mirror of
https://github.com/wiiu-env/wiiu-nanddumper-payload.git
synced 2024-11-05 11:15:09 +01:00
322 lines
11 KiB
C
322 lines
11 KiB
C
#include <stdio.h>
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#include "types.h"
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#include "imports.h"
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#include "devices.h"
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#include "sdio.h"
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#include "mlcio.h"
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#include "fat32_format.h"
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#include "text.h"
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#include "hardware_registers.h"
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#include "svc.h"
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// the IO buffer is put behind everything else because there is no access to this region from IOS-FS it seems
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unsigned char io_buffer[0x40000] __attribute__((aligned(0x40))) __attribute__((section(".io_buffer")));
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//! this one is required for the read function
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static void slc_read_callback(int result, int priv)
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{
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int *private_data = (int*)priv;
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private_data[1] = result;
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FS_SVC_RELEASEMUTEX(private_data[0]);
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}
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static int srcRead(void* deviceHandle, void *data_ptr, u32 offset, u32 sectors, int * result_array)
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{
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int readResult = slcRead1_original(deviceHandle, 0, offset, sectors, SLC_BYTES_PER_SECTOR, data_ptr, slc_read_callback, (int)result_array);
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if(readResult == 0)
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{
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// wait for process to finish
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FS_SVC_ACQUIREMUTEX(result_array[0], 0);
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readResult = result_array[1];
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}
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return readResult;
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}
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void slc_dump(void *deviceHandle, const char* device, u32 base_sectors, int y_offset)
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{
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//also create a mutex for synchronization with end of operation...
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int sync_mutex = FS_SVC_CREATEMUTEX(1, 1);
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FS_SVC_ACQUIREMUTEX(sync_mutex, 0);
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int result_array[2];
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result_array[0] = sync_mutex;
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u32 offset = 0;
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int readResult = 0;
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int writeResult = 0;
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int retry = 0;
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u32 readSize = sizeof(io_buffer) / SLC_BYTES_PER_SECTOR;
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FS_SLEEP(1000);
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do
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{
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// don't print single steps in between, just if they have an error or every 0x80 sectors
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if((readSize == (sizeof(io_buffer) / SLC_BYTES_PER_SECTOR)) || (retry > 0))
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{
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_printf(20, y_offset, "%s = %08X / 40000, read code %08X, write code %08X, retry %d", device, offset, readResult, writeResult, retry);
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}
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//! set flash erased byte to buffer
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FS_MEMSET(io_buffer, 0xff, sizeof(io_buffer));
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//readResult = readSlc(io_buffer, offset, (sizeof(io_buffer) / SLC_BYTES_PER_SECTOR), deviceHandle);
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readResult = srcRead(deviceHandle, io_buffer, offset, readSize, result_array);
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//! retry 2 times as there are read failures in several places
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if((readResult != 0) && (retry < 2))
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{
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readSize = 1;
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FS_SLEEP(10);
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retry++;
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}
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else
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{
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retry = 0;
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while(1)
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{
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FS_SLEEP(10);
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writeResult = sdcard_readwrite(SDIO_WRITE, io_buffer, (readSize * (SLC_BYTES_PER_SECTOR / SDIO_BYTES_PER_SECTOR)), SDIO_BYTES_PER_SECTOR, base_sectors, NULL, DEVICE_ID_SDCARD_PATCHED);
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if((writeResult == 0) || (retry >= 2))
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{
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retry = 0;
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base_sectors += (readSize * (SLC_BYTES_PER_SECTOR / SDIO_BYTES_PER_SECTOR));
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offset += readSize;
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// if we did single sector reads and got to a point where we can do multiple reads -> switch to multiple sector reads
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if((offset % (sizeof(io_buffer) / SLC_BYTES_PER_SECTOR)) == 0)
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{
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readSize = sizeof(io_buffer) / SLC_BYTES_PER_SECTOR;
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}
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break;
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}
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else
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{
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retry++;
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}
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}
