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|
/*
* This file is part of the Nice GLib ICE library.
*
* (C) 2010, 2014 Collabora Ltd.
* Contact: Philip Withnall
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is the Nice GLib ICE library.
*
* The Initial Developers of the Original Code are Collabora Ltd and Nokia
* Corporation. All Rights Reserved.
*
* Contributors:
* Youness Alaoui, Collabora Ltd.
* Philip Withnall, Collabora Ltd.
*
* Alternatively, the contents of this file may be used under the terms of the
* the GNU Lesser General Public License Version 2.1 (the "LGPL"), in which
* case the provisions of LGPL are applicable instead of those above. If you
* wish to allow use of your version of this file only under the terms of the
* LGPL and not to allow others to use your version of this file under the
* MPL, indicate your decision by deleting the provisions above and replace
* them with the notice and other provisions required by the LGPL. If you do
* not delete the provisions above, a recipient may use your version of this
* file under either the MPL or the LGPL.
*/
/* Reproducing license from libjingle for copied code */
/*
* libjingle
* Copyright 2004--2005, Google Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <stdlib.h>
#include <errno.h>
#include <string.h>
#include <glib.h>
#ifndef G_OS_WIN32
# include <arpa/inet.h>
#endif
#include "pseudotcp.h"
#include "agent-priv.h"
struct _PseudoTcpSocketClass {
GIOStreamClass parent_class;
};
typedef struct _PseudoTcpSocketPrivate PseudoTcpSocketPrivate;
struct _PseudoTcpSocket {
GIOStream parent;
PseudoTcpSocketPrivate *priv;
};
G_DEFINE_TYPE (PseudoTcpSocket, pseudo_tcp_socket, G_TYPE_OBJECT);
//////////////////////////////////////////////////////////////////////
// Network Constants
//////////////////////////////////////////////////////////////////////
// Standard MTUs
const guint16 PACKET_MAXIMUMS[] = {
65535, // Theoretical maximum, Hyperchannel
32000, // Nothing
17914, // 16Mb IBM Token Ring
8166, // IEEE 802.4
//4464, // IEEE 802.5 (4Mb max)
4352, // FDDI
//2048, // Wideband Network
2002, // IEEE 802.5 (4Mb recommended)
//1536, // Expermental Ethernet Networks
//1500, // Ethernet, Point-to-Point (default)
1492, // IEEE 802.3
1006, // SLIP, ARPANET
//576, // X.25 Networks
//544, // DEC IP Portal
//512, // NETBIOS
508, // IEEE 802/Source-Rt Bridge, ARCNET
296, // Point-to-Point (low delay)
//68, // Official minimum
0, // End of list marker
};
// FIXME: This is a reasonable MTU, but we should get it from the lower layer
#define DEF_MTU 1400
#define MAX_PACKET 65532
// Note: we removed lowest level because packet overhead was larger!
#define MIN_PACKET 296
// (+ up to 40 bytes of options?)
#define IP_HEADER_SIZE 20
#define ICMP_HEADER_SIZE 8
#define UDP_HEADER_SIZE 8
// TODO: Make JINGLE_HEADER_SIZE transparent to this code?
// when relay framing is in use
#define JINGLE_HEADER_SIZE 64
//////////////////////////////////////////////////////////////////////
// Global Constants and Functions
//////////////////////////////////////////////////////////////////////
//
// 0 1 2 3
// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
// 0 | Conversation Number |
// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
// 4 | Sequence Number |
// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
// 8 | Acknowledgment Number |
// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
// | | |U|A|P|R|S|F| |
// 12 | Control | |R|C|S|S|Y|I| Window |
// | | |G|K|H|T|N|N| |
// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
// 16 | Timestamp sending |
// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
// 20 | Timestamp receiving |
// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
// 24 | data |
// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
//
//////////////////////////////////////////////////////////////////////
#define MAX_SEQ 0xFFFFFFFF
#define HEADER_SIZE 24
#define PACKET_OVERHEAD (HEADER_SIZE + UDP_HEADER_SIZE + \
IP_HEADER_SIZE + JINGLE_HEADER_SIZE)
// MIN_RTO = 250 ms (RFC1122, Sec 4.2.3.1 "fractions of a second")
#define MIN_RTO 250
#define DEF_RTO 1000 /* 1 seconds (RFC 6298 sect 2.1) */
#define MAX_RTO 60000 /* 60 seconds */
#define DEFAULT_ACK_DELAY 100 /* 100 milliseconds */
#define DEFAULT_NO_DELAY FALSE
#define DEFAULT_RCV_BUF_SIZE (60 * 1024)
#define DEFAULT_SND_BUF_SIZE (90 * 1024)
/* NOTE: This must fit in 8 bits. This is used on the wire. */
typedef enum {
/* Google-provided options: */
TCP_OPT_EOL = 0, /* end of list */
TCP_OPT_NOOP = 1, /* no-op */
TCP_OPT_MSS = 2, /* maximum segment size */
TCP_OPT_WND_SCALE = 3, /* window scale factor */
/* libnice extensions: */
TCP_OPT_FIN_ACK = 254, /* FIN-ACK support */
} TcpOption;
/*
#define FLAG_SYN 0x02
#define FLAG_ACK 0x10
*/
/* NOTE: This must fit in 5 bits. This is used on the wire. */
typedef enum {
FLAG_NONE = 0,
FLAG_FIN = 1 << 0,
FLAG_CTL = 1 << 1,
FLAG_RST = 1 << 2,
} TcpFlags;
#define CTL_CONNECT 0
//#define CTL_REDIRECT 1
#define CTL_EXTRA 255
#define CTRL_BOUND 0x80000000
/* Maximum segment lifetime (1 minute).
* RFC 793, §3.3 specifies 2 minutes; but Linux uses 1 minute, so let’s go with
* that. */
#define TCP_MSL (60 * 1000)
// If there are no pending clocks, wake up every 4 seconds
#define DEFAULT_TIMEOUT 4000
// If the connection is closed, once per minute
#define CLOSED_TIMEOUT (60 * 1000)
/* Timeout after reaching the TIME_WAIT state, in milliseconds.
* See: RFC 1122, §4.2.2.13.
*
* XXX: Since we can control the underlying layer’s channel ID, we can guarantee
* delayed segments won’t affect subsequent connections, so can radically
* shorten the TIME-WAIT timeout (to the extent that it basically doesn’t
* exist). It would normally be (2 * TCP_MSL). */
#define TIME_WAIT_TIMEOUT 1
//////////////////////////////////////////////////////////////////////
// Helper Functions
//////////////////////////////////////////////////////////////////////
#ifndef G_OS_WIN32
# define min(first, second) ((first) < (second) ? (first) : (second))
# define max(first, second) ((first) > (second) ? (first) : (second))
#endif
static guint32
bound(guint32 lower, guint32 middle, guint32 upper)
{
return min (max (lower, middle), upper);
}
static gboolean
time_is_between(guint32 later, guint32 middle, guint32 earlier)
{
if (earlier <= later) {
return ((earlier <= middle) && (middle <= later));
} else {
return !((later < middle) && (middle < earlier));
}
}
static gint32
time_diff(guint32 later, guint32 earlier)
{
guint32 LAST = 0xFFFFFFFF;
guint32 HALF = 0x80000000;
if (time_is_between(earlier + HALF, later, earlier)) {
if (earlier <= later) {
return (long)(later - earlier);
} else {
return (long)(later + (LAST - earlier) + 1);
}
} else {
if (later <= earlier) {
return -(long) (earlier - later);
} else {
return -(long)(earlier + (LAST - later) + 1);
}
}
}
////////////////////////////////////////////////////////
// PseudoTcpFifo works exactly like FifoBuffer in libjingle
////////////////////////////////////////////////////////
typedef struct {
guint8 *buffer;
gsize buffer_length;
gsize data_length;
gsize read_position;
} PseudoTcpFifo;
static void
pseudo_tcp_fifo_init (PseudoTcpFifo *b, gsize size)
{
b->buffer = g_slice_alloc (size);
b->buffer_length = size;
}
static void
pseudo_tcp_fifo_clear (PseudoTcpFifo *b)
{
if (b->buffer)
g_slice_free1 (b->buffer_length, b->buffer);
b->buffer = NULL;
b->buffer_length = 0;
}
static gsize
pseudo_tcp_fifo_get_buffered (PseudoTcpFifo *b)
{
return b->data_length;
}
static gboolean
pseudo_tcp_fifo_set_capacity (PseudoTcpFifo *b, gsize size)
{
if (b->data_length > size)
return FALSE;
if (size != b->data_length) {
guint8 *buffer = g_slice_alloc (size);
gsize copy = b->data_length;
gsize tail_copy = min (copy, b->buffer_length - b->read_position);
memcpy (buffer, &b->buffer[b->read_position], tail_copy);
memcpy (buffer + tail_copy, &b->buffer[0], copy - tail_copy);
g_slice_free1 (b->buffer_length, b->buffer);
b->buffer = buffer;
b->buffer_length = size;
b->read_position = 0;
}
return TRUE;
}
static void
pseudo_tcp_fifo_consume_read_data (PseudoTcpFifo *b, gsize size)
{
g_assert (size <= b->data_length);
b->read_position = (b->read_position + size) % b->buffer_length;
b->data_length -= size;
}
static void
pseudo_tcp_fifo_consume_write_buffer (PseudoTcpFifo *b, gsize size)
{
g_assert (size <= b->buffer_length - b->data_length);
b->data_length += size;
}
static gsize
pseudo_tcp_fifo_get_write_remaining (PseudoTcpFifo *b)
{
return b->buffer_length - b->data_length;
}
static gsize
pseudo_tcp_fifo_read_offset (PseudoTcpFifo *b, guint8 *buffer, gsize bytes,
gsize offset)
{
gsize available = b->data_length - offset;
gsize read_position = (b->read_position + offset) % b->buffer_length;
gsize copy = min (bytes, available);
gsize tail_copy = min(copy, b->buffer_length - read_position);
/* EOS */
if (offset >= b->data_length)
return 0;
memcpy(buffer, &b->buffer[read_position], tail_copy);
memcpy(buffer + tail_copy, &b->buffer[0], copy - tail_copy);
return copy;
}
static gsize
pseudo_tcp_fifo_write_offset (PseudoTcpFifo *b, const guint8 *buffer,
gsize bytes, gsize offset)
{
gsize available = b->buffer_length - b->data_length - offset;
gsize write_position = (b->read_position + b->data_length + offset)
% b->buffer_length;
gsize copy = min (bytes, available);
gsize tail_copy = min(copy, b->buffer_length - write_position);
if (b->data_length + offset >= b->buffer_length) {
return 0;
}
memcpy(&b->buffer[write_position], buffer, tail_copy);
memcpy(&b->buffer[0], buffer + tail_copy, copy - tail_copy);
return copy;
}
static gsize
pseudo_tcp_fifo_read (PseudoTcpFifo *b, guint8 *buffer, gsize bytes)
{
gsize copy;
copy = pseudo_tcp_fifo_read_offset (b, buffer, bytes, 0);
b->read_position = (b->read_position + copy) % b->buffer_length;
b->data_length -= copy;
return copy;
}
static gsize
pseudo_tcp_fifo_write (PseudoTcpFifo *b, const guint8 *buffer, gsize bytes)
{
gsize copy;
copy = pseudo_tcp_fifo_write_offset (b, buffer, bytes, 0);
b->data_length += copy;
return copy;
}
//////////////////////////////////////////////////////////////////////
// PseudoTcp
//////////////////////////////////////////////////////////////////////
/* Only used if FIN-ACK support is disabled. */
typedef enum {
SD_NONE,
SD_GRACEFUL,
SD_FORCEFUL
} Shutdown;
typedef enum {
sfNone,
sfDelayedAck,
sfImmediateAck,
sfFin,
sfRst,
} SendFlags;
typedef struct {
guint32 conv, seq, ack;
TcpFlags flags;
guint16 wnd;
const gchar * data;
guint32 len;
guint32 tsval, tsecr;
} Segment;
typedef struct {
guint32 seq, len;
guint8 xmit;
TcpFlags flags;
} SSegment;
typedef struct {
guint32 seq, len;
} RSegment;
/**
* ClosedownSource:
* @CLOSEDOWN_LOCAL: Error detected locally, or connection forcefully closed
* locally.
