Enhance the base/rom extension to generate the symbol file of the rom built.
The symbol file is placed in epoc32/rom/<baseport_name>, along with the rom log and final oby file.
// Copyright (c) 1998-2009 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\nkern\arm\vectors.cia
//
//
#define __INCLUDE_NTHREADBASE_DEFINES__
#include <e32cia.h>
#include <arm.h>
void FastMutexNestAttempt();
void FastMutexSignalError();
extern "C" void ExcFault(TAny*);
#ifdef __CPU_HAS_MMU
#define __USE_CP15_FAULT_INFO__
#endif
#ifdef _DEBUG
#define __CHECK_LOCK_STATE__
#endif
//#define __FAULT_ON_FIQ__
#ifdef __CHECK_LOCK_STATE__
// Check that the kernel is unlocked, no fast mutexes are held and that the thread is not in a
// critical section. Called when returning to user mode
__NAKED__ void CheckLockState()
{
asm("stmfd sp!, {r14}");
asm("ldr r12, __TheScheduler ");
asm("ldr r14, [r12, #%a0]" : : "i" _FOFF(TScheduler,iKernCSLocked));
asm("cmp r14, #0 ");
asm("movne r12, #0xdd000000 ");
asm("strne r12, [r12, #1] ");
asm("ldr r12, [r12, #%a0]" : : "i" _FOFF(TScheduler,iCurrentThread));
asm("ldr r14, [r12, #%a0]" : : "i" _FOFF(NThread,iHeldFastMutex));
asm("cmp r14, #0 ");
__CPOPRET(eq, "");
asm("badLockState: ");
asm("mov r12, #0xd7 ");
asm("msr cpsr, r12 ");
asm("mov r12, #0xdd000000 ");
asm("str r12, [r12, #3] ");
}
#endif
__ASSERT_COMPILE(EUserModeCallbackRun == 0);
__NAKED__ void CallUserModeCallbacks()
{
// called with interrupts disabled
// preserves r0 and r1 in additional to usual registers
// leaves current thread in r2
// the vast majority of times this is called with zero or one callback pending
asm(".global callUserModeCallbacks ");
asm("callUserModeCallbacks: ");
asm("ldr ip, __TheScheduler ");
asm("ldr r2, [ip, #%a0]" : : "i" _FOFF(TScheduler, iCurrentThread));
asm("callUserModeCallbacks2: ");
USER_MEMORY_GUARD_ASSERT_ON(ip);
#ifdef __CHECK_LOCK_STATE__
asm("ldr ip, [r2, #%a0]" : : "i" _FOFF(NThread,iCsCount));
asm("cmp ip, #0 ");
asm("bne badLockState ");
#endif
asm("ldr ip, [r2, #%a0]" : : "i" _FOFF(NThread, iUserModeCallbacks));
asm("teq ip, #0");
asm("bne 1f");
__JUMP(,lr);
asm("1: ");
asm("stmfd sp!, {r0-r2, r4-r11, lr}");
asm("movs r4, r3");
// if r3 != 0 it is the user context type to set the thread to
asm("strneb r3, [r2, #%a0]" : : "i" _FOFF(NThread, iUserContextType));
// Remove first callback and enter critical section - we can just set iCsCount to 1 as we are
// guaranteed not be be in a critical section already
asm("ldmia ip, {r1, r3} "); // HARDCODED: TUserModeCallback layout
asm("mov r0, #1");
asm("str r0, [r2, #%a0]" : : "i" _FOFF(NThread, iCsCount));
asm("str r1, [r2, #%a0]" : : "i" _FOFF(NThread,iUserModeCallbacks));
// Re-enable interrupts and call callback
SET_MODE(r0, MODE_SVC, INTS_ALL_ON);
asm("mov r1, #%a0 " : : "i" ((TInt)KUserModeCallbackUnqueued));
asm("str r1, [ip, #%a0]" : : "i" _FOFF(TUserModeCallback, iNext));
asm("mov r0, ip");
asm("mov r1, #0 "); // 0 == EUserModeCallbackRun
__JUMPL(3);
SET_MODE(r0, MODE_SVC, INTS_ALL_OFF);
asm("movs r3, r4");
// Leave critical section, avoid calling NKern::ThreadLeaveCS unless we have to
asm("ldmfd sp!, {r0-r2, r4-r11, lr}");
// reset user context type to undefined if r3 != 0
asm("mov ip, #%a0" : : "i" (NThread::EContextUndefined));
asm("strneb ip, [r2, #%a0]" : : "i" _FOFF(NThread, iUserContextType));
asm("ldr ip, [r2, #%a0]" : : "i" _FOFF(NThread, iCsFunction));
asm("teq ip, #0");
asm("streq ip, [r2, #%a0]" : : "i" _FOFF(NThread, iCsCount));
asm("beq callUserModeCallbacks2 ");
asm("leaveCS:");
asm("sub sp, sp, #48 ");
SET_MODE(r0, MODE_SVC, INTS_ALL_ON);
asm("bl " CSM_ZN5NKern13ThreadLeaveCSEv);
SET_MODE(r0, MODE_SVC, INTS_ALL_OFF);
asm("ldmfd sp!, {r0-r2, r4-r11, lr}");
asm("b callUserModeCallbacks2 ");
}
/***************************************************************************
* SWI Handler
***************************************************************************/
extern "C" __NAKED__ void __ArmVectorSwi()
{
// IRQs disabled, FIQs enabled here
asm("ldr r12, [lr, #-4] "); // get SWI opcode
