A Discrete-Event Network Simulator
API
Loading...
Searching...
No Matches
rraa-wifi-manager.cc
Go to the documentation of this file.
1/*
2 * Copyright (c) 2004,2005,2006 INRIA
3 *
4 * This program is free software; you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License version 2 as
6 * published by the Free Software Foundation;
7 *
8 * This program is distributed in the hope that it will be useful,
9 * but WITHOUT ANY WARRANTY; without even the implied warranty of
10 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
11 * GNU General Public License for more details.
12 *
13 * You should have received a copy of the GNU General Public License
14 * along with this program; if not, write to the Free Software
15 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
16 *
17 * Author: Federico Maguolo <maguolof@dei.unipd.it>
18 */
19
20#include "rraa-wifi-manager.h"
21
22#include "ns3/log.h"
23#include "ns3/packet.h"
24#include "ns3/simulator.h"
25#include "ns3/wifi-mac.h"
26#include "ns3/wifi-phy.h"
27
28#define Min(a, b) ((a < b) ? a : b)
29
30namespace ns3
31{
32
33NS_LOG_COMPONENT_DEFINE("RraaWifiManager");
34
42{
51 uint8_t m_nRate;
52 uint8_t m_rateIndex;
53
55};
56
58
61{
62 static TypeId tid =
63 TypeId("ns3::RraaWifiManager")
65 .SetGroupName("Wifi")
66 .AddConstructor<RraaWifiManager>()
67 .AddAttribute(
68 "Basic",
69 "If true the RRAA-BASIC algorithm will be used, otherwise the RRAA will be used",
70 BooleanValue(false),
73 .AddAttribute("Timeout",
74 "Timeout for the RRAA BASIC loss estimation block",
75 TimeValue(Seconds(0.05)),
78 .AddAttribute("FrameLength",
79 "The Data frame length (in bytes) used for calculating mode TxTime.",
80 UintegerValue(1420),
82 MakeUintegerChecker<uint32_t>())
83 .AddAttribute("AckFrameLength",
84 "The Ack frame length (in bytes) used for calculating mode TxTime.",
85 UintegerValue(14),
87 MakeUintegerChecker<uint32_t>())
88 .AddAttribute("Alpha",
89 "Constant for calculating the MTL threshold.",
90 DoubleValue(1.25),
92 MakeDoubleChecker<double>(1))
93 .AddAttribute("Beta",
94 "Constant for calculating the ORI threshold.",
95 DoubleValue(2),
97 MakeDoubleChecker<double>(1))
98 .AddAttribute("Tau",
99 "Constant for calculating the EWND size.",
100 DoubleValue(0.012),
102 MakeDoubleChecker<double>(0))
103 .AddTraceSource("Rate",
104 "Traced value for rate changes (b/s)",
106 "ns3::TracedValueCallback::Uint64");
107 return tid;
108}
109
112 m_currentRate(0)
113{
114 NS_LOG_FUNCTION(this);
115}
116
118{
119 NS_LOG_FUNCTION(this);
120}
121
122void
124{
125 NS_LOG_FUNCTION(this << phy);
126 m_sifs = phy->GetSifs();
127 m_difs = m_sifs + 2 * phy->GetSlot();
128 for (const auto& mode : phy->GetModeList())
129 {
130 WifiTxVector txVector;
131 txVector.SetMode(mode);
133 /* Calculate the TX Time of the Data and the corresponding Ack */
134 Time dataTxTime = phy->CalculateTxDuration(m_frameLength, txVector, phy->GetPhyBand());
135 Time ackTxTime = phy->CalculateTxDuration(m_ackLength, txVector, phy->GetPhyBand());
136 NS_LOG_DEBUG("Calculating TX times: Mode= " << mode << " DataTxTime= " << dataTxTime
137 << " AckTxTime= " << ackTxTime);
138 AddCalcTxTime(mode, dataTxTime + ackTxTime);
139 }
141}
142
143void
145{
146 NS_LOG_FUNCTION(this);
148}
149
150void
152{
153 NS_LOG_FUNCTION(this);
154 if (GetHtSupported())
155 {
156 NS_FATAL_ERROR("WifiRemoteStationManager selected does not support HT rates");
157 }
158 if (GetVhtSupported())
159 {
160 NS_FATAL_ERROR("WifiRemoteStationManager selected does not support VHT rates");
161 }
162 if (GetHeSupported())
163 {
164 NS_FATAL_ERROR("WifiRemoteStationManager selected does not support HE rates");