* @CLOSEDOWN_REMOTE: RST segment received from the peer.
*
* Reasons for calling closedown().
*
* Since: 0.1.8
*/
typedef enum {
CLOSEDOWN_LOCAL,
CLOSEDOWN_REMOTE,
} ClosedownSource;
struct _PseudoTcpSocketPrivate {
PseudoTcpCallbacks callbacks;
Shutdown shutdown; /* only used if !support_fin_ack */
gboolean shutdown_reads;
gint error;
// TCB data
PseudoTcpState state;
guint32 conv;
gboolean bReadEnable, bWriteEnable, bOutgoing;
guint32 last_traffic;
// Incoming data
GList *rlist;
guint32 rbuf_len, rcv_nxt, rcv_wnd, lastrecv;
guint8 rwnd_scale; // Window scale factor
PseudoTcpFifo rbuf;
guint32 rcv_fin; /* sequence number of the received FIN octet, or 0 */
// Outgoing data
GQueue slist;
GQueue unsent_slist;
guint32 sbuf_len, snd_nxt, snd_wnd, lastsend;
guint32 snd_una; /* oldest unacknowledged sequence number */
guint8 swnd_scale; // Window scale factor
PseudoTcpFifo sbuf;
// Maximum segment size, estimated protocol level, largest segment sent
guint32 mss, msslevel, largest, mtu_advise;
// Retransmit timer
guint32 rto_base;
// Timestamp tracking
guint32 ts_recent, ts_lastack;
// Round-trip calculation
guint32 rx_rttvar, rx_srtt, rx_rto;
// Congestion avoidance, Fast retransmit/recovery, Delayed ACKs
guint32 ssthresh, cwnd;
guint8 dup_acks;
guint32 recover;
gboolean fast_recovery;
guint32 t_ack; /* time a delayed ack was scheduled; 0 if no acks scheduled */
gboolean use_nagling;
guint32 ack_delay;
// This is used by unit tests to test backward compatibility of
// PseudoTcp implementations that don't support window scaling.
gboolean support_wnd_scale;
/* Current time. Typically only used for testing, when non-zero. When zero,
* the system monotonic clock is used. Units: monotonic milliseconds. */
guint32 current_time;
/* This is used by compatible implementations (with the TCP_OPT_FIN_ACK
* option) to enable correct FIN-ACK connection termination. Defaults to
* TRUE unless no compatible option is received. */
gboolean support_fin_ack;
};
#define LARGER(a,b) (((a) - (b) - 1) < (G_MAXUINT32 >> 1))
#define LARGER_OR_EQUAL(a,b) (((a) - (b)) < (G_MAXUINT32 >> 1))
#define SMALLER(a,b) LARGER ((b),(a))
#define SMALLER_OR_EQUAL(a,b) LARGER_OR_EQUAL ((b),(a))
/* properties */
enum
{
PROP_CONVERSATION = 1,
PROP_CALLBACKS,
PROP_STATE,
PROP_ACK_DELAY,
PROP_NO_DELAY,
PROP_RCV_BUF,
PROP_SND_BUF,
PROP_SUPPORT_FIN_ACK,
LAST_PROPERTY
};
static void pseudo_tcp_socket_get_property (GObject *object, guint property_id,
GValue *value, GParamSpec *pspec);
static void pseudo_tcp_socket_set_property (GObject *object, guint property_id,
const GValue *value, GParamSpec *pspec);
static void pseudo_tcp_socket_finalize (GObject *object);
static void queue_connect_message (PseudoTcpSocket *self);
static guint32 queue (PseudoTcpSocket *self, const gchar *data,
guint32 len, TcpFlags flags);
static PseudoTcpWriteResult packet(PseudoTcpSocket *self, guint32 seq,
TcpFlags flags, guint32 offset, guint32 len, guint32 now);
static gboolean parse (PseudoTcpSocket *self,
const guint8 *_header_buf, gsize header_buf_len,
const guint8 *data_buf, gsize data_buf_len);
static gboolean process(PseudoTcpSocket *self, Segment *seg);
static int transmit(PseudoTcpSocket *self, SSegment *sseg, guint32 now);
static void attempt_send(PseudoTcpSocket *self, SendFlags sflags);
static void closedown (PseudoTcpSocket *self, guint32 err,
ClosedownSource source);
static void adjustMTU(PseudoTcpSocket *self);
static void parse_options (PseudoTcpSocket *self, const guint8 *data,
guint32 len);
static void resize_send_buffer (PseudoTcpSocket *self, guint32 new_size);
static void resize_receive_buffer (PseudoTcpSocket *self, guint32 new_size);
static void set_state (PseudoTcpSocket *self, PseudoTcpState new_state);
static void set_state_established (PseudoTcpSocket *self);
static void set_state_closed (PseudoTcpSocket *self, guint32 err);
static const gchar *pseudo_tcp_state_get_name (PseudoTcpState state);
static gboolean pseudo_tcp_state_has_sent_fin (PseudoTcpState state);
static gboolean pseudo_tcp_state_has_received_fin (PseudoTcpState state);
static gboolean pseudo_tcp_state_has_received_fin_ack (PseudoTcpState state);
// The following logging is for detailed (packet-level) pseudotcp analysis only.
static PseudoTcpDebugLevel debug_level = PSEUDO_TCP_DEBUG_NONE;
#define DEBUG(level, fmt, ...) \
if (debug_level >= level) \
g_log (level == PSEUDO_TCP_DEBUG_NORMAL ? "libnice-pseudotcp" : "libnice-pseudotcp-verbose", G_LOG_LEVEL_DEBUG, "PseudoTcpSocket %p %s: " fmt, \
self, pseudo_tcp_state_get_name (self->priv->state), ## __VA_ARGS__)
void
pseudo_tcp_set_debug_level (PseudoTcpDebugLevel level)
{
debug_level = level;
}
static guint32
get_current_time (PseudoTcpSocket *socket)
{
if (G_UNLIKELY (socket->priv->current_time != 0))
return socket->priv->current_time;
return g_get_monotonic_time () / 1000;
}
void
pseudo_tcp_socket_set_time (PseudoTcpSocket *self, guint32 current_time)
{
self->priv->current_time = current_time;
}
static void
pseudo_tcp_socket_class_init (PseudoTcpSocketClass *cls)
{
GObjectClass *object_class = G_OBJECT_CLASS (cls);
object_class->get_property = pseudo_tcp_socket_get_property;
object_class->set_property = pseudo_tcp_socket_set_property;
object_class->finalize = pseudo_tcp_socket_finalize;
g_object_class_install_property (object_class, PROP_CONVERSATION,
g_param_spec_uint ("conversation", "TCP Conversation ID",
"The TCP Conversation ID",
0, G_MAXUINT32, 0,
G_PARAM_CONSTRUCT_ONLY | G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS));
g_object_class_install_property (object_class, PROP_CALLBACKS,
g_param_spec_pointer ("callbacks", "PseudoTcp socket callbacks",
"Structure with the callbacks to call when PseudoTcp events happen",
G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS));
g_object_class_install_property (object_class, PROP_STATE,
g_param_spec_uint ("state", "PseudoTcp State",
"The current state (enum PseudoTcpState) of the PseudoTcp socket",
TCP_LISTEN, TCP_CLOSED, TCP_LISTEN,
G_PARAM_READABLE | G_PARAM_STATIC_STRINGS));
g_object_class_install_property (object_class, PROP_ACK_DELAY,
g_param_spec_uint ("ack-delay", "ACK Delay",
"Delayed ACK timeout (in milliseconds)",
0, G_MAXUINT, DEFAULT_ACK_DELAY,
G_PARAM_READWRITE| G_PARAM_STATIC_STRINGS));
g_object_class_install_property (object_class, PROP_NO_DELAY,
g_param_spec_boolean ("no-delay", "No Delay",
"Disable the Nagle algorithm (like the TCP_NODELAY option)",
DEFAULT_NO_DELAY,
G_PARAM_READWRITE| G_PARAM_STATIC_STRINGS));
g_object_class_install_property (object_class, PROP_RCV_BUF,
g_param_spec_uint ("rcv-buf", "Receive Buffer",
"Receive Buffer size",
1, G_MAXUINT, DEFAULT_RCV_BUF_SIZE,
G_PARAM_READWRITE| G_PARAM_STATIC_STRINGS));
g_object_class_install_property (object_class, PROP_SND_BUF,
g_param_spec_uint ("snd-buf", "Send Buffer",
"Send Buffer size",
1, G_MAXUINT, DEFAULT_SND_BUF_SIZE,
G_PARAM_READWRITE| G_PARAM_STATIC_STRINGS));
/**
* PseudoTcpSocket:support-fin-ack:
*
* Whether to support the FIN–ACK extension to the pseudo-TCP protocol for
* this socket. The extension is only compatible with other libnice pseudo-TCP
* stacks, and not with Jingle pseudo-TCP stacks. If enabled, support is
* negotiatied on connection setup, so it is safe for a #PseudoTcpSocket with
* support enabled to be used with one with it disabled, or with a Jingle
* pseudo-TCP socket which doesn’t support it at all.
