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/*
* Copyright ( c ) 2019 - 2020 CTCaer
*
* This program is free software ; you can redistribute it and / or modify it
* under the terms and conditions of the GNU General Public License ,
* version 2 , as published by the Free Software Foundation .
*
* This program is distributed in the hope it will be useful , but WITHOUT
* ANY WARRANTY ; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE . See the GNU General Public License for
* more details .
*
* You should have received a copy of the GNU General Public License
* along with this program . If not , see < http : //www.gnu.org/licenses/>.
*/
# include <stdlib.h>
# include "gui.h"
# include "gui_tools.h"
# include "gui_tools_partition_manager.h"
# include "../libs/fatfs/diskio.h"
# include "../libs/lvgl/lvgl.h"
# include "../mem/heap.h"
# include "../sec/se.h"
# include "../soc/hw_init.h"
# include "../soc/pmc.h"
# include "../soc/t210.h"
# include "../storage/mbr_gpt.h"
# include "../storage/nx_emmc.h"
# include "../storage/nx_sd.h"
# include "../storage/ramdisk.h"
# include "../storage/sdmmc.h"
# include "../utils/btn.h"
# include "../utils/sprintf.h"
# include "../utils/util.h"
extern volatile boot_cfg_t * b_cfg ;
extern volatile nyx_storage_t * nyx_str ;
typedef struct _partition_ctxt_t
{
u32 total_sct ;
int backup_possible ;
s32 hos_size ;
u32 emu_size ;
u32 l4t_size ;
u32 and_size ;
lv_obj_t * bar_hos ;
lv_obj_t * bar_emu ;
lv_obj_t * bar_l4t ;
lv_obj_t * bar_and ;
lv_obj_t * sep_emu ;
lv_obj_t * sep_l4t ;
lv_obj_t * sep_and ;
lv_obj_t * slider_bar_hos ;
lv_obj_t * slider_emu ;
lv_obj_t * slider_l4t ;
lv_obj_t * slider_and ;
lv_obj_t * lbl_hos ;
lv_obj_t * lbl_emu ;
lv_obj_t * lbl_l4t ;
lv_obj_t * lbl_and ;
lv_obj_t * btn_partition ;
} partition_ctxt_t ;
typedef struct _l4t_flasher_ctxt_t
{
u32 offset_sct ;
u32 image_size_sct ;
} l4t_flasher_ctxt_t ;
partition_ctxt_t part_info ;
l4t_flasher_ctxt_t l4t_flash_ctxt ;
static int _backup_and_restore_files ( char * path , u32 * total_files , u32 * total_size , const char * dst , const char * src , lv_obj_t * * labels )
{
FRESULT res ;
FIL fp_src ;
FIL fp_dst ;
DIR dir ;
u32 dirLength = 0 ;
static FILINFO fno ;
if ( src )
f_chdrive ( src ) ;
// Open directory.
res = f_opendir ( & dir , path ) ;
if ( res ! = FR_OK )
return res ;
if ( labels )
lv_label_set_text ( labels [ 0 ] , path ) ;
dirLength = strlen ( path ) ;
for ( ; ; )
{
// Clear file path.
path [ dirLength ] = 0 ;
// Read a directory item.
res = f_readdir ( & dir , & fno ) ;
// Break on error or end of dir.
if ( res ! = FR_OK | | fno . fname [ 0 ] = = 0 )
break ;
// Set new directory or file.
memcpy ( & path [ dirLength ] , " / " , 1 ) ;
strcpy ( & path [ dirLength + 1 ] , fno . fname ) ;
if ( labels )
{
lv_label_set_text ( labels [ 1 ] , fno . fname ) ;
manual_system_maintenance ( true ) ;
}
// Copy file to destination disk.
if ( ! ( fno . fattrib & AM_DIR ) )
{
u32 file_size = fno . fsize > RAMDISK_CLUSTER_SZ ? fno . fsize : RAMDISK_CLUSTER_SZ ; // Ramdisk cluster size.
* total_size + = file_size ;
* total_files + = 1 ;
if ( src & & dst )
{
u32 file_size = fno . fsize ;
// Open file for writing.
f_chdrive ( dst ) ;
f_open ( & fp_dst , path , FA_CREATE_ALWAYS | FA_WRITE ) ;
f_lseek ( & fp_dst , fno . fsize ) ;
f_lseek ( & fp_dst , 0 ) ;
// Open file for reading.
f_chdrive ( src ) ;
f_open ( & fp_src , path , FA_READ ) ;
while ( file_size )
{
u32 chunk_size = MIN ( file_size , 0x400000 ) ; // 4MB chunks.
file_size - = chunk_size ;
// Copy file to buffer.
f_read ( & fp_src , ( void * ) SDXC_BUF_ALIGNED , chunk_size , NULL ) ;
manual_system_maintenance ( true ) ;
// Write file to disk.
f_write ( & fp_dst , ( void * ) SDXC_BUF_ALIGNED , chunk_size , NULL ) ;
}
f_close ( & fp_src ) ;
// Finalize copied file.
f_close ( & fp_dst ) ;
f_chdrive ( dst ) ;
f_chmod ( path , fno . fattrib , 0xFF ) ;
f_chdrive ( src ) ;
}
// If total is > 1GB exit.
if ( * total_size > ( RAM_DISK_SZ - 0x1000000 ) ) // 0x2400000.
break ;
}
else // It's a directory.
{
if ( ! memcmp ( " System Volume Information " , fno . fname , 25 ) )
continue ;
// Create folder to destination.
if ( dst )
{
f_chdrive ( dst ) ;
f_mkdir ( path ) ;
}
// Enter the directory.
res = _backup_and_restore_files ( path , total_files , total_size , dst , src , labels ) ;
if ( res ! = FR_OK )
break ;
if ( labels )
{
// Clear folder path.
path [ dirLength ] = 0 ;
lv_label_set_text ( labels [ 0 ] , path ) ;
}
}
}
f_closedir ( & dir ) ;
return res ;
}
static void _prepare_and_flash_mbr_gpt ( )
{
u8 random_number [ 16 ] ;
mbr_t mbr ;
gpt_t gpt = { 0 } ;
gpt_header_t gpt_hdr_backup = { 0 } ;
// Read current MBR.
sdmmc_storage_read ( & sd_storage , 0 , 1 , & mbr ) ;
// Clear the first 16MB.
memset ( ( void * ) SDMMC_UPPER_BUFFER , 0 , 0x8000 ) ;
sdmmc_storage_write ( & sd_storage , 0 , 0x8000 , ( void * ) SDMMC_UPPER_BUFFER ) ;
u8 mbr_idx = 1 ;
se_gen_prng128 ( random_number ) ;
memcpy ( & mbr . signature , random_number , 4 ) ;
// Apply L4T Linux second to MBR if no Android.
if ( part_info . l4t_size & & ! part_info . and_size )
{
mbr . partitions [ mbr_idx ] . type = 0x83 ; // Linux system partition.
mbr . partitions [ mbr_idx ] . start_sct = 0x8000 + ( part_info . hos_size < < 11 ) ;
mbr . partitions [ mbr_idx ] . size_sct = part_info . l4t_size < < 11 ;
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sdmmc_storage_write ( & sd_storage , mbr . partitions [ mbr_idx ] . start_sct , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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mbr_idx + + ;
}
// emuMMC goes second or third. Next to L4T if no Android.
bool double_emummc = part_info . emu_size > 29856 ;
if ( part_info . emu_size )
{
mbr . partitions [ mbr_idx ] . type = 0xE0 ; // emuMMC partition.
mbr . partitions [ mbr_idx ] . start_sct = 0x8000 + ( part_info . hos_size < < 11 ) + ( part_info . l4t_size < < 11 ) + ( part_info . and_size < < 11 ) ;
if ( ! double_emummc )
{
if ( ! part_info . and_size )
mbr . partitions [ mbr_idx ] . size_sct = part_info . emu_size < < 11 ;
else
mbr . partitions [ mbr_idx ] . size_sct = ( part_info . emu_size < < 11 ) - 0x800 ; // Reserve 1MB.
}
else
{
mbr . partitions [ mbr_idx ] . type = 0xE0 ; // emuMMC partition.
mbr . partitions [ mbr_idx ] . size_sct = part_info . emu_size < < 10 ;
mbr_idx + + ;
// 2nd emuMMC.
mbr . partitions [ mbr_idx ] . start_sct = mbr . partitions [ mbr_idx - 1 ] . start_sct + ( part_info . emu_size < < 10 ) ;
if ( ! part_info . and_size )
mbr . partitions [ mbr_idx ] . size_sct = part_info . emu_size < < 10 ;
else
mbr . partitions [ mbr_idx ] . size_sct = ( part_info . emu_size < < 10 ) - 0x800 ; // Reserve 1MB.
}
mbr_idx + + ;
}
if ( part_info . and_size )
{
mbr . partitions [ mbr_idx ] . type = 0xEE ; // GPT protective partition.
mbr . partitions [ mbr_idx ] . start_sct = 1 ;
mbr . partitions [ mbr_idx ] . size_sct = part_info . total_sct - 1 ;
mbr_idx + + ;
// Set GPT header.
memcpy ( & gpt . header . signature , " EFI PART " , 8 ) ;
gpt . header . revision = 0x10000 ;
gpt . header . size = 92 ;
gpt . header . my_lba = 1 ;
gpt . header . alt_lba = part_info . total_sct - 1 ;
gpt . header . first_use_lba = ( sizeof ( mbr_t ) + sizeof ( gpt_t ) ) > > 9 ;
gpt . header . last_use_lba = part_info . total_sct - 0x800 - 1 ; // part_info.total_sct - 33 is start of backup gpt partition entries.
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . header . disk_guid , random_number , 10 ) ;
memcpy ( gpt . header . disk_guid + 10 , " NYXGPT " , 6 ) ;
gpt . header . part_ent_lba = 2 ;
gpt . header . part_ent_size = 128 ;
// Set GPT partitions.
u8 basic_part_guid [ ] = { 0xA2 , 0xA0 , 0xD0 , 0xEB , 0xE5 , 0xB9 , 0x33 , 0x44 , 0x87 , 0xC0 , 0x68 , 0xB6 , 0xB7 , 0x26 , 0x99 , 0xC7 } ;
memcpy ( gpt . entries [ 0 ] . type_guid , basic_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ 0 ] . part_guid , random_number , 16 ) ;
// Clear non-standard Windows MBR attributes. bit4: Read only, bit5: Shadow copy, bit6: Hidden, bit7: No drive letter.
gpt . entries [ 0 ] . part_guid [ 7 ] = 0 ;
gpt . entries [ 0 ] . lba_start = mbr . partitions [ 0 ] . start_sct ;
gpt . entries [ 0 ] . lba_end = mbr . partitions [ 0 ] . start_sct + mbr . partitions [ 0 ] . size_sct - 1 ;
memcpy ( gpt . entries [ 0 ] . name , ( char [ ] ) { ' h ' , 0 , ' o ' , 0 , ' s ' , 0 , ' _ ' , 0 , ' d ' , 0 , ' a ' , 0 , ' t ' , 0 , ' a ' , 0 } , 16 ) ;
u8 gpt_idx = 1 ;
u32 curr_part_lba = 0x8000 + ( part_info . hos_size < < 11 ) ;
u8 android_part_guid [ ] = { 0xAF , 0x3D , 0xC6 , 0x0F , 0x83 , 0x84 , 0x72 , 0x47 , 0x8E , 0x79 , 0x3D , 0x69 , 0xD8 , 0x47 , 0x7D , 0xE4 } ;
if ( part_info . l4t_size )
{
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + ( part_info . l4t_size < < 11 ) - 1 ;
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' l ' , 0 , ' 4 ' , 0 , ' t ' , 0 } , 6 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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curr_part_lba + = ( part_info . l4t_size < < 11 ) ;
gpt_idx + + ;
}
// Android Vendor partition.
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + 0x200000 - 1 ; // 1GB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' v ' , 0 , ' e ' , 0 , ' n ' , 0 , ' d ' , 0 , ' o ' , 0 , ' r ' , 0 } , 12 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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curr_part_lba + = 0x200000 ;
gpt_idx + + ;
// Android System partition.
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + 0x400000 - 1 ; // 2GB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' A ' , 0 , ' P ' , 0 , ' P ' , 0 } , 6 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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curr_part_lba + = 0x400000 ;
gpt_idx + + ;
// Android Linux Kernel partition.
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + 0x10000 - 1 ; // 32MB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' L ' , 0 , ' N ' , 0 , ' X ' , 0 } , 6 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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curr_part_lba + = 0x10000 ;
gpt_idx + + ;
// Android Recovery partition.
