A Discrete-Event Network Simulator
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lte-test-cell-selection.cc
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1/*
2 * Copyright (c) 2013 Budiarto Herman
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: Budiarto Herman <budiarto.herman@magister.fi>
18 *
19 */
20
22
23#include <ns3/boolean.h>
24#include <ns3/double.h>
25#include <ns3/integer.h>
26#include <ns3/internet-stack-helper.h>
27#include <ns3/ipv4-address-helper.h>
28#include <ns3/ipv4-interface-container.h>
29#include <ns3/ipv4-static-routing-helper.h>
30#include <ns3/log.h>
31#include <ns3/lte-enb-net-device.h>
32#include <ns3/lte-helper.h>
33#include <ns3/lte-ue-net-device.h>
34#include <ns3/lte-ue-rrc.h>
35#include <ns3/mobility-helper.h>
36#include <ns3/net-device-container.h>
37#include <ns3/node-container.h>
38#include <ns3/point-to-point-epc-helper.h>
39#include <ns3/point-to-point-helper.h>
40#include <ns3/rng-seed-manager.h>
41#include <ns3/simulator.h>
42
43using namespace ns3;
44
45NS_LOG_COMPONENT_DEFINE("LteCellSelectionTest");
46
47/*
48 * This test suite sets up four cells (four eNBs) and six UEs. Two of the
49 * cells are CSG and two are non-CSG. The six UEs associate with cells
50 * based on their positions and random access procedures. The test checks
51 * that the UEs, at specirfic simulation times, are associated to expected
52 * cells. See the header Doxygen for more specific descriptions.
53 *
54 * The test conditions that are checked rely on the RA preamble values
55 * (randomly selected) being unique for the six UEs. For most values of
56 * random seed and run number, this will be the case, but certain values
57 * will cause a collision (same RA preamble drawn for two UEs). Therefore,
58 * this test fixes the RngSeed and RngRun values, and uses AssignStreams,
59 * to ensure that an RA preamble collision does not occur.
60 */
61
63 : TestSuite("lte-cell-selection", Type::SYSTEM)
64{
65 std::vector<LteCellSelectionTestCase::UeSetup_t> w;
66
67 // REAL RRC PROTOCOL
68
69 w = {
70 // x, y, csgMember, checkPoint, cell1, cell2
71 LteCellSelectionTestCase::UeSetup_t(0.0, 0.55, false, MilliSeconds(283), 1, 0),
72 LteCellSelectionTestCase::UeSetup_t(0.0, 0.45, false, MilliSeconds(283), 1, 0),
73 LteCellSelectionTestCase::UeSetup_t(0.5, 0.45, false, MilliSeconds(363), 1, 3),
74 LteCellSelectionTestCase::UeSetup_t(0.5, 0.0, true, MilliSeconds(283), 2, 4),
75 LteCellSelectionTestCase::UeSetup_t(1.0, 0.55, true, MilliSeconds(283), 3, 0),
76 LteCellSelectionTestCase::UeSetup_t(1.0, 0.45, true, MilliSeconds(283), 4, 0),
77 };
78
79 AddTestCase(new LteCellSelectionTestCase("EPC, real RRC", true, false, 60.0 /* isd */, w),
80 TestCase::Duration::QUICK);
81
82 // IDEAL RRC PROTOCOL
83
84 w = {
85 // x, y, csgMember, checkPoint, cell1, cell2
86 LteCellSelectionTestCase::UeSetup_t(0.0, 0.55, false, MilliSeconds(266), 1, 0),
87 LteCellSelectionTestCase::UeSetup_t(0.0, 0.45, false, MilliSeconds(266), 1, 0),
88 LteCellSelectionTestCase::UeSetup_t(0.5, 0.45, false, MilliSeconds(346), 1, 3),
89 LteCellSelectionTestCase::UeSetup_t(0.5, 0.0, true, MilliSeconds(266), 2, 4),
90 LteCellSelectionTestCase::UeSetup_t(1.0, 0.55, true, MilliSeconds(266), 3, 0),
91 LteCellSelectionTestCase::UeSetup_t(1.0, 0.45, true, MilliSeconds(266), 4, 0),
92 };
