mini/memory.c

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4.9 KiB
C
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2008-12-28 14:35:37 +01:00
#include "types.h"
#include "start.h"
#include "memory.h"
#include "utils.h"
#include "gecko.h"
#include "hollywood.h"
void _dc_inval_entries(void *start, int count);
void _dc_flush_entries(void *start, int count);
void _dc_flush(void);
void _ic_inval(void);
void _drain_write_buffer(void);
#define LINESIZE 0x20
#define CACHESIZE 0x4000
// TODO: move to hollywood.h once we figure out WTF
#define HW_100 (HW_REG_BASE + 0x100)
#define HW_104 (HW_REG_BASE + 0x104)
#define HW_108 (HW_REG_BASE + 0x108)
#define HW_10c (HW_REG_BASE + 0x10c)
#define HW_110 (HW_REG_BASE + 0x110)
#define HW_114 (HW_REG_BASE + 0x114)
#define HW_118 (HW_REG_BASE + 0x118)
#define HW_11c (HW_REG_BASE + 0x11c)
#define HW_120 (HW_REG_BASE + 0x120)
#define HW_124 (HW_REG_BASE + 0x124)
#define HW_130 (HW_REG_BASE + 0x130)
#define HW_134 (HW_REG_BASE + 0x134)
#define HW_138 (HW_REG_BASE + 0x138)
#define HW_188 (HW_REG_BASE + 0x188)
#define HW_18C (HW_REG_BASE + 0x18c)
#define HW_214 (HW_REG_BASE + 0x214)
// what is this thing doing anyway?
// and why only on reads?
u32 _mc_read32(u32 addr)
{
u32 data;
u32 tmp130 = 0;
// this seems to be a bug workaround
if(!(read32(HW_214) & 0xF0))
{
tmp130 = read32(HW_130);
write32(HW_130, tmp130 | 0x400);
// Dummy reads?
read32(HW_138);
read32(HW_138);
read32(HW_138);
read32(HW_138);
}
data = read32(addr);
read32(HW_214); //???
if(!(read32(HW_214) & 0xF0))
write32(HW_130, tmp130);
return data;
}
void _magic_bullshit(int type) {
u32 mask = 10;
switch(type) {
case 0: mask = 0x8000; break;
case 1: mask = 0x4000; break;
case 2: mask = 0x0001; break;
case 3: mask = 0x0002; break;
case 4: mask = 0x0004; break;
case 5: mask = 0x0008; break;
case 6: mask = 0x0010; break;
case 7: mask = 0x0020; break;
case 8: mask = 0x0040; break;
case 9: mask = 0x0080; break;
case 10: mask = 0x0100; break;
case 11: mask = 0x1000; break;
case 12: mask = 0x0000; break;
}
//NOTE: 0xd8b000x, not 0xd8b400x!
u32 val = _mc_read32(0xd8b0008);
if(val & mask) {
if((type >= 2) && (type <= 10)) {
while((read32(HW_18C) & 0xF) == 9)
set32(HW_188, 0x10000);
clear32(HW_188, 0x10000);
set32(HW_188, 0x2000000);
mask32(HW_124, 0x7c0, 0x280);
set32(HW_134, 0x400);
while((read32(HW_18C) & 0xF) != 9);
set32(HW_100, 0x400);
set32(HW_104, 0x400);
set32(HW_108, 0x400);
set32(HW_10c, 0x400);
set32(HW_110, 0x400);
set32(HW_114, 0x400);
set32(HW_118, 0x400);
set32(HW_11c, 0x400);
set32(HW_120, 0x400);
write32(0xd8b0008, _mc_read32(0xd8b0008) & (~mask));
write32(0xd8b0008, _mc_read32(0xd8b0008) | mask);
clear32(HW_134, 0x400);
clear32(HW_100, 0x400);
clear32(HW_104, 0x400);
clear32(HW_108, 0x400);
clear32(HW_10c, 0x400);
clear32(HW_110, 0x400);
clear32(HW_114, 0x400);
clear32(HW_118, 0x400);
clear32(HW_11c, 0x400);
clear32(HW_120, 0x400);
clear32(HW_188, 0x2000000);
mask32(HW_124, 0x7c0, 0xc0);
} else {
if((type == 11) || (type == 0) || (type == 1)) {
write32(0xd8b0008, val & (~mask));
// wtfux
write32(0xd8b0008, val | mask);
write32(0xd8b0008, val | mask);
write32(0xd8b0008, val | mask);
}
}
}
}
void magic_bullshit(int type)
{
_magic_bullshit(type);
if(type != 0)
_magic_bullshit(0);
}
void ahb_memflush(enum AHBDEV dev)
{
u16 req = 0;
u16 ack;
int i;
switch(dev)
{
case MEMORY:
req = 1;
break;
default:
if((dev >= RAW0) && (dev <= RAWF))
{
req = dev - RAW0;
} else {
gecko_printf("ahb_memflush(0x%x): Invalid device\n", dev);
return;
}
break;
}
write32(MEM_FLUSHREQ, req);
for(i=0;i<1000000;i++) {
ack = read16(MEM_FLUSHACK);
_magic_bullshit(0);
if(ack == req)
break;
}
write32(MEM_FLUSHREQ, 0);
if(i>=1000000) {
gecko_printf("ahb_memflush(%d): Flush (0x%x) did not ack!\n", dev, req);
}
}
void dc_flushrange(void *start, u32 size)
{
if(size > 0x4000) {
_dc_flush();
} else {
void *end = ALIGN_FORWARD(((u8*)start) + size, LINESIZE);
start = ALIGN_BACKWARD(start, LINESIZE);
_dc_flush_entries(start, (end - start) / LINESIZE);
}
_drain_write_buffer();
//ahb_memflush(MEMORY);
}
void dc_invalidaterange(void *start, u32 size)
{
void *end = ALIGN_FORWARD(((u8*)start) + size, LINESIZE);
start = ALIGN_BACKWARD(start, LINESIZE);
_dc_inval_entries(start, (end - start) / LINESIZE);
//_magic_bullshit(0);
}
void dc_flushall(void)
{
_dc_flush();
_drain_write_buffer();
//ahb_memflush(MEMORY);
}
void ic_invalidateall(void)
{
_ic_inval();
//_magic_bullshit(0);
}
void mem_protect(int enable, void *start, void *end)
{
write16(MEM_PROT, enable?1:0);
write16(MEM_PROT_START, (((u32)start) & 0xFFFFFFF) >> 12);
write16(MEM_PROT_END, (((u32)end) & 0xFFFFFFF) >> 12);
udelay(10);
}
void mem_setswap(int enable)
{
u32 d = read32(HW_MEMMIRR);
if((d & 0x20) && !enable)
write32(HW_MEMMIRR, d & ~0x20);
if((!(d & 0x20)) && enable)
write32(HW_MEMMIRR, d | 0x20);
}