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + 0x20000 - 1 ; // 64MB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' S ' , 0 , ' O ' , 0 , ' S ' , 0 } , 6 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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curr_part_lba + = 0x20000 ;
gpt_idx + + ;
// Android Device Tree Reference partition.
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + 0x800 - 1 ; // 1MB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' D ' , 0 , ' T ' , 0 , ' B ' , 0 } , 6 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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curr_part_lba + = 0x800 ;
gpt_idx + + ;
// Android Encryption partition.
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + 0x8000 - 1 ; // 16MB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' M ' , 0 , ' D ' , 0 , ' A ' , 0 } , 6 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x8000 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear 16MB.
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curr_part_lba + = 0x8000 ;
gpt_idx + + ;
// Android Cache partition.
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + 0x15E000 - 1 ; // 700MB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' C ' , 0 , ' A ' , 0 , ' C ' , 0 } , 6 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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curr_part_lba + = 0x15E000 ;
gpt_idx + + ;
// Android Userdata partition.
u32 align_diff = ALIGN ( curr_part_lba , 0x8000 ) - curr_part_lba ;
curr_part_lba + = align_diff ; // Align to 16MB.
u32 user_size = ( part_info . and_size < < 11 ) - 0x796800 - align_diff ; // Subtract the other partitions (3885MB).
if ( ! part_info . emu_size )
user_size - = 0x800 ; // Reserve 1MB.
memcpy ( gpt . entries [ gpt_idx ] . type_guid , android_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + user_size - 1 ;
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' U ' , 0 , ' D ' , 0 , ' A ' , 0 } , 6 ) ;
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sdmmc_storage_write ( & sd_storage , curr_part_lba , 0x800 , ( void * ) SDMMC_UPPER_BUFFER ) ; // Clear the first 1MB.
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curr_part_lba + = user_size ;
gpt_idx + + ;
if ( part_info . emu_size )
{
u8 emu_part_guid [ ] = { 0x00 , 0x7E , 0xCA , 0x11 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , 0x00 , ' e ' , ' m ' , ' u ' , ' M ' , ' M ' , ' C ' } ;
memcpy ( gpt . entries [ gpt_idx ] . type_guid , emu_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
if ( ! double_emummc )
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + ( part_info . emu_size < < 11 ) - 0x800 - 1 ; // Reserve 1MB.
else
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + ( part_info . emu_size < < 10 ) ; // Reserve 1MB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' e ' , 0 , ' m ' , 0 , ' u ' , 0 , ' m ' , 0 , ' m ' , 0 , ' c ' , 0 } , 12 ) ;
gpt_idx + + ;
if ( double_emummc )
{
curr_part_lba + = ( part_info . emu_size < < 10 ) ;
memcpy ( gpt . entries [ gpt_idx ] . type_guid , emu_part_guid , 16 ) ;
se_gen_prng128 ( random_number ) ;
memcpy ( gpt . entries [ gpt_idx ] . part_guid , random_number , 16 ) ;
gpt . entries [ gpt_idx ] . lba_start = curr_part_lba ;
gpt . entries [ gpt_idx ] . lba_end = curr_part_lba + ( part_info . emu_size < < 10 ) - 0x800 - 1 ; // Reserve 1MB.
memcpy ( gpt . entries [ gpt_idx ] . name , ( char [ ] ) { ' e ' , 0 , ' m ' , 0 , ' u ' , 0 , ' m ' , 0 , ' m ' , 0 , ' c ' , 0 , ' 2 ' , 0 } , 14 ) ;
gpt_idx + + ;
}
}
// Set final GPT header parameters.
gpt . header . num_part_ents = 128 ;
gpt . header . part_ents_crc32 = crc32_calc ( 0 , ( const u8 * ) gpt . entries , sizeof ( gpt_entry_t ) * 128 ) ;
gpt . header . crc32 = 0 ; // Set to 0 for calculation.
gpt . header . crc32 = crc32_calc ( 0 , ( const u8 * ) & gpt . header , gpt . header . size ) ;
memcpy ( & gpt_hdr_backup , & gpt . header , sizeof ( gpt_header_t ) ) ;
gpt_hdr_backup . my_lba = part_info . total_sct - 1 ;
gpt_hdr_backup . alt_lba = 1 ;
gpt_hdr_backup . part_ent_lba = part_info . total_sct - 33 ;
gpt_hdr_backup . crc32 = 0 ; // Set to 0 for calculation.
gpt_hdr_backup . crc32 = crc32_calc ( 0 , ( const u8 * ) & gpt_hdr_backup , gpt_hdr_backup . size ) ;
// Write main GPT.
sdmmc_storage_write ( & sd_storage , gpt . header . my_lba , sizeof ( gpt_t ) > > 9 , & gpt ) ;
// Write backup GPT partition table.
sdmmc_storage_write ( & sd_storage , gpt_hdr_backup . part_ent_lba , ( ( sizeof ( gpt_entry_t ) * 128 ) > > 9 ) , gpt . entries ) ;
// Write backup GPT header.
sdmmc_storage_write ( & sd_storage , gpt_hdr_backup . my_lba , 1 , & gpt_hdr_backup ) ;
}
// Write MBR.
sdmmc_storage_write ( & sd_storage , 0 , 1 , & mbr ) ;
}
static lv_res_t _action_part_manager_ums_sd ( lv_obj_t * btn )
{
action_ums_sd ( btn ) ;
if ( lv_btn_get_state ( part_info . btn_partition ) ! = LV_BTN_STATE_INA )
{
lv_action_t close_btn_action = lv_btn_get_action ( close_btn , LV_BTN_ACTION_CLICK ) ;
close_btn_action ( close_btn ) ;
lv_obj_del ( ums_mbox ) ;
create_window_partition_manager ( NULL ) ;
return LV_RES_INV ;
}
return LV_RES_OK ;
}
static lv_res_t _action_delete_linux_installer_files ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
// Delete parent mbox.
mbox_action ( btns , txt ) ;
// Flash Linux.
if ( ! btn_idx )
{
char path [ 128 ] ;
sd_mount ( ) ;
strcpy ( path , " switchroot/install/l4t. " ) ;
// Delete all l4t.xx files.
u32 idx = 0 ;
while ( true )
{
if ( idx < 10 )
{
path [ 23 ] = ' 0 ' ;
itoa ( idx , & path [ 23 + 1 ] , 10 ) ;
}
else
itoa ( idx , & path [ 23 ] , 10 ) ;
if ( ! f_stat ( path , NULL ) )
{
f_unlink ( path ) ;
}
else
break ;
idx + + ;
}
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sd_unmount ( ) ;
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}
return LV_RES_INV ;
}
static lv_res_t _action_flash_linux_data ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
// Delete parent mbox.
mbox_action ( btns , txt ) ;
bool succeeded = false ;
// Flash Linux.
if ( ! btn_idx )
{
lv_obj_t * dark_bg = lv_obj_create ( lv_scr_act ( ) , NULL ) ;
lv_obj_set_style ( dark_bg , & mbox_darken ) ;
lv_obj_set_size ( dark_bg , LV_HOR_RES , LV_VER_RES ) ;
static const char * mbox_btn_map [ ] = { " \211 " , " \222 OK " , " \211 " , " " } ;
static const char * mbox_btn_map2 [ ] = { " \223 Delete Installation Files " , " \221 OK " , " \211 " , " " } ;
lv_obj_t * mbox = lv_mbox_create ( dark_bg , NULL ) ;
lv_mbox_set_recolor_text ( mbox , true ) ;
lv_obj_set_width ( mbox , LV_HOR_RES / 10 * 5 ) ;
lv_mbox_set_text ( mbox , " #FF8000 Linux Flasher# " ) ;
lv_obj_t * lbl_status = lv_label_create ( mbox , NULL ) ;
lv_label_set_recolor ( lbl_status , true ) ;
lv_label_set_text ( lbl_status , " #C7EA46 Status:# Flashing Linux... " ) ;
// Create container to keep content inside.
lv_obj_t * h1 = lv_cont_create ( mbox , NULL ) ;
lv_cont_set_fit ( h1 , true , true ) ;
lv_cont_set_style ( h1 , & lv_style_transp_tight ) ;
lv_obj_t * bar = lv_bar_create ( h1 , NULL ) ;
lv_obj_set_size ( bar , LV_DPI * 30 / 10 , LV_DPI / 5 ) ;
lv_bar_set_range ( bar , 0 , 100 ) ;
lv_bar_set_value ( bar , 0 ) ;
lv_obj_t * label_pct = lv_label_create ( h1 , NULL ) ;
lv_label_set_recolor ( label_pct , true ) ;
lv_label_set_text ( label_pct , " " SYMBOL_DOT " 0% " ) ;
lv_label_set_style ( label_pct , lv_theme_get_current ( ) - > label . prim ) ;
lv_obj_align ( label_pct , bar , LV_ALIGN_OUT_RIGHT_MID , LV_DPI / 20 , 0 ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
sd_mount ( ) ;
int res = 0 ;
char * path = malloc ( 1024 ) ;
char * txt_buf = malloc ( 0x1000 ) ;
strcpy ( path , " switchroot/install/l4t.00 " ) ;
u32 path_len = strlen ( path ) - 2 ;
FIL fp ;
res = f_open ( & fp , path , FA_READ ) ;
if ( res )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# Failed to open 1st part! " ) ;
goto exit ;
}
u64 fileSize = ( u64 ) f_size ( & fp ) ;
u32 num = 0 ;
u32 pct = 0 ;
u32 lba_curr = 0 ;
u32 bytesWritten = 0 ;
u32 currPartIdx = 0 ;
u32 prevPct = 200 ;
int retryCount = 0 ;
u32 total_size_sct = l4t_flash_ctxt . image_size_sct ;
u8 * buf = ( u8 * ) MIXD_BUF_ALIGNED ;
DWORD * clmt = f_expand_cltbl ( & fp , 0x400000 , 0 ) ;
while ( total_size_sct > 0 )
{
// If we have more than one part, check the size for the split parts and make sure that the bytes written is not more than that.
if ( bytesWritten > = fileSize )
{
// If we have more bytes written then close the file pointer and increase the part index we are using
f_close ( & fp ) ;
free ( clmt ) ;
memset ( & fp , 0 , sizeof ( fp ) ) ;
currPartIdx + + ;
if ( currPartIdx < 10 )
{
path [ path_len ] = ' 0 ' ;
itoa ( currPartIdx , & path [ path_len + 1 ] , 10 ) ;
}
else
itoa ( currPartIdx , & path [ path_len ] , 10 ) ;
// Try to open the next file part
res = f_open ( & fp , path , FA_READ ) ;
if ( res )
{
s_printf ( txt_buf , " #FFDD00 Error:# Failed to open part %d# " , currPartIdx ) ;
lv_label_set_text ( lbl_status , txt_buf ) ;
manual_system_maintenance ( true ) ;
goto exit ;
}
fileSize = ( u64 ) f_size ( & fp ) ;
bytesWritten = 0 ;
clmt = f_expand_cltbl ( & fp , 0x400000 , 0 ) ;
}
retryCount = 0 ;
num = MIN ( total_size_sct , 8192 ) ;
res = f_read_fast ( & fp , buf , num < < 9 ) ;
manual_system_maintenance ( false ) ;
if ( res )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# Reading from SD! " ) ;
manual_system_maintenance ( true ) ;
f_close ( & fp ) ;
free ( clmt ) ;
goto exit ;
}
res = ! sdmmc_storage_write ( & sd_storage , lba_curr + l4t_flash_ctxt . offset_sct , num , buf ) ;
manual_system_maintenance ( false ) ;
while ( res )
{
msleep ( 150 ) ;
manual_system_maintenance ( true ) ;
if ( retryCount > = 3 )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# Writing to SD! " ) ;
manual_system_maintenance ( true ) ;
f_close ( & fp ) ;
free ( clmt ) ;
goto exit ;
}
res = ! sdmmc_storage_write ( & sd_storage , lba_curr + l4t_flash_ctxt . offset_sct , num , buf ) ;
manual_system_maintenance ( false ) ;
}
pct = ( u64 ) ( ( u64 ) lba_curr * 100u ) / ( u64 ) l4t_flash_ctxt . image_size_sct ;
if ( pct ! = prevPct )
{
lv_bar_set_value ( bar , pct ) ;
s_printf ( txt_buf , " " SYMBOL_DOT " %d%% " , pct ) ;
lv_label_set_text ( label_pct , txt_buf ) ;
manual_system_maintenance ( true ) ;
prevPct = pct ;
}
lba_curr + = num ;
total_size_sct - = num ;
bytesWritten + = num * NX_EMMC_BLOCKSIZE ;
}
lv_bar_set_value ( bar , 100 ) ;
lv_label_set_text ( label_pct , " " SYMBOL_DOT " 100% " ) ;
manual_system_maintenance ( true ) ;
// Restore operation ended successfully.
