Merge branch 'less-ambitious-timing-rework' into chemical-x

This commit is contained in:
Jaklyy 2024-10-11 02:04:41 -04:00
commit 6b8671d80a
5 changed files with 197 additions and 219 deletions

View File

@ -210,6 +210,7 @@ void ARMv5::Reset()
WBWritePointer = 16;
WBFillPointer = 0;
WBDelay = 0;
ARM::Reset();
}

View File

@ -683,6 +683,7 @@ public:
u8 WBWritePointer;
u8 WBFillPointer;
u64 WBDelay;
u32 WBAddr; // current working address for the write buffer
u32 storeaddr[16]; // debugging
u64 WBCycles[16]; // timestamp each write will complete

View File

@ -98,7 +98,8 @@ void A_MSR_IMM(ARM* cpu)
case 0x1A:
case 0x1B: psr = &cpu->R_UND[2]; break;
default:
cpu->AddCycles_C();
if (cpu->Num != 1) cpu->AddCycles_C(); // arm 7
else cpu->AddCycles_CI(2); // arm 9
return;
}
}
@ -135,8 +136,17 @@ void A_MSR_IMM(ARM* cpu)
cpu->CPSR &= ~0x20; // keep it from crashing the emulator at least
}
}
cpu->AddCycles_C();
if (cpu->Num != 1)
{
if (cpu->CurInstr & (1<<22))
{
cpu->AddCycles_CI(2); // spsr
}
else if (cpu->CurInstr & (0x7<<16)) cpu->AddCycles_CI(2); // cpsr_sxc
else cpu->AddCycles_C();
}
else cpu->AddCycles_C();
}
void A_MSR_REG(ARM* cpu)
@ -158,7 +168,8 @@ void A_MSR_REG(ARM* cpu)
case 0x1A:
case 0x1B: psr = &cpu->R_UND[2]; break;
default:
cpu->AddCycles_C();
if (cpu->Num != 1) cpu->AddCycles_C(); // arm 7
else cpu->AddCycles_CI(2); // arm 9
return;
}
}
@ -195,8 +206,17 @@ void A_MSR_REG(ARM* cpu)
cpu->CPSR &= ~0x20; // keep it from crashing the emulator at least
}
}
cpu->AddCycles_C();
if (cpu->Num != 1)
{
if (cpu->CurInstr & (1<<22))
{
cpu->AddCycles_CI(2); // spsr
}
else if (cpu->CurInstr & (0x7<<16)) cpu->AddCycles_CI(2); // cpsr_sxc
else cpu->AddCycles_C();
}
else cpu->AddCycles_C();
}
void A_MRS(ARM* cpu)
@ -282,11 +302,17 @@ void A_MRC(ARM* cpu)
u32 cpinfo = (cpu->CurInstr >> 5) & 0x7;
u32 rd = (cpu->CurInstr>>12) & 0xF;
if (cpu->Num==0 && cp==15 && rd!=15)
if (cpu->Num==0 && cp==15)
{
cpu->R[rd] = ((ARMv5*)cpu)->CP15Read((cn<<8)|(cm<<4)|cpinfo|(op<<12));
if (rd != 15) cpu->R[rd] = ((ARMv5*)cpu)->CP15Read((cn<<8)|(cm<<4)|cpinfo|(op<<12));
else
{
// r15 updates the top 4 bits of the cpsr, done to "allow for conditional branching based on coprocessor status"
u32 flags = ((ARMv5*)cpu)->CP15Read((cn<<8)|(cm<<4)|cpinfo|(op<<12)) & 0xF0000000;
cpu->CPSR = (cpu->CPSR & ~0xF0000000) | flags;
}
}
else if (cpu->Num==1 && cp==14 && rd!=15)
else if (cpu->Num==1 && cp==14)
{
Log(LogLevel::Debug, "MRC p14,%d,%d,%d on ARM7\n", cn, cm, cpinfo);
