haiku/headers/private/kernel/arch/m68k/arch_030_mmu.h

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/*
** Copyright 2003, Axel Dörfler, axeld@pinc-software.de. All rights reserved.
** Distributed under the terms of the MIT License.
*/
#ifndef _KERNEL_ARCH_M68K_030_MMU_H
#define _KERNEL_ARCH_M68K_030_MMU_H
#include <SupportDefs.h>
#include <string.h>
#include <arch_mmu.h>
// global pages only available on 040/060
//#define MMU_HAS_GLOBAL_PAGES
/* This is the normal layout of the descriptors, as per documentation.
* When page size > 256, several bits are unused in the LSB of page
* addresses, which we can use in addition of other unused bits.
* the structs dedlared later reflect this for 4K pages.
*/
// = names in MC user's manual
// or comments
struct short_page_directory_entry {
// upper 32 bits
uint32 addr : 28; // address
uint32 accessed : 1; // = used
uint32 write_protect : 1;
uint32 type : 2; // DT_*
};
struct long_page_directory_entry {
// upper 32 bits
uint32 low_up : 1; // limit is lower(1)/upper(0)
uint32 limit : 15;
uint32 _ones : 6;
uint32 _zero2 : 1;
uint32 supervisor : 1;
uint32 _zero1 : 4;
uint32 accessed : 1; // = used
uint32 write_protect : 1;
uint32 type : 2;
// lower 32 bits
uint32 addr : 28; // address
uint32 unused : 4; //
};
struct short_page_table_entry {
uint32 addr : 24; // address
uint32 _zero2 : 1;
uint32 cache_disabled : 1; // = cache_inhibit
uint32 _zero1 : 1;
uint32 dirty : 1; // = modified
uint32 accessed : 1; // = used
uint32 write_protect : 1;
uint32 type : 2;
};
struct long_page_table_entry {
// upper 32 bits
uint32 low_up : 1; // limit is lower(1)/upper(0)
// limit only used on early table terminators, else unused
uint32 limit : 15;
uint32 _ones : 6;
uint32 _zero3 : 1;
uint32 supervisor : 1;
uint32 _zero2 : 1;
uint32 cache_disabled : 1; // = cache_inhibit
uint32 _zero1 : 1;
uint32 dirty : 1; // = modified
uint32 accessed : 1; // = used
uint32 write_protect : 1;
uint32 type : 2;
// lower 32 bits
uint32 addr : 24; // address
uint32 unused : 8; //
};
/* rarely used */
struct short_indirect_entry {
// upper 32 bits
uint32 addr : 30; // address
uint32 type : 2; // DT_*
};
struct long_indirect_entry {
// upper 32 bits
uint32 unused1 : 30;
uint32 type : 2;
// lower 32 bits
uint32 addr : 30; // address
uint32 unused2 : 2; //
};
/* for clarity:
- the top level page directory will be called "page root", (root or rtdir)
- the 2nd level will be "page directory" like on x86, (pgdir)
- the 3rd level is a "page table" as on x86. (pgtbl)
*/
typedef struct short_page_directory_entry page_root_entry;
typedef struct short_page_directory_entry page_directory_entry;
typedef struct long_page_table_entry page_table_entry;
typedef struct long_indirect_entry page_indirect_entry;
/* scalar storage type that maps them */
typedef uint32 page_root_entry_scalar;
typedef uint32 page_directory_entry_scalar;
typedef uint64 page_table_entry_scalar;
typedef uint64 page_indirect_entry_scalar;
#define DT_ROOT DT_VALID_4
#define DT_DIR DT_VALID_8
//#define DT_PAGE DT_PAGE :)
#define DT_INDIRECT DT_VALID_8
/* default scalar values for entries */
#define DFL_ROOTENT_VAL 0x00000000
#define DFL_DIRENT_VAL 0x00000000
// limit disabled, 6bits at 1
// (limit isn't used on that level, but just in case)
#define DFL_PAGEENT_VAL 0x7FFFFC0000000000LL
#define NUM_ROOTENT_PER_TBL 128
#define NUM_DIRENT_PER_TBL 128
#define NUM_PAGEENT_PER_TBL 64
/* unlike x86, the root/dir/page table sizes are different than B_PAGE_SIZE
* so we will have to fit more than one on a page to avoid wasting space.