*
* Support is enabled by default.
*
* Since: 0.1.8
*/
g_object_class_install_property (object_class, PROP_SUPPORT_FIN_ACK,
g_param_spec_boolean ("support-fin-ack", "Support FIN–ACK",
"Whether to enable the optional FIN–ACK support.",
TRUE,
G_PARAM_READWRITE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS));
}
static void
pseudo_tcp_socket_get_property (GObject *object,
guint property_id,
GValue *value,
GParamSpec *pspec)
{
PseudoTcpSocket *self = PSEUDO_TCP_SOCKET (object);
switch (property_id) {
case PROP_CONVERSATION:
g_value_set_uint (value, self->priv->conv);
break;
case PROP_CALLBACKS:
g_value_set_pointer (value, (gpointer) &self->priv->callbacks);
break;
case PROP_STATE:
g_value_set_uint (value, self->priv->state);
break;
case PROP_ACK_DELAY:
g_value_set_uint (value, self->priv->ack_delay);
break;
case PROP_NO_DELAY:
g_value_set_boolean (value, !self->priv->use_nagling);
break;
case PROP_RCV_BUF:
g_value_set_uint (value, self->priv->rbuf_len);
break;
case PROP_SND_BUF:
g_value_set_uint (value, self->priv->sbuf_len);
break;
case PROP_SUPPORT_FIN_ACK:
g_value_set_boolean (value, self->priv->support_fin_ack);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, property_id, pspec);
break;
}
}
static void
pseudo_tcp_socket_set_property (GObject *object,
guint property_id,
const GValue *value,
GParamSpec *pspec)
{
PseudoTcpSocket *self = PSEUDO_TCP_SOCKET (object);
switch (property_id) {
case PROP_CONVERSATION:
self->priv->conv = g_value_get_uint (value);
break;
case PROP_CALLBACKS:
{
PseudoTcpCallbacks *c = g_value_get_pointer (value);
self->priv->callbacks = *c;
}
break;
case PROP_ACK_DELAY:
self->priv->ack_delay = g_value_get_uint (value);
break;
case PROP_NO_DELAY:
self->priv->use_nagling = !g_value_get_boolean (value);
break;
case PROP_RCV_BUF:
g_return_if_fail (self->priv->state == TCP_LISTEN);
resize_receive_buffer (self, g_value_get_uint (value));
break;
case PROP_SND_BUF:
g_return_if_fail (self->priv->state == TCP_LISTEN);
resize_send_buffer (self, g_value_get_uint (value));
break;
case PROP_SUPPORT_FIN_ACK:
self->priv->support_fin_ack = g_value_get_boolean (value);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, property_id, pspec);
break;
}
}
static void
pseudo_tcp_socket_finalize (GObject *object)
{
PseudoTcpSocket *self = PSEUDO_TCP_SOCKET (object);
PseudoTcpSocketPrivate *priv = self->priv;
GList *i;
SSegment *sseg;
if (priv == NULL)
return;
while ((sseg = g_queue_pop_head (&priv->slist)))
g_slice_free (SSegment, sseg);
g_queue_clear (&priv->unsent_slist);
for (i = priv->rlist; i; i = i->next) {
RSegment *rseg = i->data;
g_slice_free (RSegment, rseg);
}
g_list_free (priv->rlist);
priv->rlist = NULL;
pseudo_tcp_fifo_clear (&priv->rbuf);
pseudo_tcp_fifo_clear (&priv->sbuf);
g_free (priv);
self->priv = NULL;
if (G_OBJECT_CLASS (pseudo_tcp_socket_parent_class)->finalize)
G_OBJECT_CLASS (pseudo_tcp_socket_parent_class)->finalize (object);
}
static void
pseudo_tcp_socket_init (PseudoTcpSocket *obj)
{
/* Use g_new0, and do not use g_object_set_private because the size of
* our private data is too big (150KB+) and the g_slice_allow cannot allocate
* it. So we handle the private ourselves */
PseudoTcpSocketPrivate *priv = g_new0 (PseudoTcpSocketPrivate, 1);
obj->priv = priv;
priv->shutdown = SD_NONE;
priv->error = 0;
priv->rbuf_len = DEFAULT_RCV_BUF_SIZE;
pseudo_tcp_fifo_init (&priv->rbuf, priv->rbuf_len);
priv->sbuf_len = DEFAULT_SND_BUF_SIZE;
pseudo_tcp_fifo_init (&priv->sbuf, priv->sbuf_len);
priv->state = TCP_LISTEN;
priv->conv = 0;
g_queue_init (&priv->slist);
g_queue_init (&priv->unsent_slist);
priv->rcv_wnd = priv->rbuf_len;
priv->rwnd_scale = priv->swnd_scale = 0;
priv->snd_nxt = 0;
priv->snd_wnd = 1;
priv->snd_una = priv->rcv_nxt = 0;
priv->bReadEnable = TRUE;
priv->bWriteEnable = FALSE;
priv->rcv_fin = 0;
priv->t_ack = 0;
priv->msslevel = 0;
priv->largest = 0;
priv->mss = MIN_PACKET - PACKET_OVERHEAD;
priv->mtu_advise = DEF_MTU;
priv->rto_base = 0;
priv->cwnd = 2 * priv->mss;
priv->ssthresh = priv->rbuf_len;
priv->lastrecv = priv->lastsend = priv->last_traffic = 0;
priv->bOutgoing = FALSE;
priv->dup_acks = 0;
priv->recover = 0;
priv->ts_recent = priv->ts_lastack = 0;
priv->rx_rto = DEF_RTO;
priv->rx_srtt = priv->rx_rttvar = 0;
priv->ack_delay = DEFAULT_ACK_DELAY;
priv->use_nagling = !DEFAULT_NO_DELAY;
priv->support_wnd_scale = TRUE;
priv->support_fin_ack = TRUE;
}
PseudoTcpSocket *pseudo_tcp_socket_new (guint32 conversation,
PseudoTcpCallbacks *callbacks)
{
return g_object_new (PSEUDO_TCP_SOCKET_TYPE,
"conversation", conversation,
"callbacks", callbacks,
NULL);
}
static void
queue_connect_message (PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
guint8 buf[8];
gsize size = 0;
buf[size++] = CTL_CONNECT;
if (priv->support_wnd_scale) {
buf[size++] = TCP_OPT_WND_SCALE;
buf[size++] = 1;
buf[size++] = priv->rwnd_scale;
}
if (priv->support_fin_ack) {
buf[size++] = TCP_OPT_FIN_ACK;
buf[size++] = 1; /* option length; zero is invalid (RFC 1122, §4.2.2.5) */
buf[size++] = 0; /* currently unused */
}
priv->snd_wnd = size;
queue (self, (char *) buf, size, FLAG_CTL);
}
static void
queue_fin_message (PseudoTcpSocket *self)
{
g_assert (self->priv->support_fin_ack);
/* FIN segments are always zero-length. */
queue (self, "", 0, FLAG_FIN);
}
static void
queue_rst_message (PseudoTcpSocket *self)
{
g_assert (self->priv->support_fin_ack);
/* RST segments are always zero-length. */
queue (self, "", 0, FLAG_RST);
}
gboolean
pseudo_tcp_socket_connect(PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
if (priv->state != TCP_LISTEN) {
priv->error = EINVAL;
return FALSE;
}
set_state (self, TCP_SYN_SENT);
queue_connect_message (self);
attempt_send(self, sfNone);
return TRUE;
}
void
pseudo_tcp_socket_notify_mtu(PseudoTcpSocket *self, guint16 mtu)
{
PseudoTcpSocketPrivate *priv = self->priv;
priv->mtu_advise = mtu;
if (priv->state == TCP_ESTABLISHED) {
adjustMTU(self);
}
}
void
pseudo_tcp_socket_notify_clock(PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
guint32 now = get_current_time (self);
if (priv->state == TCP_CLOSED)
return;
/* If in the TIME-WAIT state, any delayed segments have passed and the
* connection can be considered closed from both ends.
* FIXME: This should probably actually compare a timestamp before
* operating. */
if (priv->support_fin_ack && priv->state == TCP_TIME_WAIT) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Notified clock in TIME-WAIT state; closing connection.");
set_state_closed (self, 0);
}
/* If in the LAST-ACK state, resend the FIN because it hasn’t been ACKed yet.
* FIXME: This should probably actually compare a timestamp before
* operating. */
if (priv->support_fin_ack && priv->state == TCP_LAST_ACK) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Notified clock in LAST-ACK state; resending FIN segment.");
queue_fin_message (self);
attempt_send (self, sfFin);
}
// Check if it's time to retransmit a segment
if (priv->rto_base &&
(time_diff(priv->rto_base + priv->rx_rto, now) <= 0)) {
if (g_queue_get_length (&priv->slist) == 0) {
g_assert_not_reached ();
} else {
// Note: (priv->slist.front().xmit == 0)) {
// retransmit segments
guint32 nInFlight;
guint32 rto_limit;
int transmit_status;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "timeout retransmit (rto: %u) "
"(rto_base: %u) (now: %u) (dup_acks: %u)",
priv->rx_rto, priv->rto_base, now, (guint) priv->dup_acks);
transmit_status = transmit(self, g_queue_peek_head (&priv->slist), now);
if (transmit_status != 0) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Error transmitting segment. Closing down.");
closedown (self, transmit_status, CLOSEDOWN_LOCAL);
return;
}
nInFlight = priv->snd_nxt - priv->snd_una;
priv->ssthresh = max(nInFlight / 2, 2 * priv->mss);
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "ssthresh: %u = (nInFlight: %u / 2) + "
"2 * mss: %u", priv->ssthresh, nInFlight, priv->mss);
//LOG(LS_INFO) << "priv->ssthresh: " << priv->ssthresh << " nInFlight: " << nInFlight << " priv->mss: " << priv->mss;
priv->cwnd = priv->mss;
// Back off retransmit timer. Note: the limit is lower when connecting.
