args;
LOG (GNUNET_ERROR_TYPE_DEBUG,
(GNUNET_YES == add_remove)
? "NAT notification to add address `%s'\n"
: "NAT notification to remove address `%s'\n",
GNUNET_a2s (addr,
addrlen));
/* convert 'address' to our internal format */
switch (addr->sa_family)
{
case AF_INET:
{
const struct sockaddr_in *i4;
GNUNET_assert (sizeof(struct sockaddr_in) == addrlen);
i4 = (const struct sockaddr_in *) addr;
if (0 == ntohs (i4->sin_port))
return; /* Port = 0 means unmapped, ignore these for UDP. */
memset (&u4,
0,
sizeof(u4));
u4.options = htonl (plugin->myoptions);
u4.ipv4_addr = i4->sin_addr.s_addr;
u4.u4_port = i4->sin_port;
arg = &u4;
args = sizeof (struct IPv4UdpAddress);
break;
}
case AF_INET6:
{
const struct sockaddr_in6 *i6;
GNUNET_assert (sizeof(struct sockaddr_in6) == addrlen);
i6 = (const struct sockaddr_in6 *) addr;
if (0 == ntohs (i6->sin6_port))
return; /* Port = 0 means unmapped, ignore these for UDP. */
memset (&u6,
0,
sizeof(u6));
u6.options = htonl (plugin->myoptions);
u6.ipv6_addr = i6->sin6_addr;
u6.u6_port = i6->sin6_port;
arg = &u6;
args = sizeof (struct IPv6UdpAddress);
break;
}
default:
GNUNET_break (0);
return;
}
/* modify our published address list */
/* TODO: use 'ac' here in the future... */
address = GNUNET_HELLO_address_allocate (plugin->env->my_identity,
PLUGIN_NAME,
arg,
args,
GNUNET_HELLO_ADDRESS_INFO_NONE);
plugin->env->notify_address (plugin->env->cls,
add_remove,
address);
GNUNET_HELLO_address_free (address);
}
/* ********************* Finding sessions ******************* */
/**
* Closure for #session_cmp_it().
*/
struct GNUNET_ATS_SessionCompareContext
{
/**
* Set to session matching the address.
*/
struct GNUNET_ATS_Session *res;
/**
* Address we are looking for.
*/
const struct GNUNET_HELLO_Address *address;
};
/**
* Find a session with a matching address.
*
* @param cls the `struct GNUNET_ATS_SessionCompareContext *`
* @param key peer identity (unused)
* @param value the `struct GNUNET_ATS_Session *`
* @return #GNUNET_NO if we found the session, #GNUNET_OK if not
*/
static int
session_cmp_it (void *cls,
const struct GNUNET_PeerIdentity *key,
void *value)
{
struct GNUNET_ATS_SessionCompareContext *cctx = cls;
struct GNUNET_ATS_Session *s = value;
if (0 == GNUNET_HELLO_address_cmp (s->address,
cctx->address))
{
GNUNET_assert (GNUNET_NO == s->in_destroy);
cctx->res = s;
return GNUNET_NO;
}
return GNUNET_OK;
}
/**
* Locate an existing session the transport service is using to
* send data to another peer. Performs some basic sanity checks
* on the address and then tries to locate a matching session.
*
* @param cls the plugin
* @param address the address we should locate the session by
* @return the session if it exists, or NULL if it is not found
*/
static struct GNUNET_ATS_Session *
udp_plugin_lookup_session (void *cls,
const struct GNUNET_HELLO_Address *address)
{
struct Plugin *plugin = cls;
const struct IPv6UdpAddress *udp_a6;
const struct IPv4UdpAddress *udp_a4;
struct GNUNET_ATS_SessionCompareContext cctx;
if (NULL == address->address)
{
GNUNET_break (0);
return NULL;
}
if (sizeof(struct IPv4UdpAddress) == address->address_length)
{
if (NULL == plugin->sockv4)
return NULL;
udp_a4 = (const struct IPv4UdpAddress *) address->address;
if (0 == udp_a4->u4_port)
{
GNUNET_break (0);
return NULL;
}
}
else if (sizeof(struct IPv6UdpAddress) == address->address_length)
{
if (NULL == plugin->sockv6)
return NULL;
udp_a6 = (const struct IPv6UdpAddress *) address->address;
if (0 == udp_a6->u6_port)
{
GNUNET_break (0);
return NULL;
}
}
else
{
GNUNET_break (0);
return NULL;
}
/* check if session already exists */
cctx.address = address;
cctx.res = NULL;
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Looking for existing session for peer `%s' with address `%s'\n",
GNUNET_i2s (&address->peer),
udp_address_to_string (plugin,
address->address,
address->address_length));
GNUNET_CONTAINER_multipeermap_get_multiple (plugin->sessions,
&address->peer,
&session_cmp_it,
&cctx);
if (NULL == cctx.res)
return NULL;
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Found existing session %p\n",
cctx.res);
return cctx.res;
}
/* ********************** Timeout ****************** */
/**
* Increment session timeout due to activity.
*
* @param s session to reschedule timeout activity for
*/
static void
reschedule_session_timeout (struct GNUNET_ATS_Session *s)
{
if (GNUNET_YES == s->in_destroy)
return;
GNUNET_assert (NULL != s->timeout_task);
s->timeout = GNUNET_TIME_relative_to_absolute (UDP_SESSION_TIME_OUT);
}
/**
* Function that will be called whenever the transport service wants to
* notify the plugin that a session is still active and in use and
* therefore the session timeout for this session has to be updated
*
* @param cls closure with the `struct Plugin`
* @param peer which peer was the session for
* @param session which session is being updated
*/
static void
udp_plugin_update_session_timeout (void *cls,
const struct GNUNET_PeerIdentity *peer,
struct GNUNET_ATS_Session *session)
{
struct Plugin *plugin = cls;
if (GNUNET_YES !=
GNUNET_CONTAINER_multipeermap_contains_value (plugin->sessions,
peer,
session))
{
GNUNET_break (0);
return;
}
/* Reschedule session timeout */
reschedule_session_timeout (session);
}
/* ************************* Sending ************************ */
/**
* Remove the given message from the transmission queue and
* update all applicable statistics.
*
* @param plugin the UDP plugin
* @param udpw message wrapper to dequeue
*/
static void
dequeue (struct Plugin *plugin,
struct UDP_MessageWrapper *udpw)
{
struct GNUNET_ATS_Session *session = udpw->session;
if (plugin->bytes_in_buffer < udpw->msg_size)
{
GNUNET_break (0);
}
else
{
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total bytes in send buffers",
- (long long) udpw->msg_size,
GNUNET_NO);
plugin->bytes_in_buffer -= udpw->msg_size;
}
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total messages in send buffers",
-1,
GNUNET_NO);
if (sizeof(struct IPv4UdpAddress) == udpw->session->address->address_length)
{
GNUNET_CONTAINER_DLL_remove (plugin->ipv4_queue_head,
plugin->ipv4_queue_tail,
udpw);
}
else if (sizeof(struct IPv6UdpAddress) == udpw->session->address->address_length)
{
GNUNET_CONTAINER_DLL_remove (plugin->ipv6_queue_head,
plugin->ipv6_queue_tail,
udpw);
}
else
{
GNUNET_break (0);
return;
}
GNUNET_assert (session->msgs_in_queue > 0);
session->msgs_in_queue--;
GNUNET_assert (session->bytes_in_queue >= udpw->msg_size);
session->bytes_in_queue -= udpw->msg_size;
}
/**
* Enqueue a message for transmission and update statistics.
*
* @param plugin the UDP plugin
* @param udpw message wrapper to queue
*/
static void
enqueue (struct Plugin *plugin,
struct UDP_MessageWrapper *udpw)
{
struct GNUNET_ATS_Session *session = udpw->session;
if (GNUNET_YES == session->in_destroy)
{
GNUNET_break (0);
GNUNET_free (udpw);
return;
}
if (plugin->bytes_in_buffer > INT64_MAX - udpw->msg_size)
{
GNUNET_break (0);
}
else
{
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total bytes in send buffers",
udpw->msg_size,
GNUNET_NO);
plugin->bytes_in_buffer += udpw->msg_size;
}
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total messages in send buffers",
1,
GNUNET_NO);
if (sizeof (struct IPv4UdpAddress) == udpw->session->address->address_length)
{
GNUNET_CONTAINER_DLL_insert(plugin->ipv4_queue_head,
plugin->ipv4_queue_tail,
udpw);
}
else if (sizeof (struct IPv6UdpAddress) == udpw->session->address->address_length)
{
GNUNET_CONTAINER_DLL_insert (plugin->ipv6_queue_head,
plugin->ipv6_queue_tail,
udpw);
}
else
{
GNUNET_break (0);
udpw->cont (udpw->cont_cls,
&session->target,
GNUNET_SYSERR,
udpw->msg_size,
0);
GNUNET_free (udpw);
return;
}
session->msgs_in_queue++;
session->bytes_in_queue += udpw->msg_size;
}
/**
* We have completed our (attempt) to transmit a message that had to
* be fragmented -- either because we got an ACK saying that all
* fragments were received, or because of timeout / disconnect. Clean
* up our state.