93
94 AddTestCase(new LteCellSelectionTestCase("EPC, ideal RRC", true, true, 60.0 /* isd */, w),
95 TestCase::Duration::QUICK);
96
97} // end of LteCellSelectionTestSuite::LteCellSelectionTestSuite ()
98
104
105/*
106 * Test Case
107 */
108
110 double relPosY,
111 bool isCsgMember,
112 Time checkPoint,
113 uint16_t expectedCellId1,
114 uint16_t expectedCellId2)
115 : position(Vector(relPosX, relPosY, 0.0)),
116 isCsgMember(isCsgMember),
117 checkPoint(checkPoint),
118 expectedCellId1(expectedCellId1),
119 expectedCellId2(expectedCellId2)
120{
121}
122
124 bool isEpcMode,
125 bool isIdealRrc,
126 double interSiteDistance,
127 std::vector<UeSetup_t> ueSetupList)
128 : TestCase(name),
129 m_isEpcMode(isEpcMode),
130 m_isIdealRrc(isIdealRrc),
131 m_interSiteDistance(interSiteDistance),
132 m_ueSetupList(ueSetupList)
133{
134 NS_LOG_FUNCTION(this << GetName());
136}
137
139{
140 NS_LOG_FUNCTION(this << GetName());
141}
142
143void
145{
146 NS_LOG_FUNCTION(this << GetName());
147
148 // In ns-3 test suite operation, static variables persist across all
149 // tests (all test suites execute within a single ns-3 process).
150 // Therefore, to fix a seed and run number for a specific test, the
151 // current values of seed and run number should be saved and restored
152 // after the test is run.
153 uint32_t previousSeed = RngSeedManager::GetSeed();
154 uint64_t previousRun = RngSeedManager::GetRun();
155 // Values of 1 and 2 here will prevent RA preamble collisions
156 Config::SetGlobal("RngSeed", UintegerValue(1));
157 Config::SetGlobal("RngRun", UintegerValue(2));
158
159 Ptr<LteHelper> lteHelper = CreateObject<LteHelper>();
160 lteHelper->SetAttribute("PathlossModel", StringValue("ns3::FriisSpectrumPropagationLossModel"));
161 lteHelper->SetAttribute("UseIdealRrc", BooleanValue(m_isIdealRrc));
162
164
165 if (m_isEpcMode)
166 {
167 epcHelper = CreateObject<PointToPointEpcHelper>();
168 lteHelper->SetEpcHelper(epcHelper);
169 }
170
171 /*
172 * The topology is the following (the number on the node indicate the cell ID)
173 *
174 * [1] [3]
175 * non-CSG -- non-CSG
176 * | |
177 * | | 60 m
178 * | |
179 * [2] [4]
180 * CSG ------ CSG
181 * 60 m
182 */
183
184 // Create Nodes
185 NodeContainer enbNodes;
186 enbNodes.Create(4);
187 NodeContainer ueNodes;
188 auto nUe = static_cast<uint16_t>(m_ueSetupList.size());
189 ueNodes.Create(nUe);
190
191 // Assign nodes to position
192 Ptr<ListPositionAllocator> positionAlloc = CreateObject<ListPositionAllocator>();
193 // eNodeB
194 positionAlloc->Add(Vector(0.0, m_interSiteDistance, 0.0));
195 positionAlloc->Add(Vector(0.0, 0.0, 0.0));
196 positionAlloc->Add(Vector(m_interSiteDistance, m_interSiteDistance, 0.0));
197 positionAlloc->Add(Vector(m_interSiteDistance, 0.0, 0.0));
198 // UE
199 std::vector<UeSetup_t>::const_iterator itSetup;
200 for (itSetup = m_ueSetupList.begin(); itSetup != m_ueSetupList.end(); itSetup++)
201 {
202 Vector uePos(m_interSiteDistance * itSetup->position.x,
203 m_interSiteDistance * itSetup->position.y,
204 m_interSiteDistance * itSetup->position.z);
205 NS_LOG_INFO("UE position " << uePos);
206 positionAlloc->Add(uePos);
207 }
208
209 MobilityHelper mobility;
210 mobility.SetMobilityModel("ns3::ConstantPositionMobilityModel");
211 mobility.SetPositionAllocator(positionAlloc);
212 mobility.Install(enbNodes);