rto_limit = (priv->state < TCP_ESTABLISHED) ? DEF_RTO : MAX_RTO;
priv->rx_rto = min(rto_limit, priv->rx_rto * 2);
priv->rto_base = now;
priv->recover = priv->snd_nxt;
if (priv->dup_acks >= 3) {
priv->dup_acks = 0;
priv->fast_recovery = FALSE;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "exit recovery on timeout");
}
}
}
// Check if it's time to probe closed windows
if ((priv->snd_wnd == 0)
&& (time_diff(priv->lastsend + priv->rx_rto, now) <= 0)) {
if (time_diff(now, priv->lastrecv) >= 15000) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Receive window closed. Closing down.");
closedown (self, ECONNABORTED, CLOSEDOWN_LOCAL);
return;
}
// probe the window
packet(self, priv->snd_nxt - 1, 0, 0, 0, now);
priv->lastsend = now;
// back off retransmit timer
priv->rx_rto = min(MAX_RTO, priv->rx_rto * 2);
}
// Check if it's time to send delayed acks
if (priv->t_ack && (time_diff(priv->t_ack + priv->ack_delay, now) <= 0)) {
packet(self, priv->snd_nxt, 0, 0, 0, now);
}
}
gboolean
pseudo_tcp_socket_notify_packet(PseudoTcpSocket *self,
const gchar * buffer, guint32 len)
{
gboolean retval;
if (len > MAX_PACKET) {
//LOG_F(WARNING) << "packet too large";
self->priv->error = EMSGSIZE;
return FALSE;
} else if (len < HEADER_SIZE) {
//LOG_F(WARNING) << "packet too small";
self->priv->error = EINVAL;
return FALSE;
}
/* Hold a reference to the PseudoTcpSocket during parsing, since it may be
* closed from within a callback. */
g_object_ref (self);
retval = parse (self, (guint8 *) buffer, HEADER_SIZE,
(guint8 *) buffer + HEADER_SIZE, len - HEADER_SIZE);
g_object_unref (self);
return retval;
}
/* Assume there are two buffers in the given #NiceInputMessage: a 24-byte one
* containing the header, and a bigger one for the data. */
gboolean
pseudo_tcp_socket_notify_message (PseudoTcpSocket *self,
NiceInputMessage *message)
{
gboolean retval;
g_assert_cmpuint (message->n_buffers, >, 0);
if (message->n_buffers == 1)
return pseudo_tcp_socket_notify_packet (self, message->buffers[0].buffer,
message->buffers[0].size);
g_assert_cmpuint (message->n_buffers, ==, 2);
g_assert_cmpuint (message->buffers[0].size, ==, HEADER_SIZE);
if (message->length > MAX_PACKET) {
//LOG_F(WARNING) << "packet too large";
return FALSE;
} else if (message->length < HEADER_SIZE) {
//LOG_F(WARNING) << "packet too small";
return FALSE;
}
/* Hold a reference to the PseudoTcpSocket during parsing, since it may be
* closed from within a callback. */
g_object_ref (self);
retval = parse (self, message->buffers[0].buffer, message->buffers[0].size,
message->buffers[1].buffer, message->length - message->buffers[0].size);
g_object_unref (self);
return retval;
}
gboolean
pseudo_tcp_socket_get_next_clock(PseudoTcpSocket *self, guint64 *timeout)
{
PseudoTcpSocketPrivate *priv = self->priv;
guint32 now = get_current_time (self);
gsize snd_buffered;
guint32 closed_timeout;
if (priv->shutdown == SD_FORCEFUL) {
if (priv->support_fin_ack) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"‘Forceful’ shutdown used when FIN-ACK support is enabled");
}
/* Transition to the CLOSED state. */
closedown (self, 0, CLOSEDOWN_REMOTE);
return FALSE;
}
snd_buffered = pseudo_tcp_fifo_get_buffered (&priv->sbuf);
if ((priv->shutdown == SD_GRACEFUL)
&& ((priv->state != TCP_ESTABLISHED)
|| ((snd_buffered == 0) && (priv->t_ack == 0)))) {
if (priv->support_fin_ack) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"‘Graceful’ shutdown used when FIN-ACK support is enabled");
}
/* Transition to the CLOSED state. */
closedown (self, 0, CLOSEDOWN_REMOTE);
return FALSE;
}
/* FIN-ACK support. The timeout for closing the socket if nothing is received
* varies depending on whether the socket is waiting in the TIME-WAIT state
* for delayed segments to pass.
*
* See: http://vincent.bernat.im/en/blog/2014-tcp-time-wait-state-linux.html
*/
closed_timeout = CLOSED_TIMEOUT;
if (priv->support_fin_ack && priv->state == TCP_TIME_WAIT)
closed_timeout = TIME_WAIT_TIMEOUT;
if (priv->support_fin_ack && priv->state == TCP_CLOSED) {
return FALSE;
}
if (*timeout == 0 || *timeout < now)
*timeout = now + closed_timeout;
if (priv->support_fin_ack && priv->state == TCP_TIME_WAIT) {
*timeout = min (*timeout, now + TIME_WAIT_TIMEOUT);
return TRUE;
}
if (priv->state == TCP_CLOSED && !priv->support_fin_ack) {
*timeout = min (*timeout, now + CLOSED_TIMEOUT);
return TRUE;
}
*timeout = min (*timeout, now + DEFAULT_TIMEOUT);
if (priv->t_ack) {
*timeout = min(*timeout, priv->t_ack + priv->ack_delay);
}
if (priv->rto_base) {
*timeout = min(*timeout, priv->rto_base + priv->rx_rto);
}
if (priv->snd_wnd == 0) {
*timeout = min(*timeout, priv->lastsend + priv->rx_rto);
}
return TRUE;
}
gint
pseudo_tcp_socket_recv(PseudoTcpSocket *self, char * buffer, size_t len)
{
PseudoTcpSocketPrivate *priv = self->priv;
gsize bytesread;
gsize available_space;
/* Received a FIN from the peer, so return 0. RFC 793, §3.5, Case 2. */
if (priv->support_fin_ack && priv->shutdown_reads) {
return 0;
}
/* Return 0 if FIN-ACK is not supported but the socket has been closed. */
if (!priv->support_fin_ack && pseudo_tcp_socket_is_closed (self)) {
return 0;
}
/* Return ENOTCONN if FIN-ACK is not supported and the connection is not
* ESTABLISHED. */
if (!priv->support_fin_ack && priv->state != TCP_ESTABLISHED) {
priv->error = ENOTCONN;
return -1;
}
if (len == 0)
return 0;
bytesread = pseudo_tcp_fifo_read (&priv->rbuf, (guint8 *) buffer, len);
// If there's no data in |m_rbuf|.
if (bytesread == 0 &&
!(pseudo_tcp_state_has_received_fin (priv->state) ||
pseudo_tcp_state_has_received_fin_ack (priv->state))) {
priv->bReadEnable = TRUE;
priv->error = EWOULDBLOCK;
return -1;
}
available_space = pseudo_tcp_fifo_get_write_remaining (&priv->rbuf);
if (available_space - priv->rcv_wnd >=
min (priv->rbuf_len / 2, priv->mss)) {
// !?! Not sure about this was closed business
gboolean bWasClosed = (priv->rcv_wnd == 0);
priv->rcv_wnd = available_space;
if (bWasClosed) {
attempt_send(self, sfImmediateAck);
}
}
return bytesread;
}
gint
pseudo_tcp_socket_send(PseudoTcpSocket *self, const char * buffer, guint32 len)
{
PseudoTcpSocketPrivate *priv = self->priv;
gint written;
gsize available_space;
if (priv->state != TCP_ESTABLISHED) {
priv->error = pseudo_tcp_state_has_sent_fin (priv->state) ? EPIPE : ENOTCONN;
return -1;
}
available_space = pseudo_tcp_fifo_get_write_remaining (&priv->sbuf);
if (!available_space) {
priv->bWriteEnable = TRUE;
priv->error = EWOULDBLOCK;
return -1;
}
written = queue (self, buffer, len, FLAG_NONE);
attempt_send(self, sfNone);
if (written > 0 && (guint32)written < len) {
priv->bWriteEnable = TRUE;
}
return written;
}
void
pseudo_tcp_socket_close(PseudoTcpSocket *self, gboolean force)
{
PseudoTcpSocketPrivate *priv = self->priv;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Closing socket %p %s", self,
force ? "forcefully" : "gracefully");
/* Forced closure by sending an RST segment. RFC 1122, §4.2.2.13. */
if (force && priv->state != TCP_CLOSED) {
closedown (self, ECONNABORTED, CLOSEDOWN_LOCAL);
return;
}
/* Fall back to shutdown(). */
pseudo_tcp_socket_shutdown (self, PSEUDO_TCP_SHUTDOWN_RDWR);
}
void
pseudo_tcp_socket_shutdown (PseudoTcpSocket *self, PseudoTcpShutdown how)
{
PseudoTcpSocketPrivate *priv = self->priv;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Shutting down socket %p: %u", self, how);
/* FIN-ACK--only stuff below here. */
if (!priv->support_fin_ack) {
if (priv->shutdown == SD_NONE)
priv->shutdown = SD_GRACEFUL;
return;
}
/* What needs shutting down? */
switch (how) {
case PSEUDO_TCP_SHUTDOWN_RD:
case PSEUDO_TCP_SHUTDOWN_RDWR:
priv->shutdown_reads = TRUE;
break;
case PSEUDO_TCP_SHUTDOWN_WR:
/* Handled below. */
break;
default:
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Invalid shutdown method: %u.", how);
break;
}
if (how == PSEUDO_TCP_SHUTDOWN_RD) {
return;
}
/* Unforced write closure. */
switch (priv->state) {
case TCP_LISTEN:
case TCP_SYN_SENT:
/* Just abort the connection without completing the handshake. */
set_state_closed (self, 0);
break;
case TCP_SYN_RECEIVED:
case TCP_ESTABLISHED:
/* Local user initiating the close: RFC 793, §3.5, Cases 1 and 3.
* If there is pending receive data, send RST instead of FIN;
* see RFC 1122, §4.2.2.13. */
if (pseudo_tcp_socket_get_available_bytes (self) > 0) {
closedown (self, ECONNABORTED, CLOSEDOWN_LOCAL);
} else {
queue_fin_message (self);
attempt_send (self, sfFin);
set_state (self, TCP_FIN_WAIT_1);
}
break;
case TCP_CLOSE_WAIT:
/* Remote user initiating the close: RFC 793, §3.5, Case 2.
