test: epoc32/include/assp/template_assp/template

williamr@2	1	// Copyright (c) 1997-2009 Nokia Corporation and/or its subsidiary(-ies).
williamr@2	2	// All rights reserved.
williamr@2	3	// This component and the accompanying materials are made available
williamr@2	4	// under the terms of the License "Symbian Foundation License v1.0" to Symbian Foundation members and "Symbian Foundation End User License Agreement v1.0" to non-members
williamr@2	5	// which accompanies this distribution, and is available
williamr@2	6	// at the URL "http://www.symbianfoundation.org/legal/licencesv10.html".
williamr@2	7	//
williamr@2	8	// Initial Contributors:
williamr@2	9	// Nokia Corporation - initial contribution.
williamr@2	10	//
williamr@2	11	// Contributors:
williamr@2	12	//
williamr@2	13	// Description:
williamr@2	14	// template\template_assp\template_assp.h
williamr@2	15	// Definitions for Template ASSP
williamr@2	16	//
williamr@2	17	//
williamr@2	18
williamr@2	19
williamr@2	20
williamr@2	21	#ifndef __A32TEMPLATEV1_H__
williamr@2	22	#define __A32TEMPLATEV1_H__
williamr@2	23	#include <e32const.h>
williamr@2	24	#include <platform.h>
williamr@2	25	#include <e32hal.h>
williamr@2	26	#include <assp.h>
williamr@2	27	#include <kern_priv.h>
williamr@2	28
williamr@2	29	//----------------------------------------------------------------------------
williamr@2	30	// Constant conventions:
williamr@2	31	//----------------------------------------------------------------------------
williamr@2	32
williamr@2	33	// KH Hardware definition
williamr@2	34	// KHw 4-byte word definition prefix
williamr@2	35	// KHb Byte definition prefix
williamr@2	36	// KHt Bit definition prefix
williamr@2	37	// KHm Mask definition prefix
williamr@2	38	// KHs Shift definition prefix
williamr@2	39	// KHo Offset definition prefix
williamr@2	40	// KHwRo Read-only register
williamr@2	41	// KHwWo Write-only register
williamr@2	42	// KHwRw Read/write register
williamr@2	43	// KHwBase Base address within memory map
williamr@2	44	// _i Input suffix
williamr@2	45	// _o Output suffix
williamr@2	46	// _b Input/output suffix
williamr@2	47
williamr@2	48	//----------------------------------------------------------------------------
williamr@2	49	// Memory map: physical addresses
williamr@2	50	//----------------------------------------------------------------------------
williamr@2	51	// NB: these are just examples
williamr@2	52
williamr@2	53	const TUint KHwBaseCs0 = 0x00000000;
williamr@2	54	const TUint KHwBaseCs1 = KHwBaseCs0 + 128*KMega;
williamr@2	55	const TUint KHwBaseCs2 = KHwBaseCs1 + 128*KMega;
williamr@2	56	const TUint KHwBaseCs3 = KHwBaseCs2 + 128*KMega;
williamr@2	57
williamr@2	58	const TUint KHwBaseMemBank0 = 0x20000000;
williamr@2	59	const TUint KHwBaseMemBank1 = KHwBaseMemBank0 + 256*KMega;
williamr@2	60
williamr@2	61	const TUint KHwBaseRegisters = 0x80000000;
williamr@2	62	const TUint KHwBasePeripherals = KHwBaseRegisters; // 8000.0000
williamr@2	63	const TUint KHwBasePeripheralsA = KHwBasePeripherals + 256*KMega; // 9000.0000
williamr@2	64	const TUint KHwBasePeripheralsB = KHwBasePeripheralsA + 256*KMega; // A000.0000
williamr@2	65	const TUint KHwBasePeripheralsC = KHwBasePeripheralsB + 256*KMega; // B000.0000
williamr@2	66
williamr@2	67	// etc...