}

View File

@ -581,12 +581,12 @@ A_IMPLEMENT_ALU_OP(RSC,)
#define A_TST(c) \
u32 a = cpu->R[(cpu->CurInstr>>16) & 0xF]; \
u32 res = a & b; \
cpu->SetNZ(res & 0x80000000, \
!res); \
if (((cpu->CurInstr>>12) & 0xF) == 15) [[unlikely]] /* yes this instruction has a secret rd for some reason */ \
if (((cpu->CurInstr>>12) & 0xF) == 15) [[unlikely]] /* this seems to trigger alu rd==15 behavior for arm7 and legacy instruction behavior for arm9 */ \
{ \
if (cpu->Num == 1) \
{ \
cpu->SetNZ(res & 0x80000000, \
!res); \
u32 oldpsr = cpu->CPSR; \
cpu->RestoreCPSR(); /* ARM7TDMI restores cpsr and does ___not___ flush the pipeline. */ \
if (cpu->CPSR & 0x20) \
@ -595,7 +595,12 @@ A_IMPLEMENT_ALU_OP(RSC,)
cpu->CPSR &= ~0x20; /* keep it from crashing the emulator at least */ \
} \
} \
else Platform::Log(Platform::LogLevel::Warn, "UNIMPLEMENTED: TST w/ rd == 15 on ARM9\n"); \
else cpu->JumpTo(res & ~1, true); /* TSTP dna, doesn't update flags */ \
} \
else \
{ \
cpu->SetNZ(res & 0x80000000, \
!res); \
} \
if (c) cpu->AddCycles_CI(c); else cpu->AddCycles_C();
@ -605,12 +610,12 @@ A_IMPLEMENT_ALU_TEST(TST,_S)
#define A_TEQ(c) \
u32 a = cpu->R[(cpu->CurInstr>>16) & 0xF]; \
u32 res = a ^ b; \
cpu->SetNZ(res & 0x80000000, \
!res); \
if (((cpu->CurInstr>>12) & 0xF) == 15) [[unlikely]] /* yes this instruction has a secret rd for some reason */ \
if (((cpu->CurInstr>>12) & 0xF) == 15) [[unlikely]] /* this seems to trigger alu rd==15 behavior for arm7 and legacy instruction behavior for arm9 */ \
{ \
if (cpu->Num == 1) \
{ \
cpu->SetNZ(res & 0x80000000, \
!res); \
u32 oldpsr = cpu->CPSR; \
cpu->RestoreCPSR(); /* ARM7TDMI restores cpsr and does ___not___ flush the pipeline. */ \
if (cpu->CPSR & 0x20) \
@ -619,7 +624,12 @@ A_IMPLEMENT_ALU_TEST(TST,_S)
cpu->CPSR &= ~0x20; /* keep it from crashing the emulator at least */ \
} \
} \
else Platform::Log(Platform::LogLevel::Warn, "UNIMPLEMENTED: TEQ w/ rd == 15 on ARM9\n"); \
else cpu->JumpTo(res & ~1, true); /* TEQP dna, doesn't update flags */ \
} \
else \
{ \
cpu->SetNZ(res & 0x80000000, \
!res); \
} \
if (c) cpu->AddCycles_CI(c); else cpu->AddCycles_C();
@ -629,14 +639,14 @@ A_IMPLEMENT_ALU_TEST(TEQ,_S)
#define A_CMP(c) \
u32 a = cpu->R[(cpu->CurInstr>>16) & 0xF]; \
u32 res = a - b; \
cpu->SetNZCV(res & 0x80000000, \
!res, \
CarrySub(a, b), \
OverflowSub(a, b)); \
if (((cpu->CurInstr>>12) & 0xF) == 15) [[unlikely]] /* yes this instruction has a secret rd for some reason */ \