*
* @param frag_ctx fragmentation context to clean up
* @param result #GNUNET_OK if we succeeded (got ACK),
* #GNUNET_SYSERR if the transmission failed
*/
static void
fragmented_message_done (struct UDP_FragmentationContext *frag_ctx,
int result)
{
struct Plugin *plugin = frag_ctx->plugin;
struct GNUNET_ATS_Session *s = frag_ctx->session;
struct UDP_MessageWrapper *udpw;
struct UDP_MessageWrapper *tmp;
size_t overhead;
struct GNUNET_TIME_Relative delay;
LOG (GNUNET_ERROR_TYPE_DEBUG,
"%p: Fragmented message removed with result %s\n",
frag_ctx,
(result == GNUNET_SYSERR) ? "FAIL" : "SUCCESS");
/* Call continuation for fragmented message */
if (frag_ctx->on_wire_size >= frag_ctx->payload_size)
overhead = frag_ctx->on_wire_size - frag_ctx->payload_size;
else
overhead = frag_ctx->on_wire_size;
delay = GNUNET_TIME_absolute_get_duration (frag_ctx->start_time);
if (delay.rel_value_us > GNUNET_CONSTANTS_LATENCY_WARN.rel_value_us)
{
LOG (GNUNET_ERROR_TYPE_WARNING,
"Fragmented message acknowledged after %s (expected at %s)\n",
GNUNET_STRINGS_relative_time_to_string (delay,
GNUNET_YES),
GNUNET_STRINGS_absolute_time_to_string (frag_ctx->next_frag_time));
}
else
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Fragmented message acknowledged after %s (expected at %s)\n",
GNUNET_STRINGS_relative_time_to_string (delay,
GNUNET_YES),
GNUNET_STRINGS_absolute_time_to_string (frag_ctx->next_frag_time));
}
if (NULL != frag_ctx->cont)
frag_ctx->cont (frag_ctx->cont_cls,
&s->target,
result,
s->frag_ctx->payload_size,
frag_ctx->on_wire_size);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented messages active",
-1,
GNUNET_NO);
if (GNUNET_OK == result)
{
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, messages, sent, success",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, bytes payload, sent, success",
s->frag_ctx->payload_size,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, bytes overhead, sent, success",
overhead,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total, bytes overhead, sent",
overhead,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total, bytes payload, sent",
s->frag_ctx->payload_size,
GNUNET_NO);
}
else
{
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, messages, sent, failure",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, bytes payload, sent, failure",
s->frag_ctx->payload_size,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, bytes payload, sent, failure",
overhead,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, bytes payload, sent, failure",
overhead,
GNUNET_NO);
}
/* Remove remaining fragments from queue, no need to transmit those
any longer. */
if (s->address->address_length == sizeof(struct IPv6UdpAddress))
{
udpw = plugin->ipv6_queue_head;
while (NULL != udpw)
{
tmp = udpw->next;
if ( (udpw->frag_ctx != NULL) &&
(udpw->frag_ctx == frag_ctx) )
{
dequeue (plugin,
udpw);
GNUNET_free (udpw);
}
udpw = tmp;
}
}
if (s->address->address_length == sizeof(struct IPv4UdpAddress))
{
udpw = plugin->ipv4_queue_head;
while (NULL != udpw)
{
tmp = udpw->next;
if ( (NULL != udpw->frag_ctx) &&
(udpw->frag_ctx == frag_ctx) )
{
dequeue (plugin,
udpw);
GNUNET_free (udpw);
}
udpw = tmp;
}
}
notify_session_monitor (s->plugin,
s,
GNUNET_TRANSPORT_SS_UPDATE);
GNUNET_FRAGMENT_context_destroy (frag_ctx->frag,
&s->last_expected_msg_delay,
&s->last_expected_ack_delay);
s->frag_ctx = NULL;
GNUNET_free (frag_ctx);
}
/**
* We are finished with a fragment in the message queue.
* Notify the continuation and update statistics.
*
* @param cls the `struct Plugin *`
* @param udpw the queue entry
* @param result #GNUNET_OK on success, #GNUNET_SYSERR on failure
*/
static void
qc_fragment_sent (void *cls,
struct UDP_MessageWrapper *udpw,
int result)
{
struct Plugin *plugin = cls;
GNUNET_assert (NULL != udpw->frag_ctx);
if (GNUNET_OK == result)
{
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Fragment of message with %u bytes transmitted to %s\n",
(unsigned int) udpw->payload_size,
GNUNET_i2s (&udpw->session->target));
GNUNET_FRAGMENT_context_transmission_done (udpw->frag_ctx->frag);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, fragments, sent, success",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, fragments bytes, sent, success",
udpw->msg_size,
GNUNET_NO);
}
else
{
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Failed to transmit fragment of message with %u bytes to %s\n",
(unsigned int) udpw->payload_size,
GNUNET_i2s (&udpw->session->target));
fragmented_message_done (udpw->frag_ctx,
GNUNET_SYSERR);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, fragments, sent, failure",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented msgs, fragments bytes, sent, failure",
udpw->msg_size,
GNUNET_NO);
}
}
/**
* Function that is called with messages created by the fragmentation
* module. In the case of the `proc` callback of the
* #GNUNET_FRAGMENT_context_create() function, this function must
* eventually call #GNUNET_FRAGMENT_context_transmission_done().
*
* @param cls closure, the `struct UDP_FragmentationContext`
* @param msg the message that was created
*/
static void
enqueue_fragment (void *cls,
const struct GNUNET_MessageHeader *msg)
{
struct UDP_FragmentationContext *frag_ctx = cls;
struct Plugin *plugin = frag_ctx->plugin;
struct UDP_MessageWrapper *udpw;
struct GNUNET_ATS_Session *session = frag_ctx->session;
size_t msg_len = ntohs (msg->size);
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Enqueuing fragment with %u bytes\n",
msg_len);
udpw = GNUNET_malloc (sizeof (struct UDP_MessageWrapper) + msg_len);
udpw->session = session;
udpw->msg_buf = (char *) &udpw[1];
udpw->msg_size = msg_len;
udpw->payload_size = msg_len; /* FIXME: minus fragment overhead */
udpw->timeout = frag_ctx->timeout;
udpw->start_time = frag_ctx->start_time;
udpw->transmission_time = frag_ctx->next_frag_time;
frag_ctx->next_frag_time
= GNUNET_TIME_absolute_add (frag_ctx->next_frag_time,
frag_ctx->flow_delay_from_other_peer);
udpw->frag_ctx = frag_ctx;
udpw->qc = &qc_fragment_sent;
udpw->qc_cls = plugin;
GNUNET_memcpy (udpw->msg_buf,
msg,
msg_len);
enqueue (plugin,
udpw);
if (session->address->address_length == sizeof (struct IPv4UdpAddress))
schedule_select_v4 (plugin);
else
schedule_select_v6 (plugin);
}
/**
* We are finished with a message from the message queue.
* Notify the continuation and update statistics.
*
* @param cls the `struct Plugin *`
* @param udpw the queue entry
* @param result #GNUNET_OK on success, #GNUNET_SYSERR on failure
*/
static void
qc_message_sent (void *cls,
struct UDP_MessageWrapper *udpw,
int result)
{
struct Plugin *plugin = cls;
size_t overhead;
struct GNUNET_TIME_Relative delay;
if (udpw->msg_size >= udpw->payload_size)
overhead = udpw->msg_size - udpw->payload_size;
else
overhead = udpw->msg_size;
if (NULL != udpw->cont)
{
delay = GNUNET_TIME_absolute_get_duration (udpw->start_time);
if (delay.rel_value_us > GNUNET_CONSTANTS_LATENCY_WARN.rel_value_us)
{
LOG (GNUNET_ERROR_TYPE_WARNING,
"Message sent via UDP with delay of %s\n",
GNUNET_STRINGS_relative_time_to_string (delay,
GNUNET_YES));
}
else
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Message sent via UDP with delay of %s\n",
GNUNET_STRINGS_relative_time_to_string (delay,
GNUNET_YES));
}
udpw->cont (udpw->cont_cls,
&udpw->session->target,
result,
udpw->payload_size,
overhead);
}
if (GNUNET_OK == result)
{
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, unfragmented msgs, messages, sent, success",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, unfragmented msgs, bytes payload, sent, success",
udpw->payload_size,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, unfragmented msgs, bytes overhead, sent, success",
overhead,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total, bytes overhead, sent",
overhead,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total, bytes payload, sent",
udpw->payload_size,
GNUNET_NO);
}
else
{
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, unfragmented msgs, messages, sent, failure",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, unfragmented msgs, bytes payload, sent, failure",
udpw->payload_size,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, unfragmented msgs, bytes overhead, sent, failure",
overhead,
GNUNET_NO);
}
}
/**
* Function that can be used by the transport service to transmit a
* message using the plugin. Note that in the case of a peer
* disconnecting, the continuation MUST be called prior to the
* disconnect notification itself. This function will be called with
* this peer's HELLO message to initiate a fresh connection to another
* peer.
*
* @param cls closure
* @param s which session must be used
* @param msgbuf the message to transmit
* @param msgbuf_size number of bytes in @a msgbuf
* @param priority how important is the message (most plugins will
* ignore message priority and just FIFO)
* @param to how long to wait at most for the transmission (does not
* require plugins to discard the message after the timeout,
* just advisory for the desired delay; most plugins will ignore
* this as well)
* @param cont continuation to call once the message has
* been transmitted (or if the transport is ready
* for the next transmission call; or if the
* peer disconnected...); can be NULL
* @param cont_cls closure for @a cont
* @return number of bytes used (on the physical network, with overheads);
* -1 on hard errors (i.e. address invalid); 0 is a legal value
* and does NOT mean that the message was not transmitted (DV)
*/
static ssize_t
udp_plugin_send (void *cls,
struct GNUNET_ATS_Session *s,
const char *msgbuf,
size_t msgbuf_size,
unsigned int priority,
struct GNUNET_TIME_Relative to,
GNUNET_TRANSPORT_TransmitContinuation cont,
void *cont_cls)
{
struct Plugin *plugin = cls;
size_t udpmlen = msgbuf_size + sizeof(struct UDPMessage);
struct UDP_FragmentationContext *frag_ctx;
struct UDP_MessageWrapper *udpw;
struct UDPMessage *udp;
char mbuf[udpmlen] GNUNET_ALIGN;
struct GNUNET_TIME_Relative latency;
if ( (sizeof(struct IPv6UdpAddress) == s->address->address_length) &&
(NULL == plugin->sockv6) )
return GNUNET_SYSERR;
if ( (sizeof(struct IPv4UdpAddress) == s->address->address_length) &&
(NULL == plugin->sockv4) )
return GNUNET_SYSERR;
if (udpmlen >= GNUNET_MAX_MESSAGE_SIZE)
{
GNUNET_break (0);
return GNUNET_SYSERR;
}
if (GNUNET_YES !=
GNUNET_CONTAINER_multipeermap_contains_value (plugin->sessions,
&s->target,
s))
{
GNUNET_break (0);
return GNUNET_SYSERR;
}
LOG (GNUNET_ERROR_TYPE_DEBUG,
"UDP transmits %u-byte message to `%s' using address `%s'\n",
udpmlen,
GNUNET_i2s (&s->target),
udp_address_to_string (plugin,
s->address->address,
s->address->address_length));
udp = (struct UDPMessage *) mbuf;
udp->header.size = htons (udpmlen);
udp->header.type = htons (GNUNET_MESSAGE_TYPE_TRANSPORT_UDP_MESSAGE);
udp->reserved = htonl (0);
udp->sender = *plugin->env->my_identity;
/* We do not update the session time out here! Otherwise this
* session will not timeout since we send keep alive before session
* can timeout.
