Merge pull request #36 from Nekotekina/master

SPU Improvements

rpcs3/Emu/Cell/MFC.h

@@ -3,9 +3,22 @@
 
 enum
 {
-	MFC_PUT_CMD		= 0x20,
-	MFC_GET_CMD		= 0x40,
-	MFC_MASK_CMD	= 0xffff,
+	MFC_PUT_CMD      = 0x20,	MFC_PUTB_CMD     = 0x21,	MFC_PUTF_CMD     = 0x22,
+	MFC_GET_CMD      = 0x40,	MFC_GETB_CMD     = 0x41,	MFC_GETF_CMD     = 0x42,
+	MFC_PUTL_CMD     = 0x24,	MFC_PUTLB_CMD    = 0x25,	MFC_PUTLF_CMD    = 0x26,
+	MFC_GETL_CMD     = 0x44,	MFC_GETLB_CMD    = 0x45,	MFC_GETLF_CMD    = 0x46,
+	MFC_GETLLAR_CMD  = 0xD0,
+	MFC_PUTLLC_CMD   = 0xB4,
+	MFC_PUTLLUC_CMD  = 0xB0,
+	MFC_PUTQLLUC_CMD = 0xB8,
+	MFC_SNDSIG_CMD   = 0xA0,	MFC_SNDSIGB_CMD  = 0xA1,	MFC_SNDSIGF_CMD  = 0xA2,
+	MFC_BARRIER_CMD  = 0xC0,
+	MFC_EIEIO_CMD    = 0xC8,
+	MFC_SYNC_CMD     = 0xCC,
+
+	MFC_BARRIER_MASK = 0x01,
+	MFC_FENCE_MASK   = 0x02,
+	MFC_MASK_CMD     = 0xffff,
 };
 
 enum
@@ -130,11 +143,34 @@ public:
 
 struct DMAC
 {
-	DMAC_Queue queue[MFC_SPU_MAX_QUEUE_SPACE];
-	DMAC_Proxy proxy[MFC_PPU_MAX_QUEUE_SPACE];
+	//DMAC_Queue queue[MFC_SPU_MAX_QUEUE_SPACE]; //not used yet
+	DMAC_Proxy proxy[MFC_PPU_MAX_QUEUE_SPACE+MFC_SPU_MAX_QUEUE_SPACE]; //temporarily 24
 	u64 ls_offset;
-	std::atomic<u32> queue_pos;
-	std::atomic<u32> proxy_pos;
+	u32 queue_pos;
+	u32 proxy_pos;
+	long queue_lock;
+	long proxy_lock;
+
+	bool ProcessCmd(u32 cmd, u32 tag, u32 lsa, u64 ea, u32 size)
+	{
+		//returns true if the command should be deleted from the queue
+		if (cmd & (MFC_BARRIER_MASK | MFC_FENCE_MASK)) _mm_mfence();
+
+		switch(cmd & ~(MFC_BARRIER_MASK | MFC_FENCE_MASK))
+		{
+		case MFC_PUT_CMD:
+			memcpy(Memory + ea, Memory + ls_offset + lsa, size);
+		return true;
+
+		case MFC_GET_CMD:
+			memcpy(Memory + ls_offset + lsa, Memory + ea, size);
+		return true;
+
+		default:
+			ConLog.Error("Unknown DMA cmd.");
+		return true;
+		}
+	}
 
 	u32 Cmd(u32 cmd, u32 tag, u32 lsa, u64 ea, u32 size)
 	{
@@ -148,36 +184,40 @@ struct DMAC
 			return MFC_PPU_DMA_QUEUE_FULL;
 		}
 
-		DMAC_Proxy& p = proxy[proxy_pos++];
+		/* while (_InterlockedExchange(&proxy_lock, 1));
+		_mm_lfence();
+		DMAC_Proxy& p = proxy[proxy_pos];
 		p.cmd = cmd;
 		p.tag = tag;
 		p.lsa = lsa;
 		p.ea = ea;
 		p.size = size;
+		_mm_sfence(); //for DoCmd()
+		proxy_pos++;
+		_mm_sfence();
+		proxy_lock = 0; */
+		ProcessCmd(cmd, tag, lsa, ea, size);
 
 		return MFC_PPU_DMA_CMD_ENQUEUE_SUCCESSFUL;
 	}
 
+	void ClearCmd()
+	{
+		while (_InterlockedExchange(&proxy_lock, 1));
+		_mm_lfence();
+		memcpy(proxy, proxy + 1, --proxy_pos * sizeof(DMAC_Proxy));
+		_mm_sfence();
+		proxy_lock = 0; //release lock
+	}
+
 	void DoCmd()
 	{
 		if(proxy_pos)
 		{
-			DMAC_Proxy p = proxy[0];
-			memcpy(proxy, proxy + 1, --proxy_pos * sizeof(DMAC_Proxy));
-
-			switch(p.cmd)
+			const DMAC_Proxy& p = proxy[0];
+			if (ProcessCmd(p.cmd, p.tag, p.lsa, p.ea, p.size))
 			{
-			case MFC_PUT_CMD:
-				memcpy(Memory + p.ea, Memory + ls_offset + p.lsa, p.size);
-			break;
-
-			case MFC_GET_CMD:
-				memcpy(Memory + ls_offset + p.lsa, Memory + p.ea, p.size);
-			break;
-
-			default:
-				ConLog.Error("Unknown DMA cmd.");
-			break;
+				ClearCmd();
 			}
 		}
 	}

rpcs3/Emu/Cell/PPUInstrTable.h

@@ -78,7 +78,7 @@ namespace PPU_instr
 	static CodeField<11, 15> BI;
 
 	//Immediate field specifying a 14-bit signed two's complement branch displacement that is concatenated on the
-	//right with ‘00’ and sign-extended to 64 bits.
+	//right with '00' and sign-extended to 64 bits.
 	static CodeFieldSigned<16, 31> BD(FIELD_BRANCH);
 
 	//
@@ -179,9 +179,9 @@ namespace PPU_instr
 	Record bit.
 	0		Does not update the condition register (CR).
 	1		Updates the CR to reflect the result of the operation.
-			For integer instructions, CR bits [0–2] are set to reflect the result as a signed quantity and CR bit [3] 
+			For integer instructions, CR bits [0-2] are set to reflect the result as a signed quantity and CR bit [3] 
 			receives a copy of the summary overflow bit, XER[SO]. The result as an unsigned quantity or a bit 
-			string can be deduced from the EQ bit. For floating-point instructions, CR bits [4–7] are set to reflect 
+			string can be deduced from the EQ bit. For floating-point instructions, CR bits [4-7] are set to reflect 
 			floating-point exception, floating-point enabled exception, floating-point invalid operation exception, 
 			and floating-point overflow exception. 
 	*/

rpcs3/Emu/Cell/PPUInterpreter.h

@@ -3427,6 +3427,7 @@ private:
 	void MTFSB1(u32 crbd, bool rc)
 	{
 		u64 mask = (1ULL << crbd);
+		if ((crbd == 29) && !CPU.FPSCR.NI) ConLog.Warning("Non-IEEE mode enabled");
 		CPU.FPSCR.FPSCR |= mask;
 
 		if(rc) UNIMPLEMENTED();
@@ -3440,6 +3441,7 @@ private:
 	void MTFSB0(u32 crbd, bool rc)
 	{
 		u64 mask = (1ULL << crbd);
+		if ((crbd == 29) && !CPU.FPSCR.NI) ConLog.Warning("Non-IEEE mode disabled");
 		CPU.FPSCR.FPSCR &= ~mask;
 
 		if(rc) UNIMPLEMENTED();
@@ -3450,10 +3452,12 @@ private:
 
 		if(i)
 		{
+			if ((crfd == 29) && !CPU.FPSCR.NI) ConLog.Warning("Non-IEEE mode enabled");
 			CPU.FPSCR.FPSCR |= mask;
 		}
 		else
 		{
+			if ((crfd == 29) && CPU.FPSCR.NI) ConLog.Warning("Non-IEEE mode disabled");
 			CPU.FPSCR.FPSCR &= ~mask;
 		}
 
@@ -3472,7 +3476,15 @@ private:
 			if(flm & (1 << i)) mask |= 0xf << (i * 4);
 		}
 
