1 /*

     2 * Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).

     3 * All rights reserved.

     4 * This component and the accompanying materials are made available

     5 * under the terms of the License "Eclipse Public License v1.0"

     6 * which accompanies this distribution, and is available

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

     8 *

     9 * Initial Contributors:

    10 * Nokia Corporation - initial contribution.

    11 *

    12 * Contributors:

    13 *

    14 * Description: implementation of class Syborg

    15 *

    16 */

    17 

    18 #include <syborg_priv.h>

    19 #include <hal_data.h>

    20 

    21 #ifdef __EMI_SUPPORT__

    22 #include <emi.h>

    23 #endif

    24 

    25 //#define ASSP_DEBUG

    26 

    27 #ifdef ASSP_DEBUG

    28 #define __DEBUG_PRINT(format...)    Kern::Printf(format)

    29 #else

    30 #define __DEBUG_PRINT(format...)    __KTRACE_OPT(KBOOT,Kern::Printf(format))

    31 #endif

    32 

    33 Syborg* Syborg::Variant=NULL;

    34 // !@!

    35 #if 0

    36 TPhysAddr Syborg::VideoRamPhys;

    37 TPhysAddr Syborg::VideoRamPhysSecure;		// Secure display memory

    38 #endif

    39 

    40 GLDEF_D Syborg TheVariant;

    41 

    42 // Wait for interrupt idle routine

    43 extern TInt SyborgWFIIdle();

    44 

    45 DECLARE_STANDARD_ASSP()

    46 

    47 EXPORT_C Asic* VariantInitialise()

    48 {

    49 	return &TheVariant;

    50 }

    51 

    52 void Syborg::Idle()

    53 {

    54 	// Use the basic Wait For Interrupt call to idle

    55 	TInt irq = NKern::DisableAllInterrupts();

    56 #ifdef __EMI_SUPPORT__

    57 	EMI::EnterIdle();

    58 #endif

    59 	SyborgWFIIdle();

    60 #ifdef __EMI_SUPPORT__

    61 	EMI::LeaveIdle();

    62 #endif

    63 	NKern::RestoreInterrupts(irq);

    64 }

    65 

    66 TUint32 Syborg::NanoWaitCalibration()

    67 {

    68 	return 17;	// 2 cycles approx 17ns at 125MHz

    69 }

    70 

    71 TInt Syborg::VariantHal(TInt aFunction, TAny* a1, TAny* a2)

    72 {

    73 	__KTRACE_OPT(KHARDWARE,Kern::Printf("Syborg::VariantHal(%d, %0x, %0x)",aFunction,a1,a2));

    74 

    75 	switch(aFunction)

    76     {

    77 		case EVariantHalVariantInfo:

    78 		{

    79 			TVariantInfoV01Buf infoBuf;

    80 			TVariantInfoV01& info = infoBuf();

    81 			TUint clock=0;

    82 			info.iRomVersion = Epoc::RomHeader().iVersion;

    83     		info.iMachineUniqueId = (TInt64(HALData::EMachineUid_OmapH4)<<32);

    84    			info.iLedCapabilities = (8<<16) + KLedMaskGreen1;

    85 			info.iProcessorClockInKHz = clock;

    86 			info.iSpeedFactor = clock/25;

    87 			Kern::InfoCopy(*(TDes8*)a1,infoBuf);

    88 			break;

    89 	    }

    90 		case EVariantHalDebugPortSet:

    91 	    {

    92 			TUint32 thePort = (TUint32)a1;

    93 			switch(thePort) // Accept UART(0-3)

    94 		    {

    95 				case 0:

    96 				case 1:

    97 			    case 2:

    98                 case 3:

    99                 {

   100                     TSyborg::MarkDebugPortOff();           // mark port is not initialised

   101 					Kern::SuperPage().iDebugPort = thePort; // update the super page

   102                     Syborg::DebugInit();                   // init debug port        

   103                     break;

   104                 }

   105 				case (TUint32)KNullDebugPort:               // debug output supressed

   106                 {

   107                     TSyborg::MarkDebugPortOff();           // mark port is not initialised

   108 					Kern::SuperPage().iDebugPort = thePort; // update the super page

   109 					break;

   110                 }

   111 				default:

   112 					return KErrNotSupported;

   113 		    }

   114 			break;

   115 	    }

   116 		case EVariantHalDebugPortGet:

   117 	    {

   118 			TUint32 thePort = Kern::SuperPage().iDebugPort;

   119 			kumemput32(a1, &thePort, sizeof(TUint32));

   120 			break;

   121 	    }

   122 		case EVariantHalSwitches:

   123 	    {

   124 		  TUint32 x = 0; //Register32(KHwBaseSystemReg+KHoRoSystemSw);

   125 			kumemput32(a1, &x, sizeof(x));

   126 			break;

   127 	    }

   128 		case EVariantHalLedMaskSet:

   129 	    {

   130 		  //SetRegister32(KHwBaseSystemReg+KHoRwSystemLed, (TUint32)a1 & 0xFF);

   131 			break;

   132 	    }

   133 		case EVariantHalLedMaskGet:

   134 	    {

   135 		  TUint32 x = 0; //Register32(KHwBaseSystemReg+KHoRwSystemLed);

   136 			kumemput32(a1, &x, sizeof(x));

   137 			break;

   138 	    }

   139 		case EVariantHalCustomRestartReason:

   140 	    {

   141 			// Restart reason is stored in super page

   142 		  TInt x = (Kern::SuperPage().iHwStartupReason); // & KmRestartCustomReasons) >> KsRestartCustomReasons;

   143 			kumemput32(a1, &x, sizeof(TInt));

