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Alexander Afanasyev0ab833e2011-08-18 15:49:13 -07001/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -*- */
Alexander Afanasyev45b92d42011-08-14 23:11:38 -07002/*
3 * Copyright (c) 2011 UCLA
4 *
5 * This program is free software; you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License version 2 as
7 * published by the Free Software Foundation;
8 *
9 * This program is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
13 *
14 * You should have received a copy of the GNU General Public License
15 * along with this program; if not, write to the Free Software
16 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17 *
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -070018 * Author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
Ilya Moiseenkofbd0a8b2011-10-28 13:07:16 -070019 * Ilya Moiseenko <iliamo@cs.ucla.edu>
Alexander Afanasyev45b92d42011-08-14 23:11:38 -070020 */
21
22/**
23 * \ingroup ccnx
24 * \defgroup CcnxStackModel Ccnx Stack Model
25 *
26 * \section CcnxStackTracingModel Tracing in the Ccnx Stack
27 *
28 * The ccnx stack provides a number of trace sources in its various
29 * protocol implementations. These trace sources can be hooked using your own
30 * custom trace code, or you can use our helper functions in some cases to
31 * arrange for tracing to be enabled.
32 *
33 * \subsection CcnxStackCcnxTracingModel Tracing in Ccnx
34 *
35 * The Ccnx layer three protocol provides three trace hooks. These are the
36 * "Tx" (ns3::CcnxL3Protocol::m_txTrace), "Rx" (ns3::CcnxL3Protocol::m_rxTrace)
37 * and "Drop" (ns3::CcnxL3Protocol::m_dropTrace) trace sources.
38 *
39 * The "Tx" trace is fired in a number of situations, all of which indicate that
40 * a given packet is about to be sent down to a given ns3::CcnxFace.
41 *
42 * - \todo list Tx trace events
43 *
44 * The "Rx" trace is fired when a packet is passed from the device up to the
45 * ns3::CcnxL3Protocol::Receive function.
46 *
47 * - In the receive function, the CcnxFaceList is iterated, and if the
48 * CcnxFace corresponding to the receiving device is found to be in the
49 * UP state, the trace is fired.
50 *
51 * The "Drop" trace is fired in any case where the packet is dropped (in both
52 * the transmit and receive paths).
53 *
54 * - \todo list Drop trace events
55 */
56
57#include "ns3/assert.h"
58#include "ns3/log.h"
59#include "ns3/object.h"
60#include "ns3/names.h"
Alexander Afanasyev45b92d42011-08-14 23:11:38 -070061#include "ns3/packet-socket-factory.h"
62#include "ns3/config.h"
63#include "ns3/simulator.h"
64#include "ns3/string.h"
65#include "ns3/net-device.h"
66#include "ns3/callback.h"
67#include "ns3/node.h"
68#include "ns3/core-config.h"
Alexander Afanasyevc74a6022011-08-15 20:01:35 -070069#include "ns3/ccnx-forwarding-strategy.h"
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -070070#include "ns3/ccnx-net-device-face.h"
71#include "ns3/ccnx-l3-protocol.h"
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -070072#include "ns3/ccnx-fib.h"
Alexander Afanasyev45b92d42011-08-14 23:11:38 -070073
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -070074#include "ccnx-face-container.h"
Alexander Afanasyev45b92d42011-08-14 23:11:38 -070075#include "ccnx-stack-helper.h"
76#include "ccnx-forwarding-helper.h"
77
78#include <limits>
79#include <map>
80
81NS_LOG_COMPONENT_DEFINE ("CcnxStackHelper");
82
83namespace ns3 {
84
85// Things are going to work differently here with respect to trace
86// file handling than in most places because the Tx and Rx trace
87// sources we are interested in are going to multiplex receive and
88// transmit callbacks for all Ccnx and face pairs through one
89// callback. We want packets to or from each distinct pair to go to
90// an individual file, so we have got to demultiplex the Ccnx and face
91// pair into a corresponding Ptr<PcapFileWrapper> at the callback.
