Fixing linkage error. First successful euser build.
// Copyright (c) 2008-2009 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:
// e32\include\nkernsmp\arm\ncern.h
//
// WARNING: This file contains some APIs which are internal and are subject
// to change without notice. Such APIs should therefore not be used
// outside the Kernel and Hardware Services package.
//
/**
@file
@publishedPartner
@prototype
*/
#ifndef __NCERN_H__
#define __NCERN_H__
#ifdef __FIQ_IS_UNCONTROLLED__
#define __ASM_CLI() CPSIDI /* Disable all interrupts */
#define __ASM_STI() CPSIEI /* Enable all interrupts */
#define __ASM_CLI1() CPSIDI /* Disable IRQ only */
#define __ASM_STI1() CPSIEI /* Enable IRQ only */
#define __ASM_CLI2() /* Disable FIQ only */
#define __ASM_STI2() /* Enable FIQ only */
#define __ASM_CLI_MODE(mode) CPSIDIM(mode) /* Disable all interrupts and change mode */
#define __ASM_STI_MODE(mode) CPSIEIM(mode) /* Enable all interrupts and change mode */
#define __ASM_CLI1_MODE(mode) CPSIDIM(mode) /* Disable IRQ only and change mode */
#define __ASM_STI1_MODE(mode) CPSIEIM(mode) /* Enable IRQ only and change mode */
#define __ASM_CLI2_MODE(mode) CPSCHM(mode) /* Disable FIQ only and change mode */
#define __ASM_STI2_MODE(mode) CPSCHM(mode) /* Enable FIQ only and change mode */
#else
#define __ASM_CLI() CPSIDIF /* Disable all interrupts */
#define __ASM_STI() CPSIEIF /* Enable all interrupts */
#define __ASM_CLI1() CPSIDI /* Disable IRQ only */
#define __ASM_STI1() CPSIEI /* Enable IRQ only */
#define __ASM_CLI2() CPSIDF /* Disable FIQ only */
#define __ASM_STI2() CPSIEF /* Enable FIQ only */
#define __ASM_CLI_MODE(mode) CPSIDIFM(mode) /* Disable all interrupts and change mode */
#define __ASM_STI_MODE(mode) CPSIEIFM(mode) /* Enable all interrupts and change mode */
#define __ASM_CLI1_MODE(mode) CPSIDIM(mode) /* Disable IRQ only and change mode */
#define __ASM_STI1_MODE(mode) CPSIEIM(mode) /* Enable IRQ only and change mode */
#define __ASM_CLI2_MODE(mode) CPSIDFM(mode) /* Disable FIQ only and change mode */
#define __ASM_STI2_MODE(mode) CPSIEFM(mode) /* Enable FIQ only and change mode */
#endif
/** Information needed to boot an AP (ARM specific)
@internalTechnology
*/
struct SArmAPBootInfo : public SAPBootInfo
{
TLinAddr iAPBootLin; // linear address of AP boot page (uncached)
T_UintPtr iAPBootPhys; // physical address of AP boot page (uncached)
TLinAddr iAPBootCodeLin; // linear address of AP boot code (part of bootstrap)
T_UintPtr iAPBootCodePhys; // physical address of AP boot code (part of bootstrap)
T_UintPtr iAPBootPageDirPhys; // physical address of AP boot page directory
TLinAddr iInitR13Fiq; // initial value for R13_fiq
TLinAddr iInitR13Irq; // initial value for R13_irq
TLinAddr iInitR13Abt; // initial value for R13_abt
TLinAddr iInitR13Und; // initial value for R13_und
};
/** Timer frequency specification
Stores a frequency as a fraction of a (separately stored) maximum.
The frequency must be at least 1/256 of the maximum.
@internalTechnology
@prototype
*/
struct STimerMult
{
TUint32 iFreq; // frequency as a fraction of maximum possible, multiplied by 2^32
TUint32 iInverse; // 2^24/(iFreq/2^32) = 2^56/iFreq
};
/** Variant interface block
@internalTechnology
@prototype
*/
struct SVariantInterfaceBlock : public SInterfaceBlockBase
{
TUint64 iMaxCpuClock; // maximum possible CPU clock frequency on this system
TUint16 iTimerGap1;
TUint16 iTimerGap2;
TUint32 iMaxTimerClock; // maximum possible local timer clock frequency
TLinAddr iScuAddr; // address of SCU
TLinAddr iGicDistAddr; // address of GIC Distributor
TLinAddr iGicCpuIfcAddr; // address of GIC CPU interface (must be same for all CPUs)
TLinAddr iLocalTimerAddr; // address of per-CPU timer (must be same for all CPUs)
volatile STimerMult* iTimerMult[KMaxCpus]; // timer[i] frequency / iMaxTimerClock * 2^32
volatile TUint32* iCpuMult[KMaxCpus]; // CPU[i] frequency / iMaxCpuClock * 2^32
};
// End of file
#endif