*
* For UDP we update session timeout only on receive, this will
* cover keep alives, since remote peer will reply with keep alive
* responses!
*/
if (udpmlen <= UDP_MTU)
{
/* unfragmented message */
udpw = GNUNET_malloc (sizeof (struct UDP_MessageWrapper) + udpmlen);
udpw->session = s;
udpw->msg_buf = (char *) &udpw[1];
udpw->msg_size = udpmlen; /* message size with UDP overhead */
udpw->payload_size = msgbuf_size; /* message size without UDP overhead */
udpw->start_time = GNUNET_TIME_absolute_get ();
udpw->timeout = GNUNET_TIME_relative_to_absolute (to);
udpw->transmission_time = s->last_transmit_time;
s->last_transmit_time
= GNUNET_TIME_absolute_add (s->last_transmit_time,
s->flow_delay_from_other_peer);
udpw->cont = cont;
udpw->cont_cls = cont_cls;
udpw->frag_ctx = NULL;
udpw->qc = &qc_message_sent;
udpw->qc_cls = plugin;
GNUNET_memcpy (udpw->msg_buf,
udp,
sizeof (struct UDPMessage));
GNUNET_memcpy (&udpw->msg_buf[sizeof(struct UDPMessage)],
msgbuf,
msgbuf_size);
enqueue (plugin,
udpw);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, unfragmented messages queued total",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, unfragmented bytes payload queued total",
msgbuf_size,
GNUNET_NO);
if (s->address->address_length == sizeof (struct IPv4UdpAddress))
schedule_select_v4 (plugin);
else
schedule_select_v6 (plugin);
}
else
{
/* fragmented message */
if (NULL != s->frag_ctx)
return GNUNET_SYSERR;
GNUNET_memcpy (&udp[1],
msgbuf,
msgbuf_size);
frag_ctx = GNUNET_new (struct UDP_FragmentationContext);
frag_ctx->plugin = plugin;
frag_ctx->session = s;
frag_ctx->cont = cont;
frag_ctx->cont_cls = cont_cls;
frag_ctx->start_time = GNUNET_TIME_absolute_get ();
frag_ctx->next_frag_time = s->last_transmit_time;
frag_ctx->flow_delay_from_other_peer
= GNUNET_TIME_relative_divide (s->flow_delay_from_other_peer,
1 + (msgbuf_size /
UDP_MTU));
frag_ctx->timeout = GNUNET_TIME_relative_to_absolute (to);
frag_ctx->payload_size = msgbuf_size; /* unfragmented message size without UDP overhead */
frag_ctx->on_wire_size = 0; /* bytes with UDP and fragmentation overhead */
frag_ctx->frag = GNUNET_FRAGMENT_context_create (plugin->env->stats,
UDP_MTU,
&plugin->tracker,
s->last_expected_msg_delay,
s->last_expected_ack_delay,
&udp->header,
&enqueue_fragment,
frag_ctx);
s->frag_ctx = frag_ctx;
s->last_transmit_time = frag_ctx->next_frag_time;
latency = GNUNET_TIME_absolute_get_remaining (s->last_transmit_time);
if (latency.rel_value_us > GNUNET_CONSTANTS_LATENCY_WARN.rel_value_us)
LOG (GNUNET_ERROR_TYPE_WARNING,
"Enqueued fragments will take %s for transmission to %s (queue size: %u)\n",
GNUNET_STRINGS_relative_time_to_string (latency,
GNUNET_YES),
GNUNET_i2s (&s->target),
(unsigned int) s->msgs_in_queue);
else
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Enqueued fragments will take %s for transmission to %s (queue size: %u)\n",
GNUNET_STRINGS_relative_time_to_string (latency,
GNUNET_YES),
GNUNET_i2s (&s->target),
(unsigned int) s->msgs_in_queue);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented messages active",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented messages, total",
1,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragmented bytes (payload)",
frag_ctx->payload_size,
GNUNET_NO);
}
notify_session_monitor (s->plugin,
s,
GNUNET_TRANSPORT_SS_UPDATE);
return udpmlen;
}
/* ********************** Receiving ********************** */
/**
* Closure for #find_receive_context().
*/
struct FindReceiveContext
{
/**
* Where to store the result.
*/
struct DefragContext *rc;
/**
* Session associated with this context.
*/
struct GNUNET_ATS_Session *session;
/**
* Address to find.
*/
const union UdpAddress *udp_addr;
/**
* Number of bytes in @e udp_addr.
*/
size_t udp_addr_len;
};
/**
* Scan the heap for a receive context with the given address.
*
* @param cls the `struct FindReceiveContext`
* @param node internal node of the heap
* @param element value stored at the node (a `struct ReceiveContext`)
* @param cost cost associated with the node
* @return #GNUNET_YES if we should continue to iterate,
* #GNUNET_NO if not.
*/
static int
find_receive_context (void *cls,
struct GNUNET_CONTAINER_HeapNode *node,
void *element,
GNUNET_CONTAINER_HeapCostType cost)
{
struct FindReceiveContext *frc = cls;
struct DefragContext *e = element;
if ( (frc->udp_addr_len == e->udp_addr_len) &&
(0 == memcmp (frc->udp_addr,
e->udp_addr,
frc->udp_addr_len)) )
{
frc->rc = e;
return GNUNET_NO;
}
return GNUNET_YES;
}
/**
* Functions with this signature are called whenever we need to close
* a session due to a disconnect or failure to establish a connection.
*
* @param cls closure with the `struct Plugin`
* @param s session to close down
* @return #GNUNET_OK on success
*/
static int
udp_disconnect_session (void *cls,
struct GNUNET_ATS_Session *s)
{
struct Plugin *plugin = cls;
struct UDP_MessageWrapper *udpw;
struct UDP_MessageWrapper *next;
struct FindReceiveContext frc;
GNUNET_assert (GNUNET_YES != s->in_destroy);
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Session %p to peer `%s' at address %s ended\n",
s,
GNUNET_i2s (&s->target),
udp_address_to_string (plugin,
s->address->address,
s->address->address_length));
if (NULL != s->timeout_task)
{
GNUNET_SCHEDULER_cancel (s->timeout_task);
s->timeout_task = NULL;
}
if (NULL != s->frag_ctx)
{
/* Remove fragmented message due to disconnect */
fragmented_message_done (s->frag_ctx,
GNUNET_SYSERR);
}
GNUNET_assert (GNUNET_YES ==
GNUNET_CONTAINER_multipeermap_remove (plugin->sessions,
&s->target,
s));
frc.rc = NULL;
frc.udp_addr = s->address->address;
frc.udp_addr_len = s->address->address_length;
/* Lookup existing receive context for this address */
if (NULL != plugin->defrag_ctxs)
{
GNUNET_CONTAINER_heap_iterate (plugin->defrag_ctxs,
&find_receive_context,
&frc);
if (NULL != frc.rc)
{
struct DefragContext *d_ctx = frc.rc;
GNUNET_CONTAINER_heap_remove_node (d_ctx->hnode);
GNUNET_DEFRAGMENT_context_destroy (d_ctx->defrag);
GNUNET_free (d_ctx);
}
}
s->in_destroy = GNUNET_YES;
next = plugin->ipv4_queue_head;
while (NULL != (udpw = next))
{
next = udpw->next;
if (udpw->session == s)
{
dequeue (plugin,
udpw);
udpw->qc (udpw->qc_cls,
udpw,
GNUNET_SYSERR);
GNUNET_free (udpw);
}
}
next = plugin->ipv6_queue_head;
while (NULL != (udpw = next))
{
next = udpw->next;
if (udpw->session == s)
{
dequeue (plugin,
udpw);
udpw->qc (udpw->qc_cls,
udpw,
GNUNET_SYSERR);
GNUNET_free (udpw);
}
}
if ( (NULL != s->frag_ctx) &&
(NULL != s->frag_ctx->cont) )
{
/* The 'frag_ctx' itself will be freed in #free_session() a bit
later, as it might be in use right now */
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Calling continuation for fragemented message to `%s' with result SYSERR\n",
GNUNET_i2s (&s->target));
s->frag_ctx->cont (s->frag_ctx->cont_cls,
&s->target,
GNUNET_SYSERR,
s->frag_ctx->payload_size,
s->frag_ctx->on_wire_size);
}
notify_session_monitor (s->plugin,
s,
GNUNET_TRANSPORT_SS_DONE);
plugin->env->session_end (plugin->env->cls,
s->address,
s);
GNUNET_STATISTICS_set (plugin->env->stats,
"# UDP sessions active",
GNUNET_CONTAINER_multipeermap_size (plugin->sessions),
GNUNET_NO);
if (0 == s->rc)
free_session (s);
return GNUNET_OK;
}
/**
* Handle a #GNUNET_MESSAGE_TYPE_TRANSPORT_UDP_ACK message.