92//
93// A complication in this situation is that the trace sources are
94// hooked on a protocol basis. There is no trace source hooked by an
95// Ccnx and face pair. This means that if we naively proceed to hook,
96// say, a drop trace for a given Ccnx with face 0, and then hook for
97// Ccnx with face 1 we will hook the drop trace twice and get two
98// callbacks per event. What we need to do is to hook the event once,
99// and that will result in a single callback per drop event, and the
100// trace source will provide the face which we filter on in the trace
101// sink.
102//
103// This has got to continue to work properly after the helper has been
104// destroyed; but must be cleaned up at the end of time to avoid
105// leaks. Global maps of protocol/face pairs to file objects seems to
106// fit the bill.
107//
108typedef std::pair<Ptr<Ccnx>, uint32_t> FacePairCcnx;
109typedef std::map<FacePairCcnx, Ptr<PcapFileWrapper> > FaceFileMapCcnx;
110typedef std::map<FacePairCcnx, Ptr<OutputStreamWrapper> > FaceStreamMapCcnx;
111
112static FaceFileMapCcnx g_faceFileMapCcnx; /**< A mapping of Ccnx/face pairs to pcap files */
113static FaceStreamMapCcnx g_faceStreamMapCcnx; /**< A mapping of Ccnx/face pairs to ascii streams */
114
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700115
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700116CcnxStackHelper::CcnxStackHelper ()
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700117 : m_forwardingHelper (Ccnx::NDN_FLOODING)
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700118{
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700119}
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700120
121CcnxStackHelper::CcnxStackHelper (Ccnx::ForwardingStrategy strategy)
122 : m_forwardingHelper (strategy)
123{
124}
125
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700126CcnxStackHelper::~CcnxStackHelper ()
127{
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700128}
129
130CcnxStackHelper::CcnxStackHelper (const CcnxStackHelper &o)
131{
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700132}
133
134CcnxStackHelper &
135CcnxStackHelper::operator = (const CcnxStackHelper &o)
136{
137 if (this == &o)
138 {
139 return *this;
140 }
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700141 return *this;
142}
143
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700144void
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700145CcnxStackHelper::SetForwardingStrategy (Ccnx::ForwardingStrategy strategy)
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700146{
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700147 CcnxForwardingHelper newForwardingHelper (strategy);
148 m_forwardingHelper = newForwardingHelper;
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700149}
150
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700151Ptr<CcnxFaceContainer>
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700152CcnxStackHelper::Install (NodeContainer c) const
153{
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700154 Ptr<CcnxFaceContainer> faces = Create<CcnxFaceContainer> ();
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700155 for (NodeContainer::Iterator i = c.Begin (); i != c.End (); ++i)
156 {
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700157 faces->AddAll (Install (*i));
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700158 }
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700159 return faces;
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700160}
161
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700162Ptr<CcnxFaceContainer>
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700163CcnxStackHelper::InstallAll (void) const
164{
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700165 return Install (NodeContainer::GetGlobal ());
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700166}
167
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700168// void
169// CcnxStackHelper::CreateAndAggregateObjectFromTypeId (Ptr<Node> node, const std::string typeId)
