--- hatari/src/includes/m68000.h	2019/04/09 08:49:31	1.1.1.15
+++ hatari/src/includes/m68000.h	2019/04/09 08:58:09	1.1.1.19
@@ -1,8 +1,8 @@
 /*
   Hatari - m68000.h
 
-  This file is distributed under the GNU Public License, version 2 or at
-  your option any later version. Read the file gpl.txt for details.
+  This file is distributed under the GNU General Public License, version 2
+  or at your option any later version. Read the file gpl.txt for details.
 */
 
 /* 2007/11/10	[NP]	Add pairing for lsr / dbcc (and all variants	*/
@@ -44,7 +44,7 @@ enum {
   REG_A4,
   REG_A5,
   REG_A6,
-  REG_A7,    /* ..A7 (also SP) */
+  REG_A7    /* ..A7 (also SP) */
 };
 
 /* 68000 Condition code's */
@@ -71,23 +71,24 @@ enum {
 #define SR_CLEAR_TRACEMODE  0x7fff
 #define SR_CLEAR_SUPERMODE  0xdfff
 
-/* Exception vectors */
-#define  EXCEPTION_BUSERROR   0x00000008
-#define  EXCEPTION_ADDRERROR  0x0000000c
-#define  EXCEPTION_ILLEGALINS 0x00000010
-#define  EXCEPTION_DIVZERO    0x00000014
-#define  EXCEPTION_CHK        0x00000018
-#define  EXCEPTION_TRAPV      0x0000001c
-#define  EXCEPTION_TRACE      0x00000024
-#define  EXCEPTION_LINE_A     0x00000028
-#define  EXCEPTION_LINE_F     0x0000002c
-#define  EXCEPTION_HBLANK     0x00000068
-#define  EXCEPTION_VBLANK     0x00000070
-#define  EXCEPTION_TRAP0      0x00000080
-#define  EXCEPTION_TRAP1      0x00000084
-#define  EXCEPTION_TRAP2      0x00000088
-#define  EXCEPTION_TRAP13     0x000000B4
-#define  EXCEPTION_TRAP14     0x000000B8
+/* Exception numbers most commonly used in ST */
+#define  EXCEPTION_NR_BUSERROR		2
+#define  EXCEPTION_NR_ADDRERROR		3
+#define  EXCEPTION_NR_ILLEGALINS	4
+#define  EXCEPTION_NR_DIVZERO    	5
+#define  EXCEPTION_NR_CHK        	6
+#define  EXCEPTION_NR_TRAPV      	7
+#define  EXCEPTION_NR_TRACE      	9
+#define  EXCEPTION_NR_LINE_A		10
+#define  EXCEPTION_NR_LINE_F		11
+#define  EXCEPTION_NR_HBLANK		26		/* Level 2 interrupt */
+#define  EXCEPTION_NR_VBLANK		28		/* Level 4 interrupt */
+#define  EXCEPTION_NR_MFP_DSP		30		/* Level 6 interrupt */
+#define  EXCEPTION_NR_TRAP0		32
+#define  EXCEPTION_NR_TRAP1		33
+#define  EXCEPTION_NR_TRAP2		34
+#define  EXCEPTION_NR_TRAP13		45
+#define  EXCEPTION_NR_TRAP14		46
 
 
 /* Size of 68000 instructions */
@@ -99,6 +100,11 @@ enum {
 #define  SYSINIT_OPCODE      10  /* Free op-code to initialize system (connected drives etc.) */
 #define  VDI_OPCODE          12  /* Free op-code to call VDI handlers AFTER Trap#2 */
 
+/* Illegal opcodes used for Native Features emulation:
+ * http://wiki.aranym.org/natfeats/proposal#special_opcodes
+ */
+#define  NATFEAT_ID_OPCODE   0x7300
+#define  NATFEAT_CALL_OPCODE 0x7301
 
 
 /* Ugly hacks to adapt the main code to the different CPU cores: */
@@ -107,39 +113,111 @@ enum {
 
 
 # define M68000_GetPC()     m68k_getpc()
-# define M68000_SetPC(val)  m68k_setpc(val)
 
-static inline Uint16 M68000_GetSR(void)
-{
-	MakeSR();
-	return regs.sr;
-}
-static inline void M68000_SetSR(Uint16 v)
-{
-	regs.sr = v;
-	MakeFromSR();
-}
+# define M68000_InstrPC		regs.instruction_pc
+# define M68000_CurrentOpcode	regs.opcode
 