+		const u32 oldNI = CPU.FPSCR.NI;
 		CPU.FPSCR.FPSCR = (CPU.FPSCR.FPSCR & ~mask) | ((u32&)CPU.FPR[frb] & mask);
+		if (CPU.FPSCR.NI != oldNI)
+		{
+			if (oldNI)
+				ConLog.Warning("Non-IEEE mode disabled");
+			else
+				ConLog.Warning("Non-IEEE mode enabled");
+		}
 		if(rc) UNK("mtfsf.");
 	}
 	void FCMPU(u32 crfd, u32 fra, u32 frb)

rpcs3/Emu/Cell/RawSPUThread.cpp

@@ -57,16 +57,22 @@ bool RawSPUThread::Read32(const u64 addr, u32* value)
 	u32 offset = addr - GetStartAddr() - RAW_SPU_PROB_OFFSET;
 	switch(offset)
 	{
-	case MFC_LSA_offs:				ConLog.Warning("RawSPUThread[%d]: Read32(MFC_LSA)", m_index);			*value = MFC.LSA.GetValue(); break;
-	case MFC_EAH_offs:				ConLog.Warning("RawSPUThread[%d]: Read32(MFC_EAH)", m_index);			*value = MFC.EAH.GetValue(); break;
-	case MFC_EAL_offs:				ConLog.Warning("RawSPUThread[%d]: Read32(MFC_EAL)", m_index);			*value = MFC.EAL.GetValue(); break;
-	case MFC_Size_Tag_offs:			ConLog.Warning("RawSPUThread[%d]: Read32(MFC_Size_Tag)", m_index);		*value = MFC.Size_Tag.GetValue(); break;
-	case MFC_CMDStatus_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(MFC_CMDStatus)", m_index);		*value = MFC.CMDStatus.GetValue(); break;
-	case MFC_QStatus_offs:			ConLog.Warning("RawSPUThread[%d]: Read32(MFC_QStatus)", m_index);		*value = MFC.QStatus.GetValue(); break;
+	case MFC_LSA_offs:				ConLog.Warning("RawSPUThread[%d]: Read32(MFC_LSA)", m_index);			*value = MFC2.LSA.GetValue(); break;
+	case MFC_EAH_offs:				ConLog.Warning("RawSPUThread[%d]: Read32(MFC_EAH)", m_index);			*value = MFC2.EAH.GetValue(); break;
+	case MFC_EAL_offs:				ConLog.Warning("RawSPUThread[%d]: Read32(MFC_EAL)", m_index);			*value = MFC2.EAL.GetValue(); break;
+	case MFC_Size_Tag_offs:			ConLog.Warning("RawSPUThread[%d]: Read32(MFC_Size_Tag)", m_index);		*value = MFC2.Size_Tag.GetValue(); break;
+	case MFC_CMDStatus_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(MFC_CMDStatus)", m_index);		*value = MFC2.CMDStatus.GetValue(); break;
+	case MFC_QStatus_offs:		
+		ConLog.Warning("RawSPUThread[%d]: Read32(MFC_QStatus)", m_index);
+		*value = MFC2.QStatus.GetValue(); 
+	break;
 	case Prxy_QueryType_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(Prxy_QueryType)", m_index);	*value = Prxy.QueryType.GetValue(); break;
 	case Prxy_QueryMask_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(Prxy_QueryMask)", m_index);	*value = Prxy.QueryMask.GetValue(); break;
 	case Prxy_TagStatus_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(Prxy_TagStatus)", m_index);	*value = Prxy.TagStatus.GetValue(); break;
-	case SPU_Out_MBox_offs:			ConLog.Warning("RawSPUThread[%d]: Read32(SPU_Out_MBox)", m_index);		while(!SPU.Out_MBox.Pop(*value) && !Emu.IsStopped()) Sleep(1); break;
+	case SPU_Out_MBox_offs:			
+		ConLog.Warning("RawSPUThread[%d]: Read32(SPU_Out_MBox)", m_index);
+		SPU.Out_MBox.PopUncond(*value); //if Out_MBox is empty yet, the result will be undefined 
+	break;
 	case SPU_In_MBox_offs:			ConLog.Warning("RawSPUThread[%d]: Read32(SPU_In_MBox)", m_index);		while(!SPU.In_MBox.Pop(*value)  && !Emu.IsStopped()) Sleep(1); break;
 	case SPU_MBox_Status_offs:		//ConLog.Warning("RawSPUThread[%d]: Read32(SPU_MBox_Status)", m_index);
 		//SPU.MBox_Status.SetValue(SPU.Out_MBox.GetCount() ? SPU.MBox_Status.GetValue() | 1 : SPU.MBox_Status.GetValue() & ~1);
@@ -76,8 +82,8 @@ bool RawSPUThread::Read32(const u64 addr, u32* value)
 	case SPU_RunCntl_offs:			ConLog.Warning("RawSPUThread[%d]: Read32(SPU_RunCntl)", m_index);		*value = SPU.RunCntl.GetValue(); break;
 	case SPU_Status_offs:			ConLog.Warning("RawSPUThread[%d]: Read32(SPU_Status)", m_index);		*value = SPU.Status.GetValue(); break;
 	case SPU_NPC_offs:				ConLog.Warning("RawSPUThread[%d]: Read32(SPU_NPC)", m_index);			*value = SPU.NPC.GetValue(); break;
-	case SPU_RdSigNotify1_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(SPU_RdSigNotify1)", m_index);	*value = SPU.RdSigNotify1.GetValue(); break;
-	case SPU_RdSigNotify2_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(SPU_RdSigNotify2)", m_index);	*value = SPU.RdSigNotify2.GetValue(); break;
+	case SPU_RdSigNotify1_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(SPU_RdSigNotify1)", m_index);	*value = SPU.SNR[0].GetValue(); break;
+	case SPU_RdSigNotify2_offs:		ConLog.Warning("RawSPUThread[%d]: Read32(SPU_RdSigNotify2)", m_index);	*value = SPU.SNR[1].GetValue(); break;
 
 	default:
 		ConLog.Error("RawSPUThread[%d]: Read32(0x%x)", m_index, offset);
@@ -151,16 +157,15 @@ bool RawSPUThread::Write32(const u64 addr, const u32 value)
 
 	switch(offset)
 	{
-	case MFC_LSA_offs:				ConLog.Warning("RawSPUThread[%d]: Write32(MFC_LSA, 0x%x)", m_index, value);				MFC.LSA.SetValue(value); break;
-	case MFC_EAH_offs:				ConLog.Warning("RawSPUThread[%d]: Write32(MFC_EAH, 0x%x)", m_index, value);				MFC.EAH.SetValue(value); break;
-	case MFC_EAL_offs:				ConLog.Warning("RawSPUThread[%d]: Write32(MFC_EAL, 0x%x)", m_index, value);				MFC.EAL.SetValue(value); break;
-	case MFC_Size_Tag_offs:			ConLog.Warning("RawSPUThread[%d]: Write32(MFC_Size_Tag, 0x%x)", m_index, value);		MFC.Size_Tag.SetValue(value); break;
+	case MFC_LSA_offs:	MFC2.LSA.SetValue(value); break;
+	case MFC_EAH_offs:	MFC2.EAH.SetValue(value); break;
+	case MFC_EAL_offs:	MFC2.EAL.SetValue(value); break;
+	case MFC_Size_Tag_offs:	MFC2.Size_Tag.SetValue(value); break;
 	case MFC_CMDStatus_offs:
-		ConLog.Warning("RawSPUThread[%d]: Write32(MFC_CMDStatus, 0x%x)", m_index, value);
-		MFC.CMDStatus.SetValue(value);
-		DoMfcCmd();
+		MFC2.CMDStatus.SetValue(value);
+		EnqMfcCmd(MFC2);
 	break;
-	case MFC_QStatus_offs:			ConLog.Warning("RawSPUThread[%d]: Write32(MFC_QStatus, 0x%x)", m_index, value);			MFC.QStatus.SetValue(value); break;
+	case MFC_QStatus_offs:			ConLog.Warning("RawSPUThread[%d]: Write32(MFC_QStatus, 0x%x)", m_index, value);			MFC2.QStatus.SetValue(value); break;
 	case Prxy_QueryType_offs:
 	{
 		ConLog.Warning("RawSPUThread[%d]: Write32(Prxy_QueryType, 0x%x)", m_index, value);
@@ -178,19 +183,22 @@ bool RawSPUThread::Write32(const u64 addr, const u32 value)
 		}
 