if (((cpu->CurInstr>>12) & 0xF) == 15) [[unlikely]] /* this seems to trigger alu rd==15 behavior for arm7 and legacy instruction behavior for arm9 */ \
{ \
if (cpu->Num == 1) \
{ \
cpu->SetNZCV(res & 0x80000000, \
!res, \
CarrySub(a, b), \
OverflowSub(a, b)); \
u32 oldpsr = cpu->CPSR; \
cpu->RestoreCPSR(); /* ARM7TDMI restores cpsr and does ___not___ flush the pipeline. */ \
if (cpu->CPSR & 0x20) \
@ -645,7 +655,14 @@ A_IMPLEMENT_ALU_TEST(TEQ,_S)
cpu->CPSR &= ~0x20; /* keep it from crashing the emulator at least */ \
} \
} \
else Platform::Log(Platform::LogLevel::Warn, "UNIMPLEMENTED: CMP w/ rd == 15 on ARM9\n"); \
else cpu->JumpTo(res & ~1, true); /* CMPP dna, doesn't update flags */ \
} \
else \
{ \
cpu->SetNZCV(res & 0x80000000, \
!res, \
CarrySub(a, b), \
OverflowSub(a, b)); \
} \
if (c) cpu->AddCycles_CI(c); else cpu->AddCycles_C();
@ -655,14 +672,14 @@ A_IMPLEMENT_ALU_TEST(CMP,)
#define A_CMN(c) \
u32 a = cpu->R[(cpu->CurInstr>>16) & 0xF]; \
u32 res = a + b; \
cpu->SetNZCV(res & 0x80000000, \
!res, \
CarryAdd(a, b), \
OverflowAdd(a, b)); \
if (((cpu->CurInstr>>12) & 0xF) == 15) [[unlikely]] /* yes this instruction has a secret rd for some reason */ \
if (((cpu->CurInstr>>12) & 0xF) == 15) [[unlikely]] /* this seems to trigger alu rd==15 behavior for arm7 and legacy instruction behavior for arm9 */ \
{ \
if (cpu->Num == 1) \
{ \
cpu->SetNZCV(res & 0x80000000, \
!res, \
CarryAdd(a, b), \
OverflowAdd(a, b)); \
u32 oldpsr = cpu->CPSR; \
cpu->RestoreCPSR(); /* ARM7TDMI restores cpsr and does ___not___ flush the pipeline. */ \
if (cpu->CPSR & 0x20) \
@ -671,7 +688,14 @@ A_IMPLEMENT_ALU_TEST(CMP,)
cpu->CPSR &= ~0x20; /* keep it from crashing the emulator at least */ \
} \
} \
else Platform::Log(Platform::LogLevel::Warn, "UNIMPLEMENTED: CMN w/ rd == 15 on ARM9\n"); \
else cpu->JumpTo(res & ~1, true); /* CMNP dna, doesn't update flags */ \
} \
else \
{ \
cpu->SetNZCV(res & 0x80000000, \
!res, \
CarryAdd(a, b), \
OverflowAdd(a, b)); \
} \
if (c) cpu->AddCycles_CI(c); else cpu->AddCycles_C();
@ -1643,20 +1667,18 @@ void T_CMP_HIREG(ARM* cpu)
!res,
CarrySub(a, b),
OverflowSub(a, b));
if (rd == 15) [[unlikely]]
if ((cpu->Num == 1) && (rd == 15))
{
if (cpu->Num == 1)
u32 oldpsr = cpu->CPSR;
cpu->RestoreCPSR(); // ARM7TDMI restores cpsr and does ___not___ flush the pipeline.
if (!(cpu->CPSR & 0x20))
{
u32 oldpsr = cpu->CPSR;
cpu->RestoreCPSR(); // ARM7TDMI restores cpsr and does ___not___ flush the pipeline.