165 }
166}
167
168Time
170{
171 NS_LOG_FUNCTION(this << mode);
172 for (TxTime::const_iterator i = m_calcTxTime.begin(); i != m_calcTxTime.end(); i++)
173 {
174 if (mode == i->second)
175 {
176 return i->first;
177 }
178 }
179 NS_ASSERT(false);
180 return Seconds(0);
181}
182
183void
185{
186 NS_LOG_FUNCTION(this << mode << t);
187 m_calcTxTime.emplace_back(t, mode);
188}
189
192{
193 NS_LOG_FUNCTION(this << station << mode);
194 WifiRraaThresholds threshold;
195 for (RraaThresholdsTable::const_iterator i = station->m_thresholds.begin();
196 i != station->m_thresholds.end();
197 i++)
198 {
199 if (mode == i->second)
200 {
201 return i->first;
202 }
203 }
204 NS_ABORT_MSG("No thresholds for mode " << mode << " found");
205 return threshold; // Silence compiler warning
206}
207
210{
212 station->m_initialized = false;
213 station->m_adaptiveRtsWnd = 0;
214 station->m_rtsCounter = 0;
215 station->m_adaptiveRtsOn = false;
216 station->m_lastFrameFail = false;
217 return station;
218}
219
220void
222{
223 NS_LOG_FUNCTION(this << station);
224 if (!station->m_initialized)
225 {
226 // Note: we appear to be doing late initialization of the table
227 // to make sure that the set of supported rates has been initialized
228 // before we perform our own initialization.
229 station->m_nRate = GetNSupported(station);
230 // Initialize at maximal rate
231 station->m_rateIndex = GetMaxRate(station);
232
233 station->m_initialized = true;
234
235 station->m_thresholds = RraaThresholdsTable(station->m_nRate);
236 InitThresholds(station);
237 ResetCountersBasic(station);
238 }
239}
240
241void
243{
244 NS_LOG_FUNCTION(this << station);
245 NS_LOG_DEBUG("InitThresholds = " << station);
246
247 double nextCritical = 0;
248 double nextMtl = 0;
249 double mtl = 0;
250 double ori = 0;
251 for (uint8_t i = 0; i < station->m_nRate; i++)
252 {
253 WifiMode mode = GetSupported(station, i);
254 Time totalTxTime = GetCalcTxTime(mode) + m_sifs + m_difs;
255 if (i == GetMaxRate(station))
256 {
257 ori = 0;
258 }
259 else
260 {
261 WifiMode nextMode = GetSupported(station, i + 1);
262 Time nextTotalTxTime = GetCalcTxTime(nextMode) + m_sifs + m_difs;
263 nextCritical = 1 - (nextTotalTxTime.GetSeconds() / totalTxTime.GetSeconds());
264 nextMtl = m_alpha * nextCritical;
265 ori = nextMtl / m_beta;
266 }
267 if (i == 0)
268 {
269 mtl = 1;
270 }
272 th.m_ewnd = static_cast<uint32_t>(ceil(m_tau / totalTxTime.GetSeconds()));
273 th.m_ori = ori;
274 th.m_mtl = mtl;
275 station->m_thresholds.emplace_back(th, mode);
276 mtl = nextMtl;
277 NS_LOG_DEBUG(mode << " " << th.m_ewnd << " " << th.m_mtl << " " << th.m_ori);
278 }
279}
280
281void
283{
284 NS_LOG_FUNCTION(this << station);
285 station->m_nFailed = 0;
286 station->m_counter = GetThresholds(station, station->m_rateIndex).m_ewnd;
287 station->m_lastReset = Simulator::Now();
288}
289
290uint8_t
292{
293 return station->m_nRate - 1;
294}
295
296void
298{
299 NS_LOG_FUNCTION(this << st);
300}
301
302void
304{
305 NS_LOG_FUNCTION(this << st);
306 RraaWifiRemoteStation* station = static_cast<RraaWifiRemoteStation*>(st);
307 station->m_lastFrameFail = true;
308 CheckTimeout(station);
309 station->m_counter--;
310 station->m_nFailed++;
311 RunBasicAlgorithm(station);
312}
313
314void
316{
317 NS_LOG_FUNCTION(this << st << rxSnr << txMode);
318}
319
320void
322 double ctsSnr,
323 WifiMode ctsMode,
324 double rtsSnr)
325{
326 NS_LOG_FUNCTION(this << st << ctsSnr << ctsMode << rtsSnr);
327}
328
329void
331 double ackSnr,
332 WifiMode ackMode,
333 double dataSnr,
334 uint16_t dataChannelWidth,
335 uint8_t dataNss)
336{
