rpcsx/rpcs3/Emu/SysCalls/lv2/sys_mmapper.cpp

#include "stdafx.h"
#include "Utilities/Log.h"
#include "Emu/Memory/Memory.h"
#include "Emu/System.h"
#include "Emu/SysCalls/SysCalls.h"
#include "sys_mmapper.h"
#include <map>

SysCallBase sys_mmapper("sys_mmapper");
std::map<u32, u32> mmapper_info_map;

s32 sys_mmapper_allocate_address(u32 size, u64 flags, u32 alignment, u32 alloc_addr)
{
	sys_mmapper.Warning("sys_mmapper_allocate_address(size=0x%x, flags=0x%llx, alignment=0x%x, alloc_addr=0x%x)", 
		size, flags, alignment, alloc_addr);

	if(!Memory.IsGoodAddr(alloc_addr))
		return CELL_EFAULT;

	// Check for valid alignment.
	if(alignment > 0x80000000)
		return CELL_EALIGN;

	// Check page size.
	u32 addr;
	switch(flags & (SYS_MEMORY_PAGE_SIZE_1M | SYS_MEMORY_PAGE_SIZE_64K))
	{
	default:
	case SYS_MEMORY_PAGE_SIZE_1M:
		if(Memory.AlignAddr(size, alignment) & 0xfffff)
			return CELL_EALIGN;
		addr = Memory.Alloc(size, 0x100000);
	break;

	case SYS_MEMORY_PAGE_SIZE_64K:
		if(Memory.AlignAddr(size, alignment) & 0xffff)
			return CELL_EALIGN;
		addr = Memory.Alloc(size, 0x10000);
	break;
	}

	// Write back the start address of the allocated area.
	Memory.Write32(alloc_addr, addr);

	return CELL_OK;
}

s32 sys_mmapper_allocate_fixed_address()
{
	sys_mmapper.Warning("sys_mmapper_allocate_fixed_address");

	// Allocate a fixed size from user memory.
	if (!Memory.Alloc(SYS_MMAPPER_FIXED_SIZE, 0x100000))
		return CELL_EEXIST;
	
	return CELL_OK;
}

s32 sys_mmapper_allocate_memory(u32 size, u64 flags, mem32_t mem_id)
{
	sys_mmapper.Warning("sys_mmapper_allocate_memory(size=0x%x, flags=0x%llx, mem_id_addr=0x%x)", size, flags, mem_id.GetAddr());

	if(!mem_id.IsGood())
		return CELL_EFAULT;

	// Check page granularity.
	u32 addr;
	switch(flags & (SYS_MEMORY_PAGE_SIZE_1M | SYS_MEMORY_PAGE_SIZE_64K))
	{
	case SYS_MEMORY_PAGE_SIZE_1M:
		if(size & 0xfffff)
			return CELL_EALIGN;
		addr = Memory.Alloc(size, 0x100000);
	break;

	case SYS_MEMORY_PAGE_SIZE_64K:
		if(size & 0xffff)
			return CELL_EALIGN;
		addr = Memory.Alloc(size, 0x10000);
	break;

	default:
		return CELL_EINVAL;
	}

	if(!addr)
		return CELL_ENOMEM;

	// Generate a new mem ID.
	mem_id = sys_mmapper.GetNewId(new mmapper_info(addr, size, flags));

	return CELL_OK;
}

s32 sys_mmapper_allocate_memory_from_container(u32 size, u32 cid, u64 flags, mem32_t mem_id)
{
	sys_mmapper.Warning("sys_mmapper_allocate_memory_from_container(size=0x%x, cid=%d, flags=0x%llx, mem_id_addr=0x%x)", 
		size, cid, flags, mem_id.GetAddr());

	if(!mem_id.IsGood())
		return CELL_EFAULT;

	// Check if this container ID is valid.
	MemoryContainerInfo* ct;
	if(!sys_mmapper.CheckId(cid, ct))
		return CELL_ESRCH;

	// Check page granularity.
	switch(flags & (SYS_MEMORY_PAGE_SIZE_1M | SYS_MEMORY_PAGE_SIZE_64K))
	{
	case SYS_MEMORY_PAGE_SIZE_1M:
		if(size & 0xfffff)
			return CELL_EALIGN;
		ct->addr = Memory.Alloc(size, 0x100000);
	break;

	case SYS_MEMORY_PAGE_SIZE_64K:
		if(size & 0xffff)
			return CELL_EALIGN;
		ct->addr = Memory.Alloc(size, 0x10000);
	break;

	default:
		return CELL_EINVAL;
	}

	if(!ct->addr)
		return CELL_ENOMEM;
	ct->size = size;