* We’ve previously received a FIN from the peer; now the user is closing
* the local end of the connection. */
queue_fin_message (self);
attempt_send (self, sfFin);
set_state (self, TCP_LAST_ACK);
break;
case TCP_CLOSING:
case TCP_CLOSED:
/* Already closed on both sides. */
break;
case TCP_FIN_WAIT_1:
case TCP_FIN_WAIT_2:
case TCP_TIME_WAIT:
case TCP_LAST_ACK:
/* Already closed locally. */
break;
default:
/* Do nothing. */
break;
}
}
int
pseudo_tcp_socket_get_error(PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
return priv->error;
}
//
// Internal Implementation
//
static guint32
queue (PseudoTcpSocket *self, const gchar * data, guint32 len, TcpFlags flags)
{
PseudoTcpSocketPrivate *priv = self->priv;
gsize available_space;
available_space = pseudo_tcp_fifo_get_write_remaining (&priv->sbuf);
if (len > available_space) {
g_assert (flags == FLAG_NONE);
len = available_space;
}
// We can concatenate data if the last segment is the same type
// (control v. regular data), and has not been transmitted yet
if (g_queue_get_length (&priv->slist) &&
(((SSegment *)g_queue_peek_tail (&priv->slist))->flags == flags) &&
(((SSegment *)g_queue_peek_tail (&priv->slist))->xmit == 0)) {
((SSegment *)g_queue_peek_tail (&priv->slist))->len += len;
} else {
SSegment *sseg = g_slice_new0 (SSegment);
gsize snd_buffered = pseudo_tcp_fifo_get_buffered (&priv->sbuf);
sseg->seq = priv->snd_una + snd_buffered;
sseg->len = len;
sseg->flags = flags;
g_queue_push_tail (&priv->slist, sseg);
g_queue_push_tail (&priv->unsent_slist, sseg);
}
//LOG(LS_INFO) << "PseudoTcp::queue - priv->slen = " << priv->slen;
return pseudo_tcp_fifo_write (&priv->sbuf, (guint8*) data, len);;
}
// Creates a packet and submits it to the network. This method can either
// send payload or just an ACK packet.
//
// |seq| is the sequence number of this packet.
// |flags| is the flags for sending this packet.
// |offset| is the offset to read from |m_sbuf|.
// |len| is the number of bytes to read from |m_sbuf| as payload. If this
// value is 0 then this is an ACK packet, otherwise this packet has payload.
static PseudoTcpWriteResult
packet(PseudoTcpSocket *self, guint32 seq, TcpFlags flags,
guint32 offset, guint32 len, guint32 now)
{
PseudoTcpSocketPrivate *priv = self->priv;
union {
guint8 u8[MAX_PACKET];
guint16 u16[MAX_PACKET / 2];
guint32 u32[MAX_PACKET / 4];
} buffer;
PseudoTcpWriteResult wres = WR_SUCCESS;
g_assert(HEADER_SIZE + len <= MAX_PACKET);
*buffer.u32 = htonl(priv->conv);
*(buffer.u32 + 1) = htonl(seq);
*(buffer.u32 + 2) = htonl(priv->rcv_nxt);
buffer.u8[12] = 0;
buffer.u8[13] = flags;
*(buffer.u16 + 7) = htons((guint16)(priv->rcv_wnd >> priv->rwnd_scale));
// Timestamp computations
*(buffer.u32 + 4) = htonl(now);
*(buffer.u32 + 5) = htonl(priv->ts_recent);
priv->ts_lastack = priv->rcv_nxt;
if (len) {
gsize bytes_read;
bytes_read = pseudo_tcp_fifo_read_offset (&priv->sbuf, buffer.u8 + HEADER_SIZE,
len, offset);
g_assert (bytes_read == len);
}
DEBUG (PSEUDO_TCP_DEBUG_VERBOSE, "Sending <CONV=%u><FLG=%u><SEQ=%u:%u><ACK=%u>"
"<WND=%u><TS=%u><TSR=%u><LEN=%u>",
priv->conv, (unsigned)flags, seq, seq + len, priv->rcv_nxt, priv->rcv_wnd,
now % 10000, priv->ts_recent % 10000, len);
wres = priv->callbacks.WritePacket(self, (gchar *) buffer.u8, len + HEADER_SIZE,
priv->callbacks.user_data);
/* Note: When len is 0, this is an ACK packet. We don't read the
return value for those, and thus we won't retry. So go ahead and treat
the packet as a success (basically simulate as if it were dropped),
which will prevent our timers from being messed up. */
if ((wres != WR_SUCCESS) && (0 != len))
return wres;
priv->t_ack = 0;
if (len > 0) {
priv->lastsend = now;
}
priv->last_traffic = now;
priv->bOutgoing = TRUE;
return WR_SUCCESS;
}
static gboolean
parse (PseudoTcpSocket *self, const guint8 *_header_buf, gsize header_buf_len,
const guint8 *data_buf, gsize data_buf_len)
{
Segment seg;
union {
const guint8 *u8;
const guint16 *u16;
const guint32 *u32;
} header_buf;
header_buf.u8 = _header_buf;
if (header_buf_len != 24)
return FALSE;
seg.conv = ntohl(*header_buf.u32);
seg.seq = ntohl(*(header_buf.u32 + 1));
seg.ack = ntohl(*(header_buf.u32 + 2));
seg.flags = header_buf.u8[13];
seg.wnd = ntohs(*(header_buf.u16 + 7));
seg.tsval = ntohl(*(header_buf.u32 + 4));
seg.tsecr = ntohl(*(header_buf.u32 + 5));
seg.data = (const gchar *) data_buf;
seg.len = data_buf_len;
DEBUG (PSEUDO_TCP_DEBUG_VERBOSE,
"Received <CONV=%u><FLG=%u><SEQ=%u:%u><ACK=%u>"
"<WND=%u><TS=%u><TSR=%u><LEN=%u>",
seg.conv, (unsigned)seg.flags, seg.seq, seg.seq + seg.len, seg.ack,
seg.wnd, seg.tsval % 10000, seg.tsecr % 10000, seg.len);
return process(self, &seg);
}
/* True iff the @state requires that a FIN has already been sent by this
* host. */
static gboolean
pseudo_tcp_state_has_sent_fin (PseudoTcpState state)
{
switch (state) {
case TCP_LISTEN:
case TCP_SYN_SENT:
case TCP_SYN_RECEIVED:
case TCP_ESTABLISHED:
case TCP_CLOSE_WAIT:
return FALSE;
case TCP_CLOSED:
case TCP_FIN_WAIT_1:
case TCP_FIN_WAIT_2:
case TCP_CLOSING:
case TCP_TIME_WAIT:
case TCP_LAST_ACK:
return TRUE;
default:
return FALSE;
}
}
/* True iff the @state requires that a FIN has already been received from the
* peer. */
static gboolean
pseudo_tcp_state_has_received_fin (PseudoTcpState state)
{
switch (state) {
case TCP_LISTEN:
case TCP_SYN_SENT:
case TCP_SYN_RECEIVED:
case TCP_ESTABLISHED:
case TCP_FIN_WAIT_1:
case TCP_FIN_WAIT_2:
return FALSE;
case TCP_CLOSED:
case TCP_CLOSING:
case TCP_TIME_WAIT:
case TCP_CLOSE_WAIT:
case TCP_LAST_ACK:
return TRUE;
default:
return FALSE;
}
}
/* True iff the @state requires that a FIN-ACK has already been received from
* the peer. */
static gboolean
pseudo_tcp_state_has_received_fin_ack (PseudoTcpState state)
{
switch (state) {
case TCP_LISTEN:
case TCP_SYN_SENT:
case TCP_SYN_RECEIVED:
case TCP_ESTABLISHED:
case TCP_FIN_WAIT_1:
case TCP_FIN_WAIT_2:
case TCP_CLOSING:
case TCP_CLOSE_WAIT:
case TCP_LAST_ACK:
return FALSE;
case TCP_CLOSED:
case TCP_TIME_WAIT:
return TRUE;
default:
return FALSE;
}
}
static gboolean
process(PseudoTcpSocket *self, Segment *seg)
{
PseudoTcpSocketPrivate *priv = self->priv;
guint32 now;
SendFlags sflags = sfNone;
gboolean bIgnoreData;
gboolean bNewData;
gboolean bConnect = FALSE;
gsize snd_buffered;
gsize available_space;
guint32 kIdealRefillSize;
gboolean is_valuable_ack, is_duplicate_ack, is_fin_ack = FALSE;
gboolean received_fin = FALSE;
/* If this is the wrong conversation, send a reset!?!