f_close ( & fp ) ;
free ( clmt ) ;
succeeded = true ;
exit :
free ( path ) ;
free ( txt_buf ) ;
if ( ! succeeded )
lv_mbox_add_btns ( mbox , mbox_btn_map , mbox_action ) ;
else
lv_mbox_add_btns ( mbox , mbox_btn_map2 , _action_delete_linux_installer_files ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
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sd_unmount ( ) ;
2020-04-30 13:12:55 +00:00
}
return LV_RES_INV ;
}
static lv_res_t _action_check_flash_linux ( lv_obj_t * btn )
{
FILINFO fno ;
char path [ 128 ] ;
mbr_t mbr = { 0 } ;
gpt_t gpt = { 0 } ;
memset ( & l4t_flash_ctxt , 0 , sizeof ( l4t_flasher_ctxt_t ) ) ;
lv_obj_t * dark_bg = lv_obj_create ( lv_scr_act ( ) , NULL ) ;
lv_obj_set_style ( dark_bg , & mbox_darken ) ;
lv_obj_set_size ( dark_bg , LV_HOR_RES , LV_VER_RES ) ;
static const char * mbox_btn_map [ ] = { " \211 " , " \222 OK " , " \211 " , " " } ;
static const char * mbox_btn_map2 [ ] = { " \222 Continue " , " \222 Cancel " , " " } ;
lv_obj_t * mbox = lv_mbox_create ( dark_bg , NULL ) ;
lv_mbox_set_recolor_text ( mbox , true ) ;
lv_obj_set_width ( mbox , LV_HOR_RES / 9 * 6 ) ;
lv_mbox_set_text ( mbox , " #FF8000 Linux Flasher# " ) ;
lv_obj_t * lbl_status = lv_label_create ( mbox , NULL ) ;
lv_label_set_recolor ( lbl_status , true ) ;
lv_label_set_text ( lbl_status , " #C7EA46 Status:# Searching for files and partitions... " ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
manual_system_maintenance ( true ) ;
sd_mount ( ) ;
strcpy ( path , " switchroot/install/l4t.00 " ) ;
if ( f_stat ( path , NULL ) )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# Installation files not found! " ) ;
goto error ;
}
// Read MBR.
sdmmc_storage_read ( & sd_storage , 0 , 1 , & mbr ) ;
// Read main GPT.
sdmmc_storage_read ( & sd_storage , 1 , sizeof ( gpt_t ) > > 9 , & gpt ) ;
// Search for a suitable partition.
u32 size_sct = 0 ;
if ( ! memcmp ( & gpt . header . signature , " EFI PART " , 8 ) )
{
for ( u32 i = 0 ; i < gpt . header . num_part_ents ; i + + )
{
if ( ! memcmp ( gpt . entries [ i ] . name , ( char [ ] ) { ' l ' , 0 , ' 4 ' , 0 , ' t ' , 0 } , 6 ) )
{
l4t_flash_ctxt . offset_sct = gpt . entries [ i ] . lba_start ;
size_sct = ( gpt . entries [ i ] . lba_end + 1 ) - gpt . entries [ i ] . lba_start ;
break ;
}
if ( i > 126 )
break ;
}
}
else
{
for ( u32 i = 1 ; i < 4 ; i + + )
{
if ( mbr . partitions [ i ] . type = = 0x83 )
{
l4t_flash_ctxt . offset_sct = mbr . partitions [ i ] . start_sct ;
size_sct = mbr . partitions [ i ] . size_sct ;
break ;
}
}
}
if ( ! l4t_flash_ctxt . offset_sct | | size_sct < 0x800000 )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# No partition found! " ) ;
goto error ;
}
u32 idx = 0 ;
path [ 23 ] = 0 ;
while ( true )
{
if ( idx < 10 )
{
path [ 23 ] = ' 0 ' ;
itoa ( idx , & path [ 23 + 1 ] , 10 ) ;
}
else
itoa ( idx , & path [ 23 ] , 10 ) ;
// Check for alignment.
if ( ! f_stat ( path , & fno ) )
{
if ( ( u64 ) fno . fsize % 0x400000 )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# The image is not aligned to 4 MiB! " ) ;
goto error ;
}
l4t_flash_ctxt . image_size_sct + = ( u64 ) fno . fsize > > 9 ;
}
else
break ;
idx + + ;
}
if ( l4t_flash_ctxt . image_size_sct > size_sct )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# The image is bigger than the partition! " ) ;
goto error ;
}
char * txt_buf = malloc ( 0x1000 ) ;
s_printf ( txt_buf ,
" #C7EA46 Status:# Found installation files and partition. \n "
" #00DDFF Offset:# %08x, #00DDFF Size:# %X, #00DDFF Image size:# %d MiB \n "
" \n Do you want to continue? " , l4t_flash_ctxt . offset_sct , size_sct , l4t_flash_ctxt . image_size_sct > > 11 ) ;
lv_label_set_text ( lbl_status , txt_buf ) ;
free ( txt_buf ) ;
lv_mbox_add_btns ( mbox , mbox_btn_map2 , _action_flash_linux_data ) ;
goto exit ;
error :
lv_mbox_add_btns ( mbox , mbox_btn_map , mbox_action ) ;
exit :
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
2020-06-13 15:32:40 +00:00
sd_unmount ( ) ;
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return LV_RES_OK ;
}
static lv_res_t _action_reboot_twrp ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
// Delete parent mbox.
mbox_action ( btns , txt ) ;
if ( ! btn_idx )
{
PMC ( APBDEV_PMC_SCRATCH0 ) | = PMC_SCRATCH0_MODE_RECOVERY ;
b_cfg - > boot_cfg = BOOT_CFG_FROM_ID | BOOT_CFG_AUTOBOOT_EN ;
strcpy ( ( char * ) b_cfg - > id , " SWANDR " ) ;
void ( * main_ptr ) ( ) = ( void * ) nyx_str - > hekate ;
2020-06-13 15:32:40 +00:00
sd_end ( ) ;
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reconfig_hw_workaround ( false , 0 ) ;
( * main_ptr ) ( ) ;
}
return LV_RES_INV ;
}
static lv_res_t _action_flash_android_data ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
// Delete parent mbox.
mbox_action ( btns , txt ) ;
// Flash Android components.
if ( ! btn_idx )
{
char path [ 128 ] ;
gpt_t gpt = { 0 } ;
char * txt_buf = malloc ( 0x1000 ) ;
lv_obj_t * dark_bg = lv_obj_create ( lv_scr_act ( ) , NULL ) ;
lv_obj_set_style ( dark_bg , & mbox_darken ) ;
lv_obj_set_size ( dark_bg , LV_HOR_RES , LV_VER_RES ) ;
static const char * mbox_btn_map [ ] = { " \211 " , " \222 OK " , " \211 " , " " } ;
static const char * mbox_btn_map2 [ ] = { " \222 Continue " , " \222 Cancel " , " " } ;
lv_obj_t * mbox = lv_mbox_create ( dark_bg , NULL ) ;
lv_mbox_set_recolor_text ( mbox , true ) ;
lv_obj_set_width ( mbox , LV_HOR_RES / 9 * 6 ) ;
lv_mbox_set_text ( mbox , " #FF8000 Android Flasher# " ) ;
lv_obj_t * lbl_status = lv_label_create ( mbox , NULL ) ;
lv_label_set_recolor ( lbl_status , true ) ;
lv_label_set_text ( lbl_status , " #C7EA46 Status:# Searching for files and partitions... " ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
manual_system_maintenance ( true ) ;
sd_mount ( ) ;
// Read main GPT.
sdmmc_storage_read ( & sd_storage , 1 , sizeof ( gpt_t ) > > 9 , & gpt ) ;
bool boot_twrp = false ;
if ( memcmp ( & gpt . header . signature , " EFI PART " , 8 ) )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# No Android GPT was found! " ) ;
goto error ;
}
strcpy ( path , " switchroot/install/boot.img " ) ;
if ( ! f_stat ( path , NULL ) )
{
u32 offset_sct = 0 ;
u32 size_sct = 0 ;
for ( u32 i = 0 ; i < gpt . header . num_part_ents ; i + + )
{
if ( ! memcmp ( gpt . entries [ i ] . name , ( char [ ] ) { ' L ' , 0 , ' N ' , 0 , ' X ' , 0 } , 6 ) )
{
offset_sct = gpt . entries [ i ] . lba_start ;
size_sct = ( gpt . entries [ i ] . lba_end + 1 ) - gpt . entries [ i ] . lba_start ;
break ;
}
if ( i > 126 )
break ;
}
if ( offset_sct & & size_sct )
{
u32 file_size = 0 ;
u8 * buf = sd_file_read ( path , & file_size ) ;
if ( file_size % 0x200 )
{
file_size = ALIGN ( file_size , 0x200 ) ;
u8 * buf_tmp = calloc ( file_size , 1 ) ;
memcpy ( buf_tmp , buf , file_size ) ;
free ( buf ) ;
buf = buf_tmp ;
}
if ( ( file_size > > 9 ) > size_sct )
s_printf ( txt_buf , " #FF8000 Warning:# Kernel image too big! \n " ) ;
else
{
sdmmc_storage_write ( & sd_storage , offset_sct , file_size > > 9 , buf ) ;
s_printf ( txt_buf , " #C7EA46 Success:# Kernel image flashed! \n " ) ;
f_unlink ( path ) ;
}
free ( buf ) ;
}
else
s_printf ( txt_buf , " #FF8000 Warning:# Kernel partition not found! \n " ) ;
}
else
s_printf ( txt_buf , " #FF8000 Warning:# Kernel image not found! \n " ) ;
lv_label_set_text ( lbl_status , txt_buf ) ;
manual_system_maintenance ( true ) ;
strcpy ( path , " switchroot/install/twrp.img " ) ;
if ( ! f_stat ( path , NULL ) )
{
u32 offset_sct = 0 ;
u32 size_sct = 0 ;
for ( u32 i = 0 ; i < gpt . header . num_part_ents ; i + + )
{
if ( ! memcmp ( gpt . entries [ i ] . name , ( char [ ] ) { ' S ' , 0 , ' O ' , 0 , ' S ' , 0 } , 6 ) )
{
offset_sct = gpt . entries [ i ] . lba_start ;
size_sct = ( gpt . entries [ i ] . lba_end + 1 ) - gpt . entries [ i ] . lba_start ;
break ;
}
if ( i > 126 )
break ;
}
if ( offset_sct & & size_sct )
{
u32 file_size = 0 ;
u8 * buf = sd_file_read ( path , & file_size ) ;
if ( file_size % 0x200 )
{
file_size = ALIGN ( file_size , 0x200 ) ;
u8 * buf_tmp = calloc ( file_size , 1 ) ;
memcpy ( buf_tmp , buf , file_size ) ;
free ( buf ) ;
buf = buf_tmp ;
}
if ( ( file_size > > 9 ) > size_sct )
s_printf ( txt_buf + strlen ( txt_buf ) , " #FF8000 Warning:# TWRP image too big! \n " ) ;
else
{
sdmmc_storage_write ( & sd_storage , offset_sct , file_size > > 9 , buf ) ;
s_printf ( txt_buf + strlen ( txt_buf ) , " #C7EA46 Success:# TWRP image flashed! \n " ) ;
f_unlink ( path ) ;
}
free ( buf ) ;
}
else
s_printf ( txt_buf + strlen ( txt_buf ) , " #FF8000 Warning:# TWRP partition not found! \n " ) ;
}
else
s_printf ( txt_buf + strlen ( txt_buf ) , " #FF8000 Warning:# TWRP image not found! \n " ) ;
lv_label_set_text ( lbl_status , txt_buf ) ;
manual_system_maintenance ( true ) ;
strcpy ( path , " switchroot/install/tegra210-icosa.dtb " ) ;
if ( ! f_stat ( path , NULL ) )
{
u32 offset_sct = 0 ;
u32 size_sct = 0 ;
for ( u32 i = 0 ; i < gpt . header . num_part_ents ; i + + )
{
if ( ! memcmp ( gpt . entries [ i ] . name , ( char [ ] ) { ' D ' , 0 , ' T ' , 0 , ' B ' , 0 } , 6 ) )
{
offset_sct = gpt . entries [ i ] . lba_start ;
size_sct = ( gpt . entries [ i ] . lba_end + 1 ) - gpt . entries [ i ] . lba_start ;
break ;
}
if ( i > 126 )
break ;
}
if ( offset_sct & & size_sct )
{
u32 file_size = 0 ;
u8 * buf = sd_file_read ( path , & file_size ) ;
if ( file_size % 0x200 )
{
file_size = ALIGN ( file_size , 0x200 ) ;
u8 * buf_tmp = calloc ( file_size , 1 ) ;
memcpy ( buf_tmp , buf , file_size ) ;
free ( buf ) ;
buf = buf_tmp ;
}
if ( ( file_size > > 9 ) > size_sct )
s_printf ( txt_buf + strlen ( txt_buf ) , " #FF8000 Warning:# DTB image too big! " ) ;
else
{
sdmmc_storage_write ( & sd_storage , offset_sct , file_size > > 9 , buf ) ;
s_printf ( txt_buf + strlen ( txt_buf ) , " #C7EA46 Success:# DTB image flashed! " ) ;
f_unlink ( path ) ;
}
free ( buf ) ;
}
else
s_printf ( txt_buf + strlen ( txt_buf ) , " #FF8000 Warning:# DTB partition not found! " ) ;
}
else
s_printf ( txt_buf + strlen ( txt_buf ) , " #FF8000 Warning:# DTB image not found! " ) ;
lv_label_set_text ( lbl_status , txt_buf ) ;
// Check if TWRP is flashed unconditionally.