 		Prxy.QueryType.SetValue(0);
-		MFC.QStatus.SetValue(Prxy.QueryMask.GetValue());
+		MFC2.QStatus.SetValue(Prxy.QueryMask.GetValue());
 	}
 	break;
 	case Prxy_QueryMask_offs:		ConLog.Warning("RawSPUThread[%d]: Write32(Prxy_QueryMask, 0x%x)", m_index, value);		Prxy.QueryMask.SetValue(value); break;
 	case Prxy_TagStatus_offs:		ConLog.Warning("RawSPUThread[%d]: Write32(Prxy_TagStatus, 0x%x)", m_index, value);		Prxy.TagStatus.SetValue(value); break;
 	case SPU_Out_MBox_offs:			ConLog.Warning("RawSPUThread[%d]: Write32(SPU_Out_MBox, 0x%x)", m_index, value);		while(!SPU.Out_MBox.Push(value) && !Emu.IsStopped()) Sleep(1); break;
-	case SPU_In_MBox_offs:			ConLog.Warning("RawSPUThread[%d]: Write32(SPU_In_MBox, 0x%x)", m_index, value);			while(!SPU.In_MBox.Push(value) && !Emu.IsStopped()) Sleep(1); break;
+	case SPU_In_MBox_offs:			
+		ConLog.Warning("RawSPUThread[%d]: Write32(SPU_In_MBox, 0x%x)", m_index, value);
+		SPU.In_MBox.PushUncond(value); //if In_MBox is already full, the last message will be overwritten  
+	break;
 	case SPU_MBox_Status_offs:		ConLog.Warning("RawSPUThread[%d]: Write32(SPU_MBox_Status, 0x%x)", m_index, value);		SPU.MBox_Status.SetValue(value); break;
 	case SPU_RunCntl_offs:			ConLog.Warning("RawSPUThread[%d]: Write32(SPU_RunCntl, 0x%x)", m_index, value);			SPU.RunCntl.SetValue(value); break;
 	case SPU_Status_offs:			ConLog.Warning("RawSPUThread[%d]: Write32(SPU_Status, 0x%x)", m_index, value);			SPU.Status.SetValue(value); break;
 	case SPU_NPC_offs:				ConLog.Warning("RawSPUThread[%d]: Write32(SPU_NPC, 0x%x)", m_index, value);				SPU.NPC.SetValue(value); break;
-	case SPU_RdSigNotify1_offs:		ConLog.Warning("RawSPUThread[%d]: Write32(SPU_RdSigNotify1, 0x%x)", m_index, value);	SPU.RdSigNotify1.SetValue(value); break;
-	case SPU_RdSigNotify2_offs:		ConLog.Warning("RawSPUThread[%d]: Write32(SPU_RdSigNotify2, 0x%x)", m_index, value);	SPU.RdSigNotify2.SetValue(value); break;
+	case SPU_RdSigNotify1_offs:		ConLog.Warning("RawSPUThread[%d]: Write32(SPU_RdSigNotify1, 0x%x)", m_index, value);	SPU.SNR[0].SetValue(value); break;
+	case SPU_RdSigNotify2_offs:		ConLog.Warning("RawSPUThread[%d]: Write32(SPU_RdSigNotify2, 0x%x)", m_index, value);	SPU.SNR[1].SetValue(value); break;
 
 	default:
 		ConLog.Error("RawSPUThread[%d]: Write32(0x%x, 0x%x)", m_index, offset, value);

rpcs3/Emu/Cell/SPUInterpreter.h

@@ -7,12 +7,12 @@
 
 #define UNIMPLEMENTED() UNK(__FUNCTION__)
 
-typedef union _CRT_ALIGN(16) __u32x4 {
-	unsigned __int32 _u32[4];
+/* typedef union _CRT_ALIGN(16) __u32x4 {
+	u32 _u32[4];
 	__m128i m128i;
 	__m128 m128;
 	__m128d m128d;
- } __u32x4;
+ } __u32x4; */
 
 class SPUInterpreter : public SPUOpcodes
 {
@@ -35,24 +35,24 @@ private:
 		if(code & 0x2000)
 		{
 			CPU.SetExitStatus(code & 0xfff);
-			CPU.Stop();
 		}
 		else
 		{
 			ConLog.Warning("STOP: 0x%x", code);
-			Emu.Pause();
+			//Emu.Pause();
 		}
+		CPU.Stop();
 	}
 	void LNOP()
 	{
 	}
 	void SYNC(u32 Cbit)
 	{
-		//UNIMPLEMENTED();
+		_mm_mfence();
 	}
 	void DSYNC()
 	{
-		//UNIMPLEMENTED();
+		_mm_mfence();
 	}
 	void MFSPR(u32 rt, u32 sa)
 	{
@@ -191,18 +191,8 @@ private:
 	{
 		const u32 s = i7 & 0x3f;
 
-		for(u32 j = 0; j < 4; ++j)
-		{
-			const u32 t = CPU.GPR[ra]._u32[j];
-			u32 r = 0;
-
-			for(u32 b = 0; b + s < 32; ++b)
-			{
-				r |= t & (1 << (b + s));
-			}
-
-			CPU.GPR[rt]._u32[j] = r;
-		}
+		for (u32 j = 0; j < 4; ++j)
+			CPU.GPR[rt]._u32[j] = CPU.GPR[ra]._u32[j] << s;
 	}
 	void ROTHI(u32 rt, u32 ra, s32 i7)
 	{
@@ -388,28 +378,21 @@ private:
 	}
 	void FREST(u32 rt, u32 ra)
 	{
-		//(SSE) RCPPS - Compute Reciprocals of Packed Single-Precision Floating-Point Values
-		//rt = approximate(1/ra)
-		CPU.GPR[rt]._m128 = _mm_rcp_ps(CPU.GPR[ra]._m128);
+		//CPU.GPR[rt]._m128 = _mm_rcp_ps(CPU.GPR[ra]._m128);
+		for (int i = 0; i < 4; i++)
+			CPU.GPR[rt]._f[i] = 1 / CPU.GPR[ra]._f[i];
 	}
 	void FRSQEST(u32 rt, u32 ra)
 	{
-		//(SSE) RSQRTPS - Compute Reciprocals of Square Roots of Packed Single-Precision Floating-Point Values
-		//rt = approximate(1/sqrt(abs(ra)))
-		//abs(ra) === ra & FloatAbsMask
-		const __u32x4 FloatAbsMask = {0x7fffffff, 0x7fffffff, 0x7fffffff, 0x7fffffff};
-		CPU.GPR[rt]._m128 = _mm_rsqrt_ps(_mm_and_ps(CPU.GPR[ra]._m128, FloatAbsMask.m128));
+		//const __u32x4 FloatAbsMask = {0x7fffffff, 0x7fffffff, 0x7fffffff, 0x7fffffff};
+		//CPU.GPR[rt]._m128 = _mm_rsqrt_ps(_mm_and_ps(CPU.GPR[ra]._m128, FloatAbsMask.m128));
+		for (int i = 0; i < 4; i++)
+			CPU.GPR[rt]._f[i] = 1 / sqrt(abs(CPU.GPR[ra]._f[i]));
 	}
 	void LQX(u32 rt, u32 ra, u32 rb)
 	{
 		u32 a = CPU.GPR[ra]._u32[3], b = CPU.GPR[rb]._u32[3];
 
-		if(b & 0xf)
-		{
-			ConLog.Warning("LQX HACK (a[0x%x] + b[0x%x(0x%x)])", a, b << 3, b);
-			b <<= 3;
-		}
-
 		u32 lsa = (a + b) & 0x3fff0;
 
 		if(!CPU.IsGoodLSA(lsa))
@@ -1009,9 +992,10 @@ private:
 				exp = 255;
 