(with the correct conversation?) */
if (seg->conv != priv->conv) {
//if ((seg->flags & FLAG_RST) == 0) {
// packet(sock, tcb, seg->ack, 0, FLAG_RST, 0, 0);
//}
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "wrong conversation");
return FALSE;
}
now = get_current_time (self);
priv->last_traffic = priv->lastrecv = now;
priv->bOutgoing = FALSE;
if (priv->state == TCP_CLOSED ||
(pseudo_tcp_state_has_received_fin_ack (priv->state) && seg->len > 0)) {
/* Send an RST segment. See: RFC 1122, §4.2.2.13; RFC 793, §3.4, point 3,
* page 37. We can only send RST if we know the peer knows we’re closed;
* otherwise this could be a timeout retransmit from them, due to our
* packets from data through to FIN being dropped. */
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Segment received while closed; sending RST.");
if ((seg->flags & FLAG_RST) == 0) {
closedown (self, 0, CLOSEDOWN_LOCAL);
}
return FALSE;
}
// Check if this is a reset segment
if (seg->flags & FLAG_RST) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Received RST segment; closing down.");
closedown (self, ECONNRESET, CLOSEDOWN_REMOTE);
return FALSE;
}
// Check for control data
bConnect = FALSE;
if (seg->flags & FLAG_CTL) {
if (seg->len == 0) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Missing control code");
return FALSE;
} else if (seg->data[0] == CTL_CONNECT) {
bConnect = TRUE;
parse_options (self, (guint8 *) &seg->data[1], seg->len - 1);
if (priv->state == TCP_LISTEN) {
set_state (self, TCP_SYN_RECEIVED);
queue_connect_message (self);
} else if (priv->state == TCP_SYN_SENT) {
set_state_established (self);
}
} else {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Unknown control code: %u", seg->data[0]);
return FALSE;
}
}
// Update timestamp
if (SMALLER_OR_EQUAL (seg->seq, priv->ts_lastack) &&
SMALLER (priv->ts_lastack, seg->seq + seg->len)) {
priv->ts_recent = seg->tsval;
}
// Check if this is a valuable ack
is_valuable_ack = (LARGER(seg->ack, priv->snd_una) &&
SMALLER_OR_EQUAL(seg->ack, priv->snd_nxt));
is_duplicate_ack = (seg->ack == priv->snd_una);
if (is_valuable_ack) {
guint32 nAcked;
guint32 nFree;
// Calculate round-trip time
if (seg->tsecr) {
long rtt = time_diff(now, seg->tsecr);
if (rtt >= 0) {
if (priv->rx_srtt == 0) {
priv->rx_srtt = rtt;
priv->rx_rttvar = rtt / 2;
} else {
priv->rx_rttvar = (3 * priv->rx_rttvar +
labs((long)(rtt - priv->rx_srtt))) / 4;
priv->rx_srtt = (7 * priv->rx_srtt + rtt) / 8;
}
priv->rx_rto = bound(MIN_RTO,
priv->rx_srtt + max(1LU, 4 * priv->rx_rttvar), MAX_RTO);
DEBUG (PSEUDO_TCP_DEBUG_VERBOSE, "rtt: %ld srtt: %u rttvar: %u rto: %u",
rtt, priv->rx_srtt, priv->rx_rttvar, priv->rx_rto);
} else {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Invalid RTT: %ld", rtt);
return FALSE;
}
}
priv->snd_wnd = seg->wnd << priv->swnd_scale;
nAcked = seg->ack - priv->snd_una;
priv->snd_una = seg->ack;
priv->rto_base = (priv->snd_una == priv->snd_nxt) ? 0 : now;
/* ACKs for FIN segments give an increment on nAcked, but there is no
* corresponding byte to read because the FIN segment is empty (it just has
* a sequence number). */
if (nAcked == priv->sbuf.data_length + 1 &&
pseudo_tcp_state_has_sent_fin (priv->state)) {
is_fin_ack = TRUE;
nAcked--;
}
pseudo_tcp_fifo_consume_read_data (&priv->sbuf, nAcked);
for (nFree = nAcked; nFree > 0; ) {
SSegment *data;
g_assert(g_queue_get_length (&priv->slist) != 0);
data = (SSegment *) g_queue_peek_head (&priv->slist);
if (nFree < data->len) {
data->len -= nFree;
data->seq += nFree;
nFree = 0;
} else {
if (data->len > priv->largest) {
priv->largest = data->len;
}
nFree -= data->len;
g_slice_free (SSegment, data);
g_queue_pop_head (&priv->slist);
}
}
if (priv->dup_acks >= 3) {
if (LARGER_OR_EQUAL (priv->snd_una, priv->recover)) { // NewReno
guint32 nInFlight = priv->snd_nxt - priv->snd_una;
// (Fast Retransmit)
priv->cwnd = min(priv->ssthresh,
max (nInFlight, priv->mss) + priv->mss);
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "exit recovery cwnd=%d ssthresh=%d nInFlight=%d mss: %d", priv->cwnd, priv->ssthresh, nInFlight, priv->mss);
priv->fast_recovery = FALSE;
priv->dup_acks = 0;
} else {
int transmit_status;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "recovery retransmit");
transmit_status = transmit(self, g_queue_peek_head (&priv->slist), now);
if (transmit_status != 0) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Error transmitting recovery retransmit segment. Closing down.");
closedown (self, transmit_status, CLOSEDOWN_LOCAL);
return FALSE;
}
priv->cwnd += (nAcked > priv->mss ? priv->mss : 0) -
min(nAcked, priv->cwnd);
}
} else {
priv->dup_acks = 0;
// Slow start, congestion avoidance
if (priv->cwnd < priv->ssthresh) {
priv->cwnd += priv->mss;
} else {
priv->cwnd += max(1LU, priv->mss * priv->mss / priv->cwnd);
}
}
} else if (is_duplicate_ack) {
/* !?! Note, tcp says don't do this... but otherwise how does a
closed window become open? */
priv->snd_wnd = seg->wnd << priv->swnd_scale;
// Check duplicate acks
if (seg->len > 0) {
// it's a dup ack, but with a data payload, so don't modify priv->dup_acks
} else if (priv->snd_una != priv->snd_nxt) {
guint32 nInFlight;
priv->dup_acks += 1;
DEBUG (PSEUDO_TCP_DEBUG_VERBOSE, "Received dup ack (dups: %u)",
priv->dup_acks);
if (priv->dup_acks == 3) { // (Fast Retransmit)
int transmit_status;
if (LARGER_OR_EQUAL (priv->snd_una, priv->recover)) { /* NewReno */
/* Invoke fast retransmit RFC3782 section 3 step 1A*/
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "enter recovery");
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "recovery retransmit");
transmit_status = transmit(self, g_queue_peek_head (&priv->slist),
now);
if (transmit_status != 0) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Error transmitting recovery retransmit segment. Closing down.");
closedown (self, transmit_status, CLOSEDOWN_LOCAL);
return FALSE;
}
priv->recover = priv->snd_nxt;
nInFlight = priv->snd_nxt - priv->snd_una;
priv->ssthresh = max(nInFlight / 2, 2 * priv->mss);
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"ssthresh: %u = max((nInFlight: %u / 2), 2 * mss: %u)",
priv->ssthresh, nInFlight, priv->mss);
priv->cwnd = priv->ssthresh + 3 * priv->mss;
priv->fast_recovery = TRUE;
} else {
DEBUG (PSEUDO_TCP_DEBUG_VERBOSE,
"Skipping fast recovery: recover: %u snd_una: %u", priv->recover,
priv->snd_una);
}
} else if (priv->dup_acks > 3) {
if (priv->fast_recovery)
priv->cwnd += priv->mss;
}
} else {
priv->dup_acks = 0;
}
}
// !?! A bit hacky
if ((priv->state == TCP_SYN_RECEIVED) && !bConnect) {
set_state_established (self);
}
/* Check for connection closure. Only pay attention to FIN segments if they
* are in sequence; otherwise we’ve missed a packet earlier in the stream and
* need to request retransmission first. */
if (priv->support_fin_ack) {
/* @received_fin is set when, and only when, all segments preceding the FIN
* have been acknowledged. This is to handle the case where the FIN arrives
* out of order with a preceding data segment. */
if (seg->flags & FLAG_FIN && priv->rcv_fin == 0) {
priv->rcv_fin = seg->seq;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Setting rcv_fin = %u", priv->rcv_fin);
} else if (seg->flags & FLAG_FIN && seg->seq != priv->rcv_fin) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Second FIN segment received; ignored");
return FALSE;
}
/* For the moment, FIN segments must not contain data. */
if (seg->flags & FLAG_FIN && seg->len != 0) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "FIN segment contained data; ignored");
return FALSE;
}
received_fin = (priv->rcv_nxt != 0 && priv->rcv_nxt + seg->len == priv->rcv_fin);
/* Update the state machine, implementing all transitions on ‘rcv FIN’ or
* ‘rcv ACK of FIN’ from RFC 793, Figure 6; and RFC 1122, §4.2.2.8. */
switch (priv->state) {
case TCP_ESTABLISHED:
if (received_fin) {
/* Received a FIN from the network, RFC 793, §3.5, Case 2.
* The code below will send an ACK for the FIN. */
set_state (self, TCP_CLOSE_WAIT);
}
break;
case TCP_CLOSING:
if (is_fin_ack) {
/* Handle the ACK of a locally-sent FIN flag. RFC 793, §3.5, Case 3. */
set_state (self, TCP_TIME_WAIT);
}
break;
case TCP_LAST_ACK:
if (is_fin_ack) {
/* Handle the ACK of a locally-sent FIN flag. RFC 793, §3.5, Case 2. */
set_state_closed (self, 0);
}
break;
case TCP_FIN_WAIT_1:
if (is_fin_ack && received_fin) {
/* Simultaneous close with an ACK for a FIN previously sent,
* RFC 793, §3.5, Case 3. */
set_state (self, TCP_TIME_WAIT);
} else if (is_fin_ack) {
/* Handle the ACK of a locally-sent FIN flag. RFC 793, §3.5, Case 1. */
set_state (self, TCP_FIN_WAIT_2);
} else if (received_fin) {
/* Simultaneous close, RFC 793, §3.5, Case 3. */
set_state (self, TCP_CLOSING);
}
break;
case TCP_FIN_WAIT_2:
if (received_fin) {
/* Local user closed the connection, RFC 793, §3.5, Case 1. */
set_state (self, TCP_TIME_WAIT);
}
break;
case TCP_LISTEN:
case TCP_SYN_SENT:
case TCP_SYN_RECEIVED:
case TCP_TIME_WAIT:
case TCP_CLOSED:
case TCP_CLOSE_WAIT:
/* Shouldn’t ever hit these cases. */
if (received_fin) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Unexpected state %u when FIN received", priv->state);
} else if (is_fin_ack) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Unexpected state %u when FIN-ACK received", priv->state);
}
break;
default:
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Invalid state %u when FIN received",
priv->state);
return FALSE;
}
} else if (seg->flags & FLAG_FIN) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Invalid FIN received when FIN-ACK support is disabled");
} else if (is_fin_ack) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Invalid FIN-ACK received when FIN-ACK support is disabled");
}
// If we make room in the send queue, notify the user
// The goal it to make sure we always have at least enough data to fill the
// window. We'd like to notify the app when we are halfway to that point.
kIdealRefillSize = (priv->sbuf_len + priv->rbuf_len) / 2;
snd_buffered = pseudo_tcp_fifo_get_buffered (&priv->sbuf);
if (priv->bWriteEnable && snd_buffered < kIdealRefillSize) {
priv->bWriteEnable = FALSE;
if (priv->callbacks.PseudoTcpWritable)
priv->callbacks.PseudoTcpWritable(self, priv->callbacks.user_data);
}
/* Conditions where acks must be sent:
* 1) Segment is too old (they missed an ACK) (immediately)
* 2) Segment is too new (we missed a segment) (immediately)
* 3) Segment has data (so we need to ACK!) (delayed)
* ... so the only time we don't need to ACK, is an empty segment
* that points to rcv_nxt!
* 4) Segment has the FIN flag set (immediately) — note that the FIN flag
* itself has to be included in the ACK as a numbered byte;
* see RFC 793, §3.3. Also see: RFC 793, §3.5.