for ( u32 i = 0 ; i < gpt . header . num_part_ents ; i + + )
{
if ( ! memcmp ( gpt . entries [ i ] . name , ( char [ ] ) { ' S ' , 0 , ' O ' , 0 , ' S ' , 0 } , 6 ) )
{
u8 * buf = malloc ( 512 ) ;
sdmmc_storage_read ( & sd_storage , gpt . entries [ i ] . lba_start , 1 , buf ) ;
if ( ! memcmp ( buf , " ANDROID " , 7 ) )
boot_twrp = true ;
free ( buf ) ;
break ;
}
if ( i > 126 )
break ;
}
error :
if ( boot_twrp )
{
s_printf ( txt_buf + strlen ( txt_buf ) , " \n \n Do you want to reboot into TWRP \n to finish Android installation? " ) ;
lv_label_set_text ( lbl_status , txt_buf ) ;
lv_mbox_add_btns ( mbox , mbox_btn_map2 , _action_reboot_twrp ) ;
}
else
lv_mbox_add_btns ( mbox , mbox_btn_map , mbox_action ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
free ( txt_buf ) ;
2020-06-13 15:32:40 +00:00
sd_unmount ( ) ;
2020-04-30 13:12:55 +00:00
}
return LV_RES_INV ;
}
static lv_res_t _action_flash_android ( lv_obj_t * btn )
{
memset ( & l4t_flash_ctxt , 0 , sizeof ( l4t_flasher_ctxt_t ) ) ;
lv_obj_t * dark_bg = lv_obj_create ( lv_scr_act ( ) , NULL ) ;
lv_obj_set_style ( dark_bg , & mbox_darken ) ;
lv_obj_set_size ( dark_bg , LV_HOR_RES , LV_VER_RES ) ;
static const char * mbox_btn_map [ ] = { " \222 Continue " , " \222 Cancel " , " " } ;
lv_obj_t * mbox = lv_mbox_create ( dark_bg , NULL ) ;
lv_mbox_set_recolor_text ( mbox , true ) ;
lv_obj_set_width ( mbox , LV_HOR_RES / 9 * 6 ) ;
lv_mbox_set_text ( mbox , " #FF8000 Android Flasher# " ) ;
lv_obj_t * lbl_status = lv_label_create ( mbox , NULL ) ;
lv_label_set_recolor ( lbl_status , true ) ;
lv_label_set_text ( lbl_status ,
" This will flash #C7EA46 Kernel#, #C7EA46 DTB# and #C7EA46 TWRP# if found. \n "
" Do you want to continue? " ) ;
lv_mbox_add_btns ( mbox , mbox_btn_map , _action_flash_android_data ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
return LV_RES_OK ;
}
static lv_res_t _action_part_manager_flash_options0 ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
switch ( btn_idx )
{
case 0 :
action_ums_sd ( btns ) ;
lv_obj_del ( ums_mbox ) ;
break ;
case 1 :
_action_check_flash_linux ( btns ) ;
break ;
case 2 :
_action_flash_android ( btns ) ;
break ;
case 3 :
mbox_action ( btns , txt ) ;
return LV_RES_INV ;
}
return LV_RES_OK ;
}
static lv_res_t _action_part_manager_flash_options1 ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
switch ( btn_idx )
{
case 0 :
action_ums_sd ( btns ) ;
lv_obj_del ( ums_mbox ) ;
break ;
case 1 :
mbox_action ( btns , txt ) ;
_action_check_flash_linux ( NULL ) ;
return LV_RES_INV ;
case 2 :
mbox_action ( btns , txt ) ;
return LV_RES_INV ;
}
return LV_RES_OK ;
}
static lv_res_t _action_part_manager_flash_options2 ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
switch ( btn_idx )
{
case 0 :
action_ums_sd ( btns ) ;
lv_obj_del ( ums_mbox ) ;
break ;
case 1 :
mbox_action ( btns , txt ) ;
_action_flash_android ( NULL ) ;
return LV_RES_INV ;
case 2 :
mbox_action ( btns , txt ) ;
return LV_RES_INV ;
}
return LV_RES_OK ;
}
static lv_res_t _create_mbox_start_partitioning ( lv_obj_t * btn )
{
lv_obj_t * dark_bg = lv_obj_create ( lv_scr_act ( ) , NULL ) ;
lv_obj_set_style ( dark_bg , & mbox_darken ) ;
lv_obj_set_size ( dark_bg , LV_HOR_RES , LV_VER_RES ) ;
static const char * mbox_btn_map [ ] = { " \211 " , " \222 OK " , " \211 " , " " } ;
static const char * mbox_btn_map1 [ ] = { " \222 SD UMS " , " \222 Flash Linux " , " \222 Flash Android " , " \221 OK " , " " } ;
static const char * mbox_btn_map2 [ ] = { " \222 SD UMS " , " \222 Flash Linux " , " \221 OK " , " " } ;
static const char * mbox_btn_map3 [ ] = { " \222 SD UMS " , " \222 Flash Android " , " \221 OK " , " " } ;
lv_obj_t * mbox = lv_mbox_create ( dark_bg , NULL ) ;
lv_mbox_set_recolor_text ( mbox , true ) ;
lv_obj_set_width ( mbox , LV_HOR_RES / 9 * 6 ) ;
lv_mbox_set_text ( mbox , " #FF8000 Partition Manager# " ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
bool buttons_set = false ;
if ( ! part_info . backup_possible )
{
char * txt_buf = malloc ( 0x1000 ) ;
strcpy ( txt_buf , " #FF8000 Partition Manager# \n \n Safety wait ends in " ) ;
lv_mbox_set_text ( mbox , txt_buf ) ;
u32 seconds = 5 ;
u32 text_idx = strlen ( txt_buf ) ;
while ( seconds )
{
s_printf ( txt_buf + text_idx , " %d seconds... " , seconds ) ;
lv_mbox_set_text ( mbox , txt_buf ) ;
manual_system_maintenance ( true ) ;
msleep ( 1000 ) ;
seconds - - ;
}
lv_mbox_set_text ( mbox ,
" #FF8000 Partition Manager# \n \n "
" #FFDD00 Warning: Do you really want to continue?!# \n \n "
" Press #FF8000 POWER# to Continue. \n Press #FF8000 VOL# to abort. " ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
manual_system_maintenance ( true ) ;
free ( txt_buf ) ;
if ( ! ( btn_wait ( ) & BTN_POWER ) )
goto exit ;
}
lv_mbox_set_text ( mbox , " #FF8000 Partition Manager# " ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
manual_system_maintenance ( true ) ;
lv_obj_t * lbl_status = lv_label_create ( mbox , NULL ) ;
lv_label_set_recolor ( lbl_status , true ) ;
lv_obj_t * lbl_paths [ 2 ] ;
lbl_paths [ 0 ] = lv_label_create ( mbox , NULL ) ;
lv_label_set_text ( lbl_paths [ 0 ] , " / " ) ;
lv_label_set_long_mode ( lbl_paths [ 0 ] , LV_LABEL_LONG_DOT ) ;
lv_cont_set_fit ( lbl_paths [ 0 ] , false , true ) ;
lv_obj_set_width ( lbl_paths [ 0 ] , ( LV_HOR_RES / 9 * 6 ) - LV_DPI / 2 ) ;
lv_label_set_align ( lbl_paths [ 0 ] , LV_LABEL_ALIGN_CENTER ) ;
lbl_paths [ 1 ] = lv_label_create ( mbox , NULL ) ;
lv_label_set_text ( lbl_paths [ 1 ] , " " ) ;
lv_label_set_long_mode ( lbl_paths [ 1 ] , LV_LABEL_LONG_DOT ) ;
lv_cont_set_fit ( lbl_paths [ 1 ] , false , true ) ;
lv_obj_set_width ( lbl_paths [ 1 ] , ( LV_HOR_RES / 9 * 6 ) - LV_DPI / 2 ) ;
lv_label_set_align ( lbl_paths [ 1 ] , LV_LABEL_ALIGN_CENTER ) ;
sd_mount ( ) ;
FATFS ram_fs ;
char * path = malloc ( 1024 ) ;
u32 total_files = 0 ;
u32 total_size = 0 ;
lv_label_set_text ( lbl_status , " #00DDFF Status:# Initializing Ramdisk... " ) ;
lv_label_set_text ( lbl_paths [ 0 ] , " Please wait... " ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
manual_system_maintenance ( true ) ;
if ( ram_disk_init ( & ram_fs ) )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# Failed to initialize Ramdisk! " ) ;
goto error ;
}
if ( ! part_info . backup_possible )
{
strcpy ( path , " bootloader " ) ;
f_chdrive ( " ram: " ) ;
f_mkdir ( path ) ;
}
else
path [ 0 ] = 0 ;
lv_label_set_text ( lbl_status , " #00DDFF Status:# Backing up files... " ) ;
manual_system_maintenance ( true ) ;
if ( _backup_and_restore_files ( path , & total_files , & total_size , " ram: " , " sd: " , lbl_paths ) )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# Failed to back up files! " ) ;
goto error ;
}
total_files = 0 ;
total_size = 0 ;
if ( ! part_info . backup_possible )
strcpy ( path , " bootloader " ) ;
else
path [ 0 ] = 0 ;
f_mount ( NULL , " sd: " , 1 ) ; // Unmount SD card.
lv_label_set_text ( lbl_status , " #00DDFF Status:# Formatting FAT32 partition... " ) ;
lv_label_set_text ( lbl_paths [ 0 ] , " Please wait... " ) ;
lv_label_set_text ( lbl_paths [ 1 ] , " " ) ;
manual_system_maintenance ( true ) ;
// Set reserved size.
u32 part_rsvd_size = ( part_info . emu_size < < 11 ) + ( part_info . l4t_size < < 11 ) + ( part_info . and_size < < 11 ) ;
disk_set_info ( DRIVE_SD , SET_SECTOR_COUNT , & part_rsvd_size ) ;
u8 * buf = malloc ( 0x400000 ) ;
u32 cluster_size = part_info . hos_size < 2560 ? 4096 : 65536 ;
if ( f_mkfs ( " sd: " , FM_FAT32 , cluster_size , buf , 0x400000 ) )
{
// Retry.
2020-05-05 16:28:34 +00:00
u32 error = f_mkfs ( " sd: " , FM_FAT32 , cluster_size , buf , 0x400000 ) ;
if ( error )
2020-04-30 13:12:55 +00:00
{
// Failed to format.
