1 // Copyright (c) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).

     2 // All rights reserved.

     3 // This component and the accompanying materials are made available

     4 // under the terms of the License "Eclipse Public License v1.0"

     5 // which accompanies this distribution, and is available

     6 // at the URL "http://www.eclipse.org/legal/epl-v10.html".

     7 //

     8 // Initial Contributors:

     9 // Nokia Corporation - initial contribution.

    10 //

    11 // Contributors:

    12 //

    13 // Description:

    14 // e32test\thread\t_smpsafe.cpp

    15 // 

    16 //

    17 

    18 #define __E32TEST_EXTENSION__

    19 #include <e32test.h>

    20 #include <e32ldr.h>

    21 #include <e32svr.h>

    22 #include "u32std.h"

    23 #include <u32hal.h>

    24 #include <d_ldrtst.h>

    25 

    26 RTest test(_L("T_SMPSAFE"));

    27 RLdrTest ldd;

    28 

    29 RProcess pLoaded;

    30 TBool SMPPlatform;

    31 TBool CompatMode;

    32 

    33 extern TInt CheckAffinity();

    34 

    35 void DoStartExe(RProcess& p, const TDesC &aFilename, TInt aExpectedUnsafe)

    36 	{

    37 	test_KErrNone(p.Create(aFilename, KNullDesC));

    38 	test_Equal(aExpectedUnsafe, ldd.ProcessSMPUnsafeCount(p.Handle()));

    39 	}

    40 

    41 void DoStopExe(RProcess& p, TInt aExpectedUnsafe)

    42 	{

    43 	TRequestStatus s;

    44 	p.Logon(s);

    45 	p.Resume();

    46 	User::WaitForRequest(s);

    47 	if (CompatMode)

    48 		test_Equal(aExpectedUnsafe ? 1 : 0, s.Int());

    49 	test_Equal(EExitKill, p.ExitType());

    50 	p.NotifyDestruction(s);

    51 	p.Close();

    52 	User::WaitForRequest(s);

    53 	}

    54 

    55 void StartExe(const TDesC &aFilename, TInt aExpectedUnsafe)

    56 	{

    57 	DoStartExe(pLoaded, aFilename, aExpectedUnsafe);

    58 	}

    59 

    60 void StopExe(TInt aExpectedUnsafe)

    61 	{

    62 	DoStopExe(pLoaded, aExpectedUnsafe);

    63 	}

    64 

    65 void TryExe(const TDesC &aFilename, TInt aExpectedUnsafe)

    66 	{

    67 	RProcess p;

    68 	DoStartExe(p, aFilename, aExpectedUnsafe);

    69 	DoStopExe(p, aExpectedUnsafe);

    70 	}

    71 

    72 void CheckSelf(TInt aExpectedUnsafe)

    73 	{

    74 	test_Equal(aExpectedUnsafe, ldd.ProcessSMPUnsafeCount(RProcess().Handle()));

    75 	if (CompatMode)

    76 		test_Equal(aExpectedUnsafe ? 1 : 0, CheckAffinity());

    77 	}

    78 

    79 GLDEF_C TInt E32Main()

    80 	{

    81 	RLibrary l, l2;

    82 

    83 	// Turn off evil lazy dll unloading

    84 	RLoader ldr;

    85 	test(ldr.Connect()==KErrNone);

    86 	test(ldr.CancelLazyDllUnload()==KErrNone);

    87 	ldr.Close();

    88 

    89 	test.Title();

    90 	test.Start(_L("Test SMP safe binary flag"));

    91 

    92 	test.Next(_L("Get number of CPUs"));

    93 	TInt cpus = UserSvr::HalFunction(EHalGroupKernel, EKernelHalNumLogicalCpus, 0, 0);

    94 	test_Compare(cpus, >, 0);

    95 	SMPPlatform = cpus > 1;

    96 

    97 	test.Next(_L("Get compatibility mode setting"));

    98 	TInt flags = UserSvr::HalFunction(EHalGroupKernel, EKernelHalConfigFlags, 0, 0);

    99 	test_Compare(flags, >=, 0);

   100 	CompatMode = flags & (EKernelConfigSMPUnsafeCompat | EKernelConfigSMPUnsafeCPU0);

   101 	if (SMPPlatform && !CompatMode)

   102 		{

   103 		test.Printf(_L("*************************************************\n"));

   104 		test.Printf(_L("Compatibility mode is not enabled, not testing it\n"));

   105 		test.Printf(_L("*************************************************\n"));

   106 		}

   107 

   108 	test.Next(_L("Load test LDD"));

   109 	TInt r = User::LoadLogicalDevice(_L("d_ldrtst.ldd"));

   110 	test(r==KErrNone || r==KErrAlreadyExists);

   111 	test_KErrNone(ldd.Open());

   112 

   113 	test.Next(_L("Check we are safe ourselves"));

   114 	CheckSelf(0);

   115 

   116 	test.Next(_L("Check safe exe"));

   117 	StartExe(_L("smpsafe0.exe"), 0);

   118 	test.Next(_L("Load already loaded safe exe (self)"));