337 NS_LOG_FUNCTION(this << st << ackSnr << ackMode << dataSnr << dataChannelWidth << +dataNss);
338 RraaWifiRemoteStation* station = static_cast<RraaWifiRemoteStation*>(st);
339 station->m_lastFrameFail = false;
340 CheckTimeout(station);
341 station->m_counter--;
342 RunBasicAlgorithm(station);
343}
344
345void
347{
348 NS_LOG_FUNCTION(this << st);
349}
350
351void
353{
354 NS_LOG_FUNCTION(this << st);
355}
356
359{
360 NS_LOG_FUNCTION(this << st << allowedWidth);
361 RraaWifiRemoteStation* station = static_cast<RraaWifiRemoteStation*>(st);
362 uint16_t channelWidth = GetChannelWidth(station);
363 if (channelWidth > 20 && channelWidth != 22)
364 {
365 channelWidth = 20;
366 }
367 CheckInit(station);
368 WifiMode mode = GetSupported(station, station->m_rateIndex);
369 uint64_t rate = mode.GetDataRate(channelWidth);
370 if (m_currentRate != rate)
371 {
372 NS_LOG_DEBUG("New datarate: " << rate);
373 m_currentRate = rate;
374 }
375 return WifiTxVector(
376 mode,
379 800,
380 1,
381 1,
382 0,
383 channelWidth,
384 GetAggregation(station));
385}
386
389{
390 NS_LOG_FUNCTION(this << st);
391 RraaWifiRemoteStation* station = static_cast<RraaWifiRemoteStation*>(st);
392 uint16_t channelWidth = GetChannelWidth(station);
393 if (channelWidth > 20 && channelWidth != 22)
394 {
395 channelWidth = 20;
396 }
397 WifiMode mode;
399 {
400 mode = GetSupported(station, 0);
401 }
402 else
403 {
404 mode = GetNonErpSupported(station, 0);
405 }
406 return WifiTxVector(
407 mode,
410 800,
411 1,
412 1,
413 0,
414 channelWidth,
415 GetAggregation(station));
416}
417
418bool
420{
421 NS_LOG_FUNCTION(this << st << size << normally);
422 RraaWifiRemoteStation* station = static_cast<RraaWifiRemoteStation*>(st);
423 CheckInit(station);
424 if (m_basic)
425 {
426 return normally;
427 }
428 ARts(station);
429 return station->m_adaptiveRtsOn;
430}
431
432void
434{
435 NS_LOG_FUNCTION(this << station);
436 Time d = Simulator::Now() - station->m_lastReset;
437 if (station->m_counter == 0 || d > m_timeout)
438 {
439 ResetCountersBasic(station);
440 }
441}
442
443void
445{
446 NS_LOG_FUNCTION(this << station);
447 WifiRraaThresholds thresholds = GetThresholds(station, station->m_rateIndex);
448 auto ploss = (static_cast<double>(station->m_nFailed) / thresholds.m_ewnd);
449 if (station->m_counter == 0 || ploss > thresholds.m_mtl)
450 {
451 if (ploss > thresholds.m_mtl)
452 {
453 station->m_rateIndex--;
454 }
455 else if (station->m_rateIndex < GetMaxRate(station) && ploss < thresholds.m_ori)
456 {
457 station->m_rateIndex++;
458 }
459 ResetCountersBasic(station);
460 }
461}
462
463void
465{
466 if (!station->m_adaptiveRtsOn && station->m_lastFrameFail)
467 {
468 station->m_adaptiveRtsWnd++;
469 station->m_rtsCounter = station->m_adaptiveRtsWnd;
470 }
471 else if ((station->m_adaptiveRtsOn && station->m_lastFrameFail) ||
472 (!station->m_adaptiveRtsOn && !station->m_lastFrameFail))
473 {
474 station->m_adaptiveRtsWnd = station->m_adaptiveRtsWnd / 2;
475 station->m_rtsCounter = station->m_adaptiveRtsWnd;
476 }
477 if (station->m_rtsCounter > 0)
478 {
479 station->m_adaptiveRtsOn = true;
480 station->m_rtsCounter--;
481 }
482 else
483 {
484 station->m_adaptiveRtsOn = false;
485 }
486}
487
490{
491 NS_LOG_FUNCTION(this << station << +index);
492 WifiMode mode = GetSupported(station, index);
493 return GetThresholds(station, mode);
494}
495
496} // namespace ns3
AttributeValue implementation for Boolean.
Definition: boolean.h:37
This class can be used to hold variables of floating point type such as 'double' or 'float'.
Definition: double.h:42
Smart pointer class similar to boost::intrusive_ptr.
Definition: ptr.h:78
Robust Rate Adaptation Algorithm.
