flycast/newdc/hw/sh4/sh4_mem.cpp

/*
	Mostly buggy, old, glue code that somehow still works
	Most of the work is now delegated on vtlb and only helpers are here
*/
#include "types.h"

#include "sh4_mem.h"
#include "hw/holly/sb_mem.h"
#include "sh4_mmr.h"
#include "modules/modules.h"
#include "hw/pvr/pvr_mem.h"
#include "hw/sh4/sh4_core.h"
//#include "hw/sh4/rec_v1/blockmanager.h"
#include "hw/mem/_vmem.h"
#include "modules/mmu.h"


//main system mem
VArray2 mem_b;

u8 DYNACALL ReadMem8_i(u32 addr);
u16 DYNACALL ReadMem16_i(u32 addr);
u32 DYNACALL ReadMem32_i(u32 addr);

void DYNACALL WriteMem8_i(u32 addr,u8 data);
void DYNACALL WriteMem16_i(u32 addr,u16 data);
void DYNACALL WriteMem32_i(u32 addr,u32 data);

void _vmem_init();
void _vmem_reset();
void _vmem_term();

//MEM MAPPINNGG

//AREA 1
_vmem_handler area1_32b;
void map_area1_init()
{
	area1_32b = _vmem_register_handler(pvr_read_area1_8,pvr_read_area1_16,pvr_read_area1_32,
									pvr_write_area1_8,pvr_write_area1_16,pvr_write_area1_32);
}

void map_area1(u32 base)
{
	//map vram
	
	//Lower 32 mb map
	//64b interface
	_vmem_map_block(vram.data,0x04 | base,0x04 | base,VRAM_SIZE-1);
	//32b interface
	_vmem_map_handler(area1_32b,0x05 | base,0x05 | base);
	
	//Upper 32 mb mirror
	//0x0600 to 0x07FF
	_vmem_mirror_mapping(0x06|base,0x04|base,0x02);
}

//AREA 2
void map_area2_init()
{
	//nothing to map :p
}

void map_area2(u32 base)
{
	//nothing to map :p
}


//AREA 3
void map_area3_init()
{
}

void map_area3(u32 base)
{
	//32x2 or 16x4
	_vmem_map_block_mirror(mem_b.data,0x0C | base,0x0F | base,RAM_SIZE);
}

//AREA 4
void map_area4_init()
{
	
}

void map_area4(u32 base)
{
	//TODO : map later

	//upper 32mb mirror lower 32 mb
	_vmem_mirror_mapping(0x12|base,0x10|base,0x02);
}


//AREA 5	--	Ext. Device
//Read Ext.Device
template <u32 sz,class T>
T DYNACALL ReadMem_extdev_T(u32 addr)
{
	return (T)libExtDevice_ReadMem_A5(addr,sz);
}

//Write Ext.Device
template <u32 sz,class T>
void DYNACALL WriteMem_extdev_T(u32 addr,T data)
{
	libExtDevice_WriteMem_A5(addr,data,sz);
}

_vmem_handler area5_handler;
void map_area5_init()
{
	area5_handler = _vmem_register_handler_Template(ReadMem_extdev_T,WriteMem_extdev_T);
}

void map_area5(u32 base)
{
	//map whole region to plugin handler :)
	_vmem_map_handler(area5_handler,base|0x14,base|0x17);
}

//AREA 6	--	Unassigned 
void map_area6_init()
{
	//nothing to map :p
}
void map_area6(u32 base)
{
	//nothing to map :p
}


//set vmem to default values
void mem_map_default()
{
	//vmem - init/reset :)
	_vmem_init();

	
	//*TEMP*
	//setup a fallback handler , that calls old code :)
	//_vmem_handler def_handler =
	//	_vmem_register_handler(ReadMem8_i,ReadMem16_i,ReadMem32_i,WriteMem8_i,WriteMem16_i,WriteMem32_i);
	//_vmem_map_handler(def_handler,0,0xFFFF);