213 mobility.Install(ueNodes);
214
215 // Create Devices and install them in the Nodes (eNB and UE)
216 int64_t stream = 1;
217 NetDeviceContainer enbDevs;
218
219 // cell ID 1 is a non-CSG cell
220 lteHelper->SetEnbDeviceAttribute("CsgId", UintegerValue(0));
221 lteHelper->SetEnbDeviceAttribute("CsgIndication", BooleanValue(false));
222 enbDevs.Add(lteHelper->InstallEnbDevice(enbNodes.Get(0)));
223
224 // cell ID 2 is a CSG cell
225 lteHelper->SetEnbDeviceAttribute("CsgId", UintegerValue(1));
226 lteHelper->SetEnbDeviceAttribute("CsgIndication", BooleanValue(true));
227 enbDevs.Add(lteHelper->InstallEnbDevice(enbNodes.Get(1)));
228
229 // cell ID 3 is a non-CSG cell
230 lteHelper->SetEnbDeviceAttribute("CsgId", UintegerValue(0));
231 lteHelper->SetEnbDeviceAttribute("CsgIndication", BooleanValue(false));
232 enbDevs.Add(lteHelper->InstallEnbDevice(enbNodes.Get(2)));
233
234 // cell ID 4 is a CSG cell
235 lteHelper->SetEnbDeviceAttribute("CsgId", UintegerValue(1));
236 lteHelper->SetEnbDeviceAttribute("CsgIndication", BooleanValue(true));
237 enbDevs.Add(lteHelper->InstallEnbDevice(enbNodes.Get(3)));
238
239 NetDeviceContainer ueDevs;
240 Time lastCheckPoint = MilliSeconds(0);
241 NS_ASSERT(m_ueSetupList.size() == ueNodes.GetN());
243 for (itSetup = m_ueSetupList.begin(), itNode = ueNodes.Begin();
244 itSetup != m_ueSetupList.end() || itNode != ueNodes.End();
245 itSetup++, itNode++)
246 {
247 if (itSetup->isCsgMember)
248 {
249 lteHelper->SetUeDeviceAttribute("CsgId", UintegerValue(1));
250 }
251 else
252 {
253 lteHelper->SetUeDeviceAttribute("CsgId", UintegerValue(0));
254 }
255
256 NetDeviceContainer devs = lteHelper->InstallUeDevice(*itNode);
257 Ptr<LteUeNetDevice> ueDev = devs.Get(0)->GetObject<LteUeNetDevice>();
258 NS_ASSERT(ueDev);
259 ueDevs.Add(devs);
260 Simulator::Schedule(itSetup->checkPoint,
262 this,
263 ueDev,
264 itSetup->expectedCellId1,
265 itSetup->expectedCellId2);
266
267 if (lastCheckPoint < itSetup->checkPoint)
268 {
269 lastCheckPoint = itSetup->checkPoint;
270 }
271 }
272
273 stream += lteHelper->AssignStreams(enbDevs, stream);
274 stream += lteHelper->AssignStreams(ueDevs, stream);
275
276 // Tests
277 NS_ASSERT(m_ueSetupList.size() == ueDevs.GetN());
279 for (itSetup = m_ueSetupList.begin(), itDev = ueDevs.Begin();
280 itSetup != m_ueSetupList.end() || itDev != ueDevs.End();
281 itSetup++, itDev++)
282 {
283 Ptr<LteUeNetDevice> ueDev = (*itDev)->GetObject<LteUeNetDevice>();
284 }
285
286 if (m_isEpcMode)
287 {
288 // Create P-GW node
289 Ptr<Node> pgw = epcHelper->GetPgwNode();
290
291 // Create a single RemoteHost
292 NodeContainer remoteHostContainer;
293 remoteHostContainer.Create(1);
294 Ptr<Node> remoteHost = remoteHostContainer.Get(0);
295 InternetStackHelper internet;
296 internet.Install(remoteHostContainer);
297
298 // Create the Internet
300 p2ph.SetDeviceAttribute("DataRate", DataRateValue(DataRate("100Gb/s")));
301 p2ph.SetDeviceAttribute("Mtu", UintegerValue(1500));
302 p2ph.SetChannelAttribute("Delay", TimeValue(Seconds(0.010)));
303 NetDeviceContainer internetDevices = p2ph.Install(pgw, remoteHost);
304 Ipv4AddressHelper ipv4h;
305 ipv4h.SetBase("1.0.0.0", "255.0.0.0");
306 Ipv4InterfaceContainer internetIpIfaces = ipv4h.Assign(internetDevices);
307
308 // Routing of the Internet Host (towards the LTE network)