*/
if (seg->seq != priv->rcv_nxt) {
sflags = sfImmediateAck; // (Fast Recovery)
} else if (seg->len != 0) {
if (priv->ack_delay == 0) {
sflags = sfImmediateAck;
} else {
sflags = sfDelayedAck;
}
} else if (received_fin) {
/* FIN flags have a sequence number. Only acknowledge them after all
* preceding octets have been acknowledged. */
sflags = sfImmediateAck;
}
if (sflags == sfImmediateAck) {
if (seg->seq > priv->rcv_nxt) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "too new");
} else if (SMALLER_OR_EQUAL(seg->seq + seg->len, priv->rcv_nxt)) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "too old");
}
}
// Adjust the incoming segment to fit our receive buffer
if (SMALLER(seg->seq, priv->rcv_nxt)) {
guint32 nAdjust = priv->rcv_nxt - seg->seq;
if (nAdjust < seg->len) {
seg->seq += nAdjust;
seg->data += nAdjust;
seg->len -= nAdjust;
} else {
seg->len = 0;
}
}
available_space = pseudo_tcp_fifo_get_write_remaining (&priv->rbuf);
if ((seg->seq + seg->len - priv->rcv_nxt) > available_space) {
guint32 nAdjust = seg->seq + seg->len - priv->rcv_nxt - available_space;
if (nAdjust < seg->len) {
seg->len -= nAdjust;
} else {
seg->len = 0;
}
}
bIgnoreData = (seg->flags & FLAG_CTL);
if (!priv->support_fin_ack)
bIgnoreData |= (priv->shutdown != SD_NONE);
bNewData = FALSE;
if (seg->len > 0) {
if (bIgnoreData) {
if (seg->seq == priv->rcv_nxt) {
priv->rcv_nxt += seg->len;
}
} else {
guint32 nOffset = seg->seq - priv->rcv_nxt;
gsize res;
res = pseudo_tcp_fifo_write_offset (&priv->rbuf, (guint8 *) seg->data,
seg->len, nOffset);
g_assert (res == seg->len);
if (seg->seq == priv->rcv_nxt) {
GList *iter = NULL;
pseudo_tcp_fifo_consume_write_buffer (&priv->rbuf, seg->len);
priv->rcv_nxt += seg->len;
priv->rcv_wnd -= seg->len;
bNewData = TRUE;
iter = priv->rlist;
while (iter &&
SMALLER_OR_EQUAL(((RSegment *)iter->data)->seq, priv->rcv_nxt)) {
RSegment *data = (RSegment *)(iter->data);
if (LARGER (data->seq + data->len, priv->rcv_nxt)) {
guint32 nAdjust = (data->seq + data->len) - priv->rcv_nxt;
sflags = sfImmediateAck; // (Fast Recovery)
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Recovered %u bytes (%u -> %u)",
nAdjust, priv->rcv_nxt, priv->rcv_nxt + nAdjust);
pseudo_tcp_fifo_consume_write_buffer (&priv->rbuf, nAdjust);
priv->rcv_nxt += nAdjust;
priv->rcv_wnd -= nAdjust;
}
g_slice_free (RSegment, priv->rlist->data);
priv->rlist = g_list_delete_link (priv->rlist, priv->rlist);
iter = priv->rlist;
}
} else {
GList *iter = NULL;
RSegment *rseg = g_slice_new0 (RSegment);
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Saving %u bytes (%u -> %u)",
seg->len, seg->seq, seg->seq + seg->len);
rseg->seq = seg->seq;
rseg->len = seg->len;
iter = priv->rlist;
while (iter && SMALLER (((RSegment*)iter->data)->seq, rseg->seq)) {
iter = g_list_next (iter);
}
priv->rlist = g_list_insert_before(priv->rlist, iter, rseg);
}
}
}
if (received_fin) {
/* FIN flags have a sequence number. */
priv->rcv_nxt++;
}
attempt_send(self, sflags);
// If we have new data, notify the user
if (bNewData && priv->bReadEnable) {
/* priv->bReadEnable = FALSE; — removed so that we’re always notified of
* incoming pseudo-TCP data, rather than having to read the entire buffer
* on each readable() callback before the next callback is enabled.
* (When client-provided buffers are small, this is not possible.) */
if (priv->callbacks.PseudoTcpReadable)
priv->callbacks.PseudoTcpReadable(self, priv->callbacks.user_data);
}
return TRUE;
}
static gboolean
transmit(PseudoTcpSocket *self, SSegment *segment, guint32 now)
{
PseudoTcpSocketPrivate *priv = self->priv;
guint32 nTransmit = min(segment->len, priv->mss);
if (segment->xmit >= ((priv->state == TCP_ESTABLISHED) ? 15 : 30)) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "too many retransmits");
return ETIMEDOUT;
}
while (TRUE) {
guint32 seq = segment->seq;
guint8 flags = segment->flags;
PseudoTcpWriteResult wres;
/* The packet must not have already been acknowledged. */
g_assert_cmpuint (segment->seq - priv->snd_una, <=, 1024 * 1024 * 64);
/* Write out the packet. */
wres = packet(self, seq, flags,
segment->seq - priv->snd_una, nTransmit, now);
if (wres == WR_SUCCESS)
break;
if (wres == WR_FAIL) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "packet failed");
return ECONNABORTED; /* FIXME: This error code doesn’t quite seem right */
}
g_assert(wres == WR_TOO_LARGE);
while (TRUE) {
if (PACKET_MAXIMUMS[priv->msslevel + 1] == 0) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "MTU too small");
return EMSGSIZE;
}
/* !?! We need to break up all outstanding and pending packets
and then retransmit!?! */
priv->mss = PACKET_MAXIMUMS[++priv->msslevel] - PACKET_OVERHEAD;
// I added this... haven't researched actual formula
priv->cwnd = 2 * priv->mss;
if (priv->mss < nTransmit) {
nTransmit = priv->mss;
break;
}
}
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Adjusting mss to %u bytes ", priv->mss);
}
if (nTransmit < segment->len) {
SSegment *subseg = g_slice_new0 (SSegment);
subseg->seq = segment->seq + nTransmit;
subseg->len = segment->len - nTransmit;
subseg->flags = segment->flags;
subseg->xmit = segment->xmit;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "mss reduced to %u", priv->mss);
segment->len = nTransmit;
g_queue_insert_after (&priv->slist,
g_queue_find (&priv->slist, segment), subseg);
if (subseg->xmit == 0)
g_queue_insert_after (&priv->unsent_slist,
g_queue_find (&priv->unsent_slist, segment), subseg);
}
if (segment->xmit == 0) {
g_assert (g_queue_peek_head (&priv->unsent_slist) == segment);
g_queue_pop_head (&priv->unsent_slist);
priv->snd_nxt += segment->len;
/* FIN flags require acknowledgement. */
if (segment->len == 0 && segment->flags & FLAG_FIN)
priv->snd_nxt++;
}
segment->xmit += 1;
if (priv->rto_base == 0) {
priv->rto_base = now;
}
return 0;
}
static void
attempt_send(PseudoTcpSocket *self, SendFlags sflags)
{
PseudoTcpSocketPrivate *priv = self->priv;
guint32 now = get_current_time (self);
gboolean bFirst = TRUE;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Attempting send with flags %u.", sflags);
if (time_diff(now, priv->lastsend) > (long) priv->rx_rto) {
priv->cwnd = priv->mss;
}
while (TRUE) {
guint32 cwnd;
guint32 nWindow;
guint32 nInFlight;
guint32 nUseable;
guint32 nAvailable;
gsize snd_buffered;
GList *iter;
SSegment *sseg;
int transmit_status;
cwnd = priv->cwnd;
if ((priv->dup_acks == 1) || (priv->dup_acks == 2)) { // Limited Transmit
cwnd += priv->dup_acks * priv->mss;
}
nWindow = min(priv->snd_wnd, cwnd);
nInFlight = priv->snd_nxt - priv->snd_una;
nUseable = (nInFlight < nWindow) ? (nWindow - nInFlight) : 0;
snd_buffered = pseudo_tcp_fifo_get_buffered (&priv->sbuf);
if (snd_buffered < nInFlight) /* iff a FIN has been sent */
nAvailable = 0;
else
nAvailable = min(snd_buffered - nInFlight, priv->mss);
if (nAvailable > nUseable) {
if (nUseable * 4 < nWindow) {
// RFC 813 - avoid SWS
nAvailable = 0;
} else {
nAvailable = nUseable;
}
}
if (bFirst) {
gsize available_space = pseudo_tcp_fifo_get_write_remaining (&priv->sbuf);
bFirst = FALSE;
DEBUG (PSEUDO_TCP_DEBUG_VERBOSE, "[cwnd: %u nWindow: %u nInFlight: %u "
"nAvailable: %u nQueued: %" G_GSIZE_FORMAT " nEmpty: %" G_GSIZE_FORMAT
" nWaiting: %zu ssthresh: %u]",
priv->cwnd, nWindow, nInFlight, nAvailable, snd_buffered,
available_space, snd_buffered - nInFlight, priv->ssthresh);
}
if (nAvailable == 0 && sflags != sfFin && sflags != sfRst) {
if (sflags == sfNone)
return;
// If this is an immediate ack, or the second delayed ack
if ((sflags == sfImmediateAck) || priv->t_ack) {
packet(self, priv->snd_nxt, 0, 0, 0, now);
} else {
priv->t_ack = now;
}
return;
}
// Nagle algorithm
// If there is data already in-flight, and we haven't a full segment of
// data ready to send then hold off until we get more to send, or the
// in-flight data is acknowledged.
if (priv->use_nagling && sflags != sfFin && sflags != sfRst &&
(priv->snd_nxt > priv->snd_una) &&
(nAvailable < priv->mss)) {
return;
}
// Find the next segment to transmit
iter = g_queue_peek_head_link (&priv->unsent_slist);
if (iter == NULL)
return;
sseg = iter->data;
// If the segment is too large, break it into two
if (sseg->len > nAvailable && sflags != sfFin && sflags != sfRst) {
SSegment *subseg = g_slice_new0 (SSegment);
subseg->seq = sseg->seq + nAvailable;
subseg->len = sseg->len - nAvailable;
subseg->flags = sseg->flags;
sseg->len = nAvailable;
g_queue_insert_after (&priv->unsent_slist, iter, subseg);
g_queue_insert_after (&priv->slist, g_queue_find (&priv->slist, sseg),
subseg);
}
transmit_status = transmit(self, sseg, now);
if (transmit_status != 0) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "transmit failed");
// TODO: Is this the right thing ?
closedown (self, transmit_status, CLOSEDOWN_REMOTE);
return;
}
if (sflags == sfImmediateAck || sflags == sfDelayedAck)
sflags = sfNone;
}
}
/* If @source is %CLOSEDOWN_REMOTE, don’t send an RST packet, since closedown()
* has been called as a result of an RST segment being received.