 			CPU.GPR[rt]._u32[i] = (CPU.GPR[ra]._u32[i] & 0x807fffff) | (exp << 23);
+
+			CPU.GPR[rt]._u32[i] = (u32)CPU.GPR[rt]._f[i]; //trunc
 		}
-		//(SSE2) CVTTPS2DQ - Convert with Truncation Packed Single FP to Packed Dword Int
-		CPU.GPR[rt]._m128i = _mm_cvttps_epi32(CPU.GPR[rt]._m128);
+		//CPU.GPR[rt]._m128i = _mm_cvttps_epi32(CPU.GPR[rt]._m128);
 	}
 	void CFLTU(u32 rt, u32 ra, s32 i8)
 	{
@@ -1038,11 +1022,12 @@ private:
 	}
 	void CSFLT(u32 rt, u32 ra, s32 i8)
 	{
-		//(SSE2) CVTDQ2PS - Convert Packed Dword Integers to Packed Single-Precision FP Values
-		CPU.GPR[rt]._m128 = _mm_cvtepi32_ps(CPU.GPR[ra]._m128i);
+		//CPU.GPR[rt]._m128 = _mm_cvtepi32_ps(CPU.GPR[ra]._m128i);
 		const u32 scale = 155 - (i8 & 0xff); //unsigned immediate
 		for (int i = 0; i < 4; i++)
 		{
+			CPU.GPR[rt]._f[i] = (s32)CPU.GPR[ra]._i32[i];
+
 			u32 exp = ((CPU.GPR[rt]._u32[i] >> 23) & 0xff) - scale;
 
 			if (exp > 255) //< 0
@@ -1412,7 +1397,7 @@ private:
 			}
 		}
 	}
-	void MPYA(u32 rc, u32 ra, u32 rb, u32 rt)
+	void MPYA(u32 rt, u32 ra, u32 rb, u32 rc)
 	{
 		for (int w = 0; w < 4; w++)
 			CPU.GPR[rt]._i32[w] = CPU.GPR[ra]._i16[w*2] * CPU.GPR[rb]._i16[w*2] + CPU.GPR[rc]._i32[w];
@@ -1424,14 +1409,14 @@ private:
 		CPU.GPR[rt]._f[2] = CPU.GPR[rc]._f[2] - CPU.GPR[ra]._f[2] * CPU.GPR[rb]._f[2];
 		CPU.GPR[rt]._f[3] = CPU.GPR[rc]._f[3] - CPU.GPR[ra]._f[3] * CPU.GPR[rb]._f[3];
 	}
-	void FMA(u32 rc, u32 ra, u32 rb, u32 rt)
+	void FMA(u32 rt, u32 ra, u32 rb, u32 rc)
 	{
 		CPU.GPR[rt]._f[0] = CPU.GPR[ra]._f[0] * CPU.GPR[rb]._f[0] + CPU.GPR[rc]._f[0];
 		CPU.GPR[rt]._f[1] = CPU.GPR[ra]._f[1] * CPU.GPR[rb]._f[1] + CPU.GPR[rc]._f[1];
 		CPU.GPR[rt]._f[2] = CPU.GPR[ra]._f[2] * CPU.GPR[rb]._f[2] + CPU.GPR[rc]._f[2];
 		CPU.GPR[rt]._f[3] = CPU.GPR[ra]._f[3] * CPU.GPR[rb]._f[3] + CPU.GPR[rc]._f[3];
 	}
-	void FMS(u32 rc, u32 ra, u32 rb, u32 rt)
+	void FMS(u32 rt, u32 ra, u32 rb, u32 rc)
 	{
 		CPU.GPR[rt]._f[0] = CPU.GPR[ra]._f[0] * CPU.GPR[rb]._f[0] - CPU.GPR[rc]._f[0];
 		CPU.GPR[rt]._f[1] = CPU.GPR[ra]._f[1] * CPU.GPR[rb]._f[1] - CPU.GPR[rc]._f[1];

rpcs3/Emu/Cell/SPUThread.cpp

@@ -43,14 +43,19 @@ void SPUThread::InitRegs()
 	GPR[5]._u64[1] = m_args[2];
 	GPR[6]._u64[1] = m_args[3];
 
+	cfg.Reset();
+
 	dmac.ls_offset = m_offset;
 	dmac.proxy_pos = 0;
 	dmac.queue_pos = 0;
+	dmac.proxy_lock = 0;
+	dmac.queue_lock = 0;
 
 	SPU.RunCntl.SetValue(SPU_RUNCNTL_STOP);
 	SPU.Status.SetValue(SPU_STATUS_RUNNING);
 	Prxy.QueryType.SetValue(0);
-	MFC.CMDStatus.SetValue(0);
+	MFC1.CMDStatus.SetValue(0);
+	MFC2.CMDStatus.SetValue(0);
 	//PC = SPU.NPC.GetValue();
 }
 

rpcs3/Emu/Cell/SPUThread.h

@@ -249,22 +249,51 @@ union SPU_SPR_hdr
 	}
 };
 
+union SPU_SNRConfig_hdr
+{
+	u64 value;
+
+	SPU_SNRConfig_hdr() {}
+
+	wxString ToString() const
+	{
+		return wxString::Format("%01x", value);
+	}
+
+	void Reset()
+	{
+		memset(this, 0, sizeof(*this));
+	}
+};
+
 class SPUThread : public PPCThread
 {
 public:
 	SPU_GPR_hdr GPR[128]; //General-Purpose Register
 	SPU_SPR_hdr SPR[128]; //Special-Purpose Registers
 	FPSCR FPSCR;
+	SPU_SNRConfig_hdr cfg; //Signal Notification Registers Configuration (OR-mode enabled: 0x1 for SNR1, 0x2 for SNR2)
 
 	template<size_t _max_count>
 	class Channel
 	{
 	public:
 		static const size_t max_count = _max_count;
+#ifdef _M_X64
+		static const bool x86 = false;
+#else
+		static const bool x86 = true;
+#endif
 
 	private:
-		u32 m_value[max_count];
-		u32 m_index;
+		union _CRT_ALIGN(8) {
+			struct {
+				volatile u32 m_index;
+				u32 m_value[max_count];
+			};
+			volatile u64 m_indval;
+		};
+		volatile long m_lock;
 
 	public:
 
@@ -276,29 +305,154 @@ public:
 		void Init()
 		{
 			m_index = 0;
+			m_lock = 0; //simple lock
 		}
 
 		__forceinline bool Pop(u32& res)
 		{
-			if(!m_index) return false;
-			res = m_value[--m_index];
-			return true;
+			if (max_count > 1 || x86)
+			{
+				while (_InterlockedExchange(&m_lock, 1));
+				_mm_lfence();
+				if(!m_index) 
+				{
+					m_lock = 0; //release lock
+					return false;
+				}
+				res = m_value[--m_index];
+				m_value[m_index] = 0;
+				_mm_sfence();
+				m_lock = 0;
+				return true;
+			}
+			else
+			{ //lock-free
+				if(!m_index)
+					return false;
+				else
+				{
+					res = (m_indval >> 32);
+					m_indval = 0;
+					return true;
+				}				
+			}
 		}
 
 		__forceinline bool Push(u32 value)
 		{
-			if(m_index >= max_count) return false;
-			m_value[m_index++] = value;
-			return true;
+			if (max_count > 1 || x86)
+			{
+				while (_InterlockedExchange(&m_lock, 1));
+				_mm_lfence();
+				if(m_index >= max_count) 
+				{
+					m_lock = 0; //release lock
+					return false;
+				}
+				m_value[m_index++] = value;
+				_mm_sfence();
+				m_lock = 0;
+				return true;
+			}
+			else
+			{ //lock-free
+				if(m_index)
+					return false;
+				else
+				{
+					m_indval = ((u64)value << 32) | 1;
+					return true;
+				}
+			}
+		}
+
+		__forceinline void PushUncond(u32 value)
+		{
+			if (max_count > 1 || x86)
+			{
+				while (_InterlockedExchange(&m_lock, 1));
+				_mm_lfence();
+				if(m_index >= max_count) 
+					m_value[max_count-1] = value; //last message is overwritten
+				else
+					m_value[m_index++] = value;
+				_mm_sfence();
+				m_lock = 0;
+			}
+			else
+			{ //lock-free
+				m_indval = ((u64)value << 32) | 1;
+			}
+		}
+
+		__forceinline void PushUncond_OR(u32 value)
+		{
+			if (max_count > 1 || x86)
+			{
+				while (_InterlockedExchange(&m_lock, 1));
+				_mm_lfence();
+				if(m_index >= max_count) 
+					m_value[max_count-1] |= value; //last message is logically ORed
+				else
+					m_value[m_index++] = value;
+				_mm_sfence();
+				m_lock = 0;
+			}
+			else
+			{
+#ifdef _M_X64
+				_InterlockedOr64((volatile __int64*)m_indval, ((u64)value << 32) | 1);
+#else
+				ConLog.Error("PushUncond_OR(): no code compiled");
+#endif
+			}
+		}
+
+		__forceinline void PopUncond(u32& res)
+		{
+			if (max_count > 1 || x86)
+			{
+				while (_InterlockedExchange(&m_lock, 1));
+				_mm_lfence();
+				if(!m_index) 
+					res = 0; //result is undefined
+				else
+				{
+					res = m_value[--m_index];
+					m_value[m_index] = 0;
+				}
+				_mm_sfence();
+				m_lock = 0;
+			}
+			else
+			{ //lock-free
+				if(!m_index)
+					res = 0;
+				else
+				{
+					res = (m_indval >> 32);
+					m_indval = 0;
+				}
+			}
 		}
 