2020-05-05 16:28:34 +00:00
s_printf ( ( char * ) buf , " #FFDD00 Error:# Failed to format disk (%d)! \n \n "
" Remove the SD card and check that is OK. \n If not, format it, reinsert it and \n press #FF8000 POWER#! " , error ) ;
lv_label_set_text ( lbl_status , ( char * ) buf ) ;
lv_label_set_text ( lbl_paths [ 0 ] , " " ) ;
2020-04-30 13:12:55 +00:00
manual_system_maintenance ( true ) ;
2020-06-13 15:32:40 +00:00
sd_end ( ) ;
2020-04-30 13:12:55 +00:00
while ( ! ( btn_wait ( ) & BTN_POWER ) ) ;
sd_mount ( ) ;
if ( ! part_info . backup_possible )
{
f_chdrive ( " sd: " ) ;
f_mkdir ( path ) ;
}
lv_label_set_text ( lbl_status , " #00DDFF Status:# Restoring files... " ) ;
manual_system_maintenance ( true ) ;
if ( _backup_and_restore_files ( path , & total_files , & total_size , " sd: " , " ram: " , NULL ) )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# Failed to restore files! " ) ;
free ( buf ) ;
goto error ;
}
lv_label_set_text ( lbl_status , " #00DDFF Status:# Restored files but the operation failed! " ) ;
f_mount ( NULL , " ram: " , 1 ) ; // Unmount ramdisk.
free ( buf ) ;
goto error ;
}
}
free ( buf ) ;
f_mount ( & sd_fs , " sd: " , 1 ) ; // Mount SD card.
if ( ! part_info . backup_possible )
{
f_chdrive ( " sd: " ) ;
f_mkdir ( path ) ;
}
lv_label_set_text ( lbl_status , " #00DDFF Status:# Restoring files... " ) ;
manual_system_maintenance ( true ) ;
if ( _backup_and_restore_files ( path , & total_files , & total_size , " sd: " , " ram: " , lbl_paths ) )
{
total_files = 0 ;
total_size = 0 ;
if ( ! part_info . backup_possible )
{
strcpy ( path , " bootloader " ) ;
f_chdrive ( " sd: " ) ;
f_mkdir ( path ) ;
}
else
path [ 0 ] = 0 ;
if ( _backup_and_restore_files ( path , & total_files , & total_size , " sd: " , " ram: " , NULL ) )
{
lv_label_set_text ( lbl_status , " #FFDD00 Error:# Failed to restore files! " ) ;
goto error ;
}
}
f_mount ( NULL , " ram: " , 1 ) ; // Unmount ramdisk.
f_chdrive ( " sd: " ) ;
// Set Volume label.
f_setlabel ( " 0:SWITCH SD " ) ;
lv_label_set_text ( lbl_status , " #00DDFF Status:# Flashing partition table... " ) ;
lv_label_set_text ( lbl_paths [ 0 ] , " Please wait... " ) ;
lv_label_set_text ( lbl_paths [ 1 ] , " " ) ;
manual_system_maintenance ( true ) ;
_prepare_and_flash_mbr_gpt ( ) ;
2020-06-13 15:32:40 +00:00
sd_unmount ( ) ;
2020-04-30 13:12:55 +00:00
lv_label_set_text ( lbl_status , " #00DDFF Status:# Done! " ) ;
manual_system_maintenance ( true ) ;
if ( part_info . l4t_size & & part_info . and_size )
lv_mbox_add_btns ( mbox , mbox_btn_map1 , _action_part_manager_flash_options0 ) ;
else if ( part_info . l4t_size )
lv_mbox_add_btns ( mbox , mbox_btn_map2 , _action_part_manager_flash_options1 ) ;
else if ( part_info . and_size )
lv_mbox_add_btns ( mbox , mbox_btn_map3 , _action_part_manager_flash_options2 ) ;
if ( part_info . l4t_size | | part_info . and_size )
buttons_set = true ;
goto out ;
error :
f_chdrive ( " sd: " ) ;
free ( path ) ;
out :
lv_obj_del ( lbl_paths [ 0 ] ) ;
lv_obj_del ( lbl_paths [ 1 ] ) ;
exit :
if ( ! buttons_set )
lv_mbox_add_btns ( mbox , mbox_btn_map , mbox_action ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
// Disable partitioning button.
if ( btn )
lv_btn_set_state ( btn , LV_BTN_STATE_INA ) ;
return LV_RES_OK ;
}
static lv_res_t _create_mbox_partitioning_option0 ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
switch ( btn_idx )
{
case 0 :
action_ums_sd ( btns ) ;
return LV_RES_OK ;
case 1 :
mbox_action ( btns , txt ) ;
_create_mbox_start_partitioning ( NULL ) ;
break ;
case 2 :
mbox_action ( btns , txt ) ;
break ;
}
return LV_RES_INV ;
}
static lv_res_t _create_mbox_partitioning_option1 ( lv_obj_t * btns , const char * txt )
{
int btn_idx = lv_btnm_get_pressed ( btns ) ;
mbox_action ( btns , txt ) ;
if ( ! btn_idx )
{
mbox_action ( btns , txt ) ;
_create_mbox_start_partitioning ( NULL ) ;
return LV_RES_INV ;
}
return LV_RES_OK ;
}
static lv_res_t _create_mbox_partitioning_next ( lv_obj_t * btn )
{
lv_obj_t * dark_bg = lv_obj_create ( lv_scr_act ( ) , NULL ) ;
lv_obj_set_style ( dark_bg , & mbox_darken ) ;
lv_obj_set_size ( dark_bg , LV_HOR_RES , LV_VER_RES ) ;
static const char * mbox_btn_map [ ] = { " \222 SD UMS " , " \222 Start " , " \222 Cancel " , " " } ;
static const char * mbox_btn_map2 [ ] = { " \222 Start " , " \222 Cancel " , " " } ;
lv_obj_t * mbox = lv_mbox_create ( dark_bg , NULL ) ;
lv_mbox_set_recolor_text ( mbox , true ) ;
char * txt_buf = malloc ( 0x1000 ) ;
lv_obj_set_width ( mbox , LV_HOR_RES / 9 * 6 ) ;
lv_mbox_set_text ( mbox , " #FF8000 Partition Manager# " ) ;
lv_obj_t * lbl_status = lv_label_create ( mbox , NULL ) ;
lv_label_set_recolor ( lbl_status , true ) ;
s_printf ( txt_buf , " #FFDD00 Warning: This will partition your SD Card!# \n \n " ) ;
if ( part_info . backup_possible )
s_printf ( txt_buf + strlen ( txt_buf ) , " #C7EA46 Your files will be backed up and restored!# " ) ;
else
s_printf ( txt_buf + strlen ( txt_buf ) , " #FFDD00 Your files will be wiped!# \n #FFDD00 Use USB UMS to copy them over!# " ) ;
lv_label_set_text ( lbl_status , txt_buf ) ;
if ( part_info . backup_possible )
lv_mbox_add_btns ( mbox , mbox_btn_map2 , _create_mbox_partitioning_option1 ) ;
else
lv_mbox_add_btns ( mbox , mbox_btn_map , _create_mbox_partitioning_option0 ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
free ( txt_buf ) ;
return LV_RES_OK ;
}
static void _update_partition_bar ( )
{
lv_obj_t * h1 = lv_obj_get_parent ( part_info . bar_hos ) ;
u32 total_size = ( part_info . total_sct - 0x8000 ) / 0x200000 ;
u32 bar_hos_size = lv_obj_get_width ( h1 ) * ( part_info . hos_size > > 10 ) / total_size ;
u32 bar_emu_size = lv_obj_get_width ( h1 ) * ( part_info . emu_size > > 10 ) / total_size ;
u32 bar_l4t_size = lv_obj_get_width ( h1 ) * ( part_info . l4t_size > > 10 ) / total_size ;
u32 bar_and_size = lv_obj_get_width ( h1 ) * ( part_info . and_size > > 10 ) / total_size ;
lv_obj_set_size ( part_info . bar_hos , bar_hos_size , LV_DPI / 2 ) ;
lv_obj_set_size ( part_info . bar_emu , bar_emu_size , LV_DPI / 2 ) ;
lv_obj_set_size ( part_info . bar_l4t , bar_l4t_size , LV_DPI / 2 ) ;
lv_obj_set_size ( part_info . bar_and , bar_and_size , LV_DPI / 2 ) ;
lv_obj_align ( part_info . bar_emu , part_info . bar_hos , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
lv_obj_align ( part_info . bar_l4t , part_info . bar_emu , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
lv_obj_align ( part_info . bar_and , part_info . bar_l4t , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
lv_obj_set_size ( part_info . sep_emu , bar_emu_size ? 8 : 0 , LV_DPI / 2 ) ;
lv_obj_align ( part_info . sep_emu , part_info . bar_hos , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
lv_obj_set_size ( part_info . sep_l4t , bar_l4t_size ? 8 : 0 , LV_DPI / 2 ) ;
lv_obj_align ( part_info . sep_l4t , part_info . bar_emu , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
lv_obj_set_size ( part_info . sep_and , bar_and_size ? 8 : 0 , LV_DPI / 2 ) ;
lv_obj_align ( part_info . sep_and , part_info . bar_l4t , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
}
static lv_res_t _action_slider_emu ( lv_obj_t * slider )
{
char lbl_text [ 64 ] ;
int slide_val = lv_slider_get_value ( slider ) ;
u32 size = slide_val ? ( ( slide_val < 2 ) ? 29856 : 59712 ) : 0 ;
s32 hos_size = ( part_info . total_sct > > 11 ) - 16 - size - part_info . l4t_size - part_info . and_size ;
if ( hos_size > 2048 )
{
part_info . emu_size = size ;
part_info . hos_size = hos_size ;
s_printf ( lbl_text , " #96FF00 %d GiB# " , hos_size > > 10 ) ;
lv_label_set_text ( part_info . lbl_hos , lbl_text ) ;
lv_bar_set_value ( part_info . slider_bar_hos , hos_size > > 10 ) ;
if ( slide_val < 2 )
s_printf ( lbl_text , " #FF3C28 %d GiB# " , size > > 10 ) ;
else
s_printf ( lbl_text , " #FF3C28 2x%d GiB# " , size > > 11 ) ;
lv_label_set_text ( part_info . lbl_emu , lbl_text ) ;
}
else
2020-05-05 16:28:15 +00:00
{
int new_slider_val ;
switch ( part_info . emu_size )
{
case 29856 :
new_slider_val = 1 ;
break ;
case 59712 :
new_slider_val = 2 ;
break ;
case 0 :
default :
new_slider_val = 0 ;
break ;
}
lv_slider_set_value ( slider , new_slider_val ) ;
}
2020-04-30 13:12:55 +00:00
_update_partition_bar ( ) ;
return LV_RES_OK ;
}
static lv_res_t _action_slider_l4t ( lv_obj_t * slider )
{
char lbl_text [ 64 ] ;
u32 size = ( u32 ) lv_slider_get_value ( slider ) < < 10 ;
if ( size < 4096 )
size = 0 ;
else if ( size < 8192 )
size = 8192 ;
s32 hos_size = ( part_info . total_sct > > 11 ) - 16 - part_info . emu_size - size - part_info . and_size ;
if ( hos_size > 2048 )
{
if ( size < = 8192 )
lv_slider_set_value ( slider , size > > 10 ) ;
}
else
{
size = ( part_info . total_sct > > 11 ) - 16 - part_info . emu_size - part_info . and_size - 2048 ;
hos_size = ( part_info . total_sct > > 11 ) - 16 - part_info . emu_size - part_info . and_size - size ;
if ( hos_size < 2048 | | size < 8192 )
{
lv_slider_set_value ( slider , part_info . l4t_size > > 10 ) ;
goto out ;
}
lv_slider_set_value ( slider , size > > 10 ) ;
}
part_info . l4t_size = size ;
part_info . hos_size = hos_size ;
s_printf ( lbl_text , " #96FF00 %d GiB# " , hos_size > > 10 ) ;
lv_label_set_text ( part_info . lbl_hos , lbl_text ) ;
lv_bar_set_value ( part_info . slider_bar_hos , hos_size > > 10 ) ;
s_printf ( lbl_text , " #00DDFF %d GiB# " , size > > 10 ) ;
lv_label_set_text ( part_info . lbl_l4t , lbl_text ) ;
_update_partition_bar ( ) ;
out :
return LV_RES_OK ;
}
static lv_res_t _action_slider_and ( lv_obj_t * slider )
{
char lbl_text [ 64 ] ;
u32 user_size = ( u32 ) lv_slider_get_value ( slider ) < < 10 ;
if ( user_size < 2048 )
user_size = 0 ;
else if ( user_size < 4096 )
user_size = 4096 ;
u32 and_size = user_size ? ( user_size + 4096 ) : 0 ; // Add Android reserved partitions size.