asm("stmfd sp!, {r11, lr} "); // save return address, r11 for 8 byte align
USER_MEMORY_GUARD_ON_IF_MODE_USR(r11);
asm("ldr r11, __TheScheduler ");
asm("adr lr, fast_swi_exit ");
asm("movs r12, r12, lsl #9 "); // 512*SWI number into r12
asm("bcc slow_swi "); // bit 23=0 for slow/unprot
asm("ldr r1, [r11, #%a0]" : : "i" _FOFF(TScheduler,iCurrentThread));
asm("beq wait_for_any_request "); // special case for Exec::WaitForAnyRequest
#ifdef __CPU_ARM_HAS_CPS
asm("ldr r2, [r1, #%a0]" : : "i" _FOFF(NThread,iFastExecTable));
CPSIDIF; // all interrupts off
asm("ldr r3, [r2], r12, lsr #7 "); // r3=limit, r2->dispatch table entry
asm("ldr r2, [r2] "); // r2->kernel function
asm("cmp r3, r12, lsr #9 "); // r3-SWI number
__JUMP(hi, r2); // if SWI number valid, call kernel function
#else
SET_INTS(r2, MODE_SVC, INTS_ALL_OFF);
asm("ldr r2, [r1, #%a0]" : : "i" _FOFF(NThread,iFastExecTable));
asm("ldr r3, [r2], r12, lsr #7 "); // r3=limit, r2->dispatch table entry
asm("cmp r3, r12, lsr #9 "); // r3-SWI number
asm("ldrhi pc, [r2] "); // if SWI number valid, call kernel function
#endif
asm("mvn r12, #0 "); // put invalid SWI number into r12
asm("b slow_swi "); // go through slow SWI routine to call invalid SWI handler
asm("fast_swi_exit: ");
#ifdef __CHECK_LOCK_STATE__
asm("mrs r12, spsr ");
asm("tst r12, #0x0f ");
asm("bleq " CSM_Z14CheckLockStatev);
#endif
USER_MEMORY_GUARD_OFF_IF_MODE_USR(r11);
ERRATUM_353494_MODE_CHANGE(,r11);
asm("ldmfd sp!, {r11, pc}^ "); // return and restore cpsr
asm("slow_swi: "); // IRQs off, FIQs on here
asm("stmfd sp!, {r3-r10} "); // save nonvolatile registers, r3 for 8 byte align
asm("ldr r9, [r11, #%a0]" : : "i" _FOFF(TScheduler,iCurrentThread)); // r9->current thread
SET_INTS(lr, MODE_SVC, INTS_ALL_ON); // all interrupts on
asm("mov r10, r11 "); // r10->scheduler
asm("ldr r4, [r9, #%a0]" : : "i" _FOFF(NThread,iSlowExecTable));
asm("mrs r11, spsr "); // spsr_svc into r11
asm("adr lr, slow_swi_exit ");
asm("add r6, r4, r12, lsr #6 "); // r6->dispatch table entry
asm("ldr r5, [r4, #-12] "); // r5=limit
SET_INTS_1(r7, MODE_SVC, INTS_ALL_OFF);
asm("cmp r5, r12, lsr #9 "); // r5-SWI number
asm("ldmhiia r6, {r5,r6} "); // if SWI number OK, flags into r5, function addr into r6
asm("ldrls pc, [r4, #-8] "); // if SWI number invalid, call invalid handler
asm("tst r5, #%a0" : : "i" ((TInt)KExecFlagExtraArgMask)); // extra arguments needed?
asm("addne r2, sp, #4 "); // if so, point r2 at saved registers on stack
asm("tst r5, #%a0" : : "i" ((TInt)KExecFlagClaim)); // claim system lock?
asm("beq slow_swi_no_wait "); // skip if not
SET_INTS_2(r7, MODE_SVC, INTS_ALL_OFF); // interrupts off
#ifdef _DEBUG
asm("ldr r12, [r9, #%a0]" : : "i" _FOFF(NThread,iHeldFastMutex));
asm("cmp r12, #0 ");
asm("bne " CSM_Z20FastMutexNestAttemptv); // debug check that current thread doesn't already hold a fast mutex
#endif
asm("ldr r12, [r10, #%a0]!" : : "i" _FOFF(TScheduler,iLock.iHoldingThread)); // r12=iLock.iHoldingThread
SET_INTS_1(r7, MODE_SVC, INTS_ALL_ON);
asm("cmp r12, #0 "); // is system lock already held?
asm("bne ss_fast_mutex_held "); // branch if it is
asm("ss_fast_mutex_obtained: ");
asm("str r10, [r9, #%a0]" : : "i" _FOFF(NThread,iHeldFastMutex)); // current thread->iHeldFastMutex=&iLock
asm("str r9, [r10], #-%a0" : : "i" _FOFF(TScheduler,iLock)); // iLock.iHoldingThread=current thread, r10->scheduler
#ifdef BTRACE_FAST_MUTEX
asm("ldrb r12, [r10,#%a0]" : : "i" (_FOFF(TScheduler,iFastMutexFilter)));
asm("cmp r12, #0");
asm("bne syslock_trace_wait");
asm("syslock_trace_wait_done:");
#endif
SET_INTS_2(r7, MODE_SVC, INTS_ALL_ON); // all interrupts on
asm("slow_swi_no_wait: ");
asm("tst r5, #%a0" : : "i" ((TInt)KExecFlagPreprocess)); // preprocess (handle lookup)? can use r4, r7, r8, r12, r0
asm("mov lr, pc ");
asm("ldrne pc, [r4, #-4] "); // call preprocess handler if required
asm("mov lr, pc ");
__JUMP(,r6); // call exec function, preserve r5,r11 if release syslock not required
// preserve r5,r9,r10,r11 if release required
asm("tst r5, #%a0" : : "i" ((TInt)KExecFlagRelease)); // release system lock?