170// {
171// ObjectFactory factory;
172// factory.SetTypeId (typeId);
173// Ptr<Object> protocol = factory.Create <Object> ();
174// node->AggregateObject (protocol);
175// }
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700176
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700177Ptr<CcnxFaceContainer>
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700178CcnxStackHelper::Install (Ptr<Node> node) const
179{
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700180 // NS_ASSERT_MSG (m_forwarding, "SetForwardingHelper() should be set prior calling Install() method");
181 Ptr<CcnxFaceContainer> faces = Create<CcnxFaceContainer> ();
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700182
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700183 if (node->GetObject<Ccnx> () != 0)
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700184 {
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700185 NS_FATAL_ERROR ("CcnxStackHelper::Install (): Installing "
186 "a CcnxStack to a node with an existing Ccnx object");
187 return 0;
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700188 }
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700189
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700190 Ptr<CcnxFib> fib = CreateObject<CcnxFib> ();
191 node->AggregateObject (fib);
192
Ilya Moiseenkofbd0a8b2011-10-28 13:07:16 -0700193 Ptr<CcnxL3Protocol> ccnx = CreateObject<CcnxL3Protocol> ();
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700194 node->AggregateObject (ccnx);
195
Ilya Moiseenkofbd0a8b2011-10-28 13:07:16 -0700196 Ptr<CcnxPit> pit = ccnx->GetPit();
Ilya Moiseenkoc9266042011-11-02 17:49:21 -0700197 NS_LOG_INFO("NODE #"<<node->GetNDevices());
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700198 for (uint32_t index=0; index < node->GetNDevices (); index++)
199 {
Ilya Moiseenkoc9266042011-11-02 17:49:21 -0700200 Ptr<PointToPointNetDevice> device = DynamicCast<PointToPointNetDevice>(node->GetDevice(index));
201 if(device == 0)
202 continue;
203
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700204 Ptr<CcnxNetDeviceFace> face = Create<CcnxNetDeviceFace> (node->GetDevice (index));
205 face->SetNode (node);
206 uint32_t __attribute__ ((unused)) face_id = ccnx->AddFace (face);
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700207 NS_LOG_LOGIC ("Node " << node->GetId () << ": added CcnxNetDeviceFace as face #" << face_id);
Ilya Moiseenkofbd0a8b2011-10-28 13:07:16 -0700208 // Setup bucket filtering
209 // Assume that we know average data packet size, and this size is equal default size
210 // Set maximum buckets (averaging over 1 second)
Ilya Moiseenkoc9266042011-11-02 17:49:21 -0700211
Ilya Moiseenkofbd0a8b2011-10-28 13:07:16 -0700212 DataRateValue dataRate;
213 device->GetAttribute ("DataRate", dataRate);
Ilya Moiseenkoc9266042011-11-02 17:49:21 -0700214 NS_LOG_INFO("DataRate for this link is " << dataRate.Get());
215 pit->maxBucketsPerFace[face->GetId()] = 0.1 * dataRate.Get().GetBitRate () / 8 /(NDN_DEFAULT_DATA_SIZE + sizeof(CcnxInterestHeader));
216 NS_LOG_INFO("maxBucketsPerFace["<<face->GetId()<<"] = " << pit->maxBucketsPerFace[face->GetId()]);
Ilya Moiseenkofbd0a8b2011-10-28 13:07:16 -0700217 pit->leakSize[face->GetId()] = 0.97 * NDN_INTEREST_RESET_PERIOD / SECOND * dataRate.Get().GetBitRate () / 8 / (NDN_DEFAULT_DATA_SIZE + sizeof(CcnxInterestHeader));
Ilya Moiseenkoc9266042011-11-02 17:49:21 -0700218 NS_LOG_INFO("pit->leakSize["<<face->GetId()<<"] = " << pit->leakSize[face->GetId()]);
219
220
221 if(face->IsLocal()==true)
222 NS_LOG_INFO("Face #" << face_id << " is turned on");
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700223 face->SetUp ();
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700224 faces->Add (face);
225 }
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700226
Ilya Moiseenkoc9266042011-11-02 17:49:21 -0700227 m_forwardingHelper.SetForwarding (ccnx, pit);
Ilya Moiseenko25f7d4d2011-09-29 18:41:06 -0700228
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700229 return faces;