s32 hos_size = ( part_info . total_sct > > 11 ) - 16 - part_info . emu_size - part_info . l4t_size - and_size ;
if ( hos_size > 2048 )
{
if ( user_size < = 4096 )
lv_slider_set_value ( slider , user_size > > 10 ) ;
}
else
{
and_size = ( part_info . total_sct > > 11 ) - 16 - part_info . emu_size - part_info . l4t_size - 2048 ;
hos_size = ( part_info . total_sct > > 11 ) - 16 - part_info . emu_size - part_info . l4t_size - and_size ;
if ( hos_size < 2048 | | and_size < 8192 )
{
lv_slider_set_value ( slider , part_info . and_size > > 10 ) ;
goto out ;
}
user_size = and_size - 4096 ;
lv_slider_set_value ( slider , user_size > > 10 ) ;
}
part_info . and_size = and_size ;
part_info . hos_size = hos_size ;
s_printf ( lbl_text , " #96FF00 %d GiB# " , hos_size > > 10 ) ;
lv_label_set_text ( part_info . lbl_hos , lbl_text ) ;
lv_bar_set_value ( part_info . slider_bar_hos , hos_size > > 10 ) ;
s_printf ( lbl_text , " #FF8000 %d GiB# " , user_size > > 10 ) ;
lv_label_set_text ( part_info . lbl_and , lbl_text ) ;
_update_partition_bar ( ) ;
out :
return LV_RES_OK ;
}
static void create_mbox_check_files_total_size ( )
{
static lv_style_t bar_hos_ind , bar_emu_ind , bar_l4t_ind , bar_and_ind ;
static lv_style_t sep_emu_bg , sep_l4t_bg , sep_and_bg ;
lv_style_copy ( & bar_hos_ind , lv_theme_get_current ( ) - > bar . indic ) ;
bar_hos_ind . body . main_color = LV_COLOR_HEX ( 0x96FF00 ) ;
bar_hos_ind . body . grad_color = bar_hos_ind . body . main_color ;
lv_style_copy ( & bar_emu_ind , lv_theme_get_current ( ) - > bar . indic ) ;
bar_emu_ind . body . main_color = LV_COLOR_HEX ( 0xFF3C28 ) ;
bar_emu_ind . body . grad_color = bar_emu_ind . body . main_color ;
lv_style_copy ( & bar_l4t_ind , lv_theme_get_current ( ) - > bar . indic ) ;
bar_l4t_ind . body . main_color = LV_COLOR_HEX ( 0x00DDFF ) ;
bar_l4t_ind . body . grad_color = bar_l4t_ind . body . main_color ;
lv_style_copy ( & bar_and_ind , lv_theme_get_current ( ) - > bar . indic ) ;
bar_and_ind . body . main_color = LV_COLOR_HEX ( 0xFF8000 ) ;
bar_and_ind . body . grad_color = bar_and_ind . body . main_color ;
lv_style_copy ( & sep_emu_bg , lv_theme_get_current ( ) - > cont ) ;
sep_emu_bg . body . main_color = LV_COLOR_HEX ( 0xFF3C28 ) ;
sep_emu_bg . body . grad_color = sep_emu_bg . body . main_color ;
sep_emu_bg . body . radius = 0 ;
lv_style_copy ( & sep_l4t_bg , & sep_emu_bg ) ;
sep_l4t_bg . body . main_color = LV_COLOR_HEX ( 0x00DDFF ) ;
sep_l4t_bg . body . grad_color = sep_l4t_bg . body . main_color ;
lv_style_copy ( & sep_and_bg , & sep_emu_bg ) ;
sep_and_bg . body . main_color = LV_COLOR_HEX ( 0xFF8000 ) ;
sep_and_bg . body . grad_color = sep_and_bg . body . main_color ;
char * txt_buf = malloc ( 0x2000 ) ;
lv_obj_t * dark_bg = lv_obj_create ( lv_scr_act ( ) , NULL ) ;
lv_obj_set_style ( dark_bg , & mbox_darken ) ;
lv_obj_set_size ( dark_bg , LV_HOR_RES , LV_VER_RES ) ;
static const char * mbox_btn_map [ ] = { " \211 " , " \222 OK " , " \211 " , " " } ;
lv_obj_t * mbox = lv_mbox_create ( dark_bg , NULL ) ;
lv_mbox_set_recolor_text ( mbox , true ) ;
lv_obj_set_width ( mbox , LV_HOR_RES / 9 * 6 ) ;
lv_mbox_set_text ( mbox , " Analyzing SD card usage. This might take a while... " ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
manual_system_maintenance ( true ) ;
char * path = malloc ( 1024 ) ;
u32 total_files = 0 ;
u32 total_size = 0 ;
path [ 0 ] = 0 ;
// Check total size of files.
_backup_and_restore_files ( path , & total_files , & total_size , NULL , NULL , NULL ) ;
// Not more than 1.0GB.
part_info . backup_possible = ! ( total_size > ( RAM_DISK_SZ - 0x1000000 ) ) ; // 0x2400000
if ( part_info . backup_possible )
{
s_printf ( txt_buf ,
" #96FF00 Your SD Card files will be backed up automatically!# \n \n "
" #00DDFF Total files:# %d, #00DDFF Total size:# %d MiB " , total_files , total_size > > 20 ) ;
lv_mbox_set_text ( mbox , txt_buf ) ;
}
else
{
lv_mbox_set_text ( mbox ,
" #FFDD00 Your SD Card cannot be backed up!# \n \n "
" You will be asked to back up your files later via UMS. " ) ;
}
// Create container to keep content inside.
lv_obj_t * h1 = lv_cont_create ( mbox , NULL ) ;
lv_cont_set_fit ( h1 , false , true ) ;
lv_cont_set_style ( h1 , & lv_style_transp_tight ) ;
lv_obj_set_width ( h1 , lv_obj_get_width ( mbox ) - LV_DPI * 3 ) ;
lv_obj_t * lbl_part = lv_label_create ( h1 , NULL ) ;
lv_label_set_recolor ( lbl_part , true ) ;
lv_label_set_text ( lbl_part , " #00DDFF Current partition layout:# " ) ;
// Read current MBR.
mbr_t mbr = { 0 } ;
sdmmc_storage_read ( & sd_storage , 0 , 1 , & mbr ) ;
total_size = ( sd_storage . sec_cnt - 0x8000 ) / 0x200000 ;
u32 bar_hos_size = lv_obj_get_width ( h1 ) * ( mbr . partitions [ 0 ] . size_sct / 0x200000 ) / total_size ;
u32 bar_emu_size = 0 ;
for ( u32 i = 1 ; i < 4 ; i + + )
if ( mbr . partitions [ i ] . type = = 0xE0 )
bar_emu_size + = mbr . partitions [ i ] . size_sct ;
bar_emu_size = lv_obj_get_width ( h1 ) * ( bar_emu_size / 0x200000 ) / total_size ;
u32 bar_l4t_size = 0 ;
for ( u32 i = 1 ; i < 4 ; i + + )
if ( mbr . partitions [ i ] . type = = 0x83 )
bar_l4t_size + = mbr . partitions [ i ] . size_sct ;
bar_l4t_size = lv_obj_get_width ( h1 ) * ( bar_l4t_size / 0x200000 ) / total_size ;
u32 bar_and_size = lv_obj_get_width ( h1 ) - bar_hos_size - bar_emu_size - bar_l4t_size ;
// Create bar objects.
lv_obj_t * bar_mbr_hos = lv_bar_create ( h1 , NULL ) ;
lv_obj_set_size ( bar_mbr_hos , bar_hos_size , LV_DPI / 3 ) ;
lv_bar_set_range ( bar_mbr_hos , 0 , 1 ) ;
lv_bar_set_value ( bar_mbr_hos , 1 ) ;
lv_bar_set_style ( bar_mbr_hos , LV_BAR_STYLE_INDIC , & bar_hos_ind ) ;
lv_obj_align ( bar_mbr_hos , lbl_part , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 6 ) ;
lv_obj_t * bar_mbr_emu = lv_bar_create ( h1 , bar_mbr_hos ) ;
lv_obj_set_size ( bar_mbr_emu , bar_emu_size , LV_DPI / 3 ) ;
lv_bar_set_style ( bar_mbr_emu , LV_BAR_STYLE_INDIC , & bar_emu_ind ) ;
lv_obj_align ( bar_mbr_emu , bar_mbr_hos , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
lv_obj_t * bar_mbr_l4t = lv_bar_create ( h1 , bar_mbr_hos ) ;
lv_obj_set_size ( bar_mbr_l4t , bar_l4t_size , LV_DPI / 3 ) ;
lv_bar_set_style ( bar_mbr_l4t , LV_BAR_STYLE_INDIC , & bar_l4t_ind ) ;
lv_obj_align ( bar_mbr_l4t , bar_mbr_emu , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
lv_obj_t * bar_mbr_rest = lv_bar_create ( h1 , bar_mbr_hos ) ;
lv_obj_set_size ( bar_mbr_rest , bar_and_size > 1 ? bar_and_size : 0 , LV_DPI / 3 ) ;
lv_bar_set_style ( bar_mbr_rest , LV_BAR_STYLE_INDIC , & bar_and_ind ) ;
lv_obj_align ( bar_mbr_rest , bar_mbr_l4t , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
// Create separator objects.
lv_obj_t * sep_mbr_emu = lv_cont_create ( h1 , NULL ) ;
lv_obj_set_size ( sep_mbr_emu , bar_emu_size ? 8 : 0 , LV_DPI / 3 ) ;
lv_obj_set_style ( sep_mbr_emu , & sep_emu_bg ) ;
lv_obj_align ( sep_mbr_emu , bar_mbr_hos , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
lv_obj_t * sep_mbr_l4t = lv_cont_create ( h1 , sep_mbr_emu ) ;
lv_obj_set_size ( sep_mbr_l4t , bar_l4t_size ? 8 : 0 , LV_DPI / 3 ) ;
lv_obj_set_style ( sep_mbr_l4t , & sep_l4t_bg ) ;
lv_obj_align ( sep_mbr_l4t , bar_mbr_emu , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
lv_obj_t * sep_mbr_rest = lv_cont_create ( h1 , sep_mbr_emu ) ;
lv_obj_set_size ( sep_mbr_rest , bar_and_size ? ( bar_and_size > 1 ? 8 : 0 ) : 0 , LV_DPI / 3 ) ;
lv_obj_set_style ( sep_mbr_rest , & sep_and_bg ) ;
lv_obj_align ( sep_mbr_rest , bar_mbr_l4t , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
// Print partition table info.
s_printf ( txt_buf ,
" Partition 0 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 1 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 2 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 3 - Type: %02x, Start: %08x, Size: %08x " ,
mbr . partitions [ 0 ] . type , mbr . partitions [ 0 ] . start_sct , mbr . partitions [ 0 ] . size_sct ,
mbr . partitions [ 1 ] . type , mbr . partitions [ 1 ] . start_sct , mbr . partitions [ 1 ] . size_sct ,
mbr . partitions [ 2 ] . type , mbr . partitions [ 2 ] . start_sct , mbr . partitions [ 2 ] . size_sct ,
mbr . partitions [ 3 ] . type , mbr . partitions [ 3 ] . start_sct , mbr . partitions [ 3 ] . size_sct ) ;
lv_obj_t * lbl_table = lv_label_create ( h1 , NULL ) ;
lv_label_set_style ( lbl_table , & monospace_text ) ;
lv_label_set_text ( lbl_table , txt_buf ) ;
lv_obj_align ( lbl_table , h1 , LV_ALIGN_IN_TOP_MID , 0 , LV_DPI ) ;
lv_mbox_add_btns ( mbox , mbox_btn_map , mbox_action ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
free ( txt_buf ) ;
free ( path ) ;
}
static lv_res_t _action_fix_mbr ( lv_obj_t * btn )
{
lv_obj_t * dark_bg = lv_obj_create ( lv_scr_act ( ) , NULL ) ;
lv_obj_set_style ( dark_bg , & mbox_darken ) ;
lv_obj_set_size ( dark_bg , LV_HOR_RES , LV_VER_RES ) ;
static const char * mbox_btn_map [ ] = { " \211 " , " \222 OK " , " \211 " , " " } ;
lv_obj_t * mbox = lv_mbox_create ( dark_bg , NULL ) ;
lv_mbox_set_recolor_text ( mbox , true ) ;
lv_obj_set_width ( mbox , LV_HOR_RES / 9 * 6 ) ;
lv_mbox_set_text ( mbox , " #FF8000 Fix Hybrid MBR# " ) ;
lv_obj_t * lbl_status = lv_label_create ( mbox , NULL ) ;
lv_label_set_recolor ( lbl_status , true ) ;
if ( ! sd_mount ( ) )
{
lv_label_set_text ( lbl_status , " #FFDD00 Failed to init SD!# " ) ;
goto out ;
}
mbr_t mbr [ 2 ] = { 0 } ;
gpt_t gpt = { 0 } ;
sdmmc_storage_read ( & sd_storage , 0 , 1 , & mbr [ 0 ] ) ;
sdmmc_storage_read ( & sd_storage , 1 , sizeof ( gpt_t ) > > 9 , & gpt ) ;
memcpy ( & mbr [ 1 ] , & mbr [ 0 ] , sizeof ( mbr_t ) ) ;
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sd_unmount ( ) ;
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if ( memcmp ( & gpt . header . signature , " EFI PART " , 8 ) )
{
lv_label_set_text ( lbl_status , " #FFDD00 Warning:# No GPT was found! " ) ;
goto out ;
}
// Parse GPT.
