Merge further Compiler Compatibility fixes onto RCL_3 branch.
// Copyright (c) 2007-2009 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\nkernsmp\x86\ncirq.cia
//
//
/**
@file
@internalTechnology
*/
#include "nk_priv.h"
#include "nk_plat.h"
#include <nk_irq.h>
#include <apic.h>
#define OFFSET_NIrqHandler_iHState 8
__ASSERT_COMPILE(_FOFF(NIrqHandler, iHState) == OFFSET_NIrqHandler_iHState);
//
// Atomically increment run count provided ECount set or count <2.
// If originally zero, atomically set CPU field
// Wait for EWait to be clear
// Return state of iIState immediately before increment
//
__NAKED__ TUint32 NIrq::EnterIsr()
{
THISCALL_PROLOG0()
asm("push ebx ");
asm("xor ebx, ebx ");
asm("str bx ");
asm("sub bl, 0x28 ");
asm("shr bl, 3 "); // BL = CPU number
asm("mov eax, [ecx+%0]" : : "i" _FOFF(NIrq,iIState));
asm("enterisr_loop: ");
asm("mov edx, eax ");
asm("cmp edx, 0x10000 "); // compare run count to 1
asm("jae short enterisr_not0 "); // skip if >=1
asm("mov dh, bl "); // else update CPU
asm("enterisr_not0: ");
asm("add edx, 0x10000 "); // increment run count
asm("cmp edx, 0x20000 "); // compare to 2
asm("jb short enterisr_lt2 ");
asm("test dl, 6 "); // ECount|ERaw
asm("jz short enterisr_wait "); // if !ECount && !ERaw limit count to 2
asm("enterisr_lt2: ");
asm("lock cmpxchg [ecx+%0], edx" : : "i" _FOFF(NIrq,iIState));
asm("jne short enterisr_loop ");
asm("enterisr_wait: ");
asm("mov edx, 1 "); // EWait
asm("enterisr_loop1: ");
asm("test edx, [ecx+%0]" : : "i" _FOFF(NIrq,iIState));
asm("jnz short enterisr_loop2 "); // loop while EWait set
asm("pop ebx ");
asm("lock add dword ptr [esp], 0 ");
THISCALL_EPILOG0()
asm("enterisr_loop2: ");
X86_PAUSE
asm("jmp short enterisr_loop ");
}
//
// Atomically decrement run count
// Return TRUE if run count nonzero after decrement
//
__NAKED__ TBool NIrq::IsrDone()
{
THISCALL_PROLOG0()
asm("mov eax, 0xffff0000 "); // -1<<run count shift
asm("lock xadd [ecx+%0], eax" : : "i" _FOFF(NIrq,iIState));
asm("shr eax, 16 ");
asm("dec eax "); // eax=new run count = TRUE if nonzero
THISCALL_EPILOG0()
}
//
// Wait (allowing interrupts and preemption) until run count = 0 and EWait clear
// Then atomically set EWait and return with interrupts disabled
//
__NAKED__ void NIrq::Wait()
{
THISCALL_PROLOG0()
asm("wait_loop: ");
asm("cli ");
asm("mov eax, [ecx+%0]" : : "i" _FOFF(NIrq,iIState));
asm("wait_loop1: ");
asm("mov edx, eax ");
asm("test edx, 0xffff0001 "); // test run count and EWait
asm("jnz short wait_loop2 "); // if not both zero, must wait
asm("inc edx "); // else try to set EWait
asm("lock cmpxchg [ecx+%0], edx" : : "i" _FOFF(NIrq,iIState));
asm("jne short wait_loop1 "); // someone beat us to it
THISCALL_EPILOG0() // success - return with interrupts disabled
// spin, allowing interrupts, while we wait for run count and EWait both zero
asm("wait_loop2: ");
asm("sti ");
X86_PAUSE
asm("jmp short wait_loop ");
}
//
// Atomically clear EWait and reenable interrupts