 # define M68000_SetSpecial(flags)   set_special(flags)
 # define M68000_UnsetSpecial(flags) unset_special(flags)
 
 
-/* bus error mode */
-#define BUS_ERROR_WRITE 0
-#define BUS_ERROR_READ 1
+/* Some define's for bus error (see newcpu.c) */
+/* Bus error read/write mode */
+#define BUS_ERROR_WRITE		0
+#define BUS_ERROR_READ		1
+/* Bus error access size */
+#define BUS_ERROR_SIZE_BYTE	1
+#define BUS_ERROR_SIZE_WORD	2
+#define BUS_ERROR_SIZE_LONG	4
+/* Bus error access type */
+#define BUS_ERROR_ACCESS_INSTR	0
+#define BUS_ERROR_ACCESS_DATA	1
 
 
-/* bus access mode */
+/* Bus access mode */
 #define	BUS_MODE_CPU		0			/* bus is owned by the cpu */
 #define	BUS_MODE_BLITTER	1			/* bus is owned by the blitter */
 
 
+/* [NP] Notes on IACK :
+ * When an interrupt happens, it's possible a similar interrupt happens again
+ * between the start of the exception and the IACK sequence. In that case, we
+ * might have to set pending bit twice and change the interrupt vector.
+ *
+ * From the 68000's doc, IACK starts after 10 cycles (12 cycles on STF due to 2 cycle
+ * bus penalty) and is supposed to take 4 cycles if the interrupt takes a total of 44 cycles.
+ *
+ * On Atari STF, interrupts take 56 cycles instead of 44, which means it takes
+ * 12 extra cycles to fetch the vector number and to handle non-aligned memory accesses.
+ * From WinUAE's CE mode, we have 2 non-aligned memory accesses to wait for (ie 2+2 cycles),
+ * which leaves a total of 12 cycles to fetch the vector.
+ *
+ * As seen wth a custom program on STF that measures HBL's jitter, we get the same results with Hatari
+ * in CE mode if we use 10 cycles to fetch the vector (step 3), which will also add 2 cycle penalty (step 4b)
+ * This means we have at max 12+10=22 cycles after the start of the exception where some
+ * changes can happen (maybe it's a little less, depending on when the interrupt
+ * vector is written on the bus).
+ *
+ * Additionally, auto vectored interrupts (HBL and VBL) require to be in sync with E-clock,
+ * which can add 0 to 8 cycles (step 3a). In that case we have between 22+0 and 22+8 cycles
+ * to get another interrupt before vector is written on the bus.
+ *
+ * The values we use were not entirely measured on real ST hardware, they were guessed/adjusted
+ * to get the correct behaviour in some games/demos relying on this.
+ * These values are when running in CE mode (2 cycle precision) ; when CPU runs in prefetch
+ * mode, values need to be rounded to 4).
+ *
+ * Interrupt steps + WinUAE cycles (measured on real A500 HW) + ST specific values :
+ *
+ * 1	6	idle cycles
+ * 1b	2(*)	ST bus access penalty (if necessary)
+ * 2	4	write PC low word
+ * 3a	0-8(*)	wait for E-clock for auto vectored interrupt
+ * 3	10(*)	read exception number
+ * 4	4	idle cycles
+ * 4b	2(*)	ST bus access penalty
+ * 5	4	write SR
+ * 6	4	write PC high word
+ * 7	4	read exception address high word
+ * 8	4	read exception address low word
+ * 9	4	prefetch
+ * 10	2	idle cycles
+ * 10b	2(*)	ST bus access penalty
+ * 11	4	prefetch
+ *  TOTAL = 56
+ *
+ *   (*) ST specific timings
+ */
+
+/* Values for IACK sequence when running in cycle exact mode */
+#define CPU_IACK_CYCLES_MFP_CE		12		/* vector sent by the MFP (TODO value not measured on real STF) */
+#define CPU_IACK_CYCLES_VIDEO_CE	10		/* auto vectored for HBL/VBL (value measured on real STF) */
+
+/* Values for IACK sequence when running in normal/prefetch mode or when using old UAE CPU */
+#define CPU_IACK_CYCLES_START		12		/* number of cycles before starting the IACK when not using CE mode */
+							/* (this should be a multiple of 4, else it will be rounded by M68000_AddCycles) */
+#define CPU_IACK_CYCLES_MFP		12		/* vector sent by the MFP */
+#define CPU_IACK_CYCLES_VIDEO		12		/* auto vectored for HBL/VBL */
+
+/* Informations about current CPU instruction */
+typedef struct {
+	/* These are provided only by WinUAE CPU core */
+	int	I_Cache_miss;				/* Instruction cache for 68020/30/40/60 */
+	int	I_Cache_hit;
+	int	D_Cache_miss;				/* Data cache for 68030/40/60 */
+	int	D_Cache_hit;
+
+	/* TODO: move other instruction specific Hatari variables here */
+} cpu_instruction_t;
+
+extern cpu_instruction_t CpuInstruction;
+
 extern Uint32 BusErrorAddress;
-extern Uint32 BusErrorPC;
 extern bool bBusErrorReadWrite;
 extern int nCpuFreqShift;
-extern int nWaitStateCycles;
+extern int WaitStateCycles;
 extern int BusMode;
+extern bool	CPU_IACK;
 