LIST_INIT ( gpt_parsed ) ;
for ( u32 i = 0 ; i < gpt . header . num_part_ents ; i + + )
{
emmc_part_t * part = ( emmc_part_t * ) calloc ( sizeof ( emmc_part_t ) , 1 ) ;
if ( gpt . entries [ i ] . lba_start < gpt . header . first_use_lba )
continue ;
part - > index = i ;
part - > lba_start = gpt . entries [ i ] . lba_start ;
part - > lba_end = gpt . entries [ i ] . lba_end ;
part - > attrs = gpt . entries [ i ] . attrs ;
// ASCII conversion. Copy only the LSByte of the UTF-16LE name.
for ( u32 j = 0 ; j < 36 ; j + + )
part - > name [ j ] = gpt . entries [ i ] . name [ j ] ;
part - > name [ 35 ] = 0 ;
list_append ( & gpt_parsed , & part - > link ) ;
}
u32 mbr_idx = 0 ;
LIST_FOREACH_ENTRY ( emmc_part_t , part , & gpt_parsed , link )
{
if ( ! strcmp ( part - > name , " hos_data " ) )
{
mbr [ 1 ] . partitions [ mbr_idx ] . type = sd_fs . fs_type = = FS_EXFAT ? 0x7 : 0xC ;
mbr [ 1 ] . partitions [ mbr_idx ] . start_sct = part - > lba_start ;
mbr [ 1 ] . partitions [ mbr_idx ] . size_sct = ( part - > lba_end - part - > lba_start + 1 ) ;
mbr_idx + + ;
}
if ( ! strcmp ( part - > name , " emummc " ) | | ! strcmp ( part - > name , " emummc2 " ) )
{
mbr [ 1 ] . partitions [ mbr_idx ] . type = 0xE0 ;
mbr [ 1 ] . partitions [ mbr_idx ] . start_sct = part - > lba_start ;
mbr [ 1 ] . partitions [ mbr_idx ] . size_sct = ( part - > lba_end - part - > lba_start + 1 ) ;
mbr_idx + + ;
}
if ( mbr_idx > 2 )
break ;
}
mbr [ 1 ] . partitions [ mbr_idx ] . type = 0xEE ; // GPT protective partition.
mbr [ 1 ] . partitions [ mbr_idx ] . start_sct = 1 ;
mbr [ 1 ] . partitions [ mbr_idx ] . size_sct = sd_storage . sec_cnt - 1 ;
// Check for differences.
bool changed = false ;
for ( u32 i = 1 ; i < 4 ; i + + )
{
if ( ( mbr [ 0 ] . partitions [ i ] . type ! = mbr [ 1 ] . partitions [ i ] . type ) | |
( mbr [ 0 ] . partitions [ i ] . start_sct ! = mbr [ 1 ] . partitions [ i ] . start_sct ) | |
( mbr [ 0 ] . partitions [ i ] . size_sct ! = mbr [ 1 ] . partitions [ i ] . size_sct ) )
{
changed = true ;
break ;
}
}
if ( ! changed )
{
lv_label_set_text ( lbl_status , " #96FF00 Warning:# The Hybrid MBR needs no change!# " ) ;
goto out ;
}
char * txt_buf = malloc ( 0x4000 ) ;
s_printf ( txt_buf , " #00DDFF Current MBR Layout:# \n " ) ;
s_printf ( txt_buf + strlen ( txt_buf ) ,
" Partition 0 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 1 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 2 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 3 - Type: %02x, Start: %08x, Size: %08x \n \n " ,
mbr [ 0 ] . partitions [ 0 ] . type , mbr [ 0 ] . partitions [ 0 ] . start_sct , mbr [ 0 ] . partitions [ 0 ] . size_sct ,
mbr [ 0 ] . partitions [ 1 ] . type , mbr [ 0 ] . partitions [ 1 ] . start_sct , mbr [ 0 ] . partitions [ 1 ] . size_sct ,
mbr [ 0 ] . partitions [ 2 ] . type , mbr [ 0 ] . partitions [ 2 ] . start_sct , mbr [ 0 ] . partitions [ 2 ] . size_sct ,
mbr [ 0 ] . partitions [ 3 ] . type , mbr [ 0 ] . partitions [ 3 ] . start_sct , mbr [ 0 ] . partitions [ 3 ] . size_sct ) ;
s_printf ( txt_buf + strlen ( txt_buf ) , " #00DDFF New MBR Layout:# \n " ) ;
s_printf ( txt_buf + strlen ( txt_buf ) ,
" Partition 0 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 1 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 2 - Type: %02x, Start: %08x, Size: %08x \n "
" Partition 3 - Type: %02x, Start: %08x, Size: %08x " ,
mbr [ 1 ] . partitions [ 0 ] . type , mbr [ 1 ] . partitions [ 0 ] . start_sct , mbr [ 1 ] . partitions [ 0 ] . size_sct ,
mbr [ 1 ] . partitions [ 1 ] . type , mbr [ 1 ] . partitions [ 1 ] . start_sct , mbr [ 1 ] . partitions [ 1 ] . size_sct ,
mbr [ 1 ] . partitions [ 2 ] . type , mbr [ 1 ] . partitions [ 2 ] . start_sct , mbr [ 1 ] . partitions [ 2 ] . size_sct ,
mbr [ 1 ] . partitions [ 3 ] . type , mbr [ 1 ] . partitions [ 3 ] . start_sct , mbr [ 1 ] . partitions [ 3 ] . size_sct ) ;
lv_label_set_text ( lbl_status , txt_buf ) ;
lv_label_set_style ( lbl_status , & monospace_text ) ;
free ( txt_buf ) ;
lbl_status = lv_label_create ( mbox , NULL ) ;
lv_label_set_recolor ( lbl_status , true ) ;
lv_label_set_align ( lbl_status , LV_LABEL_ALIGN_CENTER ) ;
lv_label_set_text ( lbl_status ,
" #FF8000 Warning: Do you really want to continue?!# \n \n "
" Press #FF8000 POWER# to Continue. \n Press #FF8000 VOL# to abort. " ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
manual_system_maintenance ( true ) ;
if ( btn_wait ( ) & BTN_POWER )
{
// Write MBR.
sd_mount ( ) ;
sdmmc_storage_write ( & sd_storage , 0 , 1 , & mbr [ 1 ] ) ;
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sd_unmount ( ) ;
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lv_label_set_text ( lbl_status , " #96FF00 The new Hybrid MBR was written successfully!# " ) ;
}
else
lv_label_set_text ( lbl_status , " #FFDD00 Warning: The Hybrid MBR Fix was canceled!# " ) ;
out :
lv_mbox_add_btns ( mbox , mbox_btn_map , mbox_action ) ;
lv_obj_align ( mbox , NULL , LV_ALIGN_CENTER , 0 , 0 ) ;
lv_obj_set_top ( mbox , true ) ;
return LV_RES_OK ;
}
lv_res_t create_window_partition_manager ( lv_obj_t * btn )
{
lv_obj_t * win = nyx_create_standard_window ( SYMBOL_SD " Partition Manager " ) ;
lv_win_add_btn ( win , NULL , SYMBOL_MODULES_ALT " Fix Hybrid MBR " , _action_fix_mbr ) ;
static lv_style_t bar_hos_bg , bar_emu_bg , bar_l4t_bg , bar_and_bg ;
static lv_style_t bar_hos_ind , bar_emu_ind , bar_l4t_ind , bar_and_ind ;
static lv_style_t bar_hos_btn , bar_emu_btn , bar_l4t_btn , bar_and_btn ;
static lv_style_t sep_emu_bg , sep_l4t_bg , sep_and_bg ;
lv_style_copy ( & bar_hos_bg , lv_theme_get_current ( ) - > bar . bg ) ;
bar_hos_bg . body . main_color = LV_COLOR_HEX ( 0x4A8000 ) ;
bar_hos_bg . body . grad_color = bar_hos_bg . body . main_color ;
lv_style_copy ( & bar_hos_ind , lv_theme_get_current ( ) - > bar . indic ) ;
bar_hos_ind . body . main_color = LV_COLOR_HEX ( 0x96FF00 ) ;
bar_hos_ind . body . grad_color = bar_hos_ind . body . main_color ;
lv_style_copy ( & bar_hos_btn , lv_theme_get_current ( ) - > slider . knob ) ;
bar_hos_btn . body . main_color = LV_COLOR_HEX ( 0x77CC00 ) ;
bar_hos_btn . body . grad_color = bar_hos_btn . body . main_color ;
lv_style_copy ( & bar_emu_bg , lv_theme_get_current ( ) - > bar . bg ) ;
bar_emu_bg . body . main_color = LV_COLOR_HEX ( 0x940F00 ) ;
bar_emu_bg . body . grad_color = bar_emu_bg . body . main_color ;
lv_style_copy ( & bar_emu_ind , lv_theme_get_current ( ) - > bar . indic ) ;
bar_emu_ind . body . main_color = LV_COLOR_HEX ( 0xFF3C28 ) ;
bar_emu_ind . body . grad_color = bar_emu_ind . body . main_color ;
lv_style_copy ( & bar_emu_btn , lv_theme_get_current ( ) - > slider . knob ) ;
bar_emu_btn . body . main_color = LV_COLOR_HEX ( 0xB31200 ) ;
bar_emu_btn . body . grad_color = bar_emu_btn . body . main_color ;
lv_style_copy ( & sep_emu_bg , lv_theme_get_current ( ) - > cont ) ;
sep_emu_bg . body . main_color = LV_COLOR_HEX ( 0xFF3C28 ) ;
sep_emu_bg . body . grad_color = sep_emu_bg . body . main_color ;
sep_emu_bg . body . radius = 0 ;
lv_style_copy ( & bar_l4t_bg , lv_theme_get_current ( ) - > bar . bg ) ;
bar_l4t_bg . body . main_color = LV_COLOR_HEX ( 0x006E80 ) ;
bar_l4t_bg . body . grad_color = bar_l4t_bg . body . main_color ;
lv_style_copy ( & bar_l4t_ind , lv_theme_get_current ( ) - > bar . indic ) ;
bar_l4t_ind . body . main_color = LV_COLOR_HEX ( 0x00DDFF ) ;
bar_l4t_ind . body . grad_color = bar_l4t_ind . body . main_color ;
lv_style_copy ( & bar_l4t_btn , lv_theme_get_current ( ) - > slider . knob ) ;
bar_l4t_btn . body . main_color = LV_COLOR_HEX ( 0x00B1CC ) ;
bar_l4t_btn . body . grad_color = bar_l4t_btn . body . main_color ;
lv_style_copy ( & sep_l4t_bg , & sep_emu_bg ) ;
sep_l4t_bg . body . main_color = LV_COLOR_HEX ( 0x00DDFF ) ;
sep_l4t_bg . body . grad_color = sep_l4t_bg . body . main_color ;
lv_style_copy ( & bar_and_bg , lv_theme_get_current ( ) - > bar . bg ) ;
bar_and_bg . body . main_color = LV_COLOR_HEX ( 0x804000 ) ;
bar_and_bg . body . grad_color = bar_and_bg . body . main_color ;
lv_style_copy ( & bar_and_ind , lv_theme_get_current ( ) - > bar . indic ) ;
bar_and_ind . body . main_color = LV_COLOR_HEX ( 0xFF8000 ) ;
bar_and_ind . body . grad_color = bar_and_ind . body . main_color ;
lv_style_copy ( & bar_and_btn , lv_theme_get_current ( ) - > slider . knob ) ;
bar_and_btn . body . main_color = LV_COLOR_HEX ( 0xCC6600 ) ;
bar_and_btn . body . grad_color = bar_and_btn . body . main_color ;
lv_style_copy ( & sep_and_bg , & sep_emu_bg ) ;
sep_and_bg . body . main_color = LV_COLOR_HEX ( 0xFF8000 ) ;
sep_and_bg . body . grad_color = sep_and_bg . body . main_color ;
lv_obj_t * sep = lv_label_create ( win , NULL ) ;
lv_label_set_static_text ( sep , " " ) ;
lv_obj_align ( sep , NULL , LV_ALIGN_IN_TOP_MID , 0 , 0 ) ;
// Create container to keep content inside.
lv_obj_t * h1 = lv_cont_create ( win , NULL ) ;
lv_obj_set_size ( h1 , LV_HOR_RES - ( LV_DPI * 8 / 10 ) , LV_VER_RES - LV_DPI ) ;
if ( ! sd_mount ( ) )
{
lv_obj_t * lbl = lv_label_create ( h1 , NULL ) ;
lv_label_set_text ( lbl , " #FFDD00 Failed to init SD!# " ) ;
return LV_RES_OK ;
}
memset ( & part_info , 0 , sizeof ( partition_ctxt_t ) ) ;
create_mbox_check_files_total_size ( ) ;
char * txt_buf = malloc ( 0x2000 ) ;
part_info . total_sct = sd_storage . sec_cnt ;
u32 extra_sct = 0x8000 + 0x400000 ; // Reserved 16MB alignment for FAT partition + 2GB.