if (!(cpu->CPSR & 0x20))
{
Platform::Log(Platform::LogLevel::Warn, "UNIMPLEMENTED: MSR REG T bit change on ARM7\n");
cpu->CPSR |= 0x20; // keep it from crashing the emulator at least
}
Platform::Log(Platform::LogLevel::Warn, "UNIMPLEMENTED: MSR REG T bit change on ARM7\n");
cpu->CPSR |= 0x20; // keep it from crashing the emulator at least
}
else Platform::Log(Platform::LogLevel::Warn, "UNIMPLEMENTED: CMP HIREG w/ rd == 15 on ARM9\n");
}
cpu->AddCycles_C();
}

View File

@ -912,43 +912,19 @@ void ARMv5::WriteBufferCheck()
case 0: // byte
{
u8 val = WriteBufferFifo[WBWritePointer] & 0xFF;
if (WBAddr < ITCMSize)
{
*(u8*)&ITCM[WBAddr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u8*)&DTCM[WBAddr & (DTCMPhysicalSize - 1)] = val;
else BusWrite8(storeaddr[WBWritePointer], val);
BusWrite8(storeaddr[WBWritePointer], val);
break;
}
case 1: // halfword
{
u16 val = WriteBufferFifo[WBWritePointer] & 0xFFFF;
if (WBAddr < ITCMSize)
{
*(u16*)&ITCM[WBAddr & (ITCMPhysicalSize - 2)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u16*)&DTCM[WBAddr & (DTCMPhysicalSize - 2)] = val;
else BusWrite16(storeaddr[WBWritePointer], val);
BusWrite16(storeaddr[WBWritePointer], val);
break;
}
case 2: // word
{
u32 val = WriteBufferFifo[WBWritePointer] & 0xFFFFFFFF;
if (WBAddr < ITCMSize)
{
*(u32*)&ITCM[WBAddr & (ITCMPhysicalSize - 4)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u32*)&DTCM[WBAddr & (DTCMPhysicalSize - 4)] = val;
else BusWrite32(storeaddr[WBWritePointer], val);
BusWrite32(storeaddr[WBWritePointer], val);
WBAddr += 4;
break;
}
@ -985,43 +961,19 @@ void ARMv5::WriteBufferWrite(u32 val, u8 flag, u8 cycles, u32 addr)
case 0: // byte
{
u8 val = WriteBufferFifo[WBWritePointer] & 0xFF;
if (WBAddr < ITCMSize)
{
*(u8*)&ITCM[WBAddr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u8*)&DTCM[WBAddr & (DTCMPhysicalSize - 1)] = val;
else BusWrite8(storeaddr[WBWritePointer], val);
BusWrite8(storeaddr[WBWritePointer], val);
break;
}
case 1: // halfword
{
u16 val = WriteBufferFifo[WBWritePointer] & 0xFFFF;
if (WBAddr < ITCMSize)
{
*(u16*)&ITCM[WBAddr & (ITCMPhysicalSize - 2)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u16*)&DTCM[WBAddr & (DTCMPhysicalSize - 2)] = val;
else BusWrite16(storeaddr[WBWritePointer], val);
BusWrite16(storeaddr[WBWritePointer], val);
break;
}
case 2: // word
{
u32 val = WriteBufferFifo[WBWritePointer] & 0xFFFFFFFF;
if (WBAddr < ITCMSize)
{
*(u32*)&ITCM[WBAddr & (ITCMPhysicalSize - 4)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u32*)&DTCM[WBAddr & (DTCMPhysicalSize - 4)] = val;
else BusWrite32(storeaddr[WBWritePointer], val);
BusWrite32(storeaddr[WBWritePointer], val);
WBAddr += 4;
break;
}
@ -1071,43 +1023,19 @@ void ARMv5::WriteBufferDrain()
case 0: // byte
{
u8 val = WriteBufferFifo[WBWritePointer] & 0xFF;
if (WBAddr < ITCMSize)