	// Generate a new mem ID.
	mem_id = sys_mmapper.GetNewId(new mmapper_info(ct->addr, ct->size, flags));

	return CELL_OK;
}

s32 sys_mmapper_change_address_access_right(u32 start_addr, u64 flags)
{
	sys_mmapper.Warning("sys_mmapper_change_address_access_right(start_addr=0x%x, flags=0x%llx)", start_addr, flags);

	if (!Memory.IsGoodAddr(start_addr))
		return CELL_EINVAL;

	// TODO

	return CELL_OK;
}

s32 sys_mmapper_free_address(u32 start_addr)
{
	sys_mmapper.Warning("sys_mmapper_free_address(start_addr=0x%x)", start_addr);

	if(!Memory.IsGoodAddr(start_addr))
		return CELL_EINVAL;
	
	// Free the address.
	Memory.Free(start_addr);
	return CELL_OK;
}

s32 sys_mmapper_free_memory(u32 mem_id)
{
	sys_mmapper.Warning("sys_mmapper_free_memory(mem_id=0x%x)", mem_id);

	// Check if this mem ID is valid.
	mmapper_info* info;
	if(!sys_mmapper.CheckId(mem_id, info))
		return CELL_ESRCH;

	// Release the allocated memory and remove the ID.
	Memory.Free(info->addr);
	Emu.GetIdManager().RemoveID(mem_id);

	return CELL_OK;
}

s32 sys_mmapper_map_memory(u32 start_addr, u32 mem_id, u64 flags)
{
	sys_mmapper.Warning("sys_mmapper_map_memory(start_addr=0x%x, mem_id=0x%x, flags=0x%llx)", start_addr, mem_id, flags);

	// Check if this mem ID is valid.
	mmapper_info* info;
	if(!sys_mmapper.CheckId(mem_id, info))
		return CELL_ESRCH;

	// Map the memory into the process address.
	if(!Memory.Map(start_addr, info->addr, info->size))
		sys_mmapper.Error("sys_mmapper_map_memory failed!");

	// Keep track of mapped addresses.
	mmapper_info_map[mem_id] = start_addr;

	return CELL_OK;
}

s32 sys_mmapper_search_and_map(u32 start_addr, u32 mem_id, u64 flags, u32 alloc_addr)
{
	sys_mmapper.Warning("sys_mmapper_search_and_map(start_addr=0x%x, mem_id=0x%x, flags=0x%llx, alloc_addr=0x%x)",
		start_addr, mem_id, flags, alloc_addr);

	if(!Memory.IsGoodAddr(alloc_addr))
		return CELL_EFAULT;

	// Check if this mem ID is valid.
	mmapper_info* info;
	if(!sys_mmapper.CheckId(mem_id, info))
		return CELL_ESRCH;
	
	// Search for a mappable address.
	u32 addr;
	bool found;
	for (int i = 0; i < SYS_MMAPPER_FIXED_SIZE; i += 0x100000)
	{
		addr = start_addr + i;
		found = Memory.Map(addr, info->addr, info->size);
		if(found)
		{
			sys_mmapper.Warning("Found and mapped address 0x%x", addr);
			break;
		}
	}

	// Check if the address is valid.
	if (!Memory.IsGoodAddr(addr) || !found)
		return CELL_ENOMEM;
	
	// Write back the start address of the allocated area.
	Memory.Write32(alloc_addr, addr);

	// Keep track of mapped addresses.
	mmapper_info_map[mem_id] = addr;

	return CELL_OK;
}

s32 sys_mmapper_unmap_memory(u32 start_addr, u32 mem_id_addr)
{
	sys_mmapper.Warning("sys_mmapper_unmap_memory(start_addr=0x%x, mem_id_addr=0x%x)", start_addr, mem_id_addr);

	if (!Memory.IsGoodAddr(start_addr))
		return CELL_EINVAL;

	if (!Memory.IsGoodAddr(mem_id_addr))
		return CELL_EFAULT;

	// Write back the mem ID of the unmapped area.
	u32 mem_id = mmapper_info_map.find(start_addr)->first;
	Memory.Write32(mem_id_addr, mem_id);

	return CELL_OK;
}

s32 sys_mmapper_enable_page_fault_notification(u32 start_addr, u32 q_id)
{
	sys_mmapper.Warning("sys_mmapper_enable_page_fault_notification(start_addr=0x%x, q_id=0x%x)", start_addr, q_id);

	if (!Memory.IsGoodAddr(start_addr))
		return CELL_EINVAL;