   119 	TryExe(_L("smpsafe0.exe"), 0);

   120 	StopExe(0);

   121 

   122 	test.Next(_L("Check safe XIP exe"));

   123 	StartExe(_L("smpsafex0.exe"), 0);

   124 	test.Next(_L("Load already loaded safe XIP exe (self)"));

   125 	TryExe(_L("smpsafex0.exe"), 0);

   126 	StopExe(0);

   127 

   128 	test.Next(_L("Load unsafe exe"));

   129 	StartExe(_L("smpsafe1.exe"), 1);

   130 	test.Next(_L("Load already loaded unsafe exe"));

   131 	TryExe(_L("smpsafe1.exe"), 1);

   132 	StopExe(1);

   133 

   134 	test.Next(_L("Load safe exe directly linked to unsafe dll"));

   135 	TryExe(_L("smpsafe2.exe"), 1);

   136 

   137 	test.Next(_L("Dynamically load unsafe dll"));

   138 	test_KErrNone(l.Load(_L("smpsafea.dll")));

   139 	CheckSelf(1);

   140 	test.Next(_L("Load safe exe directly linked to loaded unsafe dll"));

   141 	TryExe(_L("smpsafe2.exe"), 1);

   142 	test.Next(_L("Dynamically unload unsafe dll"));

   143 	l.Close();

   144 	CheckSelf(0);

   145 

   146 	test.Next(_L("Load safe XIP exe directly linked to unsafe XIP dll"));

   147 	TryExe(_L("smpsafex2.exe"), 1);

   148 

   149 	test.Next(_L("Dynamically load unsafe XIP dll"));

   150 	test_KErrNone(l.Load(_L("smpsafexa.dll")));

   151 	CheckSelf(1);

   152 	test.Next(_L("Load safe XIP exe directly linked to loaded unsafe XIP dll"));

   153 	TryExe(_L("smpsafex2.exe"), 1);

   154 	test.Next(_L("Dynamically unload unsafe XIP dll"));

   155 	l.Close();

   156 	CheckSelf(0);

   157 

   158 	test.Next(_L("Load safe exe indirectly linked to unsafe dll"));

   159 	TryExe(_L("smpsafe3.exe"), 1);

   160 

   161 	test.Next(_L("Dynamically load unsafe dll"));

   162 	test_KErrNone(l.Load(_L("smpsafea.dll")));

   163 	CheckSelf(1);

   164 	test.Next(_L("Load safe exe indirectly linked to loaded unsafe dll"));

   165 	TryExe(_L("smpsafe3.exe"), 1);

   166 	test.Next(_L("Dynamically unload unsafe dll"));

   167 	l.Close();

   168 	CheckSelf(0);

   169 

   170 	test.Next(_L("Dynamically load safe dll linked to unsafe dll"));

   171 	test_KErrNone(l.Load(_L("smpsafeb.dll")));

   172 	CheckSelf(1);

   173 	test.Next(_L("Load safe exe indirectly linked to unsafe dll, inbetween loaded"));

   174 	TryExe(_L("smpsafe3.exe"), 1);

   175 	test.Next(_L("Dynamically load unsafe dll as well"));

   176 	test_KErrNone(l2.Load(_L("smpsafea.dll")));

   177 	CheckSelf(2);

   178 	test.Next(_L("Dynamically unload safe dll linked to unsafe dll"));

   179 	l.Close();

   180 	CheckSelf(1);

   181 	test.Next(_L("Dynamically unload unsafe dll as well"));

   182 	l2.Close();

   183 	CheckSelf(0);

   184 

   185 	test.Next(_L("Load safe exe directly linked to unsafe XIP dll"));

   186 	TryExe(_L("smpsafe4.exe"), 1);

   187 

   188 	test.Next(_L("Dynamically load unsafe XIP dll"));

   189 	test_KErrNone(l.Load(_L("smpsafexa.dll")));

   190 	CheckSelf(1);

   191 	test.Next(_L("Load safe exe directly linked to loaded unsafe XIP dll"));

   192 	TryExe(_L("smpsafe4.exe"), 1);

   193 	test.Next(_L("Dynamically unload unsafe XIP dll"));

   194 	l.Close();

   195 	CheckSelf(0);

   196 

   197 	test.Next(_L("Dynamically load figure-eight dll cycle"));

   198 	test_KErrNone(l.Load(_L("smpsafec.dll")));

   199 	CheckSelf(1);

   200 	test.Next(_L("Load figure-eight from a different point"));

   201 	test_KErrNone(l2.Load(_L("smpsafed.dll")));

   202 	CheckSelf(2);

   203 	test.Next(_L("Unload original point"));

   204 	l.Close();

   205 	CheckSelf(1);

   206 	test.Next(_L("Unload second point"));

   207 	l2.Close();

   208 	CheckSelf(0);

   209 

   210 	test.Next(_L("Close test LDD"));

   211 	ldd.Close();

   212 	test_KErrNone(User::FreeLogicalDevice(KLdrTestLddName));

   213 

   214 	test.End();

   215 	return KErrNone;

   216 	}