mini/nand.c

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/*
mini - a Free Software replacement for the Nintendo/BroadOn IOS.
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low-level NAND support
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Copyright (C) 2008, 2009 Haxx Enterprises <bushing@gmail.com>
Copyright (C) 2008, 2009 Sven Peter <svenpeter@gmail.com>
Copyright (C) 2008, 2009 Hector Martin "marcan" <marcan@marcansoft.com>
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# This code is licensed to you under the terms of the GNU GPL, version 2;
# see file COPYING or http://www.gnu.org/licenses/old-licenses/gpl-2.0.txt
*/
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#include "hollywood.h"
#include "nand.h"
#include "utils.h"
#include "string.h"
#include "start.h"
#include "memory.h"
#include "crypto.h"
#include "irq.h"
#include "ipc.h"
#include "gecko.h"
#include "types.h"
// #define NAND_DEBUG 1
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#define NAND_SUPPORT_WRITE 1
#define NAND_SUPPORT_ERASE 1
#ifdef ALLOW_BOOT2_WRITES
#define NAND_MIN_PAGE 0x40
#else
#define NAND_MIN_PAGE 0x200
#endif
#ifdef NAND_DEBUG
# include "gecko.h"
# define NAND_debug(f, arg...) gecko_printf("NAND: " f, ##arg);
#else
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# define NAND_debug(f, arg...)
#endif
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#define NAND_RESET 0xff
#define NAND_CHIPID 0x90
#define NAND_GETSTATUS 0x70
#define NAND_ERASE_PRE 0x60
#define NAND_ERASE_POST 0xd0
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#define NAND_READ_PRE 0x00
#define NAND_READ_POST 0x30
#define NAND_WRITE_PRE 0x80
#define NAND_WRITE_POST 0x10
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#define NAND_BUSY_MASK 0x80000000
#define NAND_ERROR 0x20000000
#define NAND_FLAGS_IRQ 0x40000000
#define NAND_FLAGS_WAIT 0x8000
#define NAND_FLAGS_WR 0x4000
#define NAND_FLAGS_RD 0x2000
#define NAND_FLAGS_ECC 0x1000
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static ipc_request current_request;
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static u8 ipc_data[PAGE_SIZE] MEM2_BSS ALIGNED(32);
static u8 ipc_ecc[ECC_BUFFER_ALLOC] MEM2_BSS ALIGNED(128); //128 alignment REQUIRED
static volatile int irq_flag;
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static u32 last_page_read = 0;
void nand_irq(void)
{
int code, tag, err = 0;
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if(read32(NAND_CMD) & NAND_ERROR) {
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gecko_printf("NAND: Error on IRQ\n");
err = -1;
}
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ahb_flush_from(AHB_NAND);
ahb_flush_to(AHB_STARLET);
if (current_request.code != 0) {
switch (current_request.req) {
case IPC_NAND_GETID:
memcpy32((void*)current_request.args[0], ipc_data, 0x40);
dc_flushrange((void*)current_request.args[0], 0x40);
break;
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case IPC_NAND_STATUS:
memcpy32((void*)current_request.args[0], ipc_data, 0x40);
dc_flushrange((void*)current_request.args[0], 0x40);
break;
case IPC_NAND_READ:
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err = nand_correct(last_page_read, ipc_data, ipc_ecc);
if (current_request.args[1] != 0xFFFFFFFF) {
memcpy32((void*)current_request.args[1], ipc_data, PAGE_SIZE);
dc_flushrange((void*)current_request.args[1], PAGE_SIZE);
}
if (current_request.args[2] != 0xFFFFFFFF) {
memcpy32((void*)current_request.args[2], ipc_ecc, PAGE_SPARE_SIZE);
dc_flushrange((void*)current_request.args[2], PAGE_SPARE_SIZE);
}
break;
case IPC_NAND_ERASE:
// no action needed upon erase completion
break;
case IPC_NAND_WRITE:
// no action needed upon write completion
break;
default:
gecko_printf("Got IRQ for unknown NAND req %d\n", current_request.req);
}
code = current_request.code;
tag = current_request.tag;
current_request.code = 0;
ipc_post(code, tag, 1, err);
}
irq_flag = 1;
}
inline void __nand_wait(void) {
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while(read32(NAND_CMD) & NAND_BUSY_MASK);
if(read32(NAND_CMD) & NAND_ERROR)
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gecko_printf("NAND: Error on wait\n");
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ahb_flush_from(AHB_NAND);
ahb_flush_to(AHB_STARLET);
}
void nand_send_command(u32 command, u32 bitmask, u32 flags, u32 num_bytes) {
u32 cmd = NAND_BUSY_MASK | (bitmask << 24) | (command << 16) | flags | num_bytes;
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NAND_debug("nand_send_command(%x, %x, %x, %x) -> %x\n",
command, bitmask, flags, num_bytes, cmd);
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write32(NAND_CMD, 0x7fffffff);
write32(NAND_CMD, 0);
write32(NAND_CMD, cmd);
}
void __nand_set_address(s32 page_off, s32 pageno) {
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if (page_off != -1) write32(NAND_ADDR0, page_off);
if (pageno != -1) write32(NAND_ADDR1, pageno);
}
void __nand_setup_dma(u8 *data, u8 *spare) {
if (((s32)data) != -1) {
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write32(NAND_DATA, dma_addr(data));
}
if (((s32)spare) != -1) {
u32 addr = dma_addr(spare);
if(addr & 0x7f)
gecko_printf("NAND: Spare buffer 0x%08x is not aligned, data will be corrupted\n", addr);
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write32(NAND_ECC, addr);
}
}
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int nand_reset(void) {
NAND_debug("nand_reset()\n");
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// IOS actually uses NAND_FLAGS_IRQ | NAND_FLAGS_WAIT here
nand_send_command(NAND_RESET, 0, NAND_FLAGS_WAIT, 0);
__nand_wait();
// enable NAND controller
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write32(NAND_CONF, 0x08000000);
// set configuration parameters for 512MB flash chips
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write32(NAND_CONF, 0x4b3e0e7f);
return 0;
}
void nand_get_id(u8 *idbuf) {
irq_flag = 0;
__nand_set_address(0,0);
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dc_invalidaterange(idbuf, 0x40);
__nand_setup_dma(idbuf, (u8 *)-1);
nand_send_command(NAND_CHIPID, 1, NAND_FLAGS_IRQ | NAND_FLAGS_RD, 0x40);
}
void nand_get_status(u8 *status_buf) {
irq_flag = 0;
status_buf[0]=0;
dc_invalidaterange(status_buf, 0x40);
__nand_setup_dma(status_buf, (u8 *)-1);
nand_send_command(NAND_GETSTATUS, 0, NAND_FLAGS_IRQ | NAND_FLAGS_RD, 0x40);
}
void nand_read_page(u32 pageno, void *data, void *ecc) {
irq_flag = 0;
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last_page_read = pageno; // needed for error reporting
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__nand_set_address(0, pageno);
nand_send_command(NAND_READ_PRE, 0x1f, 0, 0);
if (((s32)data) != -1) dc_invalidaterange(data, PAGE_SIZE);
if (((s32)ecc) != -1) dc_invalidaterange(ecc, ECC_BUFFER_SIZE);
__nand_wait();
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__nand_setup_dma(data, ecc);
nand_send_command(NAND_READ_POST, 0, NAND_FLAGS_IRQ | NAND_FLAGS_WAIT | NAND_FLAGS_RD | NAND_FLAGS_ECC, 0x840);
}
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void nand_wait(void) {
// power-saving IRQ wait
while(!irq_flag) {
u32 cookie = irq_kill();
if(!irq_flag)
irq_wait();
irq_restore(cookie);
}
}
#ifdef NAND_SUPPORT_WRITE
void nand_write_page(u32 pageno, void *data, void *ecc) {
irq_flag = 0;
NAND_debug("nand_write_page(%u, %p, %p)\n", pageno, data, ecc);
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// this is a safety check to prevent you from accidentally wiping out boot1 or boot2.