// Read current MBR.
mbr_t mbr = { 0 } ;
sdmmc_storage_read ( & sd_storage , 0 , 1 , & mbr ) ;
u32 bar_hos_size = lv_obj_get_width ( h1 ) ;
u32 bar_emu_size = 0 ;
u32 bar_l4t_size = 0 ;
u32 bar_and_size = 0 ;
lv_obj_t * lbl = lv_label_create ( h1 , NULL ) ;
lv_label_set_text ( lbl , " New partition layout: " ) ;
lv_obj_t * bar_hos = lv_bar_create ( h1 , NULL ) ;
lv_obj_set_size ( bar_hos , bar_hos_size , LV_DPI / 2 ) ;
lv_bar_set_range ( bar_hos , 0 , 1 ) ;
lv_bar_set_value ( bar_hos , 1 ) ;
lv_bar_set_style ( bar_hos , LV_BAR_STYLE_INDIC , & bar_hos_ind ) ;
lv_obj_align ( bar_hos , lbl , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 6 ) ;
part_info . bar_hos = bar_hos ;
lv_obj_t * bar_emu = lv_bar_create ( h1 , bar_hos ) ;
lv_obj_set_size ( bar_emu , bar_emu_size , LV_DPI / 2 ) ;
lv_bar_set_style ( bar_emu , LV_BAR_STYLE_INDIC , & bar_emu_ind ) ;
lv_obj_align ( bar_emu , bar_hos , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
part_info . bar_emu = bar_emu ;
lv_obj_t * bar_l4t = lv_bar_create ( h1 , bar_hos ) ;
lv_obj_set_size ( bar_l4t , bar_l4t_size , LV_DPI / 2 ) ;
lv_bar_set_style ( bar_l4t , LV_BAR_STYLE_INDIC , & bar_l4t_ind ) ;
lv_obj_align ( bar_l4t , bar_emu , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
part_info . bar_l4t = bar_l4t ;
lv_obj_t * bar_and = lv_bar_create ( h1 , bar_hos ) ;
lv_obj_set_size ( bar_and , bar_and_size , LV_DPI / 2 ) ;
lv_bar_set_style ( bar_and , LV_BAR_STYLE_INDIC , & bar_and_ind ) ;
lv_obj_align ( bar_and , bar_l4t , LV_ALIGN_OUT_RIGHT_MID , 0 , 0 ) ;
part_info . bar_and = bar_and ;
lv_obj_t * sep_emu = lv_cont_create ( h1 , NULL ) ;
lv_cont_set_fit ( sep_emu , false , false ) ;
lv_obj_set_size ( sep_emu , 0 , LV_DPI / 2 ) ; // 8.
lv_obj_set_style ( sep_emu , & sep_emu_bg ) ;
lv_obj_align ( sep_emu , bar_hos , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
part_info . sep_emu = sep_emu ;
lv_obj_t * sep_l4t = lv_cont_create ( h1 , sep_emu ) ;
lv_obj_set_style ( sep_l4t , & sep_l4t_bg ) ;
lv_obj_align ( sep_l4t , bar_emu , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
part_info . sep_l4t = sep_l4t ;
lv_obj_t * sep_and = lv_cont_create ( h1 , sep_emu ) ;
lv_obj_set_style ( sep_and , & sep_and_bg ) ;
lv_obj_align ( sep_and , bar_l4t , LV_ALIGN_OUT_RIGHT_MID , - 4 , 0 ) ;
part_info . sep_and = sep_and ;
lv_obj_t * lbl_hos = lv_label_create ( h1 , NULL ) ;
lv_label_set_recolor ( lbl_hos , true ) ;
lv_label_set_static_text ( lbl_hos , " #96FF00 " SYMBOL_DOT " HOS (FAT32):# " ) ;
lv_obj_align ( lbl_hos , bar_hos , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 2 ) ;
lv_obj_t * lbl_emu = lv_label_create ( h1 , lbl_hos ) ;
lv_label_set_static_text ( lbl_emu , " #FF3C28 " SYMBOL_DOT " emuMMC (RAW):# " ) ;
lv_obj_align ( lbl_emu , lbl_hos , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 ) ;
lv_obj_t * lbl_l4t = lv_label_create ( h1 , lbl_hos ) ;
lv_label_set_static_text ( lbl_l4t , " #00DDFF " SYMBOL_DOT " Linux (EXT4):# " ) ;
lv_obj_align ( lbl_l4t , lbl_emu , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 ) ;
lv_obj_t * lbl_and = lv_label_create ( h1 , lbl_hos ) ;
lv_label_set_static_text ( lbl_and , " #FF8000 " SYMBOL_DOT " Android (USER):# " ) ;
lv_obj_align ( lbl_and , lbl_l4t , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 ) ;
lv_obj_t * slider_bar_hos = lv_bar_create ( h1 , NULL ) ;
lv_obj_set_size ( slider_bar_hos , LV_DPI * 7 , LV_DPI * 3 / 17 ) ;
lv_bar_set_range ( slider_bar_hos , 0 , ( part_info . total_sct - 0x8000 ) / 0x200000 ) ;
lv_bar_set_value ( slider_bar_hos , ( part_info . total_sct - 0x8000 ) / 0x200000 ) ;
lv_bar_set_style ( slider_bar_hos , LV_SLIDER_STYLE_BG , & bar_hos_bg ) ;
lv_bar_set_style ( slider_bar_hos , LV_SLIDER_STYLE_INDIC , & bar_hos_ind ) ;
lv_obj_align ( slider_bar_hos , lbl_hos , LV_ALIGN_OUT_RIGHT_MID , LV_DPI * 6 / 4 , 0 ) ;
part_info . slider_bar_hos = slider_bar_hos ;
lv_obj_t * slider_emu = lv_slider_create ( h1 , NULL ) ;
lv_obj_set_size ( slider_emu , LV_DPI * 7 , LV_DPI / 3 ) ;
lv_slider_set_range ( slider_emu , 0 , 2 ) ;
lv_slider_set_value ( slider_emu , 0 ) ;
lv_slider_set_style ( slider_emu , LV_SLIDER_STYLE_BG , & bar_emu_bg ) ;
lv_slider_set_style ( slider_emu , LV_SLIDER_STYLE_INDIC , & bar_emu_ind ) ;
lv_slider_set_style ( slider_emu , LV_SLIDER_STYLE_KNOB , & bar_emu_btn ) ;
lv_obj_align ( slider_emu , slider_bar_hos , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 + 5 ) ;
lv_slider_set_action ( slider_emu , _action_slider_emu ) ;
part_info . slider_emu = slider_bar_hos ;
lv_obj_t * slider_l4t = lv_slider_create ( h1 , NULL ) ;
lv_obj_set_size ( slider_l4t , LV_DPI * 7 , LV_DPI / 3 ) ;
lv_slider_set_range ( slider_l4t , 0 , ( part_info . total_sct - extra_sct ) / 0x200000 ) ;
lv_slider_set_value ( slider_l4t , 0 ) ;
lv_slider_set_style ( slider_l4t , LV_SLIDER_STYLE_BG , & bar_l4t_bg ) ;
lv_slider_set_style ( slider_l4t , LV_SLIDER_STYLE_INDIC , & bar_l4t_ind ) ;
lv_slider_set_style ( slider_l4t , LV_SLIDER_STYLE_KNOB , & bar_l4t_btn ) ;
lv_obj_align ( slider_l4t , slider_emu , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 - 3 ) ;
lv_slider_set_action ( slider_l4t , _action_slider_l4t ) ;
part_info . slider_l4t = slider_l4t ;
lv_obj_t * slider_and = lv_slider_create ( h1 , NULL ) ;
lv_obj_set_size ( slider_and , LV_DPI * 7 , LV_DPI / 3 ) ;
lv_slider_set_range ( slider_and , 0 , ( part_info . total_sct - extra_sct ) / 0x200000 - 4 ) ; // Subtract android reserved size.
lv_slider_set_value ( slider_and , 0 ) ;
lv_slider_set_style ( slider_and , LV_SLIDER_STYLE_BG , & bar_and_bg ) ;
lv_slider_set_style ( slider_and , LV_SLIDER_STYLE_INDIC , & bar_and_ind ) ;
lv_slider_set_style ( slider_and , LV_SLIDER_STYLE_KNOB , & bar_and_btn ) ;
lv_obj_align ( slider_and , slider_l4t , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 - 3 ) ;
lv_slider_set_action ( slider_and , _action_slider_and ) ;
part_info . slider_and = slider_and ;
lv_obj_t * lbl_sl_hos = lv_label_create ( h1 , NULL ) ;
lv_label_set_recolor ( lbl_sl_hos , true ) ;
s_printf ( txt_buf , " #96FF00 %d GiB# " , ( part_info . total_sct - 0x8000 ) > > 11 > > 10 ) ;
lv_label_set_text ( lbl_sl_hos , txt_buf ) ;
lv_obj_align ( lbl_sl_hos , slider_bar_hos , LV_ALIGN_OUT_RIGHT_MID , LV_DPI * 4 / 7 , 0 ) ;
part_info . lbl_hos = lbl_sl_hos ;
lv_obj_t * lbl_sl_emu = lv_label_create ( h1 , lbl_sl_hos ) ;
lv_label_set_text ( lbl_sl_emu , " #FF3C28 0 GiB# " ) ;
lv_obj_align ( lbl_sl_emu , lbl_sl_hos , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 ) ;
part_info . lbl_emu = lbl_sl_emu ;
lv_obj_t * lbl_sl_l4t = lv_label_create ( h1 , lbl_sl_hos ) ;
lv_label_set_text ( lbl_sl_l4t , " #00DDFF 0 GiB# " ) ;
lv_obj_align ( lbl_sl_l4t , lbl_sl_emu , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 ) ;
part_info . lbl_l4t = lbl_sl_l4t ;
lv_obj_t * lbl_sl_and = lv_label_create ( h1 , lbl_sl_hos ) ;
lv_label_set_text ( lbl_sl_and , " #FF8000 0 GiB# " ) ;
lv_obj_align ( lbl_sl_and , lbl_sl_l4t , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 3 ) ;
part_info . lbl_and = lbl_sl_and ;
lv_obj_t * lbl_notes = lv_label_create ( h1 , NULL ) ;
lv_label_set_recolor ( lbl_notes , true ) ;
lv_label_set_static_text ( lbl_notes ,
" Note 1: Only up to #C7EA46 1GB# can be backed up. If more, you will be asked to back them manually at the next step. \n "
" Note 2: The #C7EA46 Flash Linux# and #C7EA46 Flash Android# work independently and will flash files if suitable partitions and installer files are found. \n "
" Note 3: The installation files reside in #C7EA46 switchroot/install# folder. Linux uses #C7EA46 l4t.XX# and Android uses #C7EA46 twrp.img# and #C7EA46 tegra210-icosa.dtb#. \n "
" Note 4: #FFDD00 The installation files will be deleted after a successful flashing.# " ) ;
lv_label_set_style ( lbl_notes , & hint_small_style ) ;
lv_obj_align ( lbl_notes , lbl_and , LV_ALIGN_OUT_BOTTOM_LEFT , 0 , LV_DPI / 5 ) ;
lv_obj_t * btn1 = lv_btn_create ( h1 , NULL ) ;
lv_obj_t * label_btn = lv_label_create ( btn1 , NULL ) ;
lv_btn_set_fit ( btn1 , true , true ) ;
lv_label_set_static_text ( label_btn , SYMBOL_USB " SD UMS " ) ;
lv_obj_align ( btn1 , h1 , LV_ALIGN_IN_TOP_LEFT , 0 , LV_DPI * 5 ) ;
lv_btn_set_action ( btn1 , LV_BTN_ACTION_CLICK , _action_part_manager_ums_sd ) ;
lv_obj_t * btn2 = lv_btn_create ( h1 , NULL ) ;
lv_obj_t * label_btn2 = lv_label_create ( btn2 , NULL ) ;
lv_btn_set_fit ( btn2 , true , true ) ;
lv_label_set_static_text ( label_btn2 , SYMBOL_DOWNLOAD " Flash Linux " ) ;
lv_obj_align ( btn2 , btn1 , LV_ALIGN_OUT_RIGHT_MID , LV_DPI / 3 , 0 ) ;
lv_btn_set_action ( btn2 , LV_BTN_ACTION_CLICK , _action_check_flash_linux ) ;
btn1 = lv_btn_create ( h1 , NULL ) ;
label_btn = lv_label_create ( btn1 , NULL ) ;
lv_btn_set_fit ( btn1 , true , true ) ;
lv_label_set_static_text ( label_btn , SYMBOL_DOWNLOAD " Flash Android " ) ;
lv_obj_align ( btn1 , btn2 , LV_ALIGN_OUT_RIGHT_MID , LV_DPI / 3 , 0 ) ;
lv_btn_set_action ( btn1 , LV_BTN_ACTION_CLICK