 		u32 GetCount() const
 		{
+			if (max_count > 1 || x86)
+			{
+				while (m_lock);
+				_mm_lfence();	
+			}
 			return m_index;
 		}
 
 		u32 GetFreeCount() const
 		{
+			if (max_count > 1 || x86)
+			{
+				while (m_lock);
+				_mm_lfence();			
+			}
 			return max_count - m_index;
 		}
 
@@ -313,7 +467,7 @@ public:
 		}
 	};
 
-	struct
+	struct MFCReg
 	{
 		Channel<1> LSA;
 		Channel<1> EAH;
@@ -321,7 +475,7 @@ public:
 		Channel<1> Size_Tag;
 		Channel<1> CMDStatus;
 		Channel<1> QStatus;
-	} MFC;
+	} MFC1, MFC2;
 
 	struct
 	{
@@ -339,8 +493,7 @@ public:
 		Channel<1> RunCntl;
 		Channel<1> Status;
 		Channel<1> NPC;
-		Channel<1> RdSigNotify1;
-		Channel<1> RdSigNotify2;
+		Channel<1> SNR[2];
 	} SPU;
 
 	u32 LSA;
@@ -353,36 +506,34 @@ public:
 
 	DMAC dmac;
 
-	void DoMfcCmd()
+	void EnqMfcCmd(MFCReg& MFCArgs)
 	{
-		u32 cmd = MFC.CMDStatus.GetValue();
+		u32 cmd = MFCArgs.CMDStatus.GetValue();
 		u16 op = cmd & MFC_MASK_CMD;
 
-		switch(op & (MFC_PUT_CMD | MFC_GET_CMD))
+		u32 lsa = MFCArgs.LSA.GetValue();
+		u64 ea = (u64)MFCArgs.EAL.GetValue() | ((u64)MFCArgs.EAH.GetValue() << 32);
+		u32 size_tag = MFCArgs.Size_Tag.GetValue();
+		u16 tag = (u16)size_tag;
+		u16 size = size_tag >> 16;
+
+		switch(op & ~(MFC_BARRIER_MASK | MFC_FENCE_MASK))
 		{
 		case MFC_PUT_CMD:
 		case MFC_GET_CMD:
 		{
-			u32 lsa = MFC.LSA.GetValue();
-			u64 ea = (u64)MFC.EAL.GetValue() | ((u64)MFC.EAH.GetValue() << 32);
-			u32 size_tag = MFC.Size_Tag.GetValue();
-			u16 tag = (u16)size_tag;
-			u16 size = size_tag >> 16;
-
-			ConLog.Warning("DMA %s:", op & MFC_PUT_CMD ? "PUT" : "GET");
-			ConLog.Warning("*** lsa  = 0x%x", lsa);
-			ConLog.Warning("*** ea   = 0x%llx", ea);
-			ConLog.Warning("*** tag  = 0x%x", tag);
-			ConLog.Warning("*** size = 0x%x", size);
-			ConLog.Warning("*** cmd  = 0x%x", cmd);
-			ConLog.SkipLn();
-
-			MFC.CMDStatus.SetValue(dmac.Cmd(cmd, tag, lsa, ea, size));
+			/* ConLog.Warning("DMA %s%s%s: lsa = 0x%x, ea = 0x%llx, tag = 0x%x, size = 0x%x, cmd = 0x%x", 
+				op & MFC_PUT_CMD ? "PUT" : "GET",
+				op & MFC_BARRIER_MASK ? "B" : "", 
+				op & MFC_FENCE_MASK ? "F" : "", 
+				lsa, ea, tag, size, cmd); */
+			MFCArgs.CMDStatus.SetValue(dmac.Cmd(cmd, tag, lsa, ea, size));
 		}
 		break;
 
 		default:
-			ConLog.Error("Unknown MFC cmd. (opcode=0x%x, cmd=0x%x)", op, cmd);
+			ConLog.Error("Unknown MFC cmd. (opcode=0x%x, cmd=0x%x, lsa = 0x%x, ea = 0x%llx, tag = 0x%x, size = 0x%x)", 
+				op, cmd, lsa, ea, tag, size);
 		break;
 		}
 	}
@@ -391,34 +542,6 @@ public:
 	{
 		switch(ch)
 		{
-		case SPU_RdEventStat: //Read event status with mask applied
-		case SPU_WrEventMask: //Write event mask
-		case SPU_WrEventAck: //Write end of event processing
-		case SPU_RdSigNotify1: //Signal notification 1
-		case SPU_RdSigNotify2: //Signal notification 2
-		case SPU_WrDec: //Write decrementer count
-		case SPU_RdDec: //Read decrementer count
-		case SPU_RdEventMask: //Read event mask
-		case SPU_RdMachStat: //Read SPU run status
-		case SPU_WrSRR0: //Write SPU machine state save/restore register 0 (SRR0)
-		case SPU_RdSRR0: //Read SPU machine state save/restore register 0 (SRR0)
-		case MFC_WrMSSyncReq: //Write multisource synchronization request
-		case MFC_RdTagMask: //Read tag mask
-		case MFC_LSA: //Write local memory address command parameter
-		case MFC_EAH: //Write high order DMA effective address command parameter
-		case MFC_EAL: //Write low order DMA effective address command parameter
-		case MFC_Size: //Write DMA transfer size command parameter
-		case MFC_TagID: //Write tag identifier command parameter
-		case MFC_Cmd: //Write and enqueue DMA command with associated class ID
-		case MFC_WrTagMask: //Write tag mask
-		case MFC_WrTagUpdate: //Write request for conditional or unconditional tag status update
-		case MFC_RdTagStat: //Read tag status with mask applied
-		case MFC_RdListStallStat: //Read DMA list stall-and-notify status
-		case MFC_WrListStallAck: //Write DMA list stall-and-notify acknowledge
-		case MFC_RdAtomicStat: //Read completion status of last completed immediate MFC atomic update command
-			ConLog.Error("%s error: unimplemented channel (%s).", __FUNCTION__, spu_ch_name[ch]);
-		break;
-
 		case SPU_WrOutMbox:
 			return SPU.Out_MBox.GetFreeCount();
 
@@ -426,8 +549,18 @@ public:
 			return SPU.In_MBox.GetCount();
 
 		case SPU_WrOutIntrMbox:
+			ConLog.Warning("GetChannelCount(%s) = 0", spu_ch_name[ch]);
 			return 0;//return SPU.OutIntr_Mbox.GetFreeCount();
 
+		case MFC_RdTagStat:
+			return Prxy.TagStatus.GetCount();
+
+		case SPU_RdSigNotify1:
+			return SPU.SNR[0].GetCount();
+
+		case SPU_RdSigNotify2:
+			return SPU.SNR[1].GetCount();
+
 		default:
 			ConLog.Error("%s error: unknown/illegal channel (%d [%s]).", __FUNCTION__, ch, spu_ch_name[ch]);
 		break;
@@ -440,55 +573,51 @@ public:
 	{
 		const u32 v = r._u32[3];
 