williamr@2	68
williamr@2	69	//----------------------------------------------------------------------------
williamr@2	70	// Memory map: linear addresses
williamr@2	71	//----------------------------------------------------------------------------
williamr@2	72
williamr@2	73	#if defined (__MEMMODEL_MULTIPLE__)
williamr@2	74	const TUint KHwLinBaseRegisters = 0xc6000000; // as mapped by bootstrap
williamr@2	75	const TUint KHwLinSeparation = 0x1000;
williamr@2	76	#elif defined(__MEMMODEL_DIRECT__)
williamr@2	77	const TUint KHwLinBaseRegisters = 0x10000000; // physical address (example only)
williamr@2	78	const TUint KHwLinSeparation = 0x01000000; // physical offsets (example only)
williamr@2	79	#else
williamr@2	80	const TUint KHwLinBaseRegisters = 0x63000000; // as mapped by bootstrap
williamr@2	81	const TUint KHwLinSeparation = 0x1000;
williamr@2	82	#endif
williamr@2	83
williamr@2	84	// EXAMPLE ONLY:
williamr@2	85	const TUint KHwLinBasePeriphGroupA = KHwLinBaseRegisters;
williamr@2	86	const TUint KHwLinBasePeripheral1 = KHwLinBasePeriphGroupA + 0x00*KHwLinSeparation;
williamr@2	87	const TUint KHwLinBasePeripheral2 = KHwLinBasePeriphGroupA + 0x01*KHwLinSeparation;
williamr@2	88	const TUint KHwLinBasePeripheral3 = KHwLinBasePeriphGroupA + 0x02*KHwLinSeparation;
williamr@2	89	const TUint KHwLinBasePeripheral4 = KHwLinBasePeriphGroupA + 0x03*KHwLinSeparation;
williamr@2	90
williamr@2	91	const TUint KHwLinBasePeriphGroupB = KHwLinBaseRegisters + 0x20*KHwLinSeparation;
williamr@2	92
williamr@2	93	const TUint KHwBaseSerial1 = KHwLinBasePeriphGroupB + 0x00*KHwLinSeparation;
williamr@2	94	const TUint KHwBaseSerial2 = KHwLinBasePeriphGroupB + 0x01*KHwLinSeparation;
williamr@2	95	const TUint KHwBaseSerial3 = KHwLinBasePeriphGroupB + 0x02*KHwLinSeparation;
williamr@2	96
williamr@2	97	const TUint KHwLinBasePeriphGroupC = KHwLinBaseRegisters + 0x30*KHwLinSeparation;
williamr@2	98
williamr@2	99	const TUint KHwBaseInterrupts = KHwLinBasePeriphGroupC + 0x00*KHwLinSeparation;
williamr@2	100	const TUint KHwInterruptsMaskRo = KHwBaseInterrupts + 0x00;
williamr@2	101	const TUint KHwInterruptsMaskSet = KHwBaseInterrupts + 0x04;
williamr@2	102	const TUint KHwInterruptsMaskClear = KHwBaseInterrupts + 0x08;
williamr@2	103	const TUint KHoInterruptsIrqPending = 0x0C;
williamr@2	104	const TUint KHwInterruptsIrqPending = KHwBaseInterrupts + KHoInterruptsIrqPending;
williamr@2	105	const TUint KHoInterruptsFiqPending = 0x10;
williamr@2	106	const TUint KHwInterruptsFiqending = KHwBaseInterrupts + KHoInterruptsFiqPending;
williamr@2	107
williamr@2	108
williamr@2	109	// Other device specifc constants, register offsets, bit masks, general-purpose I/O allocations,
williamr@2	110	// interrupt sources, Memory settings and geometries, etc
williamr@2	111
williamr@2	112
williamr@2	113	class TTemplate
williamr@2	114	{
williamr@2	115	/**
williamr@2	116	* Accessor functions to hardware resources managed by ASSP (ASIC). Auxiliary and information functions which
williamr@2	117	* are commonly used by Device Drivers or ASSP/Variant code.
williamr@2	118	* Some examples below. These examples assume that the hardware blocks they access (e.g. Interrupt controller
williamr@2	119	* RTC, Clock Control Module, UART, etc) are part of the ASSP.
williamr@2	120	*/
williamr@2	121	public:
williamr@2	122	/**
williamr@2	123	* initialisation
williamr@2	124	*/
williamr@2	125	static void Init3();
williamr@2	126	/**
williamr@2	127	* Active waiting loop (not to be used after System Tick timer has been set up - Init3()
williamr@2	128	* @param aDuration A wait time in milliseconds
williamr@2	129	*/
williamr@2	130	IMPORT_C static void BootWaitMilliSeconds(TInt aDuration);
williamr@2	131	/**
williamr@2	132	* Read and return the Startup reason of the Hardware
williamr@2	133	* @return A TMachineStartupType enumerated value
williamr@2	134	*/
williamr@2	135	IMPORT_C static TMachineStartupType StartupReason();
williamr@2	136	/**
williamr@2	137	* Read and return the the CPU ID
williamr@2	138	* @return An integer containing the CPU ID string read off the hardware
williamr@2	139	*/
williamr@2	140	IMPORT_C static TInt CpuVersionId();
williamr@2	141	/**
williamr@2	142	* Read Linear base address of debug UART (as selected in obey file or with eshell debugport command).