asm("beq slow_swi_exit "); // skip if not
SET_INTS(r12, MODE_SVC, INTS_ALL_OFF); // disable interrupts
#ifdef _DEBUG
asm("add r8, r10, #%a0" : : "i" _FOFF(TScheduler,iLock));
asm("ldr r12, [r9, #%a0]" : : "i" _FOFF(NThread,iHeldFastMutex));
asm("cmp r12, r8 ");
asm("bne " CSM_Z20FastMutexSignalErrorv); // debug check that current thread holds system lock
#endif
#ifdef BTRACE_FAST_MUTEX
asm("ldrb r12, [r10,#%a0]" : : "i" (_FOFF(TScheduler,iFastMutexFilter)));
asm("cmp r12, #0");
asm("bne syslock_trace_signal");
asm("syslock_trace_signal_done:");
#endif
asm("mov r12, #0 ");
asm("str r12, [r10, #%a0]" : : "i" _FOFF(TScheduler,iLock.iHoldingThread)); // iLock.iHoldingThread=NULL
asm("str r12, [r9, #%a0]" : : "i" _FOFF(NThread,iHeldFastMutex)); // current thread->iHeldFastMutex=NULL
asm("ldr r3, [r10, #%a0]" : : "i" _FOFF(TScheduler,iLock.iWaiting)); // r3=iLock.iWaiting
asm("str r12, [r10, #%a0]" : : "i" _FOFF(TScheduler,iLock.iWaiting)); // iLock.iWaiting=0
SET_INTS_1(r8, MODE_SVC, INTS_ALL_ON);
asm("cmp r3, #0 "); // check waiting flag
asm("bne ss_signal_check "); // branch if set
asm("ss_signal_done: ");
SET_INTS_2(r8, MODE_SVC, INTS_ALL_ON); // otherwise reenable interrupts
asm("slow_swi_exit: ");
#ifdef __CHECK_LOCK_STATE__
asm("tst r11, #0x0f ");
asm("bleq " CSM_Z14CheckLockStatev);
#endif
SET_INTS(r12, MODE_SVC, INTS_ALL_OFF); // disable interrupts
asm("msr spsr, r11 "); // restore spsr_svc
asm("tst r11, #0x0f ");
asm("mov r3, #0 ");
#if defined(__CPU_CORTEX_A9__) && !defined(__CPU_ARM_A9_ERRATUM_571622_FIXED)
asm("nop "); // ARM Cortex-A9 MPCore erratum 571622 workaround
// Insert nops so branch doesn't occur in 2nd or 3rd position after a msr spsr
#endif
asm("bleq callUserModeCallbacks "); // call user-mode callbacks
USER_MEMORY_GUARD_OFF_IF_MODE_USR(r11);
ERRATUM_353494_MODE_CHANGE(,r11);
asm("ldmfd sp!, {r3-r11,pc}^ "); // return from EXEC function
// Come here if we need to wait for the system lock
// r9->current thread, r10=&iLock, r12=iLock.iHoldingThread
asm("ss_fast_mutex_held: ");
asm("mov r8, #1 ");
asm("str r8, [r10, #%a0]" : : "i" (_FOFF(TScheduler,iKernCSLocked)-_FOFF(TScheduler,iLock))); // lock the kernel
SET_INTS_2(r7, MODE_SVC, INTS_ALL_ON); // enable interrupts
asm("str r8, [r10, #4] "); // iWaiting=1
asm("str r10, [r9, #%a0]" : : "i" _FOFF(NThread,iWaitFastMutex)); // current thread->iWaitFastMutex=&iLock
asm("stmfd sp!, {r0-r3} "); // save exec call arguments
asm("mov r0, r12 "); // parameter for YieldTo
ASM_DEBUG1(NKFMWaitYield,r0);
asm("bl " CSM_ZN10TScheduler7YieldToEP11NThreadBase); // yield to the mutex holding thread
// will not return until the mutex is free
// on return r0=Scheduler,r1=0,r2!=0,r3=current thread, kernel unlocked, interrupts disabled
asm("str r1, [r9, #%a0]" : : "i" _FOFF(NThread,iWaitFastMutex)); // iWaitFastMutex=NULL
asm("ldmfd sp!, {r0-r3} "); // retrieve exec call arguments
asm("b ss_fast_mutex_obtained "); // branch back to main code path
// Come here if we need to reschedule after releasing the system lock
// kernel unlocked, interrupts enabled, r0 contains return value from Exec call
// r9->current thread, r10=&TheScheduler, r3=1, r8=0x13
asm("ss_signal_check: ");
asm("str r3, [r10, #%a0]" : : "i" _FOFF(TScheduler,iKernCSLocked)); // lock the kernel (assumes iWaiting always 0 or 1)
SET_INTS_2(r8, MODE_SVC, INTS_ALL_ON); // reenable interrupts
asm("strb r3, [r10, #%a0]" : : "i" _FOFF(TScheduler,iRescheduleNeededFlag));
asm("ldr r3, [r9, #%a0]" : : "i" _FOFF(NThread,iCsFunction)); // r3=current thread->iCsFunction
asm("ldr r2, [r9, #%a0]" : : "i" _FOFF(NThread,iCsCount)); // r2=current thread->iCsCount
asm("mov r4, r0 "); // save return value
asm("cmp r3, #0 "); // outstanding CS function?
asm("beq 2f "); // branch if not
asm("cmp r2, #0 "); // iCsCount!=0 ?