-		ConLog.Warning("%s: %s = 0x%x", __FUNCTION__, spu_ch_name[ch], v);
-
 		switch(ch)
 		{
 		case SPU_WrOutIntrMbox:
-			while(!SPU.OutIntr_Mbox.Push(v) && !Emu.IsStopped())
-			{
-				Sleep(1);
-			}
+			ConLog.Warning("%s: %s = 0x%x", __FUNCTION__, spu_ch_name[ch], v);
+			while (!SPU.OutIntr_Mbox.Push(v) && !Emu.IsStopped()) Sleep(1);
 		break;
 
 		case SPU_WrOutMbox:
-			while(!SPU.Out_MBox.Push(v) && !Emu.IsStopped())
-			{
-				Sleep(1);
-			}
+			ConLog.Warning("%s: %s = 0x%x", __FUNCTION__, spu_ch_name[ch], v);
+			while (!SPU.Out_MBox.Push(v) && !Emu.IsStopped()) Sleep(1);
 		break;
 
 		case MFC_WrTagMask:
+			//ConLog.Warning("%s: %s = 0x%x", __FUNCTION__, spu_ch_name[ch], v);
 			Prxy.QueryMask.SetValue(v);
 		break;
 
 		case MFC_WrTagUpdate:
-			Prxy.TagStatus.SetValue(Prxy.QueryMask.GetValue());
+			//ConLog.Warning("%s: %s = 0x%x", __FUNCTION__, spu_ch_name[ch], v);
+			Prxy.TagStatus.PushUncond(Prxy.QueryMask.GetValue());
 		break;
 
 		case MFC_LSA:
-			MFC.LSA.SetValue(v);
+			MFC1.LSA.SetValue(v);
 		break;
 
 		case MFC_EAH:
-			MFC.EAH.SetValue(v);
+			MFC1.EAH.SetValue(v);
 		break;
 
 		case MFC_EAL:
-			MFC.EAL.SetValue(v);
+			MFC1.EAL.SetValue(v);
 		break;
 
 		case MFC_Size:
-			MFC.Size_Tag.SetValue((MFC.Size_Tag.GetValue() & 0xffff) | (v << 16));
+			MFC1.Size_Tag.SetValue((MFC1.Size_Tag.GetValue() & 0xffff) | (v << 16));
 		break;
 
 		case MFC_TagID:
-			MFC.Size_Tag.SetValue((MFC.Size_Tag.GetValue() & ~0xffff) | (v & 0xffff));
+			MFC1.Size_Tag.SetValue((MFC1.Size_Tag.GetValue() & ~0xffff) | (v & 0xffff));
 		break;
 
 		case MFC_Cmd:
-			MFC.CMDStatus.SetValue(v);
-			DoMfcCmd();
+			MFC1.CMDStatus.SetValue(v);
+			EnqMfcCmd(MFC1);
 		break;
 
 		default:
@@ -505,19 +634,29 @@ public:
 		switch(ch)
 		{
 		case SPU_RdInMbox:
-			if(!SPU.In_MBox.Pop(v)) v = 0;
+			while (!SPU.In_MBox.Pop(v) && !Emu.IsStopped()) Sleep(1);
+			ConLog.Warning("%s: 0x%x = %s", __FUNCTION__, v, spu_ch_name[ch]);
 		break;
 
 		case MFC_RdTagStat:
-			v = Prxy.TagStatus.GetValue();
+			while (!Prxy.TagStatus.Pop(v) && !Emu.IsStopped()) Sleep(1);
+			//ConLog.Warning("%s: 0x%x = %s", __FUNCTION__, v, spu_ch_name[ch]);
+		break;
+
+		case SPU_RdSigNotify1:
+			while (!SPU.SNR[0].Pop(v) && !Emu.IsStopped()) Sleep(1);
+			//ConLog.Warning("%s: 0x%x = %s", __FUNCTION__, v, spu_ch_name[ch]);
+		break;
+
+		case SPU_RdSigNotify2:
+			while (!SPU.SNR[1].Pop(v) && !Emu.IsStopped()) Sleep(1);
+			//ConLog.Warning("%s: 0x%x = %s", __FUNCTION__, v, spu_ch_name[ch]);
 		break;
 
 		default:
 			ConLog.Error("%s error: unknown/illegal channel (%d [%s]).", __FUNCTION__, ch, spu_ch_name[ch]);
 		break;
 		}
-
-		ConLog.Warning("%s: 0x%x = %s", __FUNCTION__, v, spu_ch_name[ch]);
 	}
 
 	bool IsGoodLSA(const u32 lsa) const { return Memory.IsGoodAddr(lsa + m_offset) && lsa < 0x40000; }

rpcs3/Emu/FS/vfsDevice.cpp

@@ -30,7 +30,11 @@ u32 vfsDevice::CmpPs3Path(const wxString& ps3_path)
 
 	for(u32 i=0; i<lim; ++i, ++ret)
 	{
-		if(m_ps3_path[i] != ps3_path[i]) break;
+		if(m_ps3_path[i] != ps3_path[i]) 
+		{
+			ret = 0;
+			break;
+		}
 	}
 
 	return ret;

rpcs3/Emu/SysCalls/Modules/sysPrxForUser.cpp

@@ -1,6 +1,9 @@
 #include "stdafx.h"
 #include "Emu/SysCalls/SysCalls.h"
 #include "Emu/SysCalls/SC_FUNC.h"
+#include "Emu/SysCalls/lv2/SC_SPU_Thread.h"
+#include "Loader/ELF.h"
+#include "Emu/Cell/RawSPUThread.h"
 
 void sysPrxForUser_init();
 Module sysPrxForUser("sysPrxForUser", sysPrxForUser_init);
@@ -13,13 +16,13 @@ void sys_initialize_tls()
 s64 sys_process_atexitspawn()
 {
 	sysPrxForUser.Log("sys_process_atexitspawn()");
-	return 0;
+	return CELL_OK;
 }
 
 s64 sys_process_at_Exitspawn()
 {
 	sysPrxForUser.Log("sys_process_at_Exitspawn");
-	return 0;
+	return CELL_OK;
 }
 
 int sys_process_is_stack(u32 p)
@@ -34,19 +37,19 @@ int sys_process_is_stack(u32 p)
 int sys_spu_printf_initialize(int a1, int a2, int a3, int a4, int a5)
 {
 	sysPrxForUser.Warning("sys_spu_printf_initialize(0x%x, 0x%x, 0x%x, 0x%x, 0x%x)", a1, a2, a3, a4, a5);
-	return 0;
+	return CELL_OK;
 }
 
 s64 sys_prx_register_library(u32 lib_addr)
 {
 	sysPrxForUser.Error("sys_prx_register_library(lib_addr=0x%x)", lib_addr);
-	return 0;
+	return CELL_OK;
 }
 
 s64 sys_prx_exitspawn_with_level()
 {
 	sysPrxForUser.Log("sys_prx_exitspawn_with_level()");
-	return 0;
+	return CELL_OK;
 }
 
 s64 sys_strlen(u32 addr)
@@ -56,6 +59,73 @@ s64 sys_strlen(u32 addr)
 	return str.Len();
 }
 
+int sys_spu_elf_get_information(u32 elf_img, mem32_t entry, mem32_t nseg)
+{
+	sysPrxForUser.Warning("sys_spu_elf_get_information(elf_img=0x%x, entry_addr=0x%x, nseg_addr=0x%x", elf_img, entry.GetAddr(), nseg.GetAddr());
+	return CELL_OK;
+}
+
+int sys_spu_elf_get_segments(u32 elf_img, mem_ptr_t<sys_spu_segment> segments, int nseg)
+{
+	sysPrxForUser.Warning("sys_spu_elf_get_segments(elf_img=0x%x, segments_addr=0x%x, nseg=0x%x)", elf_img, segments.GetAddr(), nseg);
+	return CELL_OK;
+}
+
+int sys_spu_image_import(mem_ptr_t<sys_spu_image> img, u32 src, u32 type)
+{
+	sysPrxForUser.Warning("sys_spu_image_import(img=0x%x, src=0x%x, type=0x%x)", img.GetAddr(), src, type);
+
+	if(!img.IsGood() || !Memory.IsGoodAddr(src))
+	{
+		return CELL_EFAULT;
+	}
+
+	vfsStreamMemory f(src);
+	u32 entry = LoadSpuImage(f);
+
+	img->type = 1;
+	img->entry_point = entry;
+	img->segs_addr = 0x0;
+	img->nsegs = 0;
+
+	return CELL_OK;
+}
+
+int sys_raw_spu_load(int id, u32 path_addr, mem32_t entry)
+{
+	const wxString path = Memory.ReadString(path_addr).mb_str();
+	sysPrxForUser.Warning("sys_raw_spu_load(id=0x%x, path=0x%x [%s], entry_addr=0x%x)", 
+		id, path_addr, path, entry.GetAddr());
+
+	vfsFile f(path.c_str());
+	if(!f.IsOpened())
+	{
+		sysPrxForUser.Error("sys_raw_spu_load error: '%s' not found!", path);
+		return CELL_ENOENT;
+	}
+
+	ELFLoader l(f);
+	l.LoadInfo();
+	l.LoadData(RAW_SPU_BASE_ADDR + RAW_SPU_OFFSET * id);
+
+	entry = l.GetEntry();
+
+	return CELL_OK;
+}
+
+extern u64 g_last_spu_offset;
+
+int sys_raw_spu_image_load(int id, mem_ptr_t<sys_spu_image> img)
+{
+	sysPrxForUser.Warning("sys_raw_spu_image_load(id=0x%x, img_addr=0x%x)", id, img.GetAddr());
+
+	memcpy(Memory + RAW_SPU_BASE_ADDR + RAW_SPU_OFFSET * id, Memory + g_last_spu_offset, 256 * 1024);
+	Memory.Write32(RAW_SPU_BASE_ADDR + RAW_SPU_OFFSET * id + RAW_SPU_PROB_OFFSET + SPU_NPC_offs, 
+		img->entry_point - g_last_spu_offset);
+
+	return CELL_OK;
+}
+
 void sysPrxForUser_init()
 {
 	sysPrxForUser.AddFunc(0x744680a2, sys_initialize_tls);
@@ -92,4 +162,11 @@ void sysPrxForUser_init()
 
