Ejemplo n.º 1
0
BOOL armcp15_moveARM2CP(armcp15_t *armcp15, u32 val, u8 CRn, u8 CRm, u8 opcode1, u8 opcode2)
{
	if(armcp15->cpu->CPSR.bits.mode == USR) return FALSE;

	switch(CRn)
	{
	case 1:
		if((opcode1==0) && (opcode2==0) && (CRm==0))
		{

			//On the NDS bit0,2,7,12..19 are R/W, Bit3..6 are always set, all other bits are always zero.
			armcp15->ctrl = (val & 0x000FF085) | 0x00000078;
			MMU.ARM9_RW_MODE = BIT7(val);
			//zero 31-jan-2010: change from 0x0FFF0000 to 0xFFFF0000 per gbatek
			armcp15->cpu->intVector = 0xFFFF0000 * (BIT13(val));
			armcp15->cpu->LDTBit = !BIT15(val); //TBit
			//LOG("CP15: ARMtoCP ctrl %08X (val %08X)\n", armcp15->ctrl, val);
			return TRUE;
		}
		return FALSE;
	case 2:
		if((opcode1==0) && (CRm==0))
		{
			switch(opcode2)
			{
			case 0:
				armcp15->DCConfig = val;
				return TRUE;
			case 1:
				armcp15->ICConfig = val;
				return TRUE;
			default:
				return FALSE;
			}
		}
		return FALSE;
	case 3:
		if((opcode1==0) && (opcode2==0) && (CRm==0))
		{
			armcp15->writeBuffCtrl = val;
			//LOG("CP15: ARMtoCP writeBuffer ctrl %08X\n", armcp15->writeBuffCtrl);
			return TRUE;
		}
		return FALSE;
	case 5:
		if((opcode1==0) && (CRm==0))
		{
			switch(opcode2)
			{
			case 2:
				armcp15->DaccessPerm = val;
				armcp15_maskPrecalc(armcp15);
				return TRUE;
			case 3:
				armcp15->IaccessPerm = val;
				armcp15_maskPrecalc(armcp15);
				return TRUE;
			default:
				return FALSE;
			}
		}
		return FALSE;
	case 6:
		if((opcode1==0) && (opcode2==0))
		{
			switch(CRm)
			{
			case 0:
				armcp15->protectBaseSize0 = val;
				armcp15_maskPrecalc(armcp15) ;
				return TRUE;
			case 1:
				armcp15->protectBaseSize1 = val;
				armcp15_maskPrecalc(armcp15) ;
				return TRUE;
			case 2:
				armcp15->protectBaseSize2 = val;
				armcp15_maskPrecalc(armcp15) ;
				return TRUE;
			case 3:
				armcp15->protectBaseSize3 = val;
				armcp15_maskPrecalc(armcp15) ;
				return TRUE;
			case 4:
				armcp15->protectBaseSize4 = val;
				armcp15_maskPrecalc(armcp15) ;
				return TRUE;
			case 5:
				armcp15->protectBaseSize5 = val;
				armcp15_maskPrecalc(armcp15) ;
				return TRUE;
			case 6:
				armcp15->protectBaseSize6 = val;
				armcp15_maskPrecalc(armcp15) ;
				return TRUE;
			case 7:
				armcp15->protectBaseSize7 = val;
				armcp15_maskPrecalc(armcp15) ;
				return TRUE;
			default:
				return FALSE;
			}
		}
		return FALSE;
	case 7:
		if((CRm==0)&&(opcode1==0)&&((opcode2==4)))
		{
			CP15wait4IRQ(armcp15->cpu);
			return TRUE;
		}
		return FALSE;
	case 9:
		if((opcode1==0))
		{
			switch(CRm)
			{
			case 0:
				switch(opcode2)
				{
				case 0:
					armcp15->DcacheLock = val;
					return TRUE;
				case 1:
					armcp15->IcacheLock = val;
					return TRUE;
				default:
					return FALSE;
				}
			case 1:
				switch(opcode2)
				{
				case 0:
					MMU.DTCMRegion = armcp15->DTCMRegion = val & 0x0FFFF000;
					return TRUE;
				case 1:
					armcp15->ITCMRegion = val;
					//ITCM base is not writeable!
					MMU.ITCMRegion = 0;
					return TRUE;
				default:
					return FALSE;
				}
			}
		}
		return FALSE;
	default:
		return FALSE;
	}
}
Ejemplo n.º 2
0
BOOL armcp15_moveARM2CP(armcp15_t *armcp15, u32 val, u8 CRn, u8 CRm, u8 opcode1, u8 opcode2)
{
	if(armcp15->cpu->CPSR.bits.mode == USR) return FALSE;
	