*
* @param plugin the UDP plugin
* @param msg the (presumed) UDP ACK message
* @param udp_addr sender address
* @param udp_addr_len number of bytes in @a udp_addr
*/
static void
read_process_ack (struct Plugin *plugin,
const struct GNUNET_MessageHeader *msg,
const union UdpAddress *udp_addr,
socklen_t udp_addr_len)
{
const struct GNUNET_MessageHeader *ack;
const struct UDP_ACK_Message *udp_ack;
struct GNUNET_HELLO_Address *address;
struct GNUNET_ATS_Session *s;
struct GNUNET_TIME_Relative flow_delay;
/* check message format */
if (ntohs (msg->size)
< sizeof(struct UDP_ACK_Message) + sizeof(struct GNUNET_MessageHeader))
{
GNUNET_break_op (0);
return;
}
udp_ack = (const struct UDP_ACK_Message *) msg;
ack = (const struct GNUNET_MessageHeader *) &udp_ack[1];
if (ntohs (ack->size) != ntohs (msg->size) - sizeof(struct UDP_ACK_Message))
{
GNUNET_break_op(0);
return;
}
/* Locate session */
address = GNUNET_HELLO_address_allocate (&udp_ack->sender,
PLUGIN_NAME,
udp_addr,
udp_addr_len,
GNUNET_HELLO_ADDRESS_INFO_NONE);
s = udp_plugin_lookup_session (plugin,
address);
if (NULL == s)
{
LOG (GNUNET_ERROR_TYPE_WARNING,
"UDP session of address %s for ACK not found\n",
udp_address_to_string (plugin,
address->address,
address->address_length));
GNUNET_HELLO_address_free (address);
return;
}
if (NULL == s->frag_ctx)
{
LOG (GNUNET_ERROR_TYPE_DEBUG | GNUNET_ERROR_TYPE_BULK,
"Fragmentation context of address %s for ACK (%s) not found\n",
udp_address_to_string (plugin,
address->address,
address->address_length),
GNUNET_FRAGMENT_print_ack (ack));
GNUNET_HELLO_address_free (address);
return;
}
GNUNET_HELLO_address_free (address);
/* evaluate flow delay: how long should we wait between messages? */
if (UINT32_MAX == ntohl (udp_ack->delay))
{
/* Other peer asked for us to terminate the session */
LOG (GNUNET_ERROR_TYPE_INFO,
"Asked to disconnect UDP session of %s\n",
GNUNET_i2s (&udp_ack->sender));
udp_disconnect_session (plugin,
s);
return;
}
flow_delay.rel_value_us = (uint64_t) ntohl (udp_ack->delay);
if (flow_delay.rel_value_us > GNUNET_CONSTANTS_LATENCY_WARN.rel_value_us)
LOG (GNUNET_ERROR_TYPE_WARNING,
"We received a sending delay of %s for %s\n",
GNUNET_STRINGS_relative_time_to_string (flow_delay,
GNUNET_YES),
GNUNET_i2s (&udp_ack->sender));
else
LOG (GNUNET_ERROR_TYPE_DEBUG,
"We received a sending delay of %s for %s\n",
GNUNET_STRINGS_relative_time_to_string (flow_delay,
GNUNET_YES),
GNUNET_i2s (&udp_ack->sender));
/* Flow delay is for the reassembled packet, however, our delay
is per packet, so we need to adjust: */
s->flow_delay_from_other_peer = flow_delay;
/* Handle ACK */
if (GNUNET_OK !=
GNUNET_FRAGMENT_process_ack (s->frag_ctx->frag,
ack))
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"UDP processes %u-byte acknowledgement from `%s' at `%s'\n",
(unsigned int) ntohs (msg->size),
GNUNET_i2s (&udp_ack->sender),
udp_address_to_string (plugin,
udp_addr,
udp_addr_len));
/* Expect more ACKs to arrive */
return;
}
/* Remove fragmented message after successful sending */
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Message from %s at %s full ACK'ed\n",
GNUNET_i2s (&udp_ack->sender),
udp_address_to_string (plugin,
udp_addr,
udp_addr_len));
fragmented_message_done (s->frag_ctx,
GNUNET_OK);
}
/**
* Message tokenizer has broken up an incomming message. Pass it on
* to the service.
*
* @param cls the `struct GNUNET_ATS_Session *`
* @param hdr the actual message
* @return #GNUNET_OK (always)
*/
static int
process_inbound_tokenized_messages (void *cls,
const struct GNUNET_MessageHeader *hdr)
{
struct GNUNET_ATS_Session *session = cls;
struct Plugin *plugin = session->plugin;
if (GNUNET_YES == session->in_destroy)
return GNUNET_OK;
reschedule_session_timeout (session);
session->flow_delay_for_other_peer
= plugin->env->receive (plugin->env->cls,
session->address,
session,
hdr);
return GNUNET_OK;
}
/**
* Destroy a session, plugin is being unloaded.
*
* @param cls the `struct Plugin`
* @param key hash of public key of target peer
* @param value a `struct PeerSession *` to clean up
* @return #GNUNET_OK (continue to iterate)
*/
static int
disconnect_and_free_it (void *cls,
const struct GNUNET_PeerIdentity *key,
void *value)
{
struct Plugin *plugin = cls;
udp_disconnect_session (plugin,
value);
return GNUNET_OK;
}
/**
* Disconnect from a remote node. Clean up session if we have one for
* this peer.
*
* @param cls closure for this call (should be handle to Plugin)
* @param target the peeridentity of the peer to disconnect
* @return #GNUNET_OK on success, #GNUNET_SYSERR if the operation failed
*/
static void
udp_disconnect (void *cls,
const struct GNUNET_PeerIdentity *target)
{
struct Plugin *plugin = cls;
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Disconnecting from peer `%s'\n",
GNUNET_i2s (target));
GNUNET_CONTAINER_multipeermap_get_multiple (plugin->sessions,
target,
&disconnect_and_free_it,
plugin);
}
/**
* Session was idle, so disconnect it.
*
* @param cls the `struct GNUNET_ATS_Session` to time out
*/
static void
session_timeout (void *cls)
{
struct GNUNET_ATS_Session *s = cls;
struct Plugin *plugin = s->plugin;
struct GNUNET_TIME_Relative left;
s->timeout_task = NULL;
left = GNUNET_TIME_absolute_get_remaining (s->timeout);
if (left.rel_value_us > 0)
{
/* not actually our turn yet, but let's at least update
the monitor, it may think we're about to die ... */
notify_session_monitor (s->plugin,
s,
GNUNET_TRANSPORT_SS_UPDATE);
s->timeout_task = GNUNET_SCHEDULER_add_delayed (left,
&session_timeout,
s);
return;
}
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Session %p was idle for %s, disconnecting\n",
s,
GNUNET_STRINGS_relative_time_to_string (UDP_SESSION_TIME_OUT,
GNUNET_YES));
/* call session destroy function */
udp_disconnect_session (plugin,
s);
}
/**
* Allocate a new session for the given endpoint address.
* Note that this function does not inform the service
* of the new session, this is the responsibility of the
* caller (if needed).
*
* @param cls the `struct Plugin`
* @param address address of the other peer to use
* @param network_type network type the address belongs to
* @return NULL on error, otherwise session handle
*/
static struct GNUNET_ATS_Session *
udp_plugin_create_session (void *cls,
const struct GNUNET_HELLO_Address *address,
enum GNUNET_ATS_Network_Type network_type)
{
struct Plugin *plugin = cls;
struct GNUNET_ATS_Session *s;
s = GNUNET_new (struct GNUNET_ATS_Session);
s->mst = GNUNET_MST_create (&process_inbound_tokenized_messages,
s);
s->plugin = plugin;
s->address = GNUNET_HELLO_address_copy (address);
s->target = address->peer;
s->last_transmit_time = GNUNET_TIME_absolute_get ();
s->last_expected_ack_delay = GNUNET_TIME_relative_multiply (GNUNET_TIME_UNIT_MILLISECONDS,
250);
s->last_expected_msg_delay = GNUNET_TIME_UNIT_MILLISECONDS;
s->flow_delay_from_other_peer = GNUNET_TIME_UNIT_ZERO;
s->flow_delay_for_other_peer = GNUNET_TIME_UNIT_ZERO;
s->timeout = GNUNET_TIME_relative_to_absolute (UDP_SESSION_TIME_OUT);
s->timeout_task = GNUNET_SCHEDULER_add_delayed (UDP_SESSION_TIME_OUT,
&session_timeout,
s);
s->scope = network_type;
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Creating new session %p for peer `%s' address `%s'\n",
s,
GNUNET_i2s (&address->peer),
udp_address_to_string (plugin,
address->address,
address->address_length));
GNUNET_assert (GNUNET_OK ==
GNUNET_CONTAINER_multipeermap_put (plugin->sessions,
&s->target,
s,
GNUNET_CONTAINER_MULTIHASHMAPOPTION_MULTIPLE));
GNUNET_STATISTICS_set (plugin->env->stats,
"# UDP sessions active",
GNUNET_CONTAINER_multipeermap_size (plugin->sessions),
GNUNET_NO);
notify_session_monitor (plugin,
s,
GNUNET_TRANSPORT_SS_INIT);
return s;
}
/**
* Creates a new outbound session the transport service will use to
* send data to the peer.
*
* @param cls the `struct Plugin *`
* @param address the address
* @return the session or NULL of max connections exceeded
*/
static struct GNUNET_ATS_Session *
udp_plugin_get_session (void *cls,
const struct GNUNET_HELLO_Address *address)
{
struct Plugin *plugin = cls;
struct GNUNET_ATS_Session *s;
enum GNUNET_ATS_Network_Type network_type = GNUNET_ATS_NET_UNSPECIFIED;
const struct IPv4UdpAddress *udp_v4;
const struct IPv6UdpAddress *udp_v6;
if (NULL == address)
{
GNUNET_break (0);
return NULL;
}
if ( (address->address_length != sizeof(struct IPv4UdpAddress)) &&
(address->address_length != sizeof(struct IPv6UdpAddress)) )
{
GNUNET_break_op (0);
return NULL;
}
if (NULL != (s = udp_plugin_lookup_session (cls,
address)))
return s;
/* need to create new session */
if (sizeof (struct IPv4UdpAddress) == address->address_length)
{
struct sockaddr_in v4;
udp_v4 = (const struct IPv4UdpAddress *) address->address;
memset (&v4, '\0', sizeof (v4));
v4.sin_family = AF_INET;
#if HAVE_SOCKADDR_IN_SIN_LEN
v4.sin_len = sizeof (struct sockaddr_in);
#endif
v4.sin_port = udp_v4->u4_port;
v4.sin_addr.s_addr = udp_v4->ipv4_addr;
network_type = plugin->env->get_address_type (plugin->env->cls,
(const struct sockaddr *) &v4,
sizeof (v4));
}
if (sizeof (struct IPv6UdpAddress) == address->address_length)
{
struct sockaddr_in6 v6;
udp_v6 = (const struct IPv6UdpAddress *) address->address;
memset (&v6, '\0', sizeof (v6));
v6.sin6_family = AF_INET6;
#if HAVE_SOCKADDR_IN_SIN_LEN
v6.sin6_len = sizeof (struct sockaddr_in6);
#endif
v6.sin6_port = udp_v6->u6_port;
v6.sin6_addr = udp_v6->ipv6_addr;
network_type = plugin->env->get_address_type (plugin->env->cls,
(const struct sockaddr *) &v6,
sizeof (v6));
}
GNUNET_break (GNUNET_ATS_NET_UNSPECIFIED != network_type);
return udp_plugin_create_session (cls,
address,
network_type);
}
/**
* We've received a UDP Message. Process it (pass contents to main service).