   144 			break;

   145 	    }

   146 		case EVariantHalCustomRestart:

   147 	    {

   148             __KERNEL_CAPABILITY_CHECK(

   149                 if(!Kern::CurrentThreadHasCapability(ECapabilityPowerMgmt,

   150 			       __PLATSEC_DIAGNOSTIC_STRING("Checked by Hal function EVariantHalCustomRestart")))

   151 				    return KErrPermissionDenied;

   152             )

   153 			  Kern::Restart(0);

   154 			break;

   155 	    }

   156 		default:

   157     	{

   158 			return KErrNotSupported;

   159 	    }

   160     }

   161 	return KErrNone;

   162 }

   163 

   164 TPtr8 Syborg::MachineConfiguration()

   165 {

   166 	return TPtr8((TUint8*)&Kern::MachineConfig(),40,40);

   167 }

   168 

   169 EXPORT_C Syborg::Syborg()

   170 {

   171 	iDebugPortBase = TSyborg::DebugPortAddr(); // initialised in bootstrap

   172 }

   173 

   174 EXPORT_C TMachineStartupType Syborg::StartupReason()

   175 {

   176 	TUint s = Kern::SuperPage().iHwStartupReason;

   177 	__DEBUG_PRINT("Syborg::StartupReason CPU page value 0x%08X", s);

   178 	return EStartupColdReset;

   179 }

   180 

   181 EXPORT_C void Syborg::Init1()

   182 {

   183 	__DEBUG_PRINT("Syborg::Init1()");

   184 

   185 	// Enable the CLCD in the System registers

   186 	SyborgInterrupt::Init1();

   187 }

   188 

   189 EXPORT_C void Syborg::Init3()

   190 {

   191 	NTimerQ& m = *(NTimerQ*)NTimerQ::TimerAddress();

   192 	m.iRounding = -5;

   193 		

   194 	TInt r = Interrupt::Bind(EIntTimer1,SyborgInterrupt::MsTimerTick,&m);

   195 	if (r != KErrNone)

   196 	{

   197 		Kern::Fault("BindMsTick",r);

   198 	}

   199 

   200 	TSyborg::Init3();

   201 	TSyborg::ClearTimerInt(KHwBaseCounterTimer);

   202 

   203 	r = Interrupt::Enable(EIntTimer1);

   204 	if (r != KErrNone)

   205 	{

   206 		Kern::Fault("EnbMsTick",r);

   207 	}

   208 

   209 	TSyborg::SetTimerLoad(KHwBaseCounterTimer, K1000HzTickMatchLoad);

   210 	//	TSyborg::SetTimerLoad(KHwBaseCounterTimer, 1000000);

   211 	TSyborg::SetTimerMode(KHwBaseCounterTimer, TSyborg::ETimerModePeriodic);	

   212 	TSyborg::EnableTimerInterrupt(KHwBaseCounterTimer);

   213 	TSyborg::EnableTimer(KHwBaseCounterTimer, TSyborg::EEnable);

   214 	

   215 	SyborgInterrupt::Init3();

   216 

   217 	// !@!

   218 #if 0

   219 	// Allocate physical RAM for video

   220 	TInt vSize = TSyborg::VideoRamSize();

   221 

   222 	r = Epoc::AllocPhysicalRam(vSize,Syborg::VideoRamPhys);

   223 	if (r != KErrNone)

   224 	{

   225 		Kern::Fault("AllocVideoRam",r);

   226 	}

   227 

   228 	// Allocate physical RAM for secure display

   229 	r = Epoc::AllocPhysicalRam(vSize,Syborg::VideoRamPhysSecure);

   230 	if (r != KErrNone)

   231 	{

   232 		Kern::Fault("AllocVideoRam 2",r);

   233 	}

   234 #endif

   235 	__DEBUG_PRINT("Finished Syborg::Init3()");

   236 }

   237 

   238 EXPORT_C void Syborg::DebugInit()

   239 {

   240 	iDebugPortBase = TSyborg::DebugPortAddr();

   241 

   242     if(iDebugPortBase != (TUint32)KNullDebugPort)   // supress debug output

   243     {

   244 	  TUint8 res = ReadReg(iDebugPortBase, 0);

   245     }

   246 }

   247 

   248 //

   249 // Output a character to the debug port

   250 //

   251 EXPORT_C void Syborg::DebugOutput(TUint aLetter)

   252 {

   253 	if(!iDebugPortBase)

   254     {

   255 		DebugInit();

   256 	}

   257 

   258     if(iDebugPortBase != (TUint32)KNullDebugPort)   // supress debug output

   259     {

   260 	  WriteReg(iDebugPortBase,1,aLetter);

   261     }

   262 }

   263 

   264 EXPORT_C TInt Syborg::MsTickPeriod()

   265 {

   266 	return 1000;

   267 }

   268 

   269 EXPORT_C TInt Syborg::SystemTimeInSecondsFrom2000(TInt& aTime)

   270 {

   271 	__KTRACE_OPT(KHARDWARE,Kern::Printf("RTC READ: %d",aTime));

   272 	return KErrNone;

   273 }

   274 

   275 EXPORT_C TInt Syborg::SetSystemTimeInSecondsFrom2000(TInt aTime)

   276 {

   277 	__KTRACE_OPT(KHARDWARE,Kern::Printf("Set RTC: %d",aTime));					// do this here to allow the value to be loaded...

   278 	return KErrNone;

   279 }