williamr@2	143	* @return An integer containing the Linear address of debug Serial Port
williamr@2	144	*/
williamr@2	145	IMPORT_C static TUint DebugPortAddr();
williamr@2	146	/**
williamr@2	147	* Read CPU clock period in picoseconds
williamr@2	148	* @return An integer containing the CPU clock period in picoseconds
williamr@2	149	*/
williamr@2	150	IMPORT_C static TUint ProcessorPeriodInPs();
williamr@2	151	/**
williamr@2	152	* Set the Hardware Interrupt masks
williamr@2	153	* @param aValue A new interrupt mask value
williamr@2	154	*/
williamr@2	155	IMPORT_C static void SetIntMask(TUint aValue);
williamr@2	156	/**
williamr@2	157	* Modify the Hardware Interrupt masks
williamr@2	158	* @param aClearMask A mask with interrupt source bits to clear (disable)
williamr@2	159	* @param aSetMask A mask with interrupt source bits to set (enable)
williamr@2	160	*/
williamr@2	161	IMPORT_C static void ModifyIntMask(TUint aClearMask,TUint aSetMask);
williamr@2	162	/**
williamr@2	163	* Read the state of pending interrupts
williamr@2	164	* @return A mask containing bits set for all pending interrupts
williamr@2	165	*/
williamr@2	166	IMPORT_C static TUint IntsPending();
williamr@2	167	/**
williamr@2	168	* Read the current time of the RTC
williamr@2	169	* @return A value that is the real time as given by a RTC
williamr@2	170	*/
williamr@2	171	IMPORT_C static TUint RtcData();
williamr@2	172	/**
williamr@2	173	* Set the RTC time
williamr@2	174	* @param aValue The real time to set the RTC
williamr@2	175	*/
williamr@2	176	IMPORT_C static void SetRtcData(TUint aValue);
williamr@2	177	/**
williamr@2	178	* Obtain the physical start address of Video Buffer
williamr@2	179	* @return the physical start address of Video Buffer
williamr@2	180	*/
williamr@2	181	IMPORT_C static TPhysAddr VideoRamPhys();
williamr@2	182	private:
williamr@2	183	/**
williamr@2	184	* Auxiliary accessor functions for Hardware registers (used by functions above)
williamr@2	185	*/
williamr@2	186	static inline TUint Register32(TUint aAddr);
williamr@2	187	static inline void SetRegister32(TUint aValue, TUint aAddr);
williamr@2	188	static void ModifyRegister32(TUint aClearMask, TUint aSetMask, TUint aAddr);
williamr@2	189	/**
williamr@2	190	* Assp-specific implementation for Kern::NanoWait function
williamr@2	191	*/
williamr@2	192	static void NanoWait(TUint32 aInterval);
williamr@2	193	};
williamr@2	194
williamr@2	195	// TO DO: (optional)
williamr@2	196	//
williamr@2	197	// Enumerate here all ASSP interrupt souces. It could be a good idea to enumerate them in a way that facilitates
williamr@2	198	// operating on the corresponding interrupt controller registers (e.g using their value as a shift count)
williamr@2	199	//
williamr@2	200	// EXAMPLE ONLY
williamr@2	201	enum TTemplateAsspInterruptId
williamr@2	202	{
williamr@2	203	// ASSP or first-level Interrupt IDs
williamr@2	204	EAsspIntIdA=0,
williamr@2	205	EAsspIntIdB=1,
williamr@2	206	EAsspIntIdC=2,
williamr@2	207	EAsspIntIdD=3,
williamr@2	208	EAsspIntIdE=4,
williamr@2	209	// ...
williamr@2	210	EAsspIntIdUsb=11,
williamr@2	211	EAsspIntIdDma=12,
williamr@2	212	// ...
williamr@2	213	EAsspIntIdZ=25
williamr@2	214	};
williamr@2	215
williamr@2	216	//
williamr@2	217	// TO DO: (optional)
williamr@2	218	//
williamr@2	219	// Define here some commonly used ASSP interrupts
williamr@2	220	//
williamr@2	221	// EXAMPLE ONLY
williamr@2	222	const TInt KIntIdExpansion=EAsspIntIdA; // this is the ASSP interrupt which connects to second-level (Variant)
williamr@2	223	// Interrupt controller: all 2nd level interrupts come through this interrupt
williamr@2	224	const TInt KIntIdOstMatchMsTimer=EAsspIntIdB;
williamr@2	225	const TInt KIntIdDigitiser=EAsspIntIdC;
williamr@2	226	const TInt KIntIdSound=EAsspIntIdD;
williamr@2	227	const TInt KIntIdTimer1=EAsspIntIdE;
williamr@2	228
williamr@2	229
williamr@2	230	#endif

author	William Roberts <williamr@symbian.org>
	Tue, 16 Mar 2010 16:12:26 +0000
branch	Symbian2
changeset 2	2fe1408b6811
permissions	-rw-r--r--