asm("moveq r0, r9 "); // if iCsCount=0, DoCsFunction()
asm("bleq " CSM_ZN11NThreadBase12DoCsFunctionEv);
asm("2: ");
asm("bl " CSM_ZN10TScheduler10RescheduleEv); // reschedule to allow waiting thread in
asm("mov r0, r4 "); // recover return value
asm("b ss_signal_done "); // branch back to main code path
#ifdef BTRACE_FAST_MUTEX
asm("syslock_trace_wait:");
asm("ldr r12, [sp,#9*4]"); // r12 = return address from SWI
asm("mov r8, r3"); // save r3
asm("stmdb sp!,{r0-r2,r12}"); // 4th item on stack is PC value for trace
asm("ldr r0, fmwait_trace_header");
asm("mov r2, r9"); // current thread
asm("add r3, r10, #%a0" : : "i" _FOFF(TScheduler,iLock));
asm("mov lr, pc");
asm("ldr pc, [r10, #%a0]" : : "i" _FOFF(TScheduler,iBTraceHandler));
asm("ldmia sp!,{r0-r2,r12}");
asm("mov r3, r8"); // restore r3
asm("b syslock_trace_wait_done");
asm("syslock_trace_signal:");
asm("ldr r12, [sp,#9*4]"); // r12 = return address from SWI
asm("stmdb sp!,{r0-r2,r12}"); // 4th item on stack is PC value for trace
asm("ldr r0, fmsignal_trace_header");
asm("mov r2, r9"); // current thread
asm("add r3, r10, #%a0" : : "i" _FOFF(TScheduler,iLock));
asm("mov lr, pc");
asm("ldr pc, [r10, #%a0]" : : "i" _FOFF(TScheduler,iBTraceHandler));
asm("ldmia sp!,{r0-r2,r12}");
asm("b syslock_trace_signal_done");
asm("fmsignal_trace_header:");
asm(".word %a0" : : "i" ((TInt)(16<<BTrace::ESizeIndex) + ((BTrace::EContextIdPresent|BTrace::EPcPresent) << BTrace::EFlagsIndex*8) + (BTrace::EFastMutex<< BTrace::ECategoryIndex*8) + (BTrace::EFastMutexSignal << BTrace::ESubCategoryIndex*8)) );
asm("fmwait_trace_header:");
asm(".word %a0" : : "i" ((TInt)(16<<BTrace::ESizeIndex) + ((BTrace::EContextIdPresent|BTrace::EPcPresent) << BTrace::EFlagsIndex*8) + (BTrace::EFastMutex << BTrace::ECategoryIndex*8) + (BTrace::EFastMutexWait << BTrace::ESubCategoryIndex*8)) );
#endif
}
/***************************************************************************
* IRQ Postamble
* This routine is called after the IRQ has been dispatched
* spsr_irq, r4-r11 are unmodified
* spsr_irq,r0-r3,r12,return address are on the top of the IRQ stack
***************************************************************************/
extern "C" __NAKED__ void __ArmVectorIrq()
{
// FIQs enabled here but not IRQs
asm("ldr r1, __TheScheduler ");
asm("mrs r0, spsr "); // check interrupted mode
asm("add r12, sp, #%a0 " : : "i" (4*(6+USER_MEMORY_GUARD_SAVE_WORDS))); // r12=sp_irq+6 or 8 words
asm("and r2, r0, #0x1f ");
asm("ldr r3, [r1, #%a0]" : : "i" _FOFF(TScheduler,iKernCSLocked)); // r3=KernCSLocked
asm("cmp r2, #0x10 "); // check for mode_usr
asm("cmpne r2, #0x13 "); // or mode_svc
asm("cmpeq r3, #0 "); // and then check if kernel locked
asm("bne IrqExit0 "); // if wrong mode or locked, return immediately
SET_INTS(r2, MODE_IRQ, INTS_ALL_OFF); // disable FIQs before we check for reschedule
asm("ldr r2, [r1, #%a0]" : : "i" _FOFF(TScheduler,iRescheduleNeededFlag)); // r2=DfcPendingFlag/RescheduleNeededFlag
asm("add r3, r3, #1 ");
SET_MODE_1(lr, MODE_SVC, INTS_ALL_ON);
asm("cmp r2, #0 "); // check if reschedule needed
asm("beq IrqExit0 "); // if not, return immediately
asm("str r3, [r1, #%a0]" : : "i" _FOFF(TScheduler,iKernCSLocked)); // lock the kernel
SET_MODE_2(lr, MODE_SVC, INTS_ALL_ON); // mode_svc, interrupts back on
asm("ldmdb r12!, {r1-r3} "); // move saved registers (r0-r3,r12,pc) over to mode_svc stack
asm("stmfd sp!, {r1-r3} ");
asm("ldmdb r12!, {r1-r3} ");
asm("stmfd sp!, {r1-r3} ");
asm("stmfd sp!, {r0,lr} "); // store lr_svc and interrupted cpsr on current mode_svc stack
#ifdef __USER_MEMORY_GUARDS_ENABLED__
asm("ldmdb r12, {r1-r2} ");
asm("stmfd sp!, {r1-r2} "); // move user guard over to mode_svc stack
#endif
SET_MODE_1(r2, MODE_SVC, INTS_ALL_ON);
SET_MODE(lr, MODE_IRQ, INTS_IRQ_OFF); // mode_irq, IRQs off
asm("add sp, r12, #24 "); // restore mode_irq stack balance
SET_MODE_2(r2, MODE_SVC, INTS_ALL_ON); // back to mode_svc, IRQs on
// reschedule - this also switches context if necessary
// enter this function in mode_svc, interrupts on, kernel locked
// exit this function in mode_svc, all interrupts off, kernel unlocked
asm("irq_do_resched: ");
asm("bl " CSM_ZN10TScheduler10RescheduleEv);
asm(".global irq_resched_return ");