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700230}
231
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700232Ptr<CcnxFaceContainer>
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700233CcnxStackHelper::Install (std::string nodeName) const
234{
235 Ptr<Node> node = Names::Find<Node> (nodeName);
Alexander Afanasyev0ab833e2011-08-18 15:49:13 -0700236 return Install (node);
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700237}
238
Alexander Afanasyevc5a23e22011-09-07 00:37:36 -0700239
240void
241CcnxStackHelper::AddRoute (std::string nodeName, std::string prefix, uint32_t faceId, int32_t metric)
242{
243 NS_LOG_LOGIC ("[" << nodeName << "]$ route add " << prefix << " via " << faceId << " metric " << metric);
244
245 Ptr<Node> node = Names::Find<Node> (nodeName);
246 NS_ASSERT_MSG (node != 0, "Node [" << nodeName << "] does not exist");
247
248 Ptr<Ccnx> ccnx = node->GetObject<Ccnx> ();
249 Ptr<CcnxFib> fib = node->GetObject<CcnxFib> ();
250 Ptr<CcnxFace> face = ccnx->GetFace (faceId);
251 NS_ASSERT_MSG (node != 0, "Face with ID [" << faceId << "] does not exist on node [" << nodeName << "]");
252
253 CcnxNameComponentsValue prefixValue;
254 prefixValue.DeserializeFromString (prefix, MakeCcnxNameComponentsChecker ());
255 fib->Add (prefixValue.Get (), face, metric);
256}
Ilya Moiseenkoc9266042011-11-02 17:49:21 -0700257/*
258void
259CcnxStackHelper::AddRoute (Ptr<Node> node, std::string prefix, uint32_t faceId, int32_t metric)
260{
261 NS_LOG_LOGIC ("[" << nodeName << "]$ route add " << prefix << " via " << faceId << " metric " << metric);
262
263 NS_ASSERT_MSG (node != 0, "Node does not exist");
264
265 Ptr<Ccnx> ccnx = node->GetObject<Ccnx> ();
266 Ptr<CcnxFib> fib = node->GetObject<CcnxFib> ();
267 Ptr<CcnxFace> face = ccnx->GetFace (faceId);
268 NS_ASSERT_MSG (node != 0, "Face with ID [" << faceId << "] does not exist on node [" << nodeName << "]");
269
270 CcnxNameComponentsValue prefixValue;
271 prefixValue.DeserializeFromString (prefix, MakeCcnxNameComponentsChecker ());
272 fib->Add (prefixValue.Get (), face, metric);
273}
274*/
275
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700276static void
277CcnxL3ProtocolRxTxSink (Ptr<const Packet> p, Ptr<Ccnx> ccnx, uint32_t face)
278{
279 NS_LOG_FUNCTION (p << ccnx << face);
280
281 //
282 // Since trace sources are independent of face, if we hook a source
283 // on a particular protocol we will get traces for all of its faces.
284 // We need to filter this to only report faces for which the user
285 // has expressed interest.
286 //
287 FacePairCcnx pair = std::make_pair (ccnx, face);
288 if (g_faceFileMapCcnx.find (pair) == g_faceFileMapCcnx.end ())
289 {
290 NS_LOG_INFO ("Ignoring packet to/from face " << face);
291 return;
292 }
293
294 Ptr<PcapFileWrapper> file = g_faceFileMapCcnx[pair];
295 file->Write (Simulator::Now (), p);
296}
297
298bool
299CcnxStackHelper::PcapHooked (Ptr<Ccnx> ccnx)
300{
301 for (FaceFileMapCcnx::const_iterator i = g_faceFileMapCcnx.begin ();
302 i != g_faceFileMapCcnx.end ();
303 ++i)
304 {
305 if ((*i).first.first == ccnx)
306 {
307 return true;
308 }
309 }
310 return false;
311}
312
313void
314CcnxStackHelper::EnablePcapCcnxInternal (std::string prefix, Ptr<Ccnx> ccnx, uint32_t face, bool explicitFilename)
315{
316 NS_LOG_FUNCTION (prefix << ccnx << face);
317
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700318 //
319 // We have to create a file and a mapping from protocol/face to file
320 // irrespective of how many times we want to trace a particular protocol.
321 //
322 PcapHelper pcapHelper;
323
324 std::string filename;
325 if (explicitFilename)
326 {
327 filename = prefix;
328 }
329 else
330 {
331 filename = pcapHelper.GetFilenameFromInterfacePair (prefix, ccnx, face);
332 }
333
334 Ptr<PcapFileWrapper> file = pcapHelper.CreateFile (filename, std::ios::out, PcapHelper::DLT_RAW);
335
336 //
337 // However, we only hook the trace source once to avoid multiple trace sink
338 // calls per event (connect is independent of face).