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}
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}
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while (offset < SLC_SECTOR_COUNT);
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FS_SVC_DESTROYMUTEX(sync_mutex);
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// last print to show "done"
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_printf(20, y_offset, "%s = %08X / 40000, read code %08X, write code %08X, retry %d", device, offset, readResult, writeResult, retry);
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}
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void mlc_dump(u32 base_sector, u32 mlc_end)
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{
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u32 offset = 0;
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int retry = 0;
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int mlc_result = 0;
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int callback_result = 0;
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int write_result = 0;
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int print_counter = 0;
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do
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{
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//! print only every 4th time
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if(print_counter == 0)
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{
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print_counter = 4;
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_printf(20, 70, "mlc = %08X / %08X, mlc res %08X, sd res %08X, retry %d", offset, mlc_end, mlc_result, write_result, retry);
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}
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else
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{
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--print_counter;
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}
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//! set flash erased byte to buffer
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FS_MEMSET(io_buffer, 0xff, sizeof(io_buffer));
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mlc_result = sdcard_readwrite(SDIO_READ, io_buffer, (sizeof(io_buffer) / MLC_BYTES_PER_SECTOR), MLC_BYTES_PER_SECTOR, offset, &callback_result, DEVICE_ID_MLC);
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if((mlc_result == 0) && (callback_result != 0))
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{
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mlc_result = callback_result;
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}
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//! retry 5 times as there are read failures in several places
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if((mlc_result != 0) && (retry < 5))
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{
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FS_SLEEP(100);
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retry++;
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print_counter = 0; // print errors directly
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}
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else
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{
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write_result = sdcard_readwrite(SDIO_WRITE, io_buffer, (sizeof(io_buffer) / MLC_BYTES_PER_SECTOR), SDIO_BYTES_PER_SECTOR, base_sector + offset, NULL, DEVICE_ID_SDCARD_PATCHED);
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if((write_result == 0) || (retry >= 5))
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{
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retry = 0;
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offset += (sizeof(io_buffer) / MLC_BYTES_PER_SECTOR);
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}
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else
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{
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FS_SLEEP(100);
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retry++;
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print_counter = 0; // print errors directly
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}
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}
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}
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while(offset < mlc_end); //! TODO: make define MLC32_SECTOR_COUNT
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// last print to show "done"
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_printf(20, 70, "mlc = %08X / %08X, mlc res %08X, sd res %08X, retry %d", offset, mlc_end, mlc_result, write_result, retry);
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}
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int check_nand_type(void)
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{
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//! check if MLC size is > 8GB
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if( FS_MMC_MLC_STRUCT[0x30/4] > 0x1000000)
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{
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return MLC_NAND_TYPE_32GB;
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}
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else
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{
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return MLC_NAND_TYPE_8GB;
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}
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}
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int check_nand_dump(void)
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{
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u32 mlc_sector_count = FS_MMC_MLC_STRUCT[0x30/4];
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int signature_correct = 0;
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sdio_nand_signature_sector_t * sign_sect = (sdio_nand_signature_sector_t*)io_buffer;
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memset(sign_sect, 0, SDIO_BYTES_PER_SECTOR);
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sdcard_readwrite(SDIO_READ, sign_sect, 1, SDIO_BYTES_PER_SECTOR, NAND_DUMP_SIGNATURE_SECTOR, NULL, DEVICE_ID_SDCARD_PATCHED);
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signature_correct = (sign_sect->signature == NAND_DUMP_SIGNATURE);
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memset(io_buffer, 0, SDIO_BYTES_PER_SECTOR);
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sdcard_readwrite(SDIO_READ, io_buffer, 1, SDIO_BYTES_PER_SECTOR, 0, NULL, DEVICE_ID_SDCARD_PATCHED);
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return signature_correct && CheckFAT32PartitionOffset(io_buffer, MLC_BASE_SECTORS + mlc_sector_count);
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}
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static void wait_format_confirmation(void)
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{
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int timeout = 600;
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//"Press the POWER button SD then , else the console will reboot in %u seconds."