asm("irq_resched_return: ");
SET_MODE(r2, MODE_SVC, INTS_ALL_OFF); // all interrupts off
asm("ldr r1, [sp, #%a0] " : : "i" (4*USER_MEMORY_GUARD_SAVE_WORDS)); // get interrupted cpsr, don't unbalance stack
#ifdef __CHECK_LOCK_STATE__
asm("mov r2, r12 ");
asm("tst r1, #0x0f ");
asm("bleq " CSM_Z14CheckLockStatev);
asm("mov r12, r2 ");
#endif
asm("tst r1, #0x0f ");
asm("mov r3, #%a0 " : : "i" (NThread::EContextUserIntrCallback));
asm("bleq callUserModeCallbacks "); // call user-mode callbacks
#ifdef __USER_MEMORY_GUARDS_ENABLED__
asm("ldr r1, [sp], #%a0 " : : "i" (4*USER_MEMORY_GUARD_SAVE_WORDS)); // pop saved DACR, adjust sp
USER_MEMORY_GUARD_RESTORE(r1,lr);
#endif
asm("ldmfd sp!, {r1, lr} "); // restore lr_svc
asm("add sp, sp, #24 "); // restore mode_svc stack balance
asm("mov r12, sp "); // r12=address of remaining saved registers
SET_MODE(r2, MODE_IRQ, INTS_ALL_OFF); // back into mode_irq, all interrupts off
asm("msr spsr, r1 "); // interrupted cpsr into spsr_irq
ERRATUM_353494_MODE_CHANGE(,r12);
asm("ldmdb r12, {r0-r3,r12,pc}^ "); // return from interrupt
asm("IrqExit0: ");
#ifdef __CHECK_LOCK_STATE__
asm("tst r0, #0x0f ");
asm("bleq " CSM_Z14CheckLockStatev);
#endif
asm("IrqExit1: "); // entry point for __ArmVectorIrqPostambleNoResched()
#ifdef __USER_MEMORY_GUARDS_ENABLED__
asm("ldr lr, [sp], #%a0 " : : "i" (4*USER_MEMORY_GUARD_SAVE_WORDS)); // pop saved DACR, adjust sp
USER_MEMORY_GUARD_RESTORE(lr,r12);
#endif
#ifdef BTRACE_CPU_USAGE
asm("ldrb r2, [r1,#%a0]" : : "i" _FOFF(TScheduler,iCpuUsageFilter));
asm("mov r0, #%a0" : : "i" ((TInt)4 ) );
asm("add r0, r0, #%a0" : : "i" ((TInt)(BTrace::ECpuUsage<<BTrace::ECategoryIndex*8)+(BTrace::EIrqEnd<<BTrace::ESubCategoryIndex*8)) );
asm("cmp r2, #0");
asm("movne lr, pc");
asm("ldrne pc, [r1,#%a0]" : : "i" _FOFF(TScheduler,iBTraceHandler));
#endif
ERRATUM_353494_MODE_CHANGE(,r12);
asm("ldmfd sp!, {r0-r3,r12,pc}^ "); // return from interrupt
}
/***************************************************************************
* IRQ Postamble which will not reschedule (can be returned to by co-resident OS).
* This routine is called after the IRQ has been dispatched
* spsr_irq, r4-r11 are unmodified
* spsr_irq,r0-r3,r12,return address are on the top of the IRQ stack
***************************************************************************/
extern "C" EXPORT_C __NAKED__ void __ArmVectorIrqPostambleNoResched()
{
// FIQs enabled here but not IRQs
asm("ldr r1, __TheScheduler ");
asm("b IrqExit1 ");
}
/***************************************************************************
* FIQ Postamble
* This routine is called after the FIQ has been dispatched
* spsr_fiq, r0-r3 are unmodified
* Return address is on the top of the FIQ stack
***************************************************************************/
extern "C" __NAKED__ void __ArmVectorFiq()
{
#ifdef __FAULT_ON_FIQ__
asm(".word 0xe7f10f10 ");
#endif
// IRQs and FIQs disabled here
// r0-r7 are unaltered from when FIQ occurred
asm("ldr r9, __TheScheduler ");
#ifdef __USER_MEMORY_GUARDS_ENABLED__
asm("ldr r12, [sp], #4 "); // pop saved DACR
#endif
asm("mrs r8, spsr "); // check interrupted mode
asm("and r10, r8, #0x1f ");
asm("cmp r10, #0x10 "); // check for mode_usr
asm("ldr r11, [r9, #%a0]" : : "i" _FOFF(TScheduler,iKernCSLocked));
asm("cmpne r10, #0x13 "); // or mode_svc
asm("ldreq r10, [r9, #%a0]" : : "i" _FOFF(TScheduler,iRescheduleNeededFlag));
asm("cmpeq r11, #0 "); // and check if kernel locked
asm("bne FiqExit0 "); // if wrong mode or kernel locked, return immediately
asm("cmp r10, #0 "); // check if reschedule needed
asm("beq FiqExit0 "); // if not, return from interrupt
// we interrupted mode_usr or mode_svc, kernel unlocked, reschedule needed
asm("add r11, r11, #1 ");
asm("str r11, [r9, #%a0]" : : "i" _FOFF(TScheduler,iKernCSLocked)); // lock the kernel
asm("stmfd sp!, {r1-r3} "); // save interrupted r1-r3 on FIQ stack
asm("mov r1, r8 "); // r1=interrupted cpsr
asm("mov r3, sp "); // r3 points to saved registers
#ifdef __USER_MEMORY_GUARDS_ENABLED__
asm("mov r2, r12 "); // saved DACR into R2
#endif
SET_MODE(lr, MODE_SVC, INTS_ALL_ON); // switch to mode_svc, IRQs and FIQs back on
#ifdef __USER_MEMORY_GUARDS_ENABLED__