*
* @param plugin plugin context
* @param msg the message
* @param udp_addr sender address
* @param udp_addr_len number of bytes in @a udp_addr
* @param network_type network type the address belongs to
*/
static void
process_udp_message (struct Plugin *plugin,
const struct UDPMessage *msg,
const union UdpAddress *udp_addr,
size_t udp_addr_len,
enum GNUNET_ATS_Network_Type network_type)
{
struct GNUNET_ATS_Session *s;
struct GNUNET_HELLO_Address *address;
GNUNET_break (GNUNET_ATS_NET_UNSPECIFIED != network_type);
if (0 != ntohl (msg->reserved))
{
GNUNET_break_op(0);
return;
}
if (ntohs (msg->header.size)
< sizeof(struct GNUNET_MessageHeader) + sizeof(struct UDPMessage))
{
GNUNET_break_op(0);
return;
}
address = GNUNET_HELLO_address_allocate (&msg->sender,
PLUGIN_NAME,
udp_addr,
udp_addr_len,
GNUNET_HELLO_ADDRESS_INFO_NONE);
if (NULL ==
(s = udp_plugin_lookup_session (plugin,
address)))
{
s = udp_plugin_create_session (plugin,
address,
network_type);
plugin->env->session_start (plugin->env->cls,
address,
s,
s->scope);
notify_session_monitor (plugin,
s,
GNUNET_TRANSPORT_SS_UP);
}
GNUNET_free (address);
s->rc++;
GNUNET_MST_from_buffer (s->mst,
(const char *) &msg[1],
ntohs (msg->header.size) - sizeof(struct UDPMessage),
GNUNET_YES,
GNUNET_NO);
s->rc--;
if ( (0 == s->rc) &&
(GNUNET_YES == s->in_destroy) )
free_session (s);
}
/**
* Process a defragmented message.
*
* @param cls the `struct DefragContext *`
* @param msg the message
*/
static void
fragment_msg_proc (void *cls,
const struct GNUNET_MessageHeader *msg)
{
struct DefragContext *dc = cls;
const struct UDPMessage *um;
if (ntohs (msg->type) != GNUNET_MESSAGE_TYPE_TRANSPORT_UDP_MESSAGE)
{
GNUNET_break_op (0);
return;
}
if (ntohs (msg->size) < sizeof(struct UDPMessage))
{
GNUNET_break_op (0);
return;
}
um = (const struct UDPMessage *) msg;
dc->sender = um->sender;
dc->have_sender = GNUNET_YES;
process_udp_message (dc->plugin,
um,
dc->udp_addr,
dc->udp_addr_len,
dc->network_type);
}
/**
* We finished sending an acknowledgement. Update
* statistics.
*
* @param cls the `struct Plugin`
* @param udpw message queue entry of the ACK
* @param result #GNUNET_OK if the transmission worked,
* #GNUNET_SYSERR if we failed to send the ACK
*/
static void
ack_message_sent (void *cls,
struct UDP_MessageWrapper *udpw,
int result)
{
struct Plugin *plugin = cls;
if (GNUNET_OK == result)
{
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, ACK messages sent",
1,
GNUNET_NO);
}
else
{
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, ACK transmissions failed",
1,
GNUNET_NO);
}
}
/**
* Transmit an acknowledgement.
*
* @param cls the `struct DefragContext *`
* @param id message ID (unused)
* @param msg ack to transmit
*/
static void
ack_proc (void *cls,
uint32_t id,
const struct GNUNET_MessageHeader *msg)
{
struct DefragContext *rc = cls;
struct Plugin *plugin = rc->plugin;
size_t msize = sizeof(struct UDP_ACK_Message) + ntohs (msg->size);
struct UDP_ACK_Message *udp_ack;
uint32_t delay;
struct UDP_MessageWrapper *udpw;
struct GNUNET_ATS_Session *s;
struct GNUNET_HELLO_Address *address;
if (GNUNET_NO == rc->have_sender)
{
/* tried to defragment but never succeeded, hence will not ACK */
/* This can happen if we just lost msgs */
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, fragments discarded without ACK",
1,
GNUNET_NO);
return;
}
address = GNUNET_HELLO_address_allocate (&rc->sender,
PLUGIN_NAME,
rc->udp_addr,
rc->udp_addr_len,
GNUNET_HELLO_ADDRESS_INFO_NONE);
s = udp_plugin_lookup_session (plugin,
address);
GNUNET_HELLO_address_free (address);
if (NULL == s)
{
LOG (GNUNET_ERROR_TYPE_ERROR,
"Trying to transmit ACK to peer `%s' but no session found!\n",
udp_address_to_string (plugin,
rc->udp_addr,
rc->udp_addr_len));
GNUNET_CONTAINER_heap_remove_node (rc->hnode);
GNUNET_DEFRAGMENT_context_destroy (rc->defrag);
GNUNET_free (rc);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, ACK transmissions failed",
1,
GNUNET_NO);
return;
}
if (GNUNET_TIME_UNIT_FOREVER_REL.rel_value_us ==
s->flow_delay_for_other_peer.rel_value_us)
delay = UINT32_MAX;
else if (s->flow_delay_for_other_peer.rel_value_us < UINT32_MAX)
delay = s->flow_delay_for_other_peer.rel_value_us;
else
delay = UINT32_MAX - 1; /* largest value we can communicate */
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Sending ACK to `%s' including delay of %s\n",
udp_address_to_string (plugin,
rc->udp_addr,
rc->udp_addr_len),
GNUNET_STRINGS_relative_time_to_string (s->flow_delay_for_other_peer,
GNUNET_YES));
udpw = GNUNET_malloc (sizeof (struct UDP_MessageWrapper) + msize);
udpw->msg_size = msize;
udpw->payload_size = 0;
udpw->session = s;
udpw->start_time = GNUNET_TIME_absolute_get ();
udpw->timeout = GNUNET_TIME_UNIT_FOREVER_ABS;
udpw->msg_buf = (char *) &udpw[1];
udpw->qc = &ack_message_sent;
udpw->qc_cls = plugin;
udp_ack = (struct UDP_ACK_Message *) udpw->msg_buf;
udp_ack->header.size = htons ((uint16_t) msize);
udp_ack->header.type = htons (GNUNET_MESSAGE_TYPE_TRANSPORT_UDP_ACK);
udp_ack->delay = htonl (delay);
udp_ack->sender = *plugin->env->my_identity;
GNUNET_memcpy (&udp_ack[1],
msg,
ntohs (msg->size));
enqueue (plugin,
udpw);
notify_session_monitor (plugin,
s,
GNUNET_TRANSPORT_SS_UPDATE);
if (s->address->address_length == sizeof (struct IPv4UdpAddress))
schedule_select_v4 (plugin);
else
schedule_select_v6 (plugin);
}
/**
* We received a fragment, process it.
*
* @param plugin our plugin
* @param msg a message of type #GNUNET_MESSAGE_TYPE_FRAGMENT
* @param udp_addr sender address
* @param udp_addr_len number of bytes in @a udp_addr
* @param network_type network type the address belongs to
*/
static void
read_process_fragment (struct Plugin *plugin,
const struct GNUNET_MessageHeader *msg,
const union UdpAddress *udp_addr,
size_t udp_addr_len,
enum GNUNET_ATS_Network_Type network_type)
{
struct DefragContext *d_ctx;
struct GNUNET_TIME_Absolute now;
struct FindReceiveContext frc;
frc.rc = NULL;
frc.udp_addr = udp_addr;
frc.udp_addr_len = udp_addr_len;
/* Lookup existing receive context for this address */
GNUNET_CONTAINER_heap_iterate (plugin->defrag_ctxs,
&find_receive_context,
&frc);
now = GNUNET_TIME_absolute_get ();
d_ctx = frc.rc;
if (NULL == d_ctx)
{
/* Create a new defragmentation context */
d_ctx = GNUNET_malloc (sizeof (struct DefragContext) + udp_addr_len);
GNUNET_memcpy (&d_ctx[1],
udp_addr,
udp_addr_len);
d_ctx->udp_addr = (const union UdpAddress *) &d_ctx[1];
d_ctx->udp_addr_len = udp_addr_len;
d_ctx->network_type = network_type;
d_ctx->plugin = plugin;
d_ctx->defrag = GNUNET_DEFRAGMENT_context_create (plugin->env->stats,
UDP_MTU,
UDP_MAX_MESSAGES_IN_DEFRAG,
d_ctx,
&fragment_msg_proc,
&ack_proc);
d_ctx->hnode = GNUNET_CONTAINER_heap_insert (plugin->defrag_ctxs,
d_ctx,
(GNUNET_CONTAINER_HeapCostType) now.abs_value_us);
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Created new defragmentation context for %u-byte fragment from `%s'\n",
(unsigned int) ntohs (msg->size),
udp_address_to_string (plugin,
udp_addr,
udp_addr_len));
}
else
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Found existing defragmentation context for %u-byte fragment from `%s'\n",
(unsigned int) ntohs (msg->size),
udp_address_to_string (plugin,
udp_addr,
udp_addr_len));
}
if (GNUNET_OK ==
GNUNET_DEFRAGMENT_process_fragment (d_ctx->defrag,
msg))
{
/* keep this 'rc' from expiring */
GNUNET_CONTAINER_heap_update_cost (d_ctx->hnode,
(GNUNET_CONTAINER_HeapCostType) now.abs_value_us);
}
if (GNUNET_CONTAINER_heap_get_size (plugin->defrag_ctxs) >
UDP_MAX_SENDER_ADDRESSES_WITH_DEFRAG)
{
/* remove 'rc' that was inactive the longest */
d_ctx = GNUNET_CONTAINER_heap_remove_root (plugin->defrag_ctxs);
GNUNET_assert (NULL != d_ctx);
GNUNET_DEFRAGMENT_context_destroy (d_ctx->defrag);
GNUNET_free (d_ctx);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, Defragmentations aborted",
1,
GNUNET_NO);
}
}
/**
* Read and process a message from the given socket.
*
* @param plugin the overall plugin
* @param rsock socket to read from
*/
static void
udp_select_read (struct Plugin *plugin,
struct GNUNET_NETWORK_Handle *rsock)
{
socklen_t fromlen;
struct sockaddr_storage addr;
char buf[65536] GNUNET_ALIGN;
ssize_t size;
const struct GNUNET_MessageHeader *msg;
struct IPv4UdpAddress v4;
struct IPv6UdpAddress v6;
const struct sockaddr *sa;
const struct sockaddr_in *sa4;
const struct sockaddr_in6 *sa6;
const union UdpAddress *int_addr;
size_t int_addr_len;
enum GNUNET_ATS_Network_Type network_type;
fromlen = sizeof (addr);
memset (&addr,
0,
sizeof(addr));
size = GNUNET_NETWORK_socket_recvfrom (rsock,
buf,
sizeof (buf),
(struct sockaddr *) &addr,
&fromlen);
sa = (const struct sockaddr *) &addr;
#if MINGW
/* On SOCK_DGRAM UDP sockets recvfrom might fail with a
* WSAECONNRESET error to indicate that previous sendto() (yes, sendto!)
