--- hatari/src/includes/m68000.h 2019/04/09 08:49:31 1.1.1.15 +++ hatari/src/includes/m68000.h 2019/04/09 08:55:41 1.1.1.17 @@ -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: */ @@ -109,6 +115,10 @@ enum { # define M68000_GetPC() m68k_getpc() # define M68000_SetPC(val) m68k_setpc(val) +# define M68000_InstrPC regs.instruction_pc +# define M68000_CurrentOpcode regs.opcode + + static inline Uint16 M68000_GetSR(void) { MakeSR(); @@ -124,22 +134,87 @@ static inline void M68000_SetSR(Uint16 v # 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) 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. + * This means we have at max 12+12=24 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). + * + * The values we use were not measured on real ST hardware, they were adjusted + * to get the correct behaviour in some games/demos relying on this ; since timings + * are rounded to 4 on ST, it's possible the interrupt takes 54 cycles and not 56. + * + * WinUAE cycles (measured on real A500 HW) : + * + * 6 idle cycles + * 2(*) ST bus access penalty + * 4 write PC low word + * 12(*) read exception number + * 4 idle cycles + * 4 write SR + * 4 write PC high word + * 4 read exception address high word + * 4 read exception address low word + * 4 prefetch + * 2 idle cycles + * 2(*) ST bus access penalty + * 4 prefetch + * TOTAL = 56 + * + * (*) ST specific timings + */ +#define CPU_IACK_CYCLES_START 12 /* number of cycles before starting the IACK */ +#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 BusMode; +extern bool CPU_IACK; extern int LastOpcodeFamily; extern int LastInstrCycles; @@ -160,6 +235,7 @@ static inline void M68000_AddCycles(int PendingInterruptCount -= INT_CONVERT_TO_INTERNAL(cycles, INT_CPU_CYCLE); nCyclesMainCounter += cycles; + CyclesGlobalClockCounter += cycles; } @@ -227,7 +303,7 @@ 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 */ @@ -253,6 +329,7 @@ static inline void M68000_AddCyclesWithP PendingInterruptCount -= INT_CONVERT_TO_INTERNAL ( cycles , INT_CPU_CYCLE ); nCyclesMainCounter += cycles; + CyclesGlobalClockCounter += cycles; BusCyclePenalty = 0; } @@ -262,8 +339,13 @@ 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_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 nCycles); +extern int M68000_WaitEClock ( 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 ); #endif