* See: RFC 1122, §4.2.2.13. */
static void
closedown (PseudoTcpSocket *self, guint32 err, ClosedownSource source)
{
PseudoTcpSocketPrivate *priv = self->priv;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Closing down socket %p with %s error %u.",
self, (source == CLOSEDOWN_LOCAL) ? "local" : "remote", err);
if (source == CLOSEDOWN_LOCAL && priv->support_fin_ack) {
queue_rst_message (self);
attempt_send (self, sfRst);
} else if (source == CLOSEDOWN_LOCAL) {
priv->shutdown = SD_FORCEFUL;
}
/* ‘Cute’ little navigation through the state machine to avoid breaking the
* invariant that CLOSED can only be reached from TIME-WAIT or LAST-ACK. */
switch (priv->state) {
case TCP_LISTEN:
case TCP_SYN_SENT:
break;
case TCP_SYN_RECEIVED:
case TCP_ESTABLISHED:
set_state (self, TCP_FIN_WAIT_1);
/* Fall through. */
case TCP_FIN_WAIT_1:
set_state (self, TCP_FIN_WAIT_2);
/* Fall through. */
case TCP_FIN_WAIT_2:
case TCP_CLOSING:
set_state (self, TCP_TIME_WAIT);
break;
case TCP_CLOSE_WAIT:
set_state (self, TCP_LAST_ACK);
break;
case TCP_LAST_ACK:
case TCP_TIME_WAIT:
case TCP_CLOSED:
default:
break;
}
set_state_closed (self, err);
}
static void
adjustMTU(PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
// Determine our current mss level, so that we can adjust appropriately later
for (priv->msslevel = 0;
PACKET_MAXIMUMS[priv->msslevel + 1] > 0;
++priv->msslevel) {
if (((guint16)PACKET_MAXIMUMS[priv->msslevel]) <= priv->mtu_advise) {
break;
}
}
priv->mss = priv->mtu_advise - PACKET_OVERHEAD;
// !?! Should we reset priv->largest here?
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Adjusting mss to %u bytes", priv->mss);
// Enforce minimums on ssthresh and cwnd
priv->ssthresh = max(priv->ssthresh, 2 * priv->mss);
priv->cwnd = max(priv->cwnd, priv->mss);
}
static void
apply_window_scale_option (PseudoTcpSocket *self, guint8 scale_factor)
{
PseudoTcpSocketPrivate *priv = self->priv;
priv->swnd_scale = scale_factor;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Setting scale factor to %u", scale_factor);
}
static void
apply_fin_ack_option (PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
priv->support_fin_ack = TRUE;
}
static void
apply_option (PseudoTcpSocket *self, guint8 kind, const guint8 *data,
guint32 len)
{
switch (kind) {
case TCP_OPT_MSS:
DEBUG (PSEUDO_TCP_DEBUG_NORMAL,
"Peer specified MSS option which is not supported.");
// TODO: Implement.
break;
case TCP_OPT_WND_SCALE:
// Window scale factor.
// http://www.ietf.org/rfc/rfc1323.txt
if (len != 1) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Invalid window scale option received.");
return;
}
apply_window_scale_option(self, data[0]);
break;
case TCP_OPT_FIN_ACK:
// FIN-ACK support.
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "FIN-ACK support enabled.");
apply_fin_ack_option (self);
break;
case TCP_OPT_EOL:
case TCP_OPT_NOOP:
/* Nothing to do. */
break;
default:
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Invalid TCP option %u", kind);
break;
}
}
static void
parse_options (PseudoTcpSocket *self, const guint8 *data, guint32 len)
{
PseudoTcpSocketPrivate *priv = self->priv;
gboolean has_window_scaling_option = FALSE;
gboolean has_fin_ack_option = FALSE;
guint32 pos = 0;
// See http://www.freesoft.org/CIE/Course/Section4/8.htm for
// parsing the options list.
while (pos < len) {
guint8 kind = TCP_OPT_EOL;
guint8 opt_len;
if (len < pos + 1)
return;
kind = data[pos];
pos++;
if (kind == TCP_OPT_EOL) {
// End of option list.
break;
} else if (kind == TCP_OPT_NOOP) {
// No op.
continue;
}
if (len < pos + 1)
return;
// Length of this option.
opt_len = data[pos];
pos++;
if (len < pos + opt_len)
return;
// Content of this option.
if (opt_len <= len - pos) {
apply_option (self, kind, data + pos, opt_len);
pos += opt_len;
} else {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Invalid option length received.");
return;
}
if (kind == TCP_OPT_WND_SCALE)
has_window_scaling_option = TRUE;
else if (kind == TCP_OPT_FIN_ACK)
has_fin_ack_option = TRUE;
}
if (!has_window_scaling_option) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Peer doesn't support window scaling");
if (priv->rwnd_scale > 0) {
// Peer doesn't support TCP options and window scaling.
// Revert receive buffer size to default value.
resize_receive_buffer (self, DEFAULT_RCV_BUF_SIZE);
priv->swnd_scale = 0;
}
}
if (!has_fin_ack_option) {
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "Peer doesn't support FIN-ACK");
priv->support_fin_ack = FALSE;
}
}
static void
resize_send_buffer (PseudoTcpSocket *self, guint32 new_size)
{
PseudoTcpSocketPrivate *priv = self->priv;
priv->sbuf_len = new_size;
pseudo_tcp_fifo_set_capacity (&priv->sbuf, new_size);
}
static void
resize_receive_buffer (PseudoTcpSocket *self, guint32 new_size)
{
PseudoTcpSocketPrivate *priv = self->priv;
guint8 scale_factor = 0;
gboolean result;
gsize available_space;
if (priv->rbuf_len == new_size)
return;
// Determine the scale factor such that the scaled window size can fit
// in a 16-bit unsigned integer.
while (new_size > 0xFFFF) {
++scale_factor;
new_size >>= 1;
}
// Determine the proper size of the buffer.
new_size <<= scale_factor;
result = pseudo_tcp_fifo_set_capacity (&priv->rbuf, new_size);
// Make sure the new buffer is large enough to contain data in the old
// buffer. This should always be true because this method is called either
// before connection is established or when peers are exchanging connect
// messages.
g_assert(result);
priv->rbuf_len = new_size;
priv->rwnd_scale = scale_factor;
priv->ssthresh = new_size;
available_space = pseudo_tcp_fifo_get_write_remaining (&priv->rbuf);
priv->rcv_wnd = available_space;
}
gint
pseudo_tcp_socket_get_available_bytes (PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
return pseudo_tcp_fifo_get_buffered (&priv->rbuf);
}
gboolean
pseudo_tcp_socket_can_send (PseudoTcpSocket *self)
{
return (pseudo_tcp_socket_get_available_send_space (self) > 0);
}
gsize
pseudo_tcp_socket_get_available_send_space (PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
gsize ret;
if (!pseudo_tcp_state_has_sent_fin (priv->state)) {
ret = pseudo_tcp_fifo_get_write_remaining (&priv->sbuf);
} else {
ret = 0;
}
if (ret == 0)
priv->bWriteEnable = TRUE;
return ret;
}
/* State names are capitalised and formatted as in RFC 793. */
static const gchar *
pseudo_tcp_state_get_name (PseudoTcpState state)
{
switch (state) {
case TCP_LISTEN: return "LISTEN";
case TCP_SYN_SENT: return "SYN-SENT";
case TCP_SYN_RECEIVED: return "SYN-RECEIVED";
case TCP_ESTABLISHED: return "ESTABLISHED";
case TCP_CLOSED: return "CLOSED";
case TCP_FIN_WAIT_1: return "FIN-WAIT-1";
case TCP_FIN_WAIT_2: return "FIN-WAIT-2";
case TCP_CLOSING: return "CLOSING";
case TCP_TIME_WAIT: return "TIME-WAIT";
case TCP_CLOSE_WAIT: return "CLOSE-WAIT";
case TCP_LAST_ACK: return "LAST-ACK";
default: return "UNKNOWN";
}
}
static void
set_state (PseudoTcpSocket *self, PseudoTcpState new_state)
{
PseudoTcpSocketPrivate *priv = self->priv;
PseudoTcpState old_state = priv->state;
if (new_state == old_state)
return;
DEBUG (PSEUDO_TCP_DEBUG_NORMAL, "State %s → %s.",
pseudo_tcp_state_get_name (old_state),
pseudo_tcp_state_get_name (new_state));
/* Check whether it’s a valid state transition. */
#define TRANSITION(OLD, NEW) \
(old_state == TCP_##OLD && \
new_state == TCP_##NEW)
/* Valid transitions. See: RFC 793, p23; RFC 1122, §4.2.2.8. */
g_assert (/* RFC 793, p23. */
TRANSITION (CLOSED, SYN_SENT) ||
TRANSITION (SYN_SENT, CLOSED) ||
TRANSITION (CLOSED, LISTEN) ||
TRANSITION (LISTEN, CLOSED) ||
TRANSITION (LISTEN, SYN_SENT) ||
TRANSITION (LISTEN, SYN_RECEIVED) ||
TRANSITION (SYN_SENT, SYN_RECEIVED) ||
TRANSITION (SYN_RECEIVED, ESTABLISHED) ||
TRANSITION (SYN_SENT, ESTABLISHED) ||
TRANSITION (SYN_RECEIVED, FIN_WAIT_1) ||
TRANSITION (ESTABLISHED, FIN_WAIT_1) ||
TRANSITION (ESTABLISHED, CLOSE_WAIT) ||
TRANSITION (FIN_WAIT_1, FIN_WAIT_2) ||
TRANSITION (FIN_WAIT_1, CLOSING) ||
TRANSITION (CLOSE_WAIT, LAST_ACK) ||
TRANSITION (FIN_WAIT_2, TIME_WAIT) ||
TRANSITION (CLOSING, TIME_WAIT) ||
TRANSITION (LAST_ACK, CLOSED) ||
TRANSITION (TIME_WAIT, CLOSED) ||
/* RFC 1122, §4.2.2.8. */
TRANSITION (SYN_RECEIVED, LISTEN) ||
TRANSITION (FIN_WAIT_1, TIME_WAIT));
#undef TRANSITION
priv->state = new_state;
}
static void
set_state_established (PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
set_state (self, TCP_ESTABLISHED);
adjustMTU (self);
if (priv->callbacks.PseudoTcpOpened)
priv->callbacks.PseudoTcpOpened (self, priv->callbacks.user_data);
}
/* (err == 0) means no error. */
static void
set_state_closed (PseudoTcpSocket *self, guint32 err)
{
PseudoTcpSocketPrivate *priv = self->priv;
set_state (self, TCP_CLOSED);
/* Only call the callback if there was an error. */
if (priv->callbacks.PseudoTcpClosed && err != 0)
priv->callbacks.PseudoTcpClosed (self, err, priv->callbacks.user_data);
}
gboolean
pseudo_tcp_socket_is_closed (PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
return (priv->state == TCP_CLOSED);
}
gboolean
pseudo_tcp_socket_is_closed_remotely (PseudoTcpSocket *self)
{
PseudoTcpSocketPrivate *priv = self->priv;
return pseudo_tcp_state_has_received_fin (priv->state);
}
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