//
__NAKED__ void NIrq::Done()
{
THISCALL_PROLOG0()
asm("lock and dword ptr [ecx+%0], 0xfffffffe" : : "i" _FOFF(NIrq,iIState));
asm("sti ");
THISCALL_EPILOG0()
}
//
// atomic { if !EUnbind && !ENotReady clear EDisable }
// Return the initial value of iHState
//
__NAKED__ TUint32 NIrqHandler::DoSetEnabled()
{
THISCALL_PROLOG0()
asm("mov eax, [ecx+%0]" : : "i" _FOFF(NIrqHandler,iHState));
asm("dse_loop: ");
asm("mov edx, eax ");
asm("test dh, 0x0A "); // EUnbind|ENotReady
asm("jnz short dse_end "); // if either set, finished
asm("and dh, 0xFA "); // else try to clear EDisable and EBind
asm("dse_end: ");
asm("lock cmpxchg [ecx+%0], edx" : : "i" _FOFF(NIrqHandler,iHState));
asm("jne short dse_loop "); // someone beat us to it
THISCALL_EPILOG0() // success - return original iHState
}
//
// Atomically increment run count by aCount if ECount set or run count initially zero.
// If !EDisable and !EUnbind set EActive
// Return initial iHState
//
__NAKED__ TUint32 NIrqHandler::DoActivate(TInt aCount)
{
THISCALL_PROLOG1()
asm("mov eax, [ecx+%0]" : : "i" _FOFF(NIrqHandler,iHState));
asm("da_loop: ");
asm("mov edx, eax ");
asm("cmp edx, 0x10000 ");
asm("jb short da_zero "); // skip if run count initially zero
asm("test dh, 0x10 "); // else check ECount
asm("jz short da_end "); // if clear, don't increment
asm("da_zero: ");
asm("mov edx, [esp+4] "); // edx = aCount
asm("shl edx, 16 ");
asm("add edx, eax "); // increment run count
asm("da_end: ");
asm("test dh, 0x03 "); // EUnbind|EDisable
asm("jnz short da_1 "); // skip if EUnbind or EDisable set
asm("or dh, 0x20 "); // set EActive
asm("da_1: ");
asm("lock cmpxchg [ecx+%0], edx" : : "i" _FOFF(NIrqHandler,iHState));
asm("jne short da_loop "); // someone beat us to it
THISCALL_EPILOG1() // success - return original iHState
}
//
// Decrement run count
// Return initial iHState
//
__NAKED__ TUint32 NIrqHandler::EventBegin()
{
THISCALL_PROLOG0()
asm("mov eax, 0xffff0000 "); // -1<<run count shift
asm("lock xadd [ecx+%0], eax" : : "i" _FOFF(NIrqHandler,iHState));
THISCALL_EPILOG0()
}
//
// If count is zero or EDisable or EUnbind
// are set, clear EActive.
// Return initial iHState, except for new EActive bit
//
__NAKED__ TUint32 NIrqHandler::EventDone()
{
THISCALL_PROLOG0()
asm("mov eax, [ecx+%0]" : : "i" _FOFF(NIrqHandler,iHState));
asm("ed_loop: ");
asm("mov edx, eax ");
asm("cmp edx, 0x10000 ");
asm("jb short ed_rc_0 "); // skip if run count now zero
asm("test dh, 0x03 "); // test EUnbind and EDisable
asm("jz short ed_1 "); // skip if neither set
asm("ed_rc_0: ");
asm("and dh, 0xDF "); // clear EActive
asm("ed_1: ");
asm("lock cmpxchg [ecx+%0], edx" : : "i" _FOFF(NIrqHandler,iHState));
asm("jne short ed_loop "); // someone beat us to it
asm("or dh, 0xDF "); // set all except EActive
asm("and ah, dh "); // clear EActive in return value if we cleared it
THISCALL_EPILOG0() // success - return original iHState with new EActive
}