 	sysPrxForUser.AddFunc(0xb257540b, sys_mmapper_allocate_memory);
 	sysPrxForUser.AddFunc(0xdc578057, sys_mmapper_map_memory);
+
+	sysPrxForUser.AddFunc(0x1ed454ce, sys_spu_elf_get_information);
+	sysPrxForUser.AddFunc(0xdb6b3250, sys_spu_elf_get_segments);
+	sysPrxForUser.AddFunc(0xebe5f72f, sys_spu_image_import);
+
+	sysPrxForUser.AddFunc(0x893305fa, sys_raw_spu_load);
+	sysPrxForUser.AddFunc(0xb995662e, sys_raw_spu_image_load);
 }

rpcs3/Emu/SysCalls/SysCalls.cpp

@@ -97,8 +97,8 @@ static func_caller* sc_table[1024] =
 	null_func, null_func, null_func, null_func, bind_func(sys_spu_initialize), //169
 	bind_func(sys_spu_thread_group_create), bind_func(sys_spu_thread_set_argument), bind_func(sys_spu_thread_initialize), bind_func(sys_spu_thread_group_start), null_func, //174
 	null_func, null_func, null_func, null_func, null_func, //179
-	null_func, bind_func(sys_spu_thread_write_ls), bind_func(sys_spu_thread_read_ls), null_func, null_func, //184
-	null_func, null_func, null_func, null_func, null_func, //189
+	null_func, bind_func(sys_spu_thread_write_ls), bind_func(sys_spu_thread_read_ls), null_func, bind_func(sys_spu_thread_write_snr), //184
+	null_func, null_func, bind_func(sys_spu_thread_set_spu_cfg), bind_func(sys_spu_thread_get_spu_cfg), null_func, //189
 	bind_func(sys_spu_thread_write_spu_mb), bind_func(sys_spu_thread_connect_event), null_func, null_func, null_func, //194
 	null_func, null_func, null_func, null_func, null_func, //199
 	null_func, null_func, null_func, null_func, null_func, //204

rpcs3/Emu/SysCalls/SysCalls.h

@@ -291,6 +291,9 @@ extern int sys_spu_initialize(u32 max_usable_spu, u32 max_raw_spu);
 extern int sys_spu_thread_write_ls(u32 id, u32 address, u64 value, u32 type);
 extern int sys_spu_thread_read_ls(u32 id, u32 address, mem64_t value, u32 type);
 extern int sys_spu_thread_write_spu_mb(u32 id, u32 value);
+extern int sys_spu_thread_set_spu_cfg(u32 id, u64 value);
+extern int sys_spu_thread_get_spu_cfg(u32 id, mem64_t value);
+extern int sys_spu_thread_write_snr(u32 id, u32 number, u32 value);
 
 //sys_time
 extern int sys_time_get_timezone(mem32_t timezone, mem32_t summertime);

rpcs3/Emu/SysCalls/lv2/SC_SPU_Thread.cpp

@@ -1,6 +1,7 @@
 #include "stdafx.h"
 #include "SC_SPU_Thread.h"
 #include "Emu/SysCalls/SysCalls.h"
+#include "Emu/SysCalls/SC_FUNC.h"
 #include "Loader/ELF.h"
 #include "Emu/Cell/RawSPUThread.h"
 
@@ -20,22 +21,23 @@ struct SpuGroupInfo
 	}
 };
 
-u64 g_spu_offset = 0;
+u64 g_last_spu_offset = 0;
 
 u32 LoadSpuImage(vfsStream& stream)
 {
 	ELFLoader l(stream);
 	l.LoadInfo();
-	g_spu_offset = Memory.MainMem.Alloc(0xFFFFED - stream.GetSize());
-	l.LoadData(g_spu_offset);
+	u32 alloc_size = 0xFFFFED - stream.GetSize();
+	g_last_spu_offset = Memory.MainMem.Alloc(alloc_size);
+	l.LoadData(g_last_spu_offset);
 
-	return g_spu_offset + l.GetEntry();
+	return g_last_spu_offset + l.GetEntry();
 }
 
 //156
 int sys_spu_image_open(mem_ptr_t<sys_spu_image> img, u32 path_addr)
 {
-	const std::string& path = Memory.ReadString(path_addr).mb_str();
+	const wxString path = Memory.ReadString(path_addr).mb_str();
 	sc_spu.Warning("sys_spu_image_open(img_addr=0x%x, path_addr=0x%x [%s])", img.GetAddr(), path_addr, path);
 
 	if(!img.IsGood() || !Memory.IsGoodAddr(path_addr))
@@ -93,37 +95,41 @@ int sys_spu_thread_initialize(mem32_t thread, u32 group, u32 spu_num, mem_ptr_t<
 		return CELL_EBUSY;
 	}
 
-	u32 entry = img->entry_point;
+	u32 ls_entry = img->entry_point - g_last_spu_offset;
 	std::string name = Memory.ReadString(attr->name_addr, attr->name_len).mb_str();
 	u64 a1 = arg->arg1;
 	u64 a2 = arg->arg2;
 	u64 a3 = arg->arg3;
 	u64 a4 = arg->arg4;
 
-	ConLog.Write("New SPU Thread:");
-	ConLog.Write("entry = 0x%x", entry);
-	ConLog.Write("name = %s", name);
-	ConLog.Write("a1 = 0x%x", a1);
-	ConLog.Write("a2 = 0x%x", a2);
-	ConLog.Write("a3 = 0x%x", a3);
-	ConLog.Write("a4 = 0x%x", a4);
-	ConLog.SkipLn();
-
 	CPUThread& new_thread = Emu.GetCPU().AddThread(CPU_THREAD_SPU);
-	new_thread.SetOffset(g_spu_offset);
-	new_thread.SetEntry(entry - g_spu_offset);
+	//copy SPU image:
+	u32 spu_offset = Memory.MainMem.Alloc(256 * 1024);
+	memcpy(Memory + spu_offset, Memory + g_last_spu_offset, 256 * 1024);
+	//initialize from new place:
+	new_thread.SetOffset(spu_offset);
+	new_thread.SetEntry(ls_entry);
 	new_thread.SetName(name);
-	new_thread.Run();
-	new_thread.Pause();
 	new_thread.SetArg(0, a1);
 	new_thread.SetArg(1, a2);
 	new_thread.SetArg(2, a3);
 	new_thread.SetArg(3, a4);
+	new_thread.Run();
 
 	thread = new_thread.GetId();
 
 	group_info.threads[spu_num] = &new_thread;
 