* on this socket has failed.
* Quote from MSDN:
* WSAECONNRESET - The virtual circuit was reset by the remote side
* executing a hard or abortive close. The application should close
* the socket; it is no longer usable. On a UDP-datagram socket this
* error indicates a previous send operation resulted in an ICMP Port
* Unreachable message.
*/
if ( (-1 == size) &&
(ECONNRESET == errno) )
return;
#endif
if (-1 == size)
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"UDP failed to receive data: %s\n",
STRERROR (errno));
/* Connection failure or something. Not a protocol violation. */
return;
}
/* Check if this is a STUN packet */
if (GNUNET_NO !=
GNUNET_NAT_stun_handle_packet (plugin->nat,
(const struct sockaddr *) &addr,
fromlen,
buf,
size))
return; /* was STUN, do not process further */
if (size < sizeof(struct GNUNET_MessageHeader))
{
LOG (GNUNET_ERROR_TYPE_WARNING,
"UDP got %u bytes from %s, which is not enough for a GNUnet message header\n",
(unsigned int ) size,
GNUNET_a2s (sa,
fromlen));
/* _MAY_ be a connection failure (got partial message) */
/* But it _MAY_ also be that the other side uses non-GNUnet protocol. */
GNUNET_break_op (0);
return;
}
msg = (const struct GNUNET_MessageHeader *) buf;
LOG (GNUNET_ERROR_TYPE_DEBUG,
"UDP received %u-byte message from `%s' type %u\n",
(unsigned int) size,
GNUNET_a2s (sa,
fromlen),
ntohs (msg->type));
if (size != ntohs (msg->size))
{
LOG (GNUNET_ERROR_TYPE_WARNING,
"UDP malformed message (size %u) header from %s\n",
(unsigned int) size,
GNUNET_a2s (sa,
fromlen));
GNUNET_break_op (0);
return;
}
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total bytes received",
size,
GNUNET_NO);
network_type = plugin->env->get_address_type (plugin->env->cls,
sa,
fromlen);
switch (sa->sa_family)
{
case AF_INET:
sa4 = (const struct sockaddr_in *) &addr;
v4.options = 0;
v4.ipv4_addr = sa4->sin_addr.s_addr;
v4.u4_port = sa4->sin_port;
int_addr = (union UdpAddress *) &v4;
int_addr_len = sizeof (v4);
break;
case AF_INET6:
sa6 = (const struct sockaddr_in6 *) &addr;
v6.options = 0;
v6.ipv6_addr = sa6->sin6_addr;
v6.u6_port = sa6->sin6_port;
int_addr = (union UdpAddress *) &v6;
int_addr_len = sizeof (v6);
break;
default:
GNUNET_break (0);
return;
}
switch (ntohs (msg->type))
{
case GNUNET_MESSAGE_TYPE_TRANSPORT_BROADCAST_BEACON:
if (GNUNET_YES == plugin->enable_broadcasting_receiving)
udp_broadcast_receive (plugin,
buf,
size,
int_addr,
int_addr_len,
network_type);
return;
case GNUNET_MESSAGE_TYPE_TRANSPORT_UDP_MESSAGE:
if (ntohs (msg->size) < sizeof(struct UDPMessage))
{
GNUNET_break_op(0);
return;
}
process_udp_message (plugin,
(const struct UDPMessage *) msg,
int_addr,
int_addr_len,
network_type);
return;
case GNUNET_MESSAGE_TYPE_TRANSPORT_UDP_ACK:
read_process_ack (plugin,
msg,
int_addr,
int_addr_len);
return;
case GNUNET_MESSAGE_TYPE_FRAGMENT:
read_process_fragment (plugin,
msg,
int_addr,
int_addr_len,
network_type);
return;
default:
GNUNET_break_op(0);
return;
}
}
/**
* Removes messages from the transmission queue that have
* timed out, and then selects a message that should be
* transmitted next.
*
* @param plugin the UDP plugin
* @param sock which socket should we process the queue for (v4 or v6)
* @return message selected for transmission, or NULL for none
*/
static struct UDP_MessageWrapper *
remove_timeout_messages_and_select (struct Plugin *plugin,
struct GNUNET_NETWORK_Handle *sock)
{
struct UDP_MessageWrapper *udpw;
struct GNUNET_TIME_Relative remaining;
struct GNUNET_ATS_Session *session;
int removed;
removed = GNUNET_NO;
udpw = (sock == plugin->sockv4)
? plugin->ipv4_queue_head
: plugin->ipv6_queue_head;
while (NULL != udpw)
{
session = udpw->session;
/* Find messages with timeout */
remaining = GNUNET_TIME_absolute_get_remaining (udpw->timeout);
if (GNUNET_TIME_UNIT_ZERO.rel_value_us == remaining.rel_value_us)
{
/* Message timed out */
removed = GNUNET_YES;
dequeue (plugin,
udpw);
udpw->qc (udpw->qc_cls,
udpw,
GNUNET_SYSERR);
GNUNET_free (udpw);
if (sock == plugin->sockv4)
{
udpw = plugin->ipv4_queue_head;
}
else if (sock == plugin->sockv6)
{
udpw = plugin->ipv6_queue_head;
}
else
{
GNUNET_break (0); /* should never happen */
udpw = NULL;
}
GNUNET_STATISTICS_update (plugin->env->stats,
"# messages discarded due to timeout",
1,
GNUNET_NO);
}
else
{
/* Message did not time out, check transmission time */
remaining = GNUNET_TIME_absolute_get_remaining (udpw->transmission_time);
if (0 == remaining.rel_value_us)
{
/* this message is not delayed */
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Message for peer `%s' (%u bytes) is not delayed \n",
GNUNET_i2s (&udpw->session->target),
udpw->payload_size);
break; /* Found message to send, break */
}
else
{
/* Message is delayed, try next */
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Message for peer `%s' (%u bytes) is delayed for %s\n",
GNUNET_i2s (&udpw->session->target),
udpw->payload_size,
GNUNET_STRINGS_relative_time_to_string (remaining,
GNUNET_YES));
udpw = udpw->next;
}
}
}
if (GNUNET_YES == removed)
notify_session_monitor (session->plugin,
session,
GNUNET_TRANSPORT_SS_UPDATE);
return udpw;
}
/**
* We failed to transmit a message via UDP. Generate
* a descriptive error message.
*
* @param plugin our plugin
* @param sa target address we were trying to reach
* @param slen number of bytes in @a sa
* @param error the errno value returned from the sendto() call
*/
static void
analyze_send_error (struct Plugin *plugin,
const struct sockaddr *sa,
socklen_t slen,
int error)
{
enum GNUNET_ATS_Network_Type type;
type = plugin->env->get_address_type (plugin->env->cls,
sa,
slen);
if ( ( (GNUNET_ATS_NET_LAN == type) ||
(GNUNET_ATS_NET_WAN == type) ) &&
( (ENETUNREACH == errno) ||
(ENETDOWN == errno) ) )
{
if (slen == sizeof (struct sockaddr_in))
{
/* IPv4: "Network unreachable" or "Network down"
*
* This indicates we do not have connectivity
*/
LOG (GNUNET_ERROR_TYPE_WARNING | GNUNET_ERROR_TYPE_BULK,
_("UDP could not transmit message to `%s': "
"Network seems down, please check your network configuration\n"),
GNUNET_a2s (sa,
slen));
}
if (slen == sizeof (struct sockaddr_in6))
{
/* IPv6: "Network unreachable" or "Network down"
*
* This indicates that this system is IPv6 enabled, but does not
* have a valid global IPv6 address assigned or we do not have
* connectivity
*/
LOG (GNUNET_ERROR_TYPE_WARNING | GNUNET_ERROR_TYPE_BULK,
_("UDP could not transmit IPv6 message! "
"Please check your network configuration and disable IPv6 if your "
"connection does not have a global IPv6 address\n"));
}
}
else
{
LOG (GNUNET_ERROR_TYPE_WARNING,
"UDP could not transmit message to `%s': `%s'\n",
GNUNET_a2s (sa,
slen),
STRERROR (error));
}
}
/**
* It is time to try to transmit a UDP message. Select one
* and send.