* We will allocate a group of tables with the one we want inside, and
* add them from the aligned index needed, to make it easy to free them.
*/
#define SIZ_ROOTTBL (NUM_ROOTENT_PER_TBL * sizeof(page_root_entry))
#define SIZ_DIRTBL (NUM_DIRENT_PER_TBL * sizeof(page_directory_entry))
#define SIZ_PAGETBL (NUM_PAGEENT_PER_TBL * sizeof(page_table_entry))
//#define NUM_ROOTTBL_PER_PAGE (B_PAGE_SIZE / SIZ_ROOTTBL)
#define NUM_DIRTBL_PER_PAGE (B_PAGE_SIZE / SIZ_DIRTBL)
#define NUM_PAGETBL_PER_PAGE (B_PAGE_SIZE / SIZ_PAGETBL)
/* macros to get the physical page or table number and address of tables from
* descriptors */
#if 0
/* XXX:
suboptimal:
struct foo {
int a:2;
int b:30;
} v = {...};
*(int *)0 = (v.b) << 2;
generates:
sarl $2, %eax
sall $2, %eax
We use a cast + bitmasking, since all address fields are already shifted
*/
// from a root entry
#define PREA_TO_TA(a) ((a) << 4)
#define PREA_TO_PN(a) ((a) >> (12-4))
#define PREA_TO_PA(a) ((a) << 4)
#define TA_TO_PREA(a) ((a) >> 4)
//...
#endif
// TA: table address
// PN: page number
// PA: page address
// PO: page offset (offset of table in page)
// PI: page index (index of table relative to page start)
// from a root entry
#define PRE_TO_TA(a) ((*(uint32 *)(&(a))) & ~((1<<4)-1))
#define PRE_TO_PN(e) ((*(uint32 *)(&(e))) >> 12)
#define PRE_TO_PA(e) ((*(uint32 *)(&(e))) & ~((1<<12)-1))
//#define PRE_TO_PO(e) ((*(uint32 *)(&(e))) & ((1<<12)-1))
//#define PRE_TO_PI(e) (((*(uint32 *)(&(e))) & ((1<<12)-1)) / SIZ_DIRTBL)
#define TA_TO_PREA(a) ((a) >> 4)
// from a directory entry
#define PDE_TO_TA(a) ((*(uint32 *)(&(a))) & ~((1<<4)-1))
#define PDE_TO_PN(e) ((*(uint32 *)(&(e))) >> 12)
#define PDE_TO_PA(e) ((*(uint32 *)(&(e))) & ~((1<<12)-1))
//#define PDE_TO_PO(e) ((*(uint32 *)(&(e))) & ((1<<12)-1))
//#define PDE_TO_PI(e) (((*(uint32 *)(&(e))) & ((1<<12)-1)) / SIZ_PAGETBL)
#define TA_TO_PDEA(a) ((a) >> 4)
// from a table entry
#define PTE_TO_TA(a) ((((uint32 *)(&(a)))[1]) & ~((1<<8)-1))
#define PTE_TO_PN(e) ((((uint32 *)(&(e)))[1]) >> 12)
#define PTE_TO_PA(e) ((((uint32 *)(&(e)))[1]) & ~((1<<12)-1))
#define TA_TO_PTEA(a) ((a) >> 8)
// from an indirect entry
#define PIE_TO_TA(a) ((((uint32 *)(&(a)))[1]) & ~((1<<2)-1))
#define PIE_TO_PN(e) ((((uint32 *)(&(e)))[1]) >> 12)
#define PIE_TO_PA(e) ((((uint32 *)(&(e)))[1]) & ~((1<<12)-1))
#define PIE_TO_PO(e) ((((uint32 *)(&(e)))[1]) & ((1<<12)-(1<<2)))
#define TA_TO_PIEA(a) ((a) >> 2)
/* 7/7/6 split */
#define VADDR_TO_PRENT(va) (((va) / B_PAGE_SIZE) / (64*128))
#define VADDR_TO_PDENT(va) ((((va) / B_PAGE_SIZE) / 64) % 128)
#define VADDR_TO_PTENT(va) (((va) / B_PAGE_SIZE) % 64)
#endif /* _KERNEL_ARCH_M68K_030_MMU_H */