+	ConLog.Write("New SPU Thread:");
+	ConLog.Write("ls_entry = 0x%x", ls_entry);
+	ConLog.Write("name = %s", wxString(name));
+	ConLog.Write("a1 = 0x%x", a1);
+	ConLog.Write("a2 = 0x%x", a2);
+	ConLog.Write("a3 = 0x%x", a3);
+	ConLog.Write("a4 = 0x%x", a4);
+	ConLog.Write("ls_offset = 0x%x", ((SPUThread&)new_thread).dmac.ls_offset);
+	ConLog.SkipLn();
+
 	return CELL_OK;
 }
 
@@ -164,7 +170,7 @@ int sys_spu_thread_group_start(u32 id)
 	ID& id_data = Emu.GetIdManager().GetIDData(id);
 	SpuGroupInfo& group_info = *(SpuGroupInfo*)id_data.m_data;
 
-	Emu.Pause();
+	//Emu.Pause();
 	for(int i=0; i<g_spu_group_thr_count; i++)
 	{
 		if(group_info.threads[i])
@@ -190,7 +196,7 @@ int sys_spu_thread_group_create(mem32_t id, u32 num, int prio, mem_ptr_t<sys_spu
 	ConLog.Write("*** attr.type=%d", attr->type.ToLE());
 	ConLog.Write("*** attr.option.ct=%d", attr->option.ct.ToLE());
 
-	const std::string& name = Memory.ReadString(attr->name_addr, attr->name_len).mb_str();
+	const wxString name = Memory.ReadString(attr->name_addr, attr->name_len).mb_str();
 	ConLog.Write("*** name='%s'", name);
 
 	id = Emu.GetIdManager().GetNewID(wxString::Format("sys_spu_thread_group '%s'", name), new SpuGroupInfo(*attr));
@@ -335,6 +341,72 @@ int sys_spu_thread_write_spu_mb(u32 id, u32 value)
 	return CELL_OK;
 }
 
+//187
+int sys_spu_thread_set_spu_cfg(u32 id, u64 value)
+{
+	sc_spu.Warning("sys_spu_thread_set_spu_cfg(id=0x%x, value=0x%x)", id, value);
+
+	CPUThread* thr = Emu.GetCPU().GetThread(id);
+
+	if(!thr || (thr->GetType() != CPU_THREAD_SPU && thr->GetType() != CPU_THREAD_RAW_SPU))
+	{
+		return CELL_ESRCH;
+	}
+
+	if (value > 3)
+	{
+		return CELL_EINVAL;
+	}
+
+	(*(SPUThread*)thr).cfg.value = value;
+
+	return CELL_OK;
+}
+
+//188
+int sys_spu_thread_get_spu_cfg(u32 id, mem64_t value)
+{
+	sc_spu.Warning("sys_spu_thread_get_spu_cfg(id=0x%x, value_addr=0x%x)", id, value.GetAddr());
+
+	CPUThread* thr = Emu.GetCPU().GetThread(id);
+
+	if(!thr || (thr->GetType() != CPU_THREAD_SPU && thr->GetType() != CPU_THREAD_RAW_SPU))
+	{
+		return CELL_ESRCH;
+	}
+
+	value = (*(SPUThread*)thr).cfg.value;
+
+	return CELL_OK;
+}
+
+//184
+int sys_spu_thread_write_snr(u32 id, u32 number, u32 value)
+{
+	CPUThread* thr = Emu.GetCPU().GetThread(id);
+
+	if(!thr || (thr->GetType() != CPU_THREAD_SPU && thr->GetType() != CPU_THREAD_RAW_SPU))
+	{
+		return CELL_ESRCH;
+	}
+
+	if (number > 1)
+	{
+		return CELL_EINVAL;
+	}
+
+	if ((*(SPUThread*)thr).cfg.value & ((u64)1<<number))
+	{ //logical OR
+		(*(SPUThread*)thr).SPU.SNR[number].PushUncond_OR(value);
+	}
+	else
+	{ //overwrite
+		(*(SPUThread*)thr).SPU.SNR[number].PushUncond(value);
+	}
+
+	return CELL_OK;
+}
+
 int sys_spu_thread_group_connect_event_all_threads(u32 id, u32 eq, u64 req, u32 spup_addr)
 {
 	sc_spu.Warning("sys_spu_thread_group_connect_event_all_threads(id=0x%x, eq=0x%x, req=0x%llx, spup_addr=0x%x)",

rpcs3/Emu/SysCalls/lv2/SC_SPU_Thread.h

@@ -1,5 +1,7 @@
 #pragma once
 
+u32 LoadSpuImage(vfsStream& stream);
+
 struct sys_spu_thread_group_attribute
 {
 	be_t<u32> name_len;
@@ -30,3 +32,11 @@ struct sys_spu_image
 	be_t<u32> segs_addr;
 	be_t<int> nsegs;
 };
+
+struct sys_spu_segment
+{
+	be_t<int> type;
+	be_t<u32> ls_start;
+	be_t<int> size;
+	be_t<u64> src;
+};

rpcs3/Emu/System.cpp

@@ -354,7 +354,6 @@ void Emulator::Load()
 
 	thread.Run();
 
-	wxCriticalSectionLocker lock(m_cs_status);
 	m_status = Ready;
 #ifndef QT_UI
 	wxGetApp().SendDbgCommand(DID_READY_EMU);
@@ -379,7 +378,6 @@ void Emulator::Run()
 	wxGetApp().SendDbgCommand(DID_START_EMU);
 #endif
 
-	wxCriticalSectionLocker lock(m_cs_status);
 	//ConLog.Write("run...");
 	m_status = Running;
 
@@ -403,7 +401,6 @@ void Emulator::Pause()
 	wxGetApp().SendDbgCommand(DID_PAUSE_EMU);
 #endif
 
-	wxCriticalSectionLocker lock(m_cs_status);
 	m_status = Paused;
 #ifndef QT_UI
 	wxGetApp().SendDbgCommand(DID_PAUSED_EMU);
@@ -418,7 +415,6 @@ void Emulator::Resume()
 	wxGetApp().SendDbgCommand(DID_RESUME_EMU);
 #endif
 
-	wxCriticalSectionLocker lock(m_cs_status);
 	m_status = Running;
 
 	CheckStatus();
@@ -436,10 +432,7 @@ void Emulator::Stop()
 #ifndef QT_UI
 	wxGetApp().SendDbgCommand(DID_STOP_EMU);
 #endif
-	{
-		wxCriticalSectionLocker lock(m_cs_status);
-		m_status = Stopped;
-	}
+	m_status = Stopped;
 
 	m_rsx_callback = 0;
 

rpcs3/Emu/System.h

@@ -1,5 +1,6 @@
 #pragma once
 
+#include <atomic>
 #include "Gui/MemoryViewer.h"
 #include "Emu/CPU/CPUThreadManager.h"
 #include "Emu/Io/Pad.h"
@@ -64,9 +65,8 @@ class Emulator
 		InterpreterDisAsm,
 		Interpreter,
 	};
-
-	mutable wxCriticalSection m_cs_status;
-	Status m_status;
+		
+	volatile uint m_status;
 	uint m_mode;
 
 	u32 m_rsx_callback;
@@ -159,10 +159,10 @@ public:
 	void SavePoints(const std::string& path);
 	void LoadPoints(const std::string& path);
 
-	__forceinline bool IsRunning()	const { wxCriticalSectionLocker lock(m_cs_status); return m_status == Running; }
-	__forceinline bool IsPaused()	const { wxCriticalSectionLocker lock(m_cs_status); return m_status == Paused; }
-	__forceinline bool IsStopped()	const { wxCriticalSectionLocker lock(m_cs_status); return m_status == Stopped; }
-	__forceinline bool IsReady()	const { wxCriticalSectionLocker lock(m_cs_status); return m_status == Ready; }
+	__forceinline bool IsRunning()	const { return m_status == Running; }
+	__forceinline bool IsPaused()	const { return m_status == Paused; }
+	__forceinline bool IsStopped()	const { return m_status == Stopped; }
+	__forceinline bool IsReady()	const { return m_status == Ready; }
 };
 
 extern Emulator Emu;

rpcs3/git-version.h

@@ -1,6 +1,6 @@
 // This is a generated file. 
  
-#define RPCS3_GIT_VERSION "d83a9b1" 
+#define RPCS3_GIT_VERSION "unknown" 
  
 // If you don't want this file to update/recompile, change to 1. 
-#define RPCS3_GIT_VERSION_NO_UPDATE 0 
+#define RPCS3_GIT_VERSION_NO_UPDATE 1