339 //
340 if (!PcapHooked (ccnx))
341 {
342 //
343 // Ptr<Ccnx> is aggregated to node and CcnxL3Protocol is aggregated to
344 // node so we can get to CcnxL3Protocol through Ccnx.
345 //
346 Ptr<CcnxL3Protocol> ccnxL3Protocol = ccnx->GetObject<CcnxL3Protocol> ();
347 NS_ASSERT_MSG (ccnxL3Protocol, "CcnxStackHelper::EnablePcapCcnxInternal(): "
348 "m_ccnxEnabled and ccnxL3Protocol inconsistent");
349
350 bool result = ccnxL3Protocol->TraceConnectWithoutContext ("Tx", MakeCallback (&CcnxL3ProtocolRxTxSink));
351 NS_ASSERT_MSG (result == true, "CcnxStackHelper::EnablePcapCcnxInternal(): "
352 "Unable to connect ccnxL3Protocol \"Tx\"");
353
354 result = ccnxL3Protocol->TraceConnectWithoutContext ("Rx", MakeCallback (&CcnxL3ProtocolRxTxSink));
355 NS_ASSERT_MSG (result == true, "CcnxStackHelper::EnablePcapCcnxInternal(): "
356 "Unable to connect ccnxL3Protocol \"Rx\"");
357 // cast result to void, to suppress ‘result’ set but not used compiler-warning
358 // for optimized builds
359 (void) result;
360 }
361
362 g_faceFileMapCcnx[std::make_pair (ccnx, face)] = file;
363}
364
365static void
366CcnxL3ProtocolDropSinkWithoutContext (
367 Ptr<OutputStreamWrapper> stream,
368 Ptr<const Packet> packet,
369 CcnxL3Protocol::DropReason reason,
370 Ptr<Ccnx> ccnx,
371 uint32_t face)
372{
373 //
374 // Since trace sources are independent of face, if we hook a source
375 // on a particular protocol we will get traces for all of its faces.
376 // We need to filter this to only report faces for which the user
377 // has expressed interest.
378 //
379 FacePairCcnx pair = std::make_pair (ccnx, face);
380 if (g_faceStreamMapCcnx.find (pair) == g_faceStreamMapCcnx.end ())
381 {
382 NS_LOG_INFO ("Ignoring packet to/from face " << face);
383 return;
384 }
385
386 *stream->GetStream () << "d " << Simulator::Now ().GetSeconds () << " " << *packet << std::endl;
387}
388
389static void
390CcnxL3ProtocolDropSinkWithContext (
391 Ptr<OutputStreamWrapper> stream,
392 std::string context,
393 Ptr<const Packet> packet,
394 CcnxL3Protocol::DropReason reason,
395 Ptr<Ccnx> ccnx,
396 uint32_t face)
397{
398 //
399 // Since trace sources are independent of face, if we hook a source
400 // on a particular protocol we will get traces for all of its faces.
401 // We need to filter this to only report faces for which the user
402 // has expressed interest.
403 //
404 FacePairCcnx pair = std::make_pair (ccnx, face);
405 if (g_faceStreamMapCcnx.find (pair) == g_faceStreamMapCcnx.end ())
406 {
407 NS_LOG_INFO ("Ignoring packet to/from face " << face);
408 return;
409 }
410
411 *stream->GetStream () << "d " << Simulator::Now ().GetSeconds () << " " << context << "(" << face << ") "
412 << *packet << std::endl;
413}
414
415bool
416CcnxStackHelper::AsciiHooked (Ptr<Ccnx> ccnx)
417{
418 for ( FaceStreamMapCcnx::const_iterator i = g_faceStreamMapCcnx.begin ();
419 i != g_faceStreamMapCcnx.end ();
420 ++i)
421 {
422 if ((*i).first.first == ccnx)
423 {
424 return true;
425 }
426 }
427 return false;
428}
429
430void
431CcnxStackHelper::EnableAsciiCcnxInternal (
432 Ptr<OutputStreamWrapper> stream,
433 std::string prefix,
434 Ptr<Ccnx> ccnx,
435 uint32_t face,
436 bool explicitFilename)
437{
Alexander Afanasyev45b92d42011-08-14 23:11:38 -0700438 //
439 // Our trace sinks are going to use packet printing, so we have to
440 // make sure that is turned on.