309 Ipv4StaticRoutingHelper ipv4RoutingHelper;
310 Ptr<Ipv4StaticRouting> remoteHostStaticRouting =
311 ipv4RoutingHelper.GetStaticRouting(remoteHost->GetObject<Ipv4>());
312 remoteHostStaticRouting->AddNetworkRouteTo(Ipv4Address("7.0.0.0"),
313 Ipv4Mask("255.0.0.0"),
314 1);
315
316 // Install the IP stack on the UEs
317 internet.Install(ueNodes);
318 Ipv4InterfaceContainer ueIpIfaces;
319 ueIpIfaces = epcHelper->AssignUeIpv4Address(NetDeviceContainer(ueDevs));
320
321 // Assign IP address to UEs
322 for (uint32_t u = 0; u < ueNodes.GetN(); ++u)
323 {
324 Ptr<Node> ueNode = ueNodes.Get(u);
325 // Set the default gateway for the UE
326 Ptr<Ipv4StaticRouting> ueStaticRouting =
327 ipv4RoutingHelper.GetStaticRouting(ueNode->GetObject<Ipv4>());
328 ueStaticRouting->SetDefaultRoute(epcHelper->GetUeDefaultGatewayAddress(), 1);
329 }
330
331 } // end of if (m_isEpcMode)
332 else
333 {
334 NS_FATAL_ERROR("No support yet for LTE-only simulations");
335 }
336
337 // Connect to trace sources in UEs
338 Config::Connect("/NodeList/*/DeviceList/*/LteUeRrc/StateTransition",
341 "/NodeList/*/DeviceList/*/LteUeRrc/InitialCellSelectionEndOk",
344 "/NodeList/*/DeviceList/*/LteUeRrc/InitialCellSelectionEndError",
346 Config::Connect("/NodeList/*/DeviceList/*/LteUeRrc/ConnectionEstablished",
348
349 // Enable Idle mode cell selection
350 lteHelper->Attach(ueDevs);
351
352 // Run simulation
353 Simulator::Stop(lastCheckPoint);
355
356 NS_LOG_INFO("Simulation ends");
358
359 // Restore the seed and run number that were in effect before this test
360 Config::SetGlobal("RngSeed", UintegerValue(previousSeed));
361 Config::SetGlobal("RngRun", UintegerValue(previousRun));
362
363} // end of void LteCellSelectionTestCase::DoRun ()
364
365void
367 uint16_t expectedCellId1,
368 uint16_t expectedCellId2)
369{
370 uint16_t actualCellId = ueDev->GetRrc()->GetCellId();
371
372 if (expectedCellId2 == 0)
373 {
374 NS_TEST_ASSERT_MSG_EQ(actualCellId,
375 expectedCellId1,
376 "IMSI " << ueDev->GetImsi() << " has attached to an unexpected cell");
377 }
378 else
379 {
380 bool pass = (actualCellId == expectedCellId1) || (actualCellId == expectedCellId2);
382 true,
383 "IMSI " << ueDev->GetImsi() << " has attached to an unexpected cell"
384 << " (actual: " << actualCellId << ","
385 << " expected: " << expectedCellId1 << " or "
386 << expectedCellId2 << ")");
387 }
388
389 if (expectedCellId1 > 0)
390 {
391 NS_TEST_ASSERT_MSG_EQ(m_lastState.at(static_cast<unsigned int>(ueDev->GetImsi() - 1)),
393 "UE " << ueDev->GetImsi() << " is not at CONNECTED_NORMALLY state");
394 }
395}
396
397void
399 uint64_t imsi,
400 uint16_t cellId,
401 uint16_t rnti,
402 LteUeRrc::State oldState,
403 LteUeRrc::State newState)
404{
405 NS_LOG_FUNCTION(this << imsi << cellId << rnti << oldState << newState);
406 m_lastState.at(static_cast<unsigned int>(imsi - 1)) = newState;
407}
408
409void
411 uint64_t imsi,
412 uint16_t cellId)
413{
414 NS_LOG_FUNCTION(this << imsi << cellId);
415}
416
417void
419 uint64_t imsi,
420 uint16_t cellId)
421{
422 NS_LOG_FUNCTION(this << imsi << cellId);
423}
424
425void
427 uint64_t imsi,
428 uint16_t cellId,
429 uint16_t rnti)
430{
431 NS_LOG_FUNCTION(this << imsi << cellId << rnti);
432}
Testing the initial cell selection procedure by UE at IDLE state in the beginning of simulation.