	// TODO

	return CELL_OK;
}
Removed external functions from SysCalls.h * Replace `int` with `s32` as return type for syscalls. * Renamed `SC_Something.` files with the proper lv2 name `sys_something.`. * Moving away from the lv2, those functions and folders that doesn't correspond to lv2 functions. E.g. module functions from sys_io, sysPrxForUser, cellGcmSys. * Splitted some files (memory -> memory+mmapper) and merged other ones (event+event_flag ->event, spu+spu_thread -> spu), according to common sense, PSDevWiki docs, and checking firmware files. * Removed external functions from `SysCalls.h`. NOTE: What should we do about: cellGcmCallback? It's not a lv2 syscall but it appears on the sc_table and it is actually called in games. Is this some kind of hack? 2014-06-25 00:38:34 +02:00			`#include "stdafx.h"`
			`#include "Utilities/Log.h"`
			`#include "Emu/Memory/Memory.h"`
			`#include "Emu/System.h"`
			`#include "Emu/SysCalls/SysCalls.h"`
			`#include "sys_mmapper.h"`
			`#include <map>`

			`SysCallBase sys_mmapper("sys_mmapper");`
			`std::map<u32, u32> mmapper_info_map;`

			`s32 sys_mmapper_allocate_address(u32 size, u64 flags, u32 alignment, u32 alloc_addr)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_allocate_address(size=0x%x, flags=0x%llx, alignment=0x%x, alloc_addr=0x%x)",`
			`size, flags, alignment, alloc_addr);`

			`if(!Memory.IsGoodAddr(alloc_addr))`
			`return CELL_EFAULT;`

			`// Check for valid alignment.`
			`if(alignment > 0x80000000)`
			`return CELL_EALIGN;`

			`// Check page size.`
			`u32 addr;`
			`switch(flags & (SYS_MEMORY_PAGE_SIZE_1M \| SYS_MEMORY_PAGE_SIZE_64K))`
			`{`
			`default:`
			`case SYS_MEMORY_PAGE_SIZE_1M:`
			`if(Memory.AlignAddr(size, alignment) & 0xfffff)`
			`return CELL_EALIGN;`
			`addr = Memory.Alloc(size, 0x100000);`
			`break;`

			`case SYS_MEMORY_PAGE_SIZE_64K:`
			`if(Memory.AlignAddr(size, alignment) & 0xffff)`
			`return CELL_EALIGN;`
			`addr = Memory.Alloc(size, 0x10000);`
			`break;`
			`}`

			`// Write back the start address of the allocated area.`
			`Memory.Write32(alloc_addr, addr);`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_allocate_fixed_address()`
			`{`
			`sys_mmapper.Warning("sys_mmapper_allocate_fixed_address");`

			`// Allocate a fixed size from user memory.`
			`if (!Memory.Alloc(SYS_MMAPPER_FIXED_SIZE, 0x100000))`
			`return CELL_EEXIST;`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_allocate_memory(u32 size, u64 flags, mem32_t mem_id)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_allocate_memory(size=0x%x, flags=0x%llx, mem_id_addr=0x%x)", size, flags, mem_id.GetAddr());`

			`if(!mem_id.IsGood())`
			`return CELL_EFAULT;`

			`// Check page granularity.`
			`u32 addr;`
			`switch(flags & (SYS_MEMORY_PAGE_SIZE_1M \| SYS_MEMORY_PAGE_SIZE_64K))`
			`{`
			`case SYS_MEMORY_PAGE_SIZE_1M:`
			`if(size & 0xfffff)`
			`return CELL_EALIGN;`
			`addr = Memory.Alloc(size, 0x100000);`
			`break;`

			`case SYS_MEMORY_PAGE_SIZE_64K:`
			`if(size & 0xffff)`
			`return CELL_EALIGN;`
			`addr = Memory.Alloc(size, 0x10000);`
			`break;`

			`default:`
			`return CELL_EINVAL;`
			`}`

			`if(!addr)`
			`return CELL_ENOMEM;`

			`// Generate a new mem ID.`
			`mem_id = sys_mmapper.GetNewId(new mmapper_info(addr, size, flags));`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_allocate_memory_from_container(u32 size, u32 cid, u64 flags, mem32_t mem_id)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_allocate_memory_from_container(size=0x%x, cid=%d, flags=0x%llx, mem_id_addr=0x%x)",`
			`size, cid, flags, mem_id.GetAddr());`

			`if(!mem_id.IsGood())`
			`return CELL_EFAULT;`

			`// Check if this container ID is valid.`
			`MemoryContainerInfo* ct;`
			`if(!sys_mmapper.CheckId(cid, ct))`
			`return CELL_ESRCH;`

			`// Check page granularity.`
			`switch(flags & (SYS_MEMORY_PAGE_SIZE_1M \| SYS_MEMORY_PAGE_SIZE_64K))`
			`{`
			`case SYS_MEMORY_PAGE_SIZE_1M:`
			`if(size & 0xfffff)`
			`return CELL_EALIGN;`
			`ct->addr = Memory.Alloc(size, 0x100000);`
			`break;`