WifiRemoteStation * DoCreateStation() const override
double m_tau
Tau value for RRAA (value for calculating EWND size).
WifiTxVector DoGetRtsTxVector(WifiRemoteStation *station) override
void ARts(RraaWifiRemoteStation *station)
Activate the use of RTS for the given station if the conditions are met.
void CheckInit(RraaWifiRemoteStation *station)
Check for initializations.
void DoReportDataFailed(WifiRemoteStation *station) override
This method is a pure virtual method that must be implemented by the sub-class.
void SetupPhy(const Ptr< WifiPhy > phy) override
Set up PHY associated with this device since it is the object that knows the full set of transmit rat...
TracedValue< uint64_t > m_currentRate
Trace rate changes.
static TypeId GetTypeId()
Get the type ID.
uint32_t m_frameLength
Data frame length used to calculate mode TxTime.
bool DoNeedRts(WifiRemoteStation *st, uint32_t size, bool normally) override
Time m_difs
Value of DIFS configured in the device.
void AddCalcTxTime(WifiMode mode, Time t)
Add transmission time for the given mode to an internal list.
void DoReportFinalRtsFailed(WifiRemoteStation *station) override
This method is a pure virtual method that must be implemented by the sub-class.
void SetupMac(const Ptr< WifiMac > mac) override
Set up MAC associated with this device since it is the object that knows the full set of timing param...
WifiTxVector DoGetDataTxVector(WifiRemoteStation *station, uint16_t allowedWidth) override
void RunBasicAlgorithm(RraaWifiRemoteStation *station)
Find an appropriate rate for the given station, using a basic algorithm.
Time GetCalcTxTime(WifiMode mode) const
Get the estimated TxTime of a packet with a given mode.
void ResetCountersBasic(RraaWifiRemoteStation *station)
Reset the counters of the given station.
TxTime m_calcTxTime
To hold all the calculated TxTime for all modes.
void DoReportRtsFailed(WifiRemoteStation *station) override
This method is a pure virtual method that must be implemented by the sub-class.
void DoReportRxOk(WifiRemoteStation *station, double rxSnr, WifiMode txMode) override
This method is a pure virtual method that must be implemented by the sub-class.
double m_beta
Beta value for RRAA (value for calculating ORI threshold).
void CheckTimeout(RraaWifiRemoteStation *station)
Check if the counter should be reset.
void DoReportRtsOk(WifiRemoteStation *station, double ctsSnr, WifiMode ctsMode, double rtsSnr) override
This method is a pure virtual method that must be implemented by the sub-class.
void DoReportFinalDataFailed(WifiRemoteStation *station) override
This method is a pure virtual method that must be implemented by the sub-class.
void DoReportDataOk(WifiRemoteStation *station, double ackSnr, WifiMode ackMode, double dataSnr, uint16_t dataChannelWidth, uint8_t dataNss) override
This method is a pure virtual method that must be implemented by the sub-class.
WifiRraaThresholds GetThresholds(RraaWifiRemoteStation *station, WifiMode mode) const
Get the thresholds for the given station and mode.
void DoInitialize() override
Initialize() implementation.
uint32_t m_ackLength
Ack frame length used to calculate mode TxTime.
double m_alpha
Alpha value for RRAA (value for calculating MTL threshold)
Time m_sifs
Value of SIFS configured in the device.
void InitThresholds(RraaWifiRemoteStation *station)
Initialize the thresholds internal list for the given station.
uint8_t GetMaxRate(RraaWifiRemoteStation *station) const
Return the index for the maximum transmission rate for the given station.
static Time Now()
Return the current simulation virtual time.
Definition: simulator.cc:199
Simulation virtual time values and global simulation resolution.
Definition: nstime.h:105
double GetSeconds() const
Get an approximation of the time stored in this instance in the indicated unit.
Definition: nstime.h:402
AttributeValue implementation for Time.
Definition: nstime.h:1423
a unique identifier for an interface.
Definition: type-id.h:59
TypeId SetParent(TypeId tid)
Set the parent TypeId.
Definition: type-id.cc:936
Hold an unsigned integer type.
Definition: uinteger.h:45
represent a single transmission mode
Definition: wifi-mode.h:51
WifiModulationClass GetModulationClass() const
Definition: wifi-mode.cc:185
uint64_t GetDataRate(uint16_t channelWidth, uint16_t guardInterval, uint8_t nss) const
Definition: wifi-mode.cc:122
hold a list of per-remote-station state.
uint16_t GetChannelWidth(const WifiRemoteStation *station) const
Return the channel width supported by the station.
uint8_t GetNSupported(const WifiRemoteStation *station) const
Return the number of modes supported by the given station.
bool GetAggregation(const WifiRemoteStation *station) const
Return whether the given station supports A-MPDU.
bool GetHtSupported() const
Return whether the device has HT capability support enabled.
