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EMILE/second/bank.c

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add bank.[ch], move memory bank management into them
2004-02-19 11:34:18 +00:00
/*
*
* (c) 2004 Laurent Vivier <LaurentVivier@wanadoo.fr>
*
* portion from penguin booter
*
*/
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#include <stdio.h>
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#include <malloc.h>
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Manage noMMU and powerPC
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#include "arch.h"
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#include "lowmem.h"
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#include "MMU030.h"
#include "MMU040.h"
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#include "bank.h"
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/* MacOS nanokernel data structures (nubus powerPC only)
* found in Boot/X, thank you Ben ;-)
*/
#define MACOS_MEMMAP_PTR_ADDR 0x5FFFEFF0
#define MACOS_MEMMAP_SIZE_ADDR 0x5FFFEFF6
#define MACOS_MEMMAP_BANK_0FFSET 48
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memory_map_t memory_map;
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static void bank_add_mem(unsigned long logiAddr,
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unsigned long physAddr, unsigned long size)
{
int i;
int j;
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for (i = 0; i < memory_map.bank_number; i++)
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{
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if ( (memory_map.bank[i].physAddr +
memory_map.bank[i].size == physAddr) &&
(memory_map.bank[i].logiAddr +
memory_map.bank[i].size == logiAddr) )
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{
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memory_map.bank[i].size += size;
add bank.[ch], move memory bank management into them
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/* can we merge 2 banks */
Rename map to memory_map and export it
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for (j = 0; j < memory_map.bank_number; j++)
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{
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if ( (memory_map.bank[i].physAddr +
memory_map.bank[i].size ==
memory_map.bank[j].physAddr) &&
(memory_map.bank[i].logiAddr +
memory_map.bank[i].size ==
memory_map.bank[j].logiAddr) )
add bank.[ch], move memory bank management into them
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{
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memory_map.bank[i].size += memory_map.bank[j].size;
add bank.[ch], move memory bank management into them
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/* remove bank */
Rename map to memory_map and export it
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memory_map.bank_number--;
memory_map.bank[j].physAddr = memory_map.bank[memory_map.bank_number].physAddr;
memory_map.bank[j].logiAddr = memory_map.bank[memory_map.bank_number].logiAddr;
memory_map.bank[j].size = memory_map.bank[memory_map.bank_number].size;
add bank.[ch], move memory bank management into them
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return;
}
}
return;
}
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else if ( (physAddr + size == memory_map.bank[i].physAddr) &&
(logiAddr + size == memory_map.bank[i].logiAddr) )
add bank.[ch], move memory bank management into them
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{
Rename map to memory_map and export it
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memory_map.bank[i].physAddr = physAddr;
memory_map.bank[i].logiAddr = logiAddr;
memory_map.bank[i].size += size;
add bank.[ch], move memory bank management into them
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return;
}
}
/* not found, create new bank */
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if (memory_map.bank_number >= MAX_MEM_MAP_SIZE)
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return;
Rename map to memory_map and export it
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memory_map.bank[memory_map.bank_number].physAddr = physAddr;
memory_map.bank[memory_map.bank_number].logiAddr = logiAddr;
memory_map.bank[memory_map.bank_number].size = size;
memory_map.bank_number++;
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}
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void m68k_init_memory_map()
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{
unsigned long logical;
unsigned long physical;
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int ps;
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if (mmu_type == gestaltNoMMU)
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{
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bank_add_mem(0, 0, MemTop);
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}
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else if (mmu_type == gestalt68040MMU)
{
ps = MMU040_get_page_size();
memory_map.bank_number = 0;
logical = 0;
for (logical = 0; logical < MemTop ; logical += ps)
{
if (MMU040_logical2physical(logical, &physical) == 0)
{
bank_add_mem(logical, physical, ps);
}
}
}
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else
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{
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ps = MMU030_get_page_size();
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memory_map.bank_number = 0;
logical = 0;
for (logical = 0; logical < MemTop ; logical += ps)
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{