			`case SYS_MEMORY_PAGE_SIZE_64K:`
			`if(size & 0xffff)`
			`return CELL_EALIGN;`
			`ct->addr = Memory.Alloc(size, 0x10000);`
			`break;`

			`default:`
			`return CELL_EINVAL;`
			`}`

			`if(!ct->addr)`
			`return CELL_ENOMEM;`
			`ct->size = size;`

			`// Generate a new mem ID.`
			`mem_id = sys_mmapper.GetNewId(new mmapper_info(ct->addr, ct->size, flags));`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_change_address_access_right(u32 start_addr, u64 flags)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_change_address_access_right(start_addr=0x%x, flags=0x%llx)", start_addr, flags);`

			`if (!Memory.IsGoodAddr(start_addr))`
			`return CELL_EINVAL;`

			`// TODO`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_free_address(u32 start_addr)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_free_address(start_addr=0x%x)", start_addr);`

			`if(!Memory.IsGoodAddr(start_addr))`
			`return CELL_EINVAL;`

			`// Free the address.`
			`Memory.Free(start_addr);`
			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_free_memory(u32 mem_id)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_free_memory(mem_id=0x%x)", mem_id);`

			`// Check if this mem ID is valid.`
			`mmapper_info* info;`
			`if(!sys_mmapper.CheckId(mem_id, info))`
			`return CELL_ESRCH;`

			`// Release the allocated memory and remove the ID.`
			`Memory.Free(info->addr);`
			`Emu.GetIdManager().RemoveID(mem_id);`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_map_memory(u32 start_addr, u32 mem_id, u64 flags)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_map_memory(start_addr=0x%x, mem_id=0x%x, flags=0x%llx)", start_addr, mem_id, flags);`

			`// Check if this mem ID is valid.`
			`mmapper_info* info;`
			`if(!sys_mmapper.CheckId(mem_id, info))`
			`return CELL_ESRCH;`

			`// Map the memory into the process address.`
			`if(!Memory.Map(start_addr, info->addr, info->size))`
			`sys_mmapper.Error("sys_mmapper_map_memory failed!");`

			`// Keep track of mapped addresses.`
			`mmapper_info_map[mem_id] = start_addr;`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_search_and_map(u32 start_addr, u32 mem_id, u64 flags, u32 alloc_addr)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_search_and_map(start_addr=0x%x, mem_id=0x%x, flags=0x%llx, alloc_addr=0x%x)",`
			`start_addr, mem_id, flags, alloc_addr);`

			`if(!Memory.IsGoodAddr(alloc_addr))`
			`return CELL_EFAULT;`

			`// Check if this mem ID is valid.`
			`mmapper_info* info;`
			`if(!sys_mmapper.CheckId(mem_id, info))`
			`return CELL_ESRCH;`

			`// Search for a mappable address.`
			`u32 addr;`
			`bool found;`
			`for (int i = 0; i < SYS_MMAPPER_FIXED_SIZE; i += 0x100000)`
			`{`
			`addr = start_addr + i;`
			`found = Memory.Map(addr, info->addr, info->size);`
			`if(found)`
			`{`
			`sys_mmapper.Warning("Found and mapped address 0x%x", addr);`
			`break;`
			`}`
			`}`

			`// Check if the address is valid.`
			`if (!Memory.IsGoodAddr(addr) \|\| !found)`
			`return CELL_ENOMEM;`

			`// Write back the start address of the allocated area.`
			`Memory.Write32(alloc_addr, addr);`

			`// Keep track of mapped addresses.`
			`mmapper_info_map[mem_id] = addr;`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_unmap_memory(u32 start_addr, u32 mem_id_addr)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_unmap_memory(start_addr=0x%x, mem_id_addr=0x%x)", start_addr, mem_id_addr);`

			`if (!Memory.IsGoodAddr(start_addr))`
			`return CELL_EINVAL;`

			`if (!Memory.IsGoodAddr(mem_id_addr))`
			`return CELL_EFAULT;`

			`// Write back the mem ID of the unmapped area.`
			`u32 mem_id = mmapper_info_map.find(start_addr)->first;`
			`Memory.Write32(mem_id_addr, mem_id);`

			`return CELL_OK;`
			`}`

			`s32 sys_mmapper_enable_page_fault_notification(u32 start_addr, u32 q_id)`
			`{`
			`sys_mmapper.Warning("sys_mmapper_enable_page_fault_notification(start_addr=0x%x, q_id=0x%x)", start_addr, q_id);`

			`if (!Memory.IsGoodAddr(start_addr))`
			`return CELL_EINVAL;`

			`// TODO`

			`return CELL_OK;`
			`}`