	//U0/P0
	//0x0xxx xxxx	-> normal memmap
	//0x2xxx xxxx	-> normal memmap
	//0x4xxx xxxx	-> normal memmap
	//0x6xxx xxxx	-> normal memmap
	//-----------
	//P1
	//0x8xxx xxxx	-> normal memmap
	//-----------
	//P2
	//0xAxxx xxxx	-> normal memmap
	//-----------
	//P3
	//0xCxxx xxxx	-> normal memmap
	//-----------
	//P4
	//0xExxx xxxx	-> internal area

	//Init Memmaps (register handlers)
	map_area0_init();
	map_area1_init();
	map_area2_init();
	map_area3_init();
	map_area4_init();
	map_area5_init();
	map_area6_init();
	map_area7_init();

	//0x0-0xD : 7 times the normal memmap mirrors :)
	//some areas can be customised :)
	for (int i=0x0;i<0xE;i+=0x2)
	{
		map_area0(i<<4);	//Bios,Flahsrom,i/f regs,Ext. Device,Sound Ram
		map_area1(i<<4);	//Vram
		map_area2(i<<4);	//Unassigned
		map_area3(i<<4);	//Ram
		map_area4(i<<4);	//TA
		map_area5(i<<4);	//Ext. Device
		map_area6(i<<4);	//Unassigned
		map_area7(i<<4);	//Sh4 Regs
	}

	//map p4 region :)
	map_p4();
}
void mem_Init()
{
	//Allocate mem for memory/bios/flash
	//mem_b.Init(&sh4_reserved_mem[0x0C000000],RAM_SIZE);

	sh4_area0_Init();
	sh4_mmr_init();
	MMU_init();
}

//Reset Sysmem/Regs -- Pvr is not changed , bios/flash are not zero'd out
void mem_Reset(bool Manual)
{
	//mem is reseted on hard restart(power on) , not manual...
	if (!Manual)
	{
		//fill mem w/ 0's
		mem_b.Zero();
	}

	//Reset registers
	sh4_area0_Reset(Manual);
	sh4_mmr_reset();
	MMU_reset();
}

void mem_Term()
{
	MMU_term();
	sh4_mmr_term();
	sh4_area0_Term();

	//write back flash/sram
	SaveRomFiles(GetPath("/data/"));
	
	//mem_b.Term(); // handled by vmem

	//vmem
	_vmem_term();
}

void WriteMemBlock_nommu_dma(u32 dst,u32 src,u32 size)
{
	u32 dst_msk,src_msk;

	void* dst_ptr=_vmem_get_ptr2(dst,dst_msk);
	void* src_ptr=_vmem_get_ptr2(src,src_msk);

	if (dst_ptr && src_ptr)
	{
		memcpy((u8*)dst_ptr+(dst&dst_msk),(u8*)src_ptr+(src&src_msk),size);
	}
	else if (src_ptr)
	{
		WriteMemBlock_nommu_ptr(dst,(u32*)((u8*)src_ptr+(src&src_msk)),size);
	}
	else
	{
		for (u32 i=0;i<size;i+=4)
		{
			WriteMem32_nommu(dst+i,ReadMem32_nommu(src+i));
		}
	}
}
void WriteMemBlock_nommu_ptr(u32 dst,u32* src,u32 size)
{
	u32 dst_msk;
	void* dst_ptr=_vmem_get_ptr2(dst,dst_msk);

	if (dst_ptr)
	{
		dst&=dst_msk;
		memcpy((u8*)dst_ptr+dst,src,size);
	}
	else
	{
		for (u32 i=0;i<size;i+=4)
		{
			WriteMem32_nommu(dst+i,src[i>>2]);
		}
	}
}

void WriteMemBlock_nommu_sq(u32 dst,u32* src)
{
	u32 dst_msk;
	void* dst_ptr=_vmem_get_ptr2(dst,dst_msk);

	if (dst_ptr)
	{
		dst&=dst_msk;
		memcpy((u8*)dst_ptr+dst,src,32);
	}
	else
	{
		for (u32 i=0;i<32;i+=4)
		{
			WriteMem32_nommu(dst+i,src[i>>2]);
		}
	}
}

void WriteMemBlock_ptr(u32 addr,u32* data,u32 size)
{
#ifndef NO_MMU
	die("failed\n");
#endif
	WriteMemBlock_nommu_ptr(addr,data,size);
}