	switch(CRn)
	{
		case 1 :
		if((opcode1==0) && (opcode2==0) && (CRm==0))
		{
			armcp15->ctrl = val;
			armcp15->cpu->state->MMU->ARM9_RW_MODE = BIT7(val);
			armcp15->cpu->intVector = 0x0FFF0000 * (BIT13(val));
			armcp15->cpu->LDTBit = !BIT15(val); //TBit
			/*if(BIT17(val))
			{
				log::ajouter("outch !!!!!!!");
			}
			if(BIT19(val))
			{
				log::ajouter("outch !!!!!!!");
			}*/
			return TRUE;
		}
		return FALSE;
		case 2 :
		if((opcode1==0) && (CRm==0))
		{
			switch(opcode2)
			{
				case 0 :
					armcp15->DCConfig = val;
					return TRUE;
				case 1 :
					armcp15->ICConfig = val;
					return TRUE;
				default :
					return FALSE;
			}
		}
		return FALSE;
		case 3 :
		if((opcode1==0) && (opcode2==0) && (CRm==0))
		{
			armcp15->writeBuffCtrl = val;
			return TRUE;
		}
		return FALSE;
		if((opcode1==0) && (CRm==0))
		{
			switch(opcode2)
			{
				case 2 :
					armcp15->DaccessPerm = val;
					armcp15_maskPrecalc(armcp15);
 					return TRUE;
				case 3 :
					armcp15->IaccessPerm = val;
					armcp15_maskPrecalc(armcp15);
					return TRUE;
				default :
					return FALSE;
			}
		}
		return FALSE;
		case 6 :
		if((opcode1==0) && (opcode2==0))
		{
			switch(CRm)
			{
				case 0 :
					armcp15->protectBaseSize0 = val;
					armcp15_maskPrecalc(armcp15) ;
					return TRUE;
				case 1 :
					armcp15->protectBaseSize1 = val;
					armcp15_maskPrecalc(armcp15) ;
					return TRUE;
				case 2 :
					armcp15->protectBaseSize2 = val;
					armcp15_maskPrecalc(armcp15) ;
					return TRUE;
				case 3 :
					armcp15->protectBaseSize3 = val;
					armcp15_maskPrecalc(armcp15) ;
					return TRUE;
				case 4 :
					armcp15->protectBaseSize4 = val;
					armcp15_maskPrecalc(armcp15) ;
					return TRUE;
				case 5 :
					armcp15->protectBaseSize5 = val;
					armcp15_maskPrecalc(armcp15) ;
					return TRUE;
				case 6 :
					armcp15->protectBaseSize6 = val;
					armcp15_maskPrecalc(armcp15) ;
					return TRUE;
				case 7 :
					armcp15->protectBaseSize7 = val;
					armcp15_maskPrecalc(armcp15) ;
					return TRUE;
				default :
					return FALSE;
			}
		}
		return FALSE;
		case 7 :
		if((CRm==0)&&(opcode1==0)&&((opcode2==4)))
		{
			CP15wait4IRQ(armcp15->cpu);
			return TRUE;
		}
		return FALSE;
		case 9 :
		if(opcode1==0)
		{
			switch(CRm)
			{
				case 0 :
				switch(opcode2)
				{
					case 0 :
						armcp15->DcacheLock = val;
						return TRUE;
					case 1 :
						armcp15->IcacheLock = val;
						return TRUE;
					default :
						return FALSE;
			}
			case 1 :
			switch(opcode2)
			{
				case 0 :
					armcp15->DTCMRegion = val;
					armcp15->cpu->state->MMU->DTCMRegion = val & 0x0FFFFFFC0;
					/*sprintf(logbuf, "%08X", val);
					log::ajouter(logbuf);*/
					return TRUE;
				case 1 :
					armcp15->ITCMRegion = val;
					/* ITCM base is not writeable! */
					armcp15->cpu->state->MMU->ITCMRegion = 0;
					return TRUE;
				default :
					return FALSE;
				}
			}
		}
		return FALSE;
		default :
			return FALSE;
	}
}