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if (MMU030_logical2physical(logical, &physical) == 0)
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{
bank_add_mem(logical, physical, ps);
}
add bank.[ch], move memory bank management into them
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}
}
}
Rename map to memory_map and export it
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void ppc_init_memory_map()
{
/* Nubus powerPC */
unsigned long *base = *(unsigned long**)MACOS_MEMMAP_PTR_ADDR;
unsigned long len = *(unsigned short*)MACOS_MEMMAP_SIZE_ADDR;
int i;
if (len <= MACOS_MEMMAP_BANK_0FFSET)
return;
base += MACOS_MEMMAP_BANK_0FFSET;
len -= MACOS_MEMMAP_BANK_0FFSET;
i = 0;
while(len >= 8)
{
unsigned long addr = *(unsigned long*)base;
unsigned long size = *(unsigned long*)(base+4);
if (size)
bank_add_mem(addr, addr, size);
base += 8;
len -= 8;
}
}
void init_memory_map()
{
if (arch_type == gestaltPowerPC)
ppc_init_memory_map();
else
m68k_init_memory_map();
}
Rename map to memory_map and export it
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static int bank_find_by_physical(unsigned long physical)
{
int i;
for (i = 0; i < memory_map.bank_number; i++)
{
if ( (memory_map.bank[i].physAddr <= physical) &&
( physical < memory_map.bank[i].physAddr + memory_map.bank[i].size) )
return i;
}
return -1;
}
Add malloc_contiguous()
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static int bank_find_by_logical(unsigned long logical)
{
int i;
for (i = 0; i < memory_map.bank_number; i++)
{
if ( (memory_map.bank[i].logiAddr <= logical) &&
( logical < memory_map.bank[i].logiAddr + memory_map.bank[i].size) )
return i;
}
return -1;
}
Manage noMMU and powerPC
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int logical2physical(unsigned long logical, unsigned long *physical)
{
if ( (mmu_type == gestaltNoMMU) || (mmu_type == gestaltEMMU1) )
{
*physical = logical;
return 0;
}
add 68040 MMU support
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else if (mmu_type == gestalt68040MMU)
{
return MMU040_logical2physical(logical, physical);
}
Manage noMMU and powerPC
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add 68040 MMU support
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return MMU030_logical2physical(logical, physical);
Manage noMMU and powerPC
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}
Rename map to memory_map and export it
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int physical2logical(unsigned long physical, unsigned long *logical)
{
int bank;
bank = bank_find_by_physical(physical);
if (bank == -1)
return -1;
if (memory_map.bank[bank].physAddr > memory_map.bank[bank].logiAddr)
*logical = physical - (memory_map.bank[bank].physAddr -
memory_map.bank[bank].logiAddr);
else
*logical = physical + (memory_map.bank[bank].logiAddr -
memory_map.bank[bank].physAddr);
return 0;
}
Add bank_mem_avail(): compute size of available memory
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unsigned long bank_mem_avail()
{
int i;
unsigned long size = 0;
for (i = 0; i < memory_map.bank_number; i++)
{
size += memory_map.bank[i].size;
}
return size;
}
add check_full_in_bank()
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int check_full_in_bank(unsigned long start, unsigned long size)
{
Add malloc_contiguous()
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int bank0;
int bank1;
add check_full_in_bank()
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Add malloc_contiguous()
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bank0 = bank_find_by_logical(start);
bank1 = bank_find_by_logical(start + size);
return (bank0 == bank1);
}
void *malloc_contiguous(size_t size)
{
void* tmp;
void* contiguous;
int bank;
size_t part_size;
tmp = malloc(size);
try to find a contiguous block until it finds or there is no more memory
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if (tmp == NULL)
return NULL;
Add malloc_contiguous()
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if (check_full_in_bank((unsigned long)tmp, size))
return tmp;
/* not in one contiguous block */
bank = bank_find_by_logical((unsigned long)tmp);
part_size = memory_map.bank[bank].size -
((unsigned long)tmp - memory_map.bank[bank].logiAddr);
free(tmp);
tmp = malloc(part_size);
try to find a contiguous block until it finds or there is no more memory
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contiguous = malloc_contiguous(size);
Add malloc_contiguous()
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free(tmp);
return contiguous;
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}
let bank_dump() for debug purpose only, activate it with BANK_DUMP macro
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#ifdef BANK_DUMP
Rename map to memory_map and export it
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void bank_dump()
{
int i;
unsigned long size = 0;
printf("Physical memory map:\n");
for (i = 0; i < memory_map.bank_number; i++)
{
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printf("%d: 0x%08lx -> 0x%08lx mapped at 0x%08lx -> 0x%08lx\n",
i,
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memory_map.bank[i].physAddr,
memory_map.bank[i].physAddr + memory_map.bank[i].size,
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memory_map.bank[i].logiAddr,
memory_map.bank[i].logiAddr + memory_map.bank[i].size);
Rename map to memory_map and export it
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size += memory_map.bank[i].size;
}
}
let bank_dump() for debug purpose only, activate it with BANK_DUMP macro
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#endif
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