std::vector< UeSetup_t > m_ueSetupList
UE setup list.
void CheckPoint(Ptr< LteUeNetDevice > ueDev, uint16_t expectedCellId1, uint16_t expectedCellId2)
Verifies if the given UE is attached to either of the given two cells and in a CONNECTED_NORMALLY sta...
void InitialCellSelectionEndOkCallback(std::string context, uint64_t imsi, uint16_t cellId)
Initial cell selection end ok callback function.
std::vector< LteUeRrc::State > m_lastState
The current UE RRC state.
LteCellSelectionTestCase(std::string name, bool isEpcMode, bool isIdealRrc, double interSiteDistance, std::vector< UeSetup_t > ueSetupList)
Creates an instance of the initial cell selection test case.
void DoRun() override
Setup the simulation according to the configuration set by the class constructor, run it,...
bool m_isEpcMode
whether the LTE configuration in test is using EPC
double m_interSiteDistance
inter site distance
void ConnectionEstablishedCallback(std::string context, uint64_t imsi, uint16_t cellId, uint16_t rnti)
Connection established callback function.
void InitialCellSelectionEndErrorCallback(std::string context, uint64_t imsi, uint16_t cellId)
Initial cell selection end error callback function.
bool m_isIdealRrc
whether the LTE is configured to use ideal RRC
void StateTransitionCallback(std::string context, uint64_t imsi, uint16_t cellId, uint16_t rnti, LteUeRrc::State oldState, LteUeRrc::State newState)
State transition callback function.
Test suite for executing the cell selection test cases in without-EPC and with-EPC scenarios.
AttributeValue implementation for Boolean.
Definition: boolean.h:37
Class for representing data rates.
Definition: data-rate.h:89
AttributeValue implementation for DataRate.
Definition: data-rate.h:296
aggregate IP/TCP/UDP functionality to existing Nodes.
A helper class to make life easier while doing simple IPv4 address assignment in scripts.
void SetBase(Ipv4Address network, Ipv4Mask mask, Ipv4Address base="0.0.0.1")
Set the base network number, network mask and base address.
Ipv4InterfaceContainer Assign(const NetDeviceContainer &c)
Assign IP addresses to the net devices specified in the container based on the current network prefix...
Ipv4 addresses are stored in host order in this class.
Definition: ipv4-address.h:42
Access to the IPv4 forwarding table, interfaces, and configuration.
Definition: ipv4.h:80
holds a vector of std::pair of Ptr<Ipv4> and interface index.
a class to represent an Ipv4 address mask
Definition: ipv4-address.h:257
Helper class that adds ns3::Ipv4StaticRouting objects.
Ptr< Ipv4StaticRouting > GetStaticRouting(Ptr< Ipv4 > ipv4) const
Try and find the static routing protocol as either the main routing protocol or in the list of routin...
The LteUeNetDevice class implements the UE net device.
State
The states of the UE RRC entity.
Definition: lte-ue-rrc.h:99
Helper class used to assign positions and mobility models to nodes.
holds a vector of ns3::NetDevice pointers
uint32_t GetN() const
Get the number of Ptr<NetDevice> stored in this container.
std::vector< Ptr< NetDevice > >::const_iterator Iterator
NetDevice container iterator.
Iterator Begin() const
Get an iterator which refers to the first NetDevice in the container.
void Add(NetDeviceContainer other)
Append the contents of another NetDeviceContainer to the end of this container.