if ((pageno < NAND_MIN_PAGE) || (pageno >= NAND_MAX_PAGE)) {
gecko_printf("Error: nand_write to page %d forbidden\n", pageno);
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return;
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}
if (((s32)data) != -1) dc_flushrange(data, PAGE_SIZE);
if (((s32)ecc) != -1) dc_flushrange(ecc, PAGE_SPARE_SIZE);
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ahb_flush_to(AHB_NAND);
__nand_set_address(0, pageno);
__nand_setup_dma(data, ecc);
nand_send_command(NAND_WRITE_PRE, 0x1f, NAND_FLAGS_WR, 0x840);
__nand_wait();
nand_send_command(NAND_WRITE_POST, 0, NAND_FLAGS_IRQ | NAND_FLAGS_WAIT, 0);
}
#endif
#ifdef NAND_SUPPORT_ERASE
void nand_erase_block(u32 pageno) {
irq_flag = 0;
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NAND_debug("nand_erase_block(%d)\n", pageno);
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// this is a safety check to prevent you from accidentally wiping out boot1 or boot2.
if ((pageno < NAND_MIN_PAGE) || (pageno >= NAND_MAX_PAGE)) {
gecko_printf("Error: nand_erase to page %d forbidden\n", pageno);
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return;
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}
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__nand_set_address(0, pageno);
nand_send_command(NAND_ERASE_PRE, 0x1c, 0, 0);
__nand_wait();
nand_send_command(NAND_ERASE_POST, 0, NAND_FLAGS_IRQ | NAND_FLAGS_WAIT, 0);
NAND_debug("nand_erase_block(%d) done\n", pageno);
}
#endif
void nand_initialize(void)
{
current_request.code = 0;
nand_reset();
irq_enable(IRQ_NAND);
}
int nand_correct(u32 pageno, void *data, void *ecc)
{
u8 *dp = (u8*)data;
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u32 *ecc_read = (u32*)((u8*)ecc+0x30);
u32 *ecc_calc = (u32*)((u8*)ecc+0x40);
int i;
int uncorrectable = 0;
int corrected = 0;
for(i=0;i<4;i++) {
u32 syndrome = *ecc_read ^ *ecc_calc; //calculate ECC syncrome
// don't try to correct unformatted pages (all FF)
if ((*ecc_read != 0xFFFFFFFF) && syndrome) {
if(!((syndrome-1)&syndrome)) {
// single-bit error in ECC
corrected++;
} else {
// byteswap and extract odd and even halves
u16 even = (syndrome >> 24) | ((syndrome >> 8) & 0xf00);
u16 odd = ((syndrome << 8) & 0xf00) | ((syndrome >> 8) & 0x0ff);
if((even ^ odd) != 0xfff) {
// oops, can't fix this one
uncorrectable++;
} else {
// fix the bad bit
dp[odd >> 3] ^= 1<<(odd&7);
corrected++;
}
}
}
dp += 0x200;
ecc_read++;
ecc_calc++;
}
if(uncorrectable || corrected)
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gecko_printf("ECC stats for NAND page 0x%x: %d uncorrectable, %d corrected\n", pageno, uncorrectable, corrected);
if(uncorrectable)
return NAND_ECC_UNCORRECTABLE;
if(corrected)
return NAND_ECC_CORRECTED;
return NAND_ECC_OK;
}
void nand_ipc(volatile ipc_request *req)
{
if (current_request.code != 0) {
gecko_printf("NAND: previous IPC request is not done yet.");
ipc_post(req->code, req->tag, 1, -1);
return;
}
switch (req->req) {
case IPC_NAND_RESET:
nand_reset();
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ipc_post(req->code, req->tag, 0);
break;
case IPC_NAND_GETID:
current_request = *req;
nand_get_id(ipc_data);
break;
case IPC_NAND_STATUS:
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current_request = *req;
nand_get_status(ipc_data);
break;
case IPC_NAND_READ:
current_request = *req;
nand_read_page(req->args[0], ipc_data, ipc_ecc);
break;
#ifdef NAND_SUPPORT_WRITE
case IPC_NAND_WRITE:
current_request = *req;
dc_invalidaterange((void*)req->args[1], PAGE_SIZE);
dc_invalidaterange((void*)req->args[2], PAGE_SPARE_SIZE);
memcpy(ipc_data, (void*)req->args[1], PAGE_SIZE);
memcpy(ipc_ecc, (void*)req->args[2], PAGE_SPARE_SIZE);
nand_write_page(req->args[0], ipc_data, ipc_ecc);
break;
#endif
#ifdef NAND_SUPPORT_ERASE
case IPC_NAND_ERASE:
current_request = *req;
nand_erase_block(req->args[0]);
break;
#endif
default:
gecko_printf("IPC: unknown SLOW NAND request %04x\n",
req->req);
}
}
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