asm("str r2, [sp, #%a0]! " : : "i" (-4*(8+USER_MEMORY_GUARD_SAVE_WORDS))); // save DACR and leave room for spare, cpsr, lr_svc, r0-r3, r12, pc
#else
asm("sub sp, sp, #32 "); // make room for saved registers on mode_svc stack
#endif
asm("ldr r2, [r3, #12] "); // r2=return address
asm("str r12, [sp, #%a0] " : : "i" (4*(6+USER_MEMORY_GUARD_SAVE_WORDS))); // save r12 on mode_svc stack
asm("str r2, [sp, #%a0] " : : "i" (4*(7+USER_MEMORY_GUARD_SAVE_WORDS))); // save return address on mode_svc stack
asm("add r12, sp, #%a0 " : : "i" (4*(USER_MEMORY_GUARD_SAVE_WORDS)));
asm("stmia r12!, {r1,lr} "); // save interrupted cpsr and lr_svc
asm("ldmia r3, {r1,r2,lr} "); // retrieve original r1-r3 from mode_fiq stack
asm("stmia r12, {r0-r2,lr} "); // save original r0-r3 - saved register order is now cpsr,lr_svc,r0-r3,r12,pc
SET_MODE_1(r2, MODE_SVC, INTS_ALL_ON);
SET_MODE(lr, MODE_FIQ, INTS_ALL_OFF); // mode_fiq, IRQs and FIQs off
asm("add sp, r3, #16 "); // restore mode_fiq stack balance
SET_MODE_2(r2, MODE_SVC, INTS_ALL_ON); // back to mode_svc, IRQs on
asm("adr lr, irq_resched_return ");
asm("b " CSM_ZN10TScheduler10RescheduleEv); // do reschedule and return to irq_resched_return
asm("FiqExit0:"); // also entry point for __ArmVectorFiqPostambleNoResched()
USER_MEMORY_GUARD_RESTORE(r12,lr);
#ifndef BTRACE_CPU_USAGE
ERRATUM_353494_MODE_CHANGE(,r11);
asm("ldmfd sp!, {pc}^ "); // return from interrupt
#else
asm("ldrb r8, [r9,#%a0]" : : "i" _FOFF(TScheduler,iCpuUsageFilter));
asm("mov r10, #%a0" : : "i" ((TInt)(BTrace::ECpuUsage<<BTrace::ECategoryIndex*8)+(BTrace::EFiqEnd<<BTrace::ESubCategoryIndex*8)) );
asm("adr lr, FiqTraceExit0");
asm("cmp r8, #0");
ERRATUM_353494_MODE_CHANGE(eq,r8);
asm("ldmeqfd sp!, {pc}^ "); // return from interrupt if trace not enabled
asm("stmfd sp!, {r0-r3} ");
asm("add r0, r10, #%a0" : : "i" ((TInt)4 ) );
asm("ldr pc, [r9,#%a0]" : : "i" _FOFF(TScheduler,iBTraceHandler));
asm("FiqTraceExit0:");
ERRATUM_353494_MODE_CHANGE(,r3);
asm("ldmfd sp!, {r0-r3,pc}^ "); // return from interrupt
#endif
asm("__TheScheduler: ");
asm(".word TheScheduler ");
}
/***************************************************************************
* FIQ Postamble which will not reschedule (can be returned to by co-resident OS).
* This routine is called after the FIQ has been dispatched
* spsr_fiq, r0-r3 are unmodified
* Return address is on the top of the FIQ stack
***************************************************************************/
extern "C" EXPORT_C __NAKED__ void __ArmVectorFiqPostambleNoResched()
{
#ifdef __FAULT_ON_FIQ__
asm(".word 0xe7f10f10 ");
#endif
// IRQs and FIQs disabled here
// r0-r7 are unaltered from when FIQ occurred
asm("ldr r9, __TheScheduler ");
#ifdef __USER_MEMORY_GUARDS_ENABLED__
asm("ldr r12, [sp], #4 "); // pop saved DACR
#endif
asm("b FiqExit0 ");
}
extern "C" __NAKED__ void __ArmVectorAbortData()
//
// Data abort
//
{
#if defined(__CPU_CORTEX_A8__) && (!defined(__CPU_ARM_A8_ERRATUM_447862_FIXED) || !defined(__CPU_ARM_A8_ERRATUM_451027_FIXED))
ARM_DMBSH; // ARM Cortex-A8 erratum 447862/451027 workaround
#endif
asm("sub lr, lr, #8"); // lr now points to aborted instruction
asm("stmfd sp!, {r0-r4,r12,lr}"); // save it along with r0-r4,r12
#if defined(__CPU_ARM_HAS_WORKING_CLREX)
CLREX // reset exclusive monitor
#elif defined(__CPU_ARM_HAS_LDREX_STREX)
STREX(12,0,13); // dummy STREX to reset exclusivity monitor
#endif
asm("mov r1, #%a0 " : : "i" ((TInt)EArmExceptionDataAbort));
// generic exception handler
// come here with r1=exception code, lr points to aborted instruction, r0-r4,r12,lr saved
asm("handle_exception: ");
asm("mrs r0, spsr "); // r0=value of cpsr when abort occurred
asm("handle_exception2: ");
asm("mrs r12, cpsr ");
asm("and r3, r0, #0x1f "); // r3=processor mode when abort occurred
asm("bic r12, r12, #0xc0 ");
asm("cmp r3, #0x10 "); // aborted in user mode?
asm("cmpne r3, #0x13 "); // if not, aborted in mode_svc?
asm("bne fatal_exception_mode "); // if neither, fault
asm("msr cpsr, r12 "); // reenable interrupts - rescheduling disabled by mode_abt/mode_und
asm("ldr r2, __TheScheduler ");
asm("mov r3, sp "); // r3 points to saved registers
asm("ldr r4, [r2, #%a0]" : : "i" _FOFF(TScheduler,iKernCSLocked));
asm("cmp r4, #0 "); // exception with kernel locked?