441 //
442 Packet::EnablePrinting ();
443
444 //
445 // If we are not provided an OutputStreamWrapper, we are expected to create
446 // one using the usual trace filename conventions and hook WithoutContext
447 // since there will be one file per context and therefore the context would
448 // be redundant.
449 //
450 if (stream == 0)
451 {
452 //
453 // Set up an output stream object to deal with private ofstream copy
454 // constructor and lifetime issues. Let the helper decide the actual
455 // name of the file given the prefix.
456 //
457 // We have to create a stream and a mapping from protocol/face to
458 // stream irrespective of how many times we want to trace a particular
459 // protocol.
460 //
461 AsciiTraceHelper asciiTraceHelper;
462
463 std::string filename;
464 if (explicitFilename)
465 {
466 filename = prefix;
467 }
468 else
469 {
470 filename = asciiTraceHelper.GetFilenameFromInterfacePair (prefix, ccnx, face);
471 }
472
473 Ptr<OutputStreamWrapper> theStream = asciiTraceHelper.CreateFileStream (filename);
474
475 //
476 // However, we only hook the trace sources once to avoid multiple trace sink
477 // calls per event (connect is independent of face).
478 //
479 if (!AsciiHooked (ccnx))
480 {
481 //
482 // The drop sink for the CcnxL3Protocol uses a different signature than
483 // the default sink, so we have to cook one up for ourselves. We can get
484 // to the Ptr<CcnxL3Protocol> through our Ptr<Ccnx> since they must both
485 // be aggregated to the same node.
486 //
487 Ptr<CcnxL3Protocol> ccnxL3Protocol = ccnx->GetObject<CcnxL3Protocol> ();
488 bool __attribute__ ((unused)) result = ccnxL3Protocol->TraceConnectWithoutContext ("Drop",
489 MakeBoundCallback (&CcnxL3ProtocolDropSinkWithoutContext, theStream));
490 NS_ASSERT_MSG (result == true, "CcnxStackHelper::EanableAsciiCcnxInternal(): "
491 "Unable to connect ccnxL3Protocol \"Drop\"");
492 }
493
494 g_faceStreamMapCcnx[std::make_pair (ccnx, face)] = theStream;
495 return;
496 }
497
498 //
499 // If we are provided an OutputStreamWrapper, we are expected to use it, and
500 // to provide a context. We are free to come up with our own context if we
501 // want, and use the AsciiTraceHelper Hook*WithContext functions, but for
502 // compatibility and simplicity, we just use Config::Connect and let it deal
503 // with the context.
504 //
505 // We need to associate the ccnx/face with a stream to express interest
506 // in tracing events on that pair, however, we only hook the trace sources
507 // once to avoid multiple trace sink calls per event (connect is independent
508 // of face).
509 //
510 if (!AsciiHooked (ccnx))
511 {
512 Ptr<Node> node = ccnx->GetObject<Node> ();
513 std::ostringstream oss;
514
515 //
516 // This has all kinds of parameters coming with, so we have to cook up our
517 // own sink.
518 //
519 oss.str ("");
520 oss << "/NodeList/" << node->GetId () << "/$ns3::CcnxL3Protocol/Drop";
521 Config::Connect (oss.str (), MakeBoundCallback (&CcnxL3ProtocolDropSinkWithContext, stream));
522 }
523
524 g_faceStreamMapCcnx[std::make_pair (ccnx, face)] = stream;
525}
526
527} // namespace ns3