Iterator End() const
Get an iterator which indicates past-the-last NetDevice in the container.
Ptr< NetDevice > Get(uint32_t i) const
Get the Ptr<NetDevice> stored in this container at a given index.
keep track of a set of node pointers.
std::vector< Ptr< Node > >::const_iterator Iterator
Node container iterator.
Iterator End() const
Get an iterator which indicates past-the-last Node in the container.
uint32_t GetN() const
Get the number of Ptr<Node> stored in this container.
void Create(uint32_t n)
Create n nodes and append pointers to them to the end of this NodeContainer.
Iterator Begin() const
Get an iterator which refers to the first Node in the container.
Ptr< Node > Get(uint32_t i) const
Get the Ptr<Node> stored in this container at a given index.
Build a set of PointToPointNetDevice objects.
void SetDeviceAttribute(std::string name, const AttributeValue &value)
Set an attribute value to be propagated to each NetDevice created by the helper.
void SetChannelAttribute(std::string name, const AttributeValue &value)
Set an attribute value to be propagated to each Channel created by the helper.
NetDeviceContainer Install(NodeContainer c)
Smart pointer class similar to boost::intrusive_ptr.
Definition: ptr.h:77
static uint64_t GetRun()
Get the current run number.
static uint32_t GetSeed()
Get the current seed value which will be used by all subsequently instantiated RandomVariableStream o...
static EventId Schedule(const Time &delay, FUNC f, Ts &&... args)
Schedule an event to expire after delay.
Definition: simulator.h:571
static void Destroy()
Execute the events scheduled with ScheduleDestroy().
Definition: simulator.cc:142
static void Run()
Run the simulation.
Definition: simulator.cc:178
static void Stop()
Tell the Simulator the calling event should be the last one executed.
Definition: simulator.cc:186
Hold variables of type string.
Definition: string.h:56
encapsulates test code
Definition: test.h:1061
void AddTestCase(TestCase *testCase, Duration duration=Duration::QUICK)
Add an individual child TestCase to this test suite.
Definition: test.cc:301
std::string GetName() const
Definition: test.cc:373
A suite of tests to run.
Definition: test.h:1268
Type
Type of test.
Definition: test.h:1275
Simulation virtual time values and global simulation resolution.
Definition: nstime.h:105
AttributeValue implementation for Time.
Definition: nstime.h:1413
Hold an unsigned integer type.
Definition: uinteger.h:45
#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
void SetGlobal(std::string name, const AttributeValue &value)
Definition: config.cc:940
void Connect(std::string path, const CallbackBase &cb)
Definition: config.cc:978
#define NS_FATAL_ERROR(msg)
Report a fatal error with a message and terminate.
Definition: fatal-error.h:179
#define NS_LOG_COMPONENT_DEFINE(name)
Define a Log component with a specific name.
Definition: log.h:202
#define NS_LOG_FUNCTION(parameters)
If log level LOG_FUNCTION is enabled, this macro will output all input parameters separated by ",...
#define NS_LOG_INFO(msg)
Use NS_LOG to output a message of level LOG_INFO.
Definition: log.h:275
static LteCellSelectionTestSuite g_lteCellSelectionTestSuite
Static variable for test initialization.
#define NS_TEST_ASSERT_MSG_EQ(actual, limit, msg)
Test that an actual and expected (limit) value are equal and report and abort if not.
Definition: test.h:145
Time Seconds(double value)
Construct a Time in the indicated unit.
Definition: nstime.h:1326
Time MilliSeconds(uint64_t value)
Construct a Time in the indicated unit.
Definition: nstime.h:1338
Every class exported by the ns3 library is enclosed in the ns3 namespace.
Callback< R, Args... > MakeCallback(R(T::*memPtr)(Args...), OBJ objPtr)
Build Callbacks for class method members which take varying numbers of arguments and potentially retu...
Definition: callback.h:704
A set of input parameters for setting up a UE in the simulation.
UeSetup_t(double relPosX, double relPosY, bool isCsgMember, Time checkPoint, uint16_t expectedCellId1, uint16_t expectedCellId2)
UE test setup function.