*
* @param plugin the plugin
* @param sock which socket (v4/v6) to send on
*/
static void
udp_select_send (struct Plugin *plugin,
struct GNUNET_NETWORK_Handle *sock)
{
ssize_t sent;
socklen_t slen;
const struct sockaddr *a;
const struct IPv4UdpAddress *u4;
struct sockaddr_in a4;
const struct IPv6UdpAddress *u6;
struct sockaddr_in6 a6;
struct UDP_MessageWrapper *udpw;
/* Find message(s) to send */
while (NULL != (udpw = remove_timeout_messages_and_select (plugin,
sock)))
{
if (sizeof (struct IPv4UdpAddress) == udpw->session->address->address_length)
{
u4 = udpw->session->address->address;
memset (&a4,
0,
sizeof(a4));
a4.sin_family = AF_INET;
#if HAVE_SOCKADDR_IN_SIN_LEN
a4.sin_len = sizeof (a4);
#endif
a4.sin_port = u4->u4_port;
a4.sin_addr.s_addr = u4->ipv4_addr;
a = (const struct sockaddr *) &a4;
slen = sizeof (a4);
}
else if (sizeof (struct IPv6UdpAddress) == udpw->session->address->address_length)
{
u6 = udpw->session->address->address;
memset (&a6,
0,
sizeof(a6));
a6.sin6_family = AF_INET6;
#if HAVE_SOCKADDR_IN_SIN_LEN
a6.sin6_len = sizeof (a6);
#endif
a6.sin6_port = u6->u6_port;
a6.sin6_addr = u6->ipv6_addr;
a = (const struct sockaddr *) &a6;
slen = sizeof (a6);
}
else
{
GNUNET_break (0);
dequeue (plugin,
udpw);
udpw->qc (udpw->qc_cls,
udpw,
GNUNET_SYSERR);
notify_session_monitor (plugin,
udpw->session,
GNUNET_TRANSPORT_SS_UPDATE);
GNUNET_free (udpw);
continue;
}
sent = GNUNET_NETWORK_socket_sendto (sock,
udpw->msg_buf,
udpw->msg_size,
a,
slen);
udpw->session->last_transmit_time
= GNUNET_TIME_absolute_max (GNUNET_TIME_absolute_get (),
udpw->session->last_transmit_time);
dequeue (plugin,
udpw);
if (GNUNET_SYSERR == sent)
{
/* Failure */
analyze_send_error (plugin,
a,
slen,
errno);
udpw->qc (udpw->qc_cls,
udpw,
GNUNET_SYSERR);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total, bytes, sent, failure",
sent,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total, messages, sent, failure",
1,
GNUNET_NO);
}
else
{
/* Success */
LOG (GNUNET_ERROR_TYPE_DEBUG,
"UDP transmitted %u-byte message to `%s' `%s' (%d: %s)\n",
(unsigned int) (udpw->msg_size),
GNUNET_i2s (&udpw->session->target),
GNUNET_a2s (a,
slen),
(int ) sent,
(sent < 0) ? STRERROR (errno) : "ok");
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total, bytes, sent, success",
sent,
GNUNET_NO);
GNUNET_STATISTICS_update (plugin->env->stats,
"# UDP, total, messages, sent, success",
1,
GNUNET_NO);
if (NULL != udpw->frag_ctx)
udpw->frag_ctx->on_wire_size += udpw->msg_size;
udpw->qc (udpw->qc_cls,
udpw,
GNUNET_OK);
}
notify_session_monitor (plugin,
udpw->session,
GNUNET_TRANSPORT_SS_UPDATE);
GNUNET_free (udpw);
}
}
/* ***************** Event loop (part 2) *************** */
/**
* We have been notified that our readset has something to read. We don't
* know which socket needs to be read, so we have to check each one
* Then reschedule this function to be called again once more is available.
*
* @param cls the plugin handle
*/
static void
udp_plugin_select_v4 (void *cls)
{
struct Plugin *plugin = cls;
const struct GNUNET_SCHEDULER_TaskContext *tc;
plugin->select_task_v4 = NULL;
if (NULL == plugin->sockv4)
return;
tc = GNUNET_SCHEDULER_get_task_context ();
if ((0 != (tc->reason & GNUNET_SCHEDULER_REASON_READ_READY)) &&
(GNUNET_NETWORK_fdset_isset (tc->read_ready,
plugin->sockv4)))
udp_select_read (plugin,
plugin->sockv4);
udp_select_send (plugin,
plugin->sockv4);
schedule_select_v4 (plugin);
}
/**
* We have been notified that our readset has something to read. We don't
* know which socket needs to be read, so we have to check each one
* Then reschedule this function to be called again once more is available.
*
* @param cls the plugin handle
*/
static void
udp_plugin_select_v6 (void *cls)
{
struct Plugin *plugin = cls;
const struct GNUNET_SCHEDULER_TaskContext *tc;
plugin->select_task_v6 = NULL;
if (NULL == plugin->sockv6)
return;
tc = GNUNET_SCHEDULER_get_task_context ();
if ( (0 != (tc->reason & GNUNET_SCHEDULER_REASON_READ_READY)) &&
(GNUNET_NETWORK_fdset_isset (tc->read_ready,
plugin->sockv6)) )
udp_select_read (plugin,
plugin->sockv6);
udp_select_send (plugin,
plugin->sockv6);
schedule_select_v6 (plugin);
}
/* ******************* Initialization *************** */
/**
* Setup the UDP sockets (for IPv4 and IPv6) for the plugin.
*
* @param plugin the plugin to initialize
* @param bind_v6 IPv6 address to bind to (can be NULL, for 'any')
* @param bind_v4 IPv4 address to bind to (can be NULL, for 'any')
* @return number of sockets that were successfully bound
*/
static unsigned int
setup_sockets (struct Plugin *plugin,
const struct sockaddr_in6 *bind_v6,
const struct sockaddr_in *bind_v4)
{
int tries;
unsigned int sockets_created = 0;
struct sockaddr_in6 server_addrv6;
struct sockaddr_in server_addrv4;
const struct sockaddr *server_addr;
const struct sockaddr *addrs[2];
socklen_t addrlens[2];
socklen_t addrlen;
int eno;
/* Create IPv6 socket */
eno = EINVAL;
if (GNUNET_YES == plugin->enable_ipv6)
{
plugin->sockv6 = GNUNET_NETWORK_socket_create (PF_INET6,
SOCK_DGRAM,
0);
if (NULL == plugin->sockv6)
{
LOG (GNUNET_ERROR_TYPE_INFO,
_("Disabling IPv6 since it is not supported on this system!\n"));
plugin->enable_ipv6 = GNUNET_NO;
}
else
{
memset (&server_addrv6,
0,
sizeof(struct sockaddr_in6));
#if HAVE_SOCKADDR_IN_SIN_LEN
server_addrv6.sin6_len = sizeof (struct sockaddr_in6);
#endif
server_addrv6.sin6_family = AF_INET6;
if (NULL != bind_v6)
server_addrv6.sin6_addr = bind_v6->sin6_addr;
else
server_addrv6.sin6_addr = in6addr_any;
if (0 == plugin->port) /* autodetect */
server_addrv6.sin6_port
= htons (GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_STRONG,
33537)
+ 32000);
else
server_addrv6.sin6_port = htons (plugin->port);
addrlen = sizeof (struct sockaddr_in6);
server_addr = (const struct sockaddr *) &server_addrv6;
tries = 0;
while (tries < 10)
{
LOG(GNUNET_ERROR_TYPE_DEBUG,
"Binding to IPv6 `%s'\n",
GNUNET_a2s (server_addr,
addrlen));
/* binding */
if (GNUNET_OK ==
GNUNET_NETWORK_socket_bind (plugin->sockv6,
server_addr,
addrlen))
break;
eno = errno;
if (0 != plugin->port)
{
tries = 10; /* fail immediately */
break; /* bind failed on specific port */
}
/* autodetect */
server_addrv6.sin6_port
= htons (GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_STRONG,
33537)
+ 32000);
tries++;
}
if (tries >= 10)
{
GNUNET_NETWORK_socket_close (plugin->sockv6);
plugin->enable_ipv6 = GNUNET_NO;
plugin->sockv6 = NULL;
}
else
{
plugin->port = ntohs (server_addrv6.sin6_port);
}
if (NULL != plugin->sockv6)
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"IPv6 UDP socket created listinging at %s\n",
GNUNET_a2s (server_addr,
addrlen));
addrs[sockets_created] = server_addr;
addrlens[sockets_created] = addrlen;
sockets_created++;
}
else
{
LOG (GNUNET_ERROR_TYPE_WARNING,
_("Failed to bind UDP socket to %s: %s\n"),
GNUNET_a2s (server_addr,
addrlen),
STRERROR (eno));
}
}
}
/* Create IPv4 socket */
eno = EINVAL;
plugin->sockv4 = GNUNET_NETWORK_socket_create (PF_INET,
SOCK_DGRAM,
0);
if (NULL == plugin->sockv4)
{
GNUNET_log_strerror (GNUNET_ERROR_TYPE_WARNING,
"socket");
LOG (GNUNET_ERROR_TYPE_INFO,
_("Disabling IPv4 since it is not supported on this system!\n"));
plugin->enable_ipv4 = GNUNET_NO;
}
else
{
memset (&server_addrv4,
0,
sizeof(struct sockaddr_in));
#if HAVE_SOCKADDR_IN_SIN_LEN
server_addrv4.sin_len = sizeof (struct sockaddr_in);
#endif
server_addrv4.sin_family = AF_INET;
if (NULL != bind_v4)
server_addrv4.sin_addr = bind_v4->sin_addr;
else
server_addrv4.sin_addr.s_addr = INADDR_ANY;
if (0 == plugin->port)
/* autodetect */
server_addrv4.sin_port
= htons (GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_STRONG,
33537)
+ 32000);
else
server_addrv4.sin_port = htons (plugin->port);
addrlen = sizeof (struct sockaddr_in);
server_addr = (const struct sockaddr *) &server_addrv4;
tries = 0;
while (tries < 10)
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Binding to IPv4 `%s'\n",
GNUNET_a2s (server_addr,
addrlen));
/* binding */
if (GNUNET_OK ==
GNUNET_NETWORK_socket_bind (plugin->sockv4,
server_addr,
addrlen))
break;
eno = errno;
if (0 != plugin->port)
{
tries = 10; /* fail */
break; /* bind failed on specific port */
}
/* autodetect */
server_addrv4.sin_port
= htons (GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_STRONG,
33537)
+ 32000);
tries++;
}
if (tries >= 10)
{
GNUNET_NETWORK_socket_close (plugin->sockv4);
plugin->enable_ipv4 = GNUNET_NO;
plugin->sockv4 = NULL;
}
else
{
plugin->port = ntohs (server_addrv4.sin_port);
}
if (NULL != plugin->sockv4)
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"IPv4 socket created on port %s\n",
GNUNET_a2s (server_addr,
addrlen));
addrs[sockets_created] = server_addr;
addrlens[sockets_created] = addrlen;
sockets_created++;
}
else
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Failed to bind UDP socket to %s: %s\n"),
GNUNET_a2s (server_addr,
addrlen),
STRERROR (eno));
}
}
if (0 == sockets_created)
{
LOG (GNUNET_ERROR_TYPE_WARNING,
_("Failed to open UDP sockets\n"));
return 0; /* No sockets created, return */
}
schedule_select_v4 (plugin);
schedule_select_v6 (plugin);
plugin->nat = GNUNET_NAT_register (plugin->env->cfg,
"transport-udp",
IPPROTO_UDP,
sockets_created,
addrs,
addrlens,
&udp_nat_port_map_callback,
NULL,
plugin);
return sockets_created;
}
/**
* The exported method. Makes the core api available via a global and
* returns the udp transport API.
