// Copyright (c) 2005-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// e32test\nkern\t_nktrace.cpp
// Overview:
// Test the KTRACE macros and debug mask related functions.
// API Information:
// UserSvr::DebugMask(), User::SetDebugMask, KDebugMask(), KDebugNum()
// Details:
// Set debug masks and verify they are as expected. Test using
// UserSvr::DebugMask() & User::SetDebugMask().
// In a kernel level LDD, test the kernel functions using
// KDebugMask() & KDebugNum().
//
//
#include <e32test.h>
#include <e32svr.h>
#include "nk_trace.h"
#include "d_nktrace.h"
LOCAL_D RTest test(_L("T_NKTRACE"));
void Wait(TInt aSeconds)
{
while (aSeconds>0)
{
--aSeconds;
User::After(1000000);
test.Printf(_L("."));
}
}
GLDEF_C TInt E32Main()
{
test.Title();
test.Start(_L("Load LDD"));
TInt r=User::LoadLogicalDevice(_L("D_NKTRACE"));
test(r==KErrNone || r==KErrAlreadyExists);
test.Next(_L("Open channel"));
RNKTraceTest traceSys;
r=traceSys.Open();
test(r==KErrNone);
// verify access to debug mask 0, with and without argument
TUint32 initial[8];
TInt i;
for (i=0; i<8; i++)
initial[i]= UserSvr::DebugMask(i);
test.Printf(_L("initial DebugMask value = 0x%08x\n"), initial[0]);
TUint32 m = UserSvr::DebugMask();
test(m==initial[0]);
User::SetDebugMask(~m);
m = UserSvr::DebugMask(0);
test(m!=initial[0]);
test(m==~initial[0]);
// set and verify each of the 8 debug masks
User::SetDebugMask(0x12340000, 0);
User::SetDebugMask(0x12341111, 1);
User::SetDebugMask(0x12342222, 2);
User::SetDebugMask(0x12343333, 3);
User::SetDebugMask(0x12344444, 4);
User::SetDebugMask(0x12345555, 5);
User::SetDebugMask(0x12346666, 6);
User::SetDebugMask(0x12347777, 7);
m = UserSvr::DebugMask(0);
test(m==0x12340000);
m = UserSvr::DebugMask(1);
test(m==0x12341111);
m = UserSvr::DebugMask(2);
test(m==0x12342222);
m = UserSvr::DebugMask(3);
test(m==0x12343333);
m = UserSvr::DebugMask(4);
test(m==0x12344444);
m = UserSvr::DebugMask(5);
test(m==0x12345555);
m = UserSvr::DebugMask(6);
test(m==0x12346666);
m = UserSvr::DebugMask(7);
test(m==0x12347777);
// verify correct results when no index argument is given
User::SetDebugMask(0xC0000000);
m = UserSvr::DebugMask();
test.Printf(_L("UserSvr::DebugMask = 0x%08x\n"), m);
test(m==0xC0000000);
User::SetDebugMask(0x80000000);
m = UserSvr::DebugMask();
test.Printf(_L("UserSvr::DebugMask = 0x%08x\n"), m);
test(m==0x80000000);
test.Next(_L("Test the Kernel level code..."));
User::SetDebugMask(0xC0000000, 0); // set bits 30 & 31
User::SetDebugMask(0x00000008, 1); // set bit 35
User::SetDebugMask(0x00000010, 2); // set bit 68
User::SetDebugMask(0x00000020, 3); // set bit 101
User::SetDebugMask(0x00000100, 4); // set bit 136
User::SetDebugMask(0x00001000, 5); // set bit 172
User::SetDebugMask(0x00000001, 6); // set bit 192
User::SetDebugMask(0x00000040, 7); // set bit 230
// test the KTRACE_OPT macros in server code
r=traceSys.KTrace(RNKTraceTest::ETestKTrace);
// test the KDebugMask() and KDebugNum() functions in server code
r=traceSys.KDebug(RNKTraceTest::ETestKTrace);
test.Printf(_L("Kern::Printf() output goes\n"));
test.Printf(_L("to the serial port or the \n"));
test.Printf(_L("file epocwind.out when \n"));
test.Printf(_L("tested on the emulator. \n"));
test.Printf(_L("The following results\n"));
test.Printf(_L("should be displayed:\n"));
test.Printf(_L("Test __KTRACE_OPT macros\n"));
test.Printf(_L("KALWAYS\n"));
test.Printf(_L("KPANIC\n"));
test.Printf(_L("KSCRATCH\n"));
test.Printf(_L("Debug bit 35 is set\n"));
test.Printf(_L("Debug bit 68 is set\n"));
test.Printf(_L("Debug bit 101 is set\n"));
test.Printf(_L("Debug bit 136 is set\n"));
test.Printf(_L("Debug bit 172 is set\n"));
test.Printf(_L("Debug bit 192 is set\n"));
test.Printf(_L("Debug bit 230 is set\n"));
test.Printf(_L("KTRACE_ALL returned true\n"));
// Wait for a while, or for a key press
test.Printf(_L("Press a key to continue..."));
TRequestStatus keyStat;
test.Console()->Read(keyStat);
RTimer timer;
test(timer.CreateLocal()==KErrNone);
TRequestStatus timerStat;
timer.After(timerStat,10*1000000);
User::WaitForRequest(timerStat,keyStat);
TInt key;
if(keyStat!=KRequestPending)
key = test.Console()->KeyCode();
timer.Cancel();
test.Console()->ReadCancel();
User::WaitForAnyRequest();
test.Printf(_L("\n"));
test.Printf(_L("KDebug tests (0)\n"));
test.Printf(_L("KDebugMask() = 0xc0000000\n"));
test.Printf(_L("KDebugNum(30) = 1\n"));
test.Printf(_L("KDebugNum(31) = 1\n"));
test.Printf(_L("KDebugNum(3) = 0\n"));
test.Printf(_L("KDebugNum(9) = 0\n"));
test.Printf(_L("KDebugNum(10000) = 0\n"));
test.Printf(_L("KDebugNum(-1) = 1\n"));
test.Printf(_L("KDebugNum(-2) = 0\n"));
test.Printf(_L("KDebugNum(35) = 1\n"));
test.Printf(_L("KDebugNum(36) = 0\n"));
test.Printf(_L("KDebugNum(101) = 1\n"));
test.Printf(_L("KDebugNum(192) = 1\n"));
test.Printf(_L("KDebugNum(230) = 1\n"));
// set the debug masks back to the original state
for (i=0; i<8; i++)
User::SetDebugMask(initial[i], i);
m = UserSvr::DebugMask(0);
test(m==initial[0]);
m = UserSvr::DebugMask(1);
test(m==initial[1]);
m = UserSvr::DebugMask(2);
test(m==initial[2]);
m = UserSvr::DebugMask(3);
test(m==initial[3]);
m = UserSvr::DebugMask(4);
test(m==initial[4]);
m = UserSvr::DebugMask(5);
test(m==initial[5]);
m = UserSvr::DebugMask(6);
test(m==initial[6]);
m = UserSvr::DebugMask(7);
test(m==initial[7]);
test.End();
return(0);
}