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while(1)
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{
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_printf(20, 30, "No NAND dump detected. SD Format and complete NAND dump required.");
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_printf(20, 40, "Press the POWER button to format SD card otherwise the console will reboot in %d seconds.", timeout/10);
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if(svcRead32(LT_GPIO_IN) & GPIO_IN_POWER_BUTTON)
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{
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break;
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}
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if(--timeout == 0)
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{
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FS_SLEEP(1000);
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svcShutdown(SHUTDOWN_TYPE_REBOOT);
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}
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FS_SLEEP(100);
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}
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// clear the lines
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clearLine(30, 0x000000FF);
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clearLine(40, 0x000000FF);
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}
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void dump_nand_complete()
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{
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wait_format_confirmation();
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mlc_init();
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FS_SLEEP(1000);
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int nand_type = check_nand_type();
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u32 sdio_sector_count = FS_MMC_SDCARD_STRUCT[0x30/4];
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u32 mlc_sector_count = FS_MMC_MLC_STRUCT[0x30/4];
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u32 fat32_partition_offset = (MLC_BASE_SECTORS + mlc_sector_count);
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_printf(20, 30, "Detected %d GB MLC NAND type.", (nand_type == MLC_NAND_TYPE_8GB) ? 8 : 32);
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if(sdio_sector_count < fat32_partition_offset)
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{
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_printf(20, 40, "SD card too small! Required sectors %u > available %u.", fat32_partition_offset, sdio_sector_count);
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FS_SLEEP(3000);
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svcShutdown(SHUTDOWN_TYPE_REBOOT);
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}
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if( FormatSDCard(fat32_partition_offset, sdio_sector_count) < 0 )
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{
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FS_SLEEP(3000);
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svcShutdown(SHUTDOWN_TYPE_REBOOT);
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}
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slc_dump(FS_SLC_PHYS_DEV_STRUCT, "slc ", SLC_BASE_SECTORS, 50);
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slc_dump(FS_SLCCMPT_PHYS_DEV_STRUCT, "slccmpt", SLCCMPT_BASE_SECTORS, 60);
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mlc_dump(MLC_BASE_SECTORS, mlc_sector_count);
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//! write marker to SD card from which we can auto detect NAND dump
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//! we can actually use that for settings
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sdio_nand_signature_sector_t * sign_sect = (sdio_nand_signature_sector_t*)io_buffer;
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memset(sign_sect, 0, SDIO_BYTES_PER_SECTOR);
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sign_sect->signature = NAND_DUMP_SIGNATURE;
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sign_sect->nand_descriptions[0].nand_type = NAND_DESC_TYPE_SLC;
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sign_sect->nand_descriptions[0].base_sector = SLC_BASE_SECTORS;
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sign_sect->nand_descriptions[0].sector_count = SLC_SECTOR_COUNT * (SLC_BYTES_PER_SECTOR / SDIO_BYTES_PER_SECTOR);
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sign_sect->nand_descriptions[1].nand_type = NAND_DESC_TYPE_SLCCMPT;
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sign_sect->nand_descriptions[1].base_sector = SLCCMPT_BASE_SECTORS;
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sign_sect->nand_descriptions[1].sector_count = SLC_SECTOR_COUNT * (SLC_BYTES_PER_SECTOR / SDIO_BYTES_PER_SECTOR);
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sign_sect->nand_descriptions[2].nand_type = NAND_DESC_TYPE_MLC;
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sign_sect->nand_descriptions[2].base_sector = MLC_BASE_SECTORS;
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sign_sect->nand_descriptions[2].sector_count = mlc_sector_count * (MLC_BYTES_PER_SECTOR / SDIO_BYTES_PER_SECTOR);
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sdcard_readwrite(SDIO_WRITE, io_buffer, 1, SDIO_BYTES_PER_SECTOR, NAND_DUMP_SIGNATURE_SECTOR, NULL, DEVICE_ID_SDCARD_PATCHED);
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_printf(20, 80, "Complete! -> rebooting into sysNAND...");
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FS_SLEEP(3000);
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svcShutdown(SHUTDOWN_TYPE_REBOOT);
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}
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#if 0
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// debug and not used at the moment
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void dump_data(void* data_ptr, u32 size)
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{
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static u32 dumpdata_offset = 0;
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u32 num_sectors = size >> 9; // size / SDIO_BYTES_PER_SECTOR but faster ;)
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if (num_sectors == 0)
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num_sectors = 1;
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sdcard_readwrite(SDIO_WRITE, data_ptr, num_sectors, SDIO_BYTES_PER_SECTOR, DUMPDATA_BASE_SECTORS + dumpdata_offset, NULL, DEVICE_ID_SDCARD_PATCHED);
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dumpdata_offset += num_sectors;
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}
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void dump_lots_data(u8* addr, u32 size)
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{
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u32 cur_size;
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u32 size_remaining = size;
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u8* cur_addr = addr;
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do
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{
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cur_size = sizeof(io_buffer);
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if (cur_size > size_remaining)
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cur_size = size_remaining;
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FS_MEMCPY(io_buffer, cur_addr, cur_size);
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dump_data(io_buffer, cur_size);
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cur_addr += cur_size;
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size_remaining -= cur_size;
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}
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while (cur_size != 0);
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}
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void dump_syslog()
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{
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FS_MEMCPY(io_buffer, *(void**)0x05095ECC, sizeof(io_buffer));
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sdcard_readwrite(SDIO_WRITE, io_buffer, sizeof(io_buffer) / SDIO_BYTES_PER_SECTOR, SDIO_BYTES_PER_SECTOR, SYSLOG_BASE_SECTORS, NULL, DEVICE_ID_SDCARD_PATCHED);
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}
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#endif
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