*
* @param cls our `struct GNUNET_TRANSPORT_PluginEnvironment`
* @return our `struct GNUNET_TRANSPORT_PluginFunctions`
*/
void *
libgnunet_plugin_transport_udp_init (void *cls)
{
struct GNUNET_TRANSPORT_PluginEnvironment *env = cls;
struct GNUNET_TRANSPORT_PluginFunctions *api;
struct Plugin *p;
unsigned long long port;
unsigned long long aport;
unsigned long long udp_max_bps;
int enable_v6;
int enable_broadcasting;
int enable_broadcasting_recv;
char *bind4_address;
char *bind6_address;
struct GNUNET_TIME_Relative interval;
struct sockaddr_in server_addrv4;
struct sockaddr_in6 server_addrv6;
unsigned int res;
int have_bind4;
int have_bind6;
if (NULL == env->receive)
{
/* run in 'stub' mode (i.e. as part of gnunet-peerinfo), don't fully
initialze the plugin or the API */
api = GNUNET_new (struct GNUNET_TRANSPORT_PluginFunctions);
api->cls = NULL;
api->address_pretty_printer = &udp_plugin_address_pretty_printer;
api->address_to_string = &udp_address_to_string;
api->string_to_address = &udp_string_to_address;
return api;
}
/* Get port number: port == 0 : autodetect a port,
* > 0 : use this port, not given : 2086 default */
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_number (env->cfg,
"transport-udp",
"PORT",
&port))
port = 2086;
if (port > 65535)
{
GNUNET_log_config_invalid (GNUNET_ERROR_TYPE_ERROR,
"transport-udp",
"PORT",
_("must be in [0,65535]"));
return NULL;
}
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_number (env->cfg,
"transport-udp",
"ADVERTISED_PORT",
&aport))
aport = port;
if (aport > 65535)
{
GNUNET_log_config_invalid (GNUNET_ERROR_TYPE_ERROR,
"transport-udp",
"ADVERTISED_PORT",
_("must be in [0,65535]"));
return NULL;
}
if (GNUNET_YES ==
GNUNET_CONFIGURATION_get_value_yesno (env->cfg,
"nat",
"DISABLEV6"))
enable_v6 = GNUNET_NO;
else
enable_v6 = GNUNET_YES;
have_bind4 = GNUNET_NO;
memset (&server_addrv4,
0,
sizeof (server_addrv4));
if (GNUNET_YES ==
GNUNET_CONFIGURATION_get_value_string (env->cfg,
"transport-udp",
"BINDTO",
&bind4_address))
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Binding UDP plugin to specific address: `%s'\n",
bind4_address);
if (1 != inet_pton (AF_INET,
bind4_address,
&server_addrv4.sin_addr))
{
GNUNET_log_config_invalid (GNUNET_ERROR_TYPE_ERROR,
"transport-udp",
"BINDTO",
_("must be valid IPv4 address"));
GNUNET_free (bind4_address);
return NULL;
}
have_bind4 = GNUNET_YES;
}
GNUNET_free_non_null (bind4_address);
have_bind6 = GNUNET_NO;
memset (&server_addrv6,
0,
sizeof (server_addrv6));
if (GNUNET_YES ==
GNUNET_CONFIGURATION_get_value_string (env->cfg,
"transport-udp",
"BINDTO6",
&bind6_address))
{
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Binding udp plugin to specific address: `%s'\n",
bind6_address);
if (1 != inet_pton (AF_INET6,
bind6_address,
&server_addrv6.sin6_addr))
{
GNUNET_log_config_invalid (GNUNET_ERROR_TYPE_ERROR,
"transport-udp",
"BINDTO6",
_("must be valid IPv6 address"));
GNUNET_free (bind6_address);
return NULL;
}
have_bind6 = GNUNET_YES;
}
GNUNET_free_non_null (bind6_address);
enable_broadcasting = GNUNET_CONFIGURATION_get_value_yesno (env->cfg,
"transport-udp",
"BROADCAST");
if (enable_broadcasting == GNUNET_SYSERR)
enable_broadcasting = GNUNET_NO;
enable_broadcasting_recv = GNUNET_CONFIGURATION_get_value_yesno (env->cfg,
"transport-udp",
"BROADCAST_RECEIVE");
if (enable_broadcasting_recv == GNUNET_SYSERR)
enable_broadcasting_recv = GNUNET_YES;
if (GNUNET_SYSERR ==
GNUNET_CONFIGURATION_get_value_time (env->cfg,
"transport-udp",
"BROADCAST_INTERVAL",
&interval))
{
interval = GNUNET_TIME_relative_multiply (GNUNET_TIME_UNIT_SECONDS,
10);
}
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_number (env->cfg,
"transport-udp",
"MAX_BPS",
&udp_max_bps))
{
/* 50 MB/s == infinity for practical purposes */
udp_max_bps = 1024 * 1024 * 50;
}
p = GNUNET_new (struct Plugin);
p->port = port;
p->aport = aport;
p->broadcast_interval = interval;
p->enable_ipv6 = enable_v6;
p->enable_ipv4 = GNUNET_YES; /* default */
p->enable_broadcasting = enable_broadcasting;
p->enable_broadcasting_receiving = enable_broadcasting_recv;
p->env = env;
p->sessions = GNUNET_CONTAINER_multipeermap_create (16,
GNUNET_NO);
p->defrag_ctxs = GNUNET_CONTAINER_heap_create (GNUNET_CONTAINER_HEAP_ORDER_MIN);
GNUNET_BANDWIDTH_tracker_init (&p->tracker,
NULL,
NULL,
GNUNET_BANDWIDTH_value_init ((uint32_t) udp_max_bps),
30);
res = setup_sockets (p,
(GNUNET_YES == have_bind6) ? &server_addrv6 : NULL,
(GNUNET_YES == have_bind4) ? &server_addrv4 : NULL);
if ( (0 == res) ||
( (NULL == p->sockv4) &&
(NULL == p->sockv6) ) )
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Failed to create UDP network sockets\n"));
GNUNET_CONTAINER_multipeermap_destroy (p->sessions);
GNUNET_CONTAINER_heap_destroy (p->defrag_ctxs);
if (NULL != p->nat)
GNUNET_NAT_unregister (p->nat);
GNUNET_free (p);
return NULL;
}
/* Setup broadcasting and receiving beacons */
setup_broadcast (p,
&server_addrv6,
&server_addrv4);
api = GNUNET_new (struct GNUNET_TRANSPORT_PluginFunctions);
api->cls = p;
api->disconnect_session = &udp_disconnect_session;
api->query_keepalive_factor = &udp_query_keepalive_factor;
api->disconnect_peer = &udp_disconnect;
api->address_pretty_printer = &udp_plugin_address_pretty_printer;
api->address_to_string = &udp_address_to_string;
api->string_to_address = &udp_string_to_address;
api->check_address = &udp_plugin_check_address;
api->get_session = &udp_plugin_get_session;
api->send = &udp_plugin_send;
api->get_network = &udp_plugin_get_network;
api->get_network_for_address = &udp_plugin_get_network_for_address;
api->update_session_timeout = &udp_plugin_update_session_timeout;
api->setup_monitor = &udp_plugin_setup_monitor;
return api;
}
/**
* Function called on each entry in the defragmentation heap to
* clean it up.
*
* @param cls NULL
* @param node node in the heap (to be removed)
* @param element a `struct DefragContext` to be cleaned up
* @param cost unused
* @return #GNUNET_YES
*/
static int
heap_cleanup_iterator (void *cls,
struct GNUNET_CONTAINER_HeapNode *node,
void *element,
GNUNET_CONTAINER_HeapCostType cost)
{
struct DefragContext *d_ctx = element;
GNUNET_CONTAINER_heap_remove_node (node);
GNUNET_DEFRAGMENT_context_destroy (d_ctx->defrag);
GNUNET_free (d_ctx);
return GNUNET_YES;
}
/**
* The exported method. Makes the core api available via a global and
* returns the udp transport API.
*
* @param cls our `struct GNUNET_TRANSPORT_PluginEnvironment`
* @return NULL
*/
void *
libgnunet_plugin_transport_udp_done (void *cls)
{
struct GNUNET_TRANSPORT_PluginFunctions *api = cls;
struct Plugin *plugin = api->cls;
struct PrettyPrinterContext *cur;
struct UDP_MessageWrapper *udpw;
if (NULL == plugin)
{
GNUNET_free (api);
return NULL;
}
stop_broadcast (plugin);
if (NULL != plugin->select_task_v4)
{
GNUNET_SCHEDULER_cancel (plugin->select_task_v4);
plugin->select_task_v4 = NULL;
}
if (NULL != plugin->select_task_v6)
{
GNUNET_SCHEDULER_cancel (plugin->select_task_v6);
plugin->select_task_v6 = NULL;
}
if (NULL != plugin->sockv4)
{
GNUNET_break (GNUNET_OK ==
GNUNET_NETWORK_socket_close (plugin->sockv4));
plugin->sockv4 = NULL;
}
if (NULL != plugin->sockv6)
{
GNUNET_break (GNUNET_OK ==
GNUNET_NETWORK_socket_close (plugin->sockv6));
plugin->sockv6 = NULL;
}
if (NULL != plugin->nat)
{
GNUNET_NAT_unregister (plugin->nat);
plugin->nat = NULL;
}
if (NULL != plugin->defrag_ctxs)
{
GNUNET_CONTAINER_heap_iterate (plugin->defrag_ctxs,
&heap_cleanup_iterator,
NULL);
GNUNET_CONTAINER_heap_destroy (plugin->defrag_ctxs);
plugin->defrag_ctxs = NULL;
}
while (NULL != (udpw = plugin->ipv4_queue_head))
{
dequeue (plugin,
udpw);
udpw->qc (udpw->qc_cls,
udpw,
GNUNET_SYSERR);
GNUNET_free (udpw);
}
while (NULL != (udpw = plugin->ipv6_queue_head))
{
dequeue (plugin,
udpw);
udpw->qc (udpw->qc_cls,
udpw,
GNUNET_SYSERR);
GNUNET_free (udpw);
}
GNUNET_CONTAINER_multipeermap_iterate (plugin->sessions,
&disconnect_and_free_it,
plugin);
GNUNET_CONTAINER_multipeermap_destroy (plugin->sessions);
while (NULL != (cur = plugin->ppc_dll_head))
{
GNUNET_break (0);
GNUNET_CONTAINER_DLL_remove (plugin->ppc_dll_head,
plugin->ppc_dll_tail,
cur);
GNUNET_RESOLVER_request_cancel (cur->resolver_handle);
if (NULL != cur->timeout_task)
{
GNUNET_SCHEDULER_cancel (cur->timeout_task);
cur->timeout_task = NULL;
}
GNUNET_free (cur);
}
GNUNET_free (plugin);
GNUNET_free (api);
return NULL;
}
/* end of plugin_transport_udp.c */
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