//Get pointer to ram area , 0 if error
//For debugger(gdb) - dynarec
u8* GetMemPtr(u32 Addr,u32 size)
{
	verify((((Addr>>29) &0x7)!=7));
	switch ((Addr>>26)&0x7)
	{
		case 3:
		return &mem_b[Addr & RAM_MASK];
		
		case 0:
		case 1:
		case 2:
		case 4:
		case 5:
		case 6:
		case 7:
		default:
			printf("Get MemPtr not suported area ; addr=0x%X\n",Addr);
			return 0;
	}
}

//Get infomation about an area , eg ram /size /anything
//For dynarec - needs to be done
void GetMemInfo(u32 addr,u32 size)
{
	//needs to be done
}

bool IsOnRam(u32 addr)
{
	if (((addr>>26)&0x7)==3)
	{
		if ((((addr>>29) &0x7)!=7) && (((addr>>29) &0x7)!=3))
		{
			return true;
		}
	}

	return false;
}

u32 GetRamPageFromAddress(u32 RamAddress)
{
	verify(IsOnRam(RamAddress));
	return (RamAddress & RAM_MASK)/PAGE_SIZE;
}
project import 2013-12-19 17:10:14 +00:00			`/*`
			`Mostly buggy, old, glue code that somehow still works`
			`Most of the work is now delegated on vtlb and only helpers are here`
			`*/`
			`#include "types.h"`

			`#include "sh4_mem.h"`
			`#include "hw/holly/sb_mem.h"`
			`#include "sh4_mmr.h"`
			`#include "modules/modules.h"`
			`#include "hw/pvr/pvr_mem.h"`
			`#include "hw/sh4/sh4_core.h"`
			`//#include "hw/sh4/rec_v1/blockmanager.h"`
			`#include "hw/mem/_vmem.h"`
			`#include "modules/mmu.h"`



			`//main system mem`
			`VArray2 mem_b;`

			`u8 DYNACALL ReadMem8_i(u32 addr);`
			`u16 DYNACALL ReadMem16_i(u32 addr);`
			`u32 DYNACALL ReadMem32_i(u32 addr);`

			`void DYNACALL WriteMem8_i(u32 addr,u8 data);`
			`void DYNACALL WriteMem16_i(u32 addr,u16 data);`
			`void DYNACALL WriteMem32_i(u32 addr,u32 data);`

			`void _vmem_init();`
			`void _vmem_reset();`
			`void _vmem_term();`

			`//MEM MAPPINNGG`

			`//AREA 1`
			`_vmem_handler area1_32b;`
			`void map_area1_init()`
			`{`
			`area1_32b = _vmem_register_handler(pvr_read_area1_8,pvr_read_area1_16,pvr_read_area1_32,`
			`pvr_write_area1_8,pvr_write_area1_16,pvr_write_area1_32);`
			`}`

			`void map_area1(u32 base)`
			`{`
			`//map vram`

			`//Lower 32 mb map`
			`//64b interface`
			`_vmem_map_block(vram.data,0x04 \| base,0x04 \| base,VRAM_SIZE-1);`
			`//32b interface`
			`_vmem_map_handler(area1_32b,0x05 \| base,0x05 \| base);`

			`//Upper 32 mb mirror`
			`//0x0600 to 0x07FF`
			`_vmem_mirror_mapping(0x06\|base,0x04\|base,0x02);`
			`}`

			`//AREA 2`
			`void map_area2_init()`
			`{`
			`//nothing to map :p`
			`}`

			`void map_area2(u32 base)`
			`{`
			`//nothing to map :p`
			`}`


			`//AREA 3`
			`void map_area3_init()`
			`{`
			`}`

			`void map_area3(u32 base)`
			`{`
			`//32x2 or 16x4`
			`_vmem_map_block_mirror(mem_b.data,0x0C \| base,0x0F \| base,RAM_SIZE);`
			`}`

			`//AREA 4`
			`void map_area4_init()`
			`{`

			`}`

			`void map_area4(u32 base)`
			`{`
			`//TODO : map later`

			`//upper 32mb mirror lower 32 mb`
			`_vmem_mirror_mapping(0x12\|base,0x10\|base,0x02);`
			`}`