asm("bne fatal_exception_mode "); // if so, fault
asm("add r4, r4, #1 "); // lock the kernel
asm("str r4, [r2, #%a0]" : : "i" _FOFF(TScheduler,iKernCSLocked));
asm("mov r4, #0x13 ");
asm("msr cpsr, r4 "); // mode_svc, interrupts on, kernel locked
asm("ldr r4, [r2, #%a0]" : : "i" _FOFF(TScheduler,iCurrentThread));
asm("tst r0, #0x0f "); // check if exception in mode_usr
asm("mov r2, #%a0 " : : "i" ((TInt)NThread::EContextException));
asm("streqb r2, [r4, #%a0]" : : "i" _FOFF(NThread,iSpare3)); // if so, set iUserContextType = EContextException
asm("add r4, r4, #%a0" : : "i" _FOFF(NThread,iStackBase));
asm("ldmia r4, {r2,r4} "); // r2=supervisor stack area base, r4=size
asm("subs r2, sp, r2 "); // r2=amount of mode_svc stack remaining
asm("blo fatal_exception_stack "); // if stack pointer invalid, fault
asm("cmp r2, r4 ");
asm("bhi fatal_exception_stack ");
asm("cmp r2, #128 "); // check enough stack to handle exception
asm("blo fatal_exception_stack "); // if not, fault
// At this point we are in mode_svc with interrupts enabled and the kernel locked.
// We know the supervisor stack is valid and has enough free space to store the exception info.
// Registers: R0=aborted cpsr, R1=exception type, R2,R4 scratch, R3 points to saved registers
// on mode_abt or mode_und stack, R12 holds mode of exception (mode_abt or mode_und).
asm("ldr r4, [r3, #16] "); // restore original r4
asm("mov r2, sp "); // r2=sp_svc when abort occurred
asm("sub sp, sp, #92 "); // push 23 words onto mode_svc stack
asm("stmia sp, {r0-r2,r4-r11,lr} "); // save cpsr, exc id, sp_svc, r4-r11, lr_svc
asm("ldmia r3!, {r4-r10} "); // get registers from mode_abt or mode_und stack
asm("stmdb r2!, {r4-r7,r9,r10} "); // transfer saved registers from exception stack except r4
asm("stmdb r2, {r13,r14}^ "); // save sp_usr and lr_usr
asm("sub r2, r2, #20 ");
// Set r0 = fault address and r1 = fault status.
// For prefetch aborts use IFAR if it exists otherwise use the return address.
#ifdef __USE_CP15_FAULT_INFO__
asm("cmp r1, #%a0 " : : "i" ((TInt)EArmExceptionPrefetchAbort));
#ifdef __CPU_ARM_HAS_SPLIT_FSR
asm("mrcne p15, 0, r1, c5, c0, 0"); // r1 = data fault status
asm("mrcne p15, 0, r0, c6, c0, 0"); // r0 = DFAR fault address
asm("mrceq p15, 0, r1, c5, c0, 1"); // r1 = instruction fault status
#ifdef __CPU_ARM_HAS_CP15_IFAR
asm("mrceq p15, 0, r0, c6, c0, 2"); // r0 = IFAR fault address
#else
asm("moveq r0, r10"); // r0 = return address.
#endif // __CPU_ARM_HAS_CP15_IFAR
#else
asm("mrcne p15, 0, r0, c6, c0"); // r0 = fault address
asm("moveq r0, r10"); // r0 = return address.
asm("mrc p15, 0, r1, c5, c0"); // r1 = fault status
#endif // __CPU_ARM_HAS_SPLIT_FSR
#endif // __USE_CP15_FAULT_INFO__
asm("mrs r3, spsr "); // r3=spsr_svc
asm("stmia r2, {r0,r1,r3} "); // save these
asm("msr cpsr, r12 "); // back into exception mode
asm("add sp, sp, #28 "); // restore exception stack balance
asm("mov r5, #0x13 ");
asm("msr cpsr, r5 "); // back into mode_svc
// Now we can unlock the kernel and process the exception
asm("bl " CSM_ZN10TScheduler10RescheduleEv);
asm("msr cpsr, r5 "); // enable interrupts
// call the exception dispatcher, r3 is the current thread
asm("ldr r12, [r3, #%a0]" : : "i" _FOFF(NThread,iHandlers));
asm("mov r1, r3 ");
asm("mov r0, sp "); // r0 points to saved exception information
asm("sub sp, sp, #4 "); // make room for r0
asm("bic sp, sp, #4 "); // align stack to 8 byte boundary
asm("str r0, [sp] "); // save original stack pointer
USER_MEMORY_GUARD_ON(,r11,lr);
asm("ldr r12, [r12, #%a0]" : : "i" _FOFF(SNThreadHandlers,iExceptionHandler));
asm("mov lr, pc ");
__JUMP(,r12); // call exception handler
USER_MEMORY_GUARD_RESTORE(r11,lr);
asm("ldr sp, [sp, #0] "); // restore stack pointer
// return from exception
asm("ldr r0, __TheScheduler ");
asm("mov r3, sp ");
asm("ldr r2, [r0, #%a0]" : : "i" _FOFF(TScheduler,iCurrentThread));
asm("ldr r0, [r3], #12 "); // r0=cpsr, skip exc id and sp_svc
asm("ldmfd r3!, {r4-r11,lr} "); // restore r4-r11 and lr_svc
asm("ldr r12, [r3, #8]! "); // skip fault address and fault status, r12=spsr_svc
asm("ldmib r3, {r13,r14}^ "); // restore sp_usr and lr_usr
asm("add r1, r3, #12 "); // r3 points to saved r0-r3,r12,pc
asm("mov r3, #0xd3 ");
asm("msr cpsr, r3 "); // mode_svc, all interrupts off
asm("msr spsr, r12 "); // restore spsr_svc
asm("tst r0, #0x0f "); // check if exception in mode_usr
#if defined(__CPU_CORTEX_A9__) && !defined(__CPU_ARM_A9_ERRATUM_571622_FIXED)
asm("nop "); // ARM Cortex-A9 MPCore erratum 571622 workaround
asm("nop "); // Insert nops so branch doesn't occur in 2nd or 3rd position after a msr spsr
#endif
#ifdef __CHECK_LOCK_STATE__
asm("bleq " CSM_Z14CheckLockStatev);
asm("tst r0, #0x0f "); // recheck if exception in mode_usr
#endif
asm("bne 1f ");
#ifdef __USER_MEMORY_GUARDS_ENABLED__
USER_MEMORY_GUARD_ON(,lr,r12);
asm("tst lr, #0xc0000000 "); // user memory enabled?