 extern int	LastOpcodeFamily;
 extern int	LastInstrCycles;
@@ -156,10 +234,9 @@ extern const char *OpcodeName[];
 static inline void M68000_AddCycles(int cycles)
 {
 	cycles = (cycles + 3) & ~3;
-	cycles = cycles >> nCpuFreqShift;
-
-	PendingInterruptCount -= INT_CONVERT_TO_INTERNAL(cycles, INT_CPU_CYCLE);
+	PendingInterruptCount -= INT_CONVERT_TO_INTERNAL ( cycles , INT_CPU_CYCLE );
 	nCyclesMainCounter += cycles;
+	CyclesGlobalClockCounter += cycles;
 }
 
 
@@ -227,7 +304,7 @@ static inline void M68000_AddCyclesWithP
 	LastInstrCycles = cycles + BusCyclePenalty;
 	LastOpcodeFamily = OpcodeFamily;
 
-	/* If pairing is true, we need to substract 2 cycles for the	*/
+	/* If pairing is true, we need to subtract 2 cycles for the	*/
 	/* previous instr which was rounded to 4 cycles while it wasn't */
 	/* needed (and we don't round the current one)			*/
 	/* -> both instr will take 4 cycles less on the ST than if ran	*/
@@ -248,22 +325,54 @@ static inline void M68000_AddCyclesWithP
 		cycles = (cycles + 3) & ~3;		/* no pairing, round current instr to 4 cycles */
 	}
 
-	cycles = cycles >> nCpuFreqShift;
-
 	PendingInterruptCount -= INT_CONVERT_TO_INTERNAL ( cycles , INT_CPU_CYCLE );
 
 	nCyclesMainCounter += cycles;
+	CyclesGlobalClockCounter += cycles;
 	BusCyclePenalty = 0;
 }
 
 
+/*-----------------------------------------------------------------------*/
+/**
+ * Add CPU cycles when using WinUAE CPU 'cycle exact' mode.
+ * In this mode, we should not round cycles to the next nearest 4 cycles
+ * because all memory accesses will already be aligned to 4 cycles when
+ * using CE mode.
+ * The CE mode will also give the correct 'instruction pairing' for all
+ * opcodes/addressing mode, without requiring tables/heuristics (in the
+ * same way that it's done in real hardware)
+ */
+static inline void M68000_AddCycles_CE(int cycles)
+{
+	PendingInterruptCount -= INT_CONVERT_TO_INTERNAL ( cycles , INT_CPU_CYCLE );
+
+	nCyclesMainCounter += cycles;
+	CyclesGlobalClockCounter += cycles;
+}
+
+
+
 extern void M68000_Init(void);
 extern void M68000_Reset(bool bCold);
 extern void M68000_Start(void);
 extern void M68000_CheckCpuSettings(void);
 extern void M68000_MemorySnapShot_Capture(bool bSave);
-extern void M68000_BusError(Uint32 addr, bool bReadWrite);
-extern void M68000_Exception(Uint32 ExceptionVector , int ExceptionSource);
-extern void M68000_WaitState(int nCycles);
+extern void M68000_BusError ( Uint32 addr , int ReadWrite , int Size , int AccessType );
+extern void M68000_Exception(Uint32 ExceptionNr , int ExceptionSource);
+extern void M68000_Update_intlev ( void );
+extern void M68000_WaitState(int WaitCycles);
+extern int M68000_WaitEClock ( void );
+extern void M68000_SyncCpuBus_OnReadAccess ( void );
+extern void M68000_SyncCpuBus_OnWriteAccess ( void );
+extern void M68000_Flush_Instr_Cache ( uaecptr addr , int size );
+extern void M68000_Flush_Data_Cache ( uaecptr addr , int size );
+extern void M68000_Flush_All_Caches ( uaecptr addr , int size );
+extern void M68000_SetBlitter_CE ( bool ce_mode );
+extern int DMA_MaskAddressHigh ( void );
+extern void M68000_ChangeCpuFreq ( void );
+extern Uint16 M68000_GetSR ( void );
+extern void M68000_SetSR ( Uint16 v );
+extern void M68000_SetPC ( uaecptr v );
 
 #endif