			`//AREA 5 -- Ext. Device`
			`//Read Ext.Device`
			`template <u32 sz,class T>`
			`T DYNACALL ReadMem_extdev_T(u32 addr)`
			`{`
			`return (T)libExtDevice_ReadMem_A5(addr,sz);`
			`}`

			`//Write Ext.Device`
			`template <u32 sz,class T>`
			`void DYNACALL WriteMem_extdev_T(u32 addr,T data)`
			`{`
			`libExtDevice_WriteMem_A5(addr,data,sz);`
			`}`

			`_vmem_handler area5_handler;`
			`void map_area5_init()`
			`{`
			`area5_handler = _vmem_register_handler_Template(ReadMem_extdev_T,WriteMem_extdev_T);`
			`}`

			`void map_area5(u32 base)`
			`{`
			`//map whole region to plugin handler :)`
			`_vmem_map_handler(area5_handler,base\|0x14,base\|0x17);`
			`}`

			`//AREA 6 -- Unassigned`
			`void map_area6_init()`
			`{`
			`//nothing to map :p`
			`}`
			`void map_area6(u32 base)`
			`{`
			`//nothing to map :p`
			`}`


			`//set vmem to default values`
			`void mem_map_default()`
			`{`
			`//vmem - init/reset :)`
			`_vmem_init();`


			`//TEMP`
			`//setup a fallback handler , that calls old code :)`
			`//_vmem_handler def_handler =`
			`// _vmem_register_handler(ReadMem8_i,ReadMem16_i,ReadMem32_i,WriteMem8_i,WriteMem16_i,WriteMem32_i);`
			`//_vmem_map_handler(def_handler,0,0xFFFF);`

			`//U0/P0`
			`//0x0xxx xxxx -> normal memmap`
			`//0x2xxx xxxx -> normal memmap`
			`//0x4xxx xxxx -> normal memmap`
			`//0x6xxx xxxx -> normal memmap`
			`//-----------`
			`//P1`
			`//0x8xxx xxxx -> normal memmap`
			`//-----------`
			`//P2`
			`//0xAxxx xxxx -> normal memmap`
			`//-----------`
			`//P3`
			`//0xCxxx xxxx -> normal memmap`
			`//-----------`
			`//P4`
			`//0xExxx xxxx -> internal area`

			`//Init Memmaps (register handlers)`
			`map_area0_init();`
			`map_area1_init();`
			`map_area2_init();`
			`map_area3_init();`
			`map_area4_init();`
			`map_area5_init();`
			`map_area6_init();`
			`map_area7_init();`

			`//0x0-0xD : 7 times the normal memmap mirrors :)`
			`//some areas can be customised :)`
			`for (int i=0x0;i<0xE;i+=0x2)`
			`{`
			`map_area0(i<<4); //Bios,Flahsrom,i/f regs,Ext. Device,Sound Ram`
			`map_area1(i<<4); //Vram`
			`map_area2(i<<4); //Unassigned`
			`map_area3(i<<4); //Ram`
			`map_area4(i<<4); //TA`
			`map_area5(i<<4); //Ext. Device`
			`map_area6(i<<4); //Unassigned`
			`map_area7(i<<4); //Sh4 Regs`
			`}`

			`//map p4 region :)`
			`map_p4();`
			`}`
			`void mem_Init()`
			`{`
			`//Allocate mem for memory/bios/flash`
			`//mem_b.Init(&sh4_reserved_mem[0x0C000000],RAM_SIZE);`

			`sh4_area0_Init();`
			`sh4_mmr_init();`
			`MMU_init();`
			`}`

			`//Reset Sysmem/Regs -- Pvr is not changed , bios/flash are not zero'd out`
			`void mem_Reset(bool Manual)`
			`{`
			`//mem is reseted on hard restart(power on) , not manual...`
			`if (!Manual)`
			`{`
			`//fill mem w/ 0's`
			`mem_b.Zero();`
			`}`

			`//Reset registers`
			`sh4_area0_Reset(Manual);`
			`sh4_mmr_reset();`
			`MMU_reset();`
			`}`