asm("adrne lr, 2f "); // yes - enable it after callbacks
#endif
asm("adreq lr, 1f "); // no - leave it disabled after callbacks
asm("mov r3, #0 ");
asm("b callUserModeCallbacks2 "); // call user-mode callbacks
asm("2: ");
USER_MEMORY_GUARD_OFF(,lr,lr);
asm("1: ");
asm("tst r0, #0x0f "); // check if exception in mode_usr
asm("mov r3, #%a0 " : : "i" ((TInt)NThread::EContextUndefined));
asm("streqb r3, [r2, #%a0]" : : "i" _FOFF(NThread,iSpare3)); // if so, set iUserContextType = EContextUndefined
asm("add sp, r1, #24 "); // restore mode_svc stack balance
asm("mov r2, #0xd7 ");
asm("msr cpsr, r2 "); // mode_abt, all interrupts off
asm("msr spsr, r0 "); // spsr_abt=aborted cpsr
ERRATUM_353494_MODE_CHANGE(,r12);
asm("ldmia r1, {r0-r3,r12,pc}^ "); // restore r0-r3,r12 and return from exception
// get here if exception occurred in mode other than usr or svc
// we are in mode_abt or mode_und with IRQs disabled
asm("fatal_exception_mode: ");
asm("ldr r2, __TheScheduler ");
asm("ldr lr, [r2, #%a0]" : : "i" _FOFF(TScheduler,iMonitorExceptionHandler));
asm("cmp lr, #0 ");
__JUMP(ne,lr); // if crash debugger running, let it handle exception
// get here if mode_svc stack has overflowed
// we are in mode_svc with interrupts enabled and the kernel locked
// R0=original CPSR R1=exc code R12=mode of exception
asm("fatal_exception_stack: ");
asm("orr r3, r12, #0xC0 ");
asm("msr cpsr, r3 "); // back to exception mode, all interrupts off
asm("mov r2, r0 ");
asm("ldr r0, __TheScheduler ");
asm("ldr r0, [r0, #%a0]" : : "i" _FOFF(TScheduler,i_Regs)); // pass in address of stored registers
asm("bl " CSM_ZN3Arm9SaveStateER14SFullArmRegSet );
asm("str r1, [r0, #%a0]" : : "i" _FOFF(SFullArmRegSet,iExcCode));
asm("str r2, [r0, #%a0]" : : "i" _FOFF(SFullArmRegSet,iN.iFlags));
asm("ldmia sp!, {r3-r7} "); // get original R0-R4
asm("stmia r0, {r1-r5} "); // save original R0-R4
asm("ldmia sp!, {r6,r7} "); // get original R12 and aborted instruction address
asm("str r6, [r0, #%a0]" : : "i" _FOFF(SFullArmRegSet,iN.iR12));
asm("str r7, [r0, #%a0]" : : "i" _FOFF(SFullArmRegSet,iN.iR15));
asm("mov r1, #13 "); // r1 = regnum
asm("mrs r2, cpsr "); // r2 = mode
asm("mov r4, r0 ");
asm("bl " CSM_ZN3Arm3RegER14SFullArmRegSetim ); // r0 = pointer to exception mode R13
asm("str sp, [r0] "); // save correct original value for exception mode R13
// call the exception fault dispatcher
asm("mov r0, #0 ");
asm("b ExcFault ");
}
extern "C" __NAKED__ void __ArmVectorAbortPrefetch()
//
// Prefetch abort
//
{
asm("sub lr, lr, #4"); // lr now points to instruction whose prefetch was aborted
asm("stmfd sp!, {r0-r4,r12,lr}"); // save it along with r0-r4,r12
#if defined(__CPU_ARM_HAS_WORKING_CLREX)
CLREX // reset exclusive monitor
#elif defined(__CPU_ARM_HAS_LDREX_STREX)
STREX(12,0,13); // dummy STREX to reset exclusivity monitor
#endif
asm("mov r1, #%a0 " : : "i" ((TInt)EArmExceptionPrefetchAbort));
asm("b handle_exception ");
}
extern "C" __NAKED__ void __ArmVectorUndef()
//
// Undefined instruction exception
//
{
asm("sub lr, lr, #4"); // lr now points to undefined instruction
asm("stmfd sp!, {r0-r4,r12,lr}"); // save it along with r0-r4,r12
#if defined(__CPU_ARM_HAS_WORKING_CLREX)
CLREX // reset exclusive monitor
#elif defined(__CPU_ARM_HAS_LDREX_STREX)
STREX(12,0,13); // dummy STREX to reset exclusivity monitor
#endif
asm("mrs r0, spsr "); // r0=CPSR at time of exception
asm("mov r1, #%a0 " : : "i" ((TInt)EArmExceptionUndefinedOpcode));
asm("tst r0, #0x20 "); // exception in THUMB mode?
asm("addne lr, lr, #2 "); // if so, correct saved return address
asm("strne lr, [sp, #24] ");
asm("b handle_exception2 ");
}