WifiMode GetNonErpSupported(const WifiRemoteStation *station, uint8_t i) const
Return whether non-ERP mode associated with the specified station at the specified index.
virtual void SetupPhy(const Ptr< WifiPhy > phy)
Set up PHY associated with this device since it is the object that knows the full set of transmit rat...
bool GetUseNonErpProtection() const
Return whether the device supports protection of non-ERP stations.
bool GetVhtSupported() const
Return whether the device has VHT capability support enabled.
bool GetShortPreambleEnabled() const
Return whether the device uses short PHY preambles.
WifiMode GetSupported(const WifiRemoteStation *station, uint8_t i) const
Return whether mode associated with the specified station at the specified index.
bool GetHeSupported() const
Return whether the device has HE capability support enabled.
virtual void SetupMac(const Ptr< WifiMac > mac)
Set up MAC associated with this device since it is the object that knows the full set of timing param...
This class mimics the TXVECTOR which is to be passed to the PHY in order to define the parameters whi...
void SetMode(WifiMode mode)
Sets the selected payload transmission mode.
void SetPreambleType(WifiPreamble preamble)
Sets the preamble type.
#define NS_ASSERT(condition)
At runtime, in debugging builds, if this condition is not true, the program prints the source file,...
Definition: assert.h:66
Ptr< const AttributeAccessor > MakeBooleanAccessor(T1 a1)
Definition: boolean.h:86
Ptr< const AttributeChecker > MakeBooleanChecker()
Definition: boolean.cc:124
Ptr< const AttributeAccessor > MakeDoubleAccessor(T1 a1)
Definition: double.h:43
Ptr< const AttributeChecker > MakeTimeChecker()
Helper to make an unbounded Time checker.
Definition: nstime.h:1444
Ptr< const AttributeAccessor > MakeTimeAccessor(T1 a1)
Definition: nstime.h:1424
Ptr< const AttributeAccessor > MakeUintegerAccessor(T1 a1)
Definition: uinteger.h:46
#define NS_FATAL_ERROR(msg)
Report a fatal error with a message and terminate.
Definition: fatal-error.h:179
#define NS_ABORT_MSG(msg)
Unconditional abnormal program termination with a message.
Definition: abort.h:49
#define NS_LOG_COMPONENT_DEFINE(name)
Define a Log component with a specific name.
Definition: log.h:202
#define NS_LOG_DEBUG(msg)
Use NS_LOG to output a message of level LOG_DEBUG.
Definition: log.h:268
#define NS_LOG_FUNCTION(parameters)
If log level LOG_FUNCTION is enabled, this macro will output all input parameters separated by ",...
#define NS_OBJECT_ENSURE_REGISTERED(type)
Register an Object subclass with the TypeId system.
Definition: object-base.h:46
Time Seconds(double value)
Construct a Time in the indicated unit.
Definition: nstime.h:1336
Ptr< const TraceSourceAccessor > MakeTraceSourceAccessor(T a)
Create a TraceSourceAccessor which will control access to the underlying trace source.
@ WIFI_PREAMBLE_LONG
Every class exported by the ns3 library is enclosed in the ns3 namespace.
std::vector< std::pair< WifiRraaThresholds, WifiMode > > RraaThresholdsTable
List of thresholds for each mode.
WifiPreamble GetPreambleForTransmission(WifiModulationClass modulation, bool useShortPreamble)
Return the preamble to be used for the transmission.
hold per-remote-station state for RRAA Wifi manager.
uint8_t m_nRate
Number of supported rates.
Time m_lastReset
Time of the last reset.
RraaThresholdsTable m_thresholds
RRAA thresholds for this station.
bool m_initialized
For initializing variables.
uint32_t m_counter
Counter for transmission attempts.
uint32_t m_rtsCounter
Counter for RTS transmission attempts.
uint32_t m_adaptiveRtsWnd
Window size for the Adaptive RTS mechanism.
bool m_lastFrameFail
Flag if the last frame sent has failed.
bool m_adaptiveRtsOn
Check if Adaptive RTS mechanism is on.
uint8_t m_rateIndex
Current rate index.
uint32_t m_nFailed
Number of failed transmission attempts.
hold per-remote-station state.
WifiRraaThresholds structure.
double m_mtl
Maximum Tolerable Loss threshold.
uint32_t m_ewnd
Evaluation Window.
double m_ori
Opportunistic Rate Increase threshold.