			`void mem_Term()`
			`{`
			`MMU_term();`
			`sh4_mmr_term();`
			`sh4_area0_Term();`

			`//write back flash/sram`
			`SaveRomFiles(GetPath("/data/"));`

			`//mem_b.Term(); // handled by vmem`

			`//vmem`
			`_vmem_term();`
			`}`

			`void WriteMemBlock_nommu_dma(u32 dst,u32 src,u32 size)`
			`{`
			`u32 dst_msk,src_msk;`

			`void* dst_ptr=_vmem_get_ptr2(dst,dst_msk);`
			`void* src_ptr=_vmem_get_ptr2(src,src_msk);`

			`if (dst_ptr && src_ptr)`
			`{`
			`memcpy((u8)dst_ptr+(dst&dst_msk),(u8)src_ptr+(src&src_msk),size);`
			`}`
			`else if (src_ptr)`
			`{`
			`WriteMemBlock_nommu_ptr(dst,(u32)((u8)src_ptr+(src&src_msk)),size);`
			`}`
			`else`
			`{`
			`for (u32 i=0;i<size;i+=4)`
			`{`
			`WriteMem32_nommu(dst+i,ReadMem32_nommu(src+i));`
			`}`
			`}`
			`}`
			`void WriteMemBlock_nommu_ptr(u32 dst,u32* src,u32 size)`
			`{`
			`u32 dst_msk;`
			`void* dst_ptr=_vmem_get_ptr2(dst,dst_msk);`

			`if (dst_ptr)`
			`{`
			`dst&=dst_msk;`
			`memcpy((u8*)dst_ptr+dst,src,size);`
			`}`
			`else`
			`{`
			`for (u32 i=0;i<size;i+=4)`
			`{`
			`WriteMem32_nommu(dst+i,src[i>>2]);`
			`}`
			`}`
			`}`

			`void WriteMemBlock_nommu_sq(u32 dst,u32* src)`
			`{`
			`u32 dst_msk;`
			`void* dst_ptr=_vmem_get_ptr2(dst,dst_msk);`

			`if (dst_ptr)`
			`{`
			`dst&=dst_msk;`
			`memcpy((u8*)dst_ptr+dst,src,32);`
			`}`
			`else`
			`{`
			`for (u32 i=0;i<32;i+=4)`
			`{`
			`WriteMem32_nommu(dst+i,src[i>>2]);`
			`}`
			`}`
			`}`

			`void WriteMemBlock_ptr(u32 addr,u32* data,u32 size)`
			`{`
			`#ifndef NO_MMU`
			`die("failed\n");`
			`#endif`
			`WriteMemBlock_nommu_ptr(addr,data,size);`
			`}`

			`//Get pointer to ram area , 0 if error`
			`//For debugger(gdb) - dynarec`
			`u8* GetMemPtr(u32 Addr,u32 size)`
			`{`
			`verify((((Addr>>29) &0x7)!=7));`
			`switch ((Addr>>26)&0x7)`
			`{`
			`case 3:`
			`return &mem_b[Addr & RAM_MASK];`

			`case 0:`
			`case 1:`
			`case 2:`
			`case 4:`
			`case 5:`
			`case 6:`
			`case 7:`
			`default:`
			`printf("Get MemPtr not suported area ; addr=0x%X\n",Addr);`
			`return 0;`
			`}`
			`}`

			`//Get infomation about an area , eg ram /size /anything`
			`//For dynarec - needs to be done`
			`void GetMemInfo(u32 addr,u32 size)`
			`{`
			`//needs to be done`
			`}`

			`bool IsOnRam(u32 addr)`
			`{`
			`if (((addr>>26)&0x7)==3)`
			`{`
			`if ((((addr>>29) &0x7)!=7) && (((addr>>29) &0x7)!=3))`
			`{`
			`return true;`
			`}`
			`}`

			`return false;`
			`}`

			`u32 GetRamPageFromAddress(u32 RamAddress)`
			`{`
			`verify(IsOnRam(RamAddress));`
			`return (RamAddress & RAM_MASK)/PAGE_SIZE;`
			`}`