{
*(u8*)&ITCM[WBAddr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u8*)&DTCM[WBAddr & (DTCMPhysicalSize - 1)] = val;
else BusWrite8(storeaddr[WBWritePointer], val);
BusWrite8(storeaddr[WBWritePointer], val);
break;
}
case 1: // halfword
{
u16 val = WriteBufferFifo[WBWritePointer] & 0xFFFF;
if (WBAddr < ITCMSize)
{
*(u16*)&ITCM[WBAddr & (ITCMPhysicalSize - 2)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u16*)&DTCM[WBAddr & (DTCMPhysicalSize - 2)] = val;
else BusWrite16(storeaddr[WBWritePointer], val);
BusWrite16(storeaddr[WBWritePointer], val);
break;
}
case 2: // word
{
u32 val = WriteBufferFifo[WBWritePointer] & 0xFFFFFFFF;
if (WBAddr < ITCMSize)
{
*(u32*)&ITCM[WBAddr & (ITCMPhysicalSize - 4)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(WBAddr);
#endif
}
else if ((WBAddr & DTCMMask) == DTCMBase) *(u32*)&DTCM[WBAddr & (DTCMPhysicalSize - 4)] = val;
else BusWrite32(storeaddr[WBWritePointer], val);
BusWrite32(storeaddr[WBWritePointer], val);
WBAddr += 4;
break;
}
@ -1490,11 +1418,12 @@ void ARMv5::CP15Write(u32 id, u32 val)
}
// Test and clean (optional)
// Is not present on the NDS/DSi
return;
return;
case 0x7A4:
// Can be used in user and privileged mode
// Drain Write Buffer: Stall until all write back completed
// TODO when write back was implemented instead of write through
WriteBufferDrain();
return;
case 0x7D1:
@ -1870,9 +1799,6 @@ u32 ARMv5::CodeRead32(u32 addr, bool branch)
}
#endif
if ((PU_Map[addr>>12] & 0x30))
WriteBufferDrain();
if (addr < ITCMSize)
{
CodeCycles = 1;
@ -1893,6 +1819,8 @@ u32 ARMv5::CodeRead32(u32 addr, bool branch)
CodeCycles = 1;
}
WriteBufferDrain();
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
if ((addr >> 24) == 0x02)
@ -1938,9 +1866,6 @@ bool ARMv5::DataRead8(u32 addr, u32* val)
}
#endif
if ((PU_Map[addr>>12] & 0x30))
WriteBufferDrain();
if (addr < ITCMSize)
{
DataCycles = 1;
@ -1956,6 +1881,8 @@ bool ARMv5::DataRead8(u32 addr, u32* val)
*val = *(u8*)&DTCM[addr & (DTCMPhysicalSize - 1)];
return true;
}
WriteBufferDrain();
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
@ -2001,8 +1928,6 @@ bool ARMv5::DataRead16(u32 addr, u32* val)
}
#endif
addr &= ~1;
if ((PU_Map[addr>>12] & 0x30))
WriteBufferDrain();
if (addr < ITCMSize)
{
@ -2020,6 +1945,8 @@ bool ARMv5::DataRead16(u32 addr, u32* val)
return true;
}
WriteBufferDrain();
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
DataCycles = MemTimings[addr >> 12][1];
@ -2066,9 +1993,6 @@ bool ARMv5::DataRead32(u32 addr, u32* val)
}
#endif
if ((PU_Map[addr>>12] & 0x30))
WriteBufferDrain();
if (addr < ITCMSize)
{
DataCycles = 1;
@ -2085,6 +2009,8 @@ bool ARMv5::DataRead32(u32 addr, u32* val)
return true;
}
WriteBufferDrain();
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
DataCycles = MemTimings[addr >> 12][2];
@ -2129,9 +2055,6 @@ bool ARMv5::DataRead32S(u32 addr, u32* val)
}
#endif
if ((PU_Map[addr>>12] & 0x30))
WriteBufferDrain();
if (addr < ITCMSize)
{
DataCycles += 1;
@ -2148,6 +2071,8 @@ bool ARMv5::DataRead32S(u32 addr, u32* val)
return true;
}
WriteBufferDrain();
NDS.ARM9Timestamp += DataCycles;
if (!(addr & 0x3FF)) return DataRead32(addr, val); // bursts cannot cross a 1kb boundary
@ -2195,29 +2120,29 @@ bool ARMv5::DataWrite8(u32 addr, u8 val)
}
#endif
if (addr < ITCMSize)
{
DataCycles = 1;
ITCMTimestamp = NDS.ARM9Timestamp + DataCycles;
DataRegion = Mem9_ITCM;
*(u8*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr);
#endif
return true;
}
if ((addr & DTCMMask) == DTCMBase)
{
DataCycles = 1;
DataRegion = Mem9_DTCM;
*(u8*)&DTCM[addr & (DTCMPhysicalSize - 1)] = val;
return true;
}
if (!(PU_Map[addr>>12] & (0x30)))
{
if (addr < ITCMSize)
{
DataCycles = 1;
ITCMTimestamp = NDS.ARM9Timestamp + DataCycles;
DataRegion = Mem9_ITCM;
*(u8*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr);
#endif
return true;
}
if ((addr & DTCMMask) == DTCMBase)
{
DataCycles = 1;
DataRegion = Mem9_DTCM;
*(u8*)&DTCM[addr & (DTCMPhysicalSize - 1)] = val;
return true;
}
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
DataCycles = MemTimings[addr >> 12][1];
if ((addr >> 24) == 0x02)
@ -2233,10 +2158,11 @@ bool ARMv5::DataWrite8(u32 addr, u8 val)
}
else
{
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
if (WBDelay > NDS.ARM9Timestamp) NDS.ARM9Timestamp = WBDelay;
DataCycles = 1;
WriteBufferWrite(addr, 3, 1);
WriteBufferWrite(val, 0, MemTimings[addr >> 12][1], addr);
WBDelay = NDS.ARM9Timestamp + 2;
}
return true;
}
@ -2270,29 +2196,29 @@ bool ARMv5::DataWrite16(u32 addr, u16 val)
}
#endif
if (addr < ITCMSize)
{
DataCycles = 1;
ITCMTimestamp = NDS.ARM9Timestamp + DataCycles;
DataRegion = Mem9_ITCM;
*(u16*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr);
#endif
return true;
}
if ((addr & DTCMMask) == DTCMBase)
{
DataCycles = 1;
DataRegion = Mem9_DTCM;
*(u16*)&DTCM[addr & (DTCMPhysicalSize - 1)] = val;
return true;
}
if (!(PU_Map[addr>>12] & 0x30))
{
if (addr < ITCMSize)
{
DataCycles = 1;
ITCMTimestamp = NDS.ARM9Timestamp + DataCycles;
DataRegion = Mem9_ITCM;
*(u16*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr);
#endif
return true;
}
if ((addr & DTCMMask) == DTCMBase)
{
DataCycles = 1;
DataRegion = Mem9_DTCM;
*(u16*)&DTCM[addr & (DTCMPhysicalSize - 1)] = val;
return true;
}
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
DataCycles = MemTimings[addr >> 12][1];
if ((addr >> 24) == 0x02)
@ -2308,10 +2234,11 @@ bool ARMv5::DataWrite16(u32 addr, u16 val)
}
else
{
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
if (WBDelay > NDS.ARM9Timestamp) NDS.ARM9Timestamp = WBDelay;
DataCycles = 1;
WriteBufferWrite(addr, 3, 1);
WriteBufferWrite(val, 1, MemTimings[addr >> 12][1], addr);
WBDelay = NDS.ARM9Timestamp + 2;
}
return true;
}
@ -2346,29 +2273,29 @@ bool ARMv5::DataWrite32(u32 addr, u32 val)
}
#endif
if (addr < ITCMSize)
{
DataCycles = 1;
ITCMTimestamp = NDS.ARM9Timestamp + DataCycles;
DataRegion = Mem9_ITCM;
*(u32*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr);
#endif
return true;
}
if ((addr & DTCMMask) == DTCMBase)
{
DataCycles = 1;
DataRegion = Mem9_DTCM;
*(u32*)&DTCM[addr & (DTCMPhysicalSize - 1)] = val;
return true;
}
if (!(PU_Map[addr>>12] & 0x30))
{
if (addr < ITCMSize)
{
DataCycles = 1;
ITCMTimestamp = NDS.ARM9Timestamp + DataCycles;
DataRegion = Mem9_ITCM;
*(u32*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr);
#endif
return true;
}
if ((addr & DTCMMask) == DTCMBase)
{
DataCycles = 1;
DataRegion = Mem9_DTCM;
*(u32*)&DTCM[addr & (DTCMPhysicalSize - 1)] = val;
return true;
}
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
DataCycles = MemTimings[addr >> 12][2];
if ((addr >> 24) == 0x02)
@ -2384,10 +2311,11 @@ bool ARMv5::DataWrite32(u32 addr, u32 val)
}
else
{
NDS.ARM9Timestamp = NDS.ARM9Timestamp + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1);
if (WBDelay > NDS.ARM9Timestamp) NDS.ARM9Timestamp = WBDelay;
DataCycles = 1;
WriteBufferWrite(addr, 3, 1);
WriteBufferWrite(val, 2, MemTimings[addr >> 12][2], addr);
WBDelay = NDS.ARM9Timestamp + 2;
}
return true;
}
@ -2420,27 +2348,27 @@ bool ARMv5::DataWrite32S(u32 addr, u32 val)
}
#endif
if (addr < ITCMSize)
{
DataCycles += 1;
ITCMTimestamp = NDS.ARM9Timestamp + DataCycles;
DataRegion = Mem9_ITCM;
*(u32*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr);
#endif
return true;
}
if ((addr & DTCMMask) == DTCMBase)
{
DataCycles += 1;
DataRegion = Mem9_DTCM;
*(u32*)&DTCM[addr & (DTCMPhysicalSize - 1)] = val;
return true;
}
if (!(PU_Map[addr>>12] & 0x30))
{
if (addr < ITCMSize)
{
DataCycles += 1;
ITCMTimestamp = NDS.ARM9Timestamp + DataCycles;
DataRegion = Mem9_ITCM;
*(u32*)&ITCM[addr & (ITCMPhysicalSize - 1)] = val;
#ifdef JIT_ENABLED
NDS.JIT.CheckAndInvalidate<0, ARMJIT_Memory::memregion_ITCM>(addr);
#endif
return true;
}
if ((addr & DTCMMask) == DTCMBase)
{
DataCycles += 1;
DataRegion = Mem9_DTCM;
*(u32*)&DTCM[addr & (DTCMPhysicalSize - 1)] = val;
return true;
}
DataCycles += (((NDS.ARM9Timestamp + DataCycles) + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1)) - (NDS.ARM9Timestamp + DataCycles));
if (!(addr & 0x3FF)) return DataWrite32(addr, val); // bursts cannot cross a 1kb boundary
@ -2458,9 +2386,9 @@ bool ARMv5::DataWrite32S(u32 addr, u32 val)
}
else
{
DataCycles += (((NDS.ARM9Timestamp + DataCycles) + ((1<<NDS.ARM9ClockShift)-1) & ~((1<<NDS.ARM9ClockShift)-1)) - (NDS.ARM9Timestamp + DataCycles));
DataCycles += 1;
WriteBufferWrite(val, 2, MemTimings[addr >> 12][3], addr);
WBDelay = NDS.ARM9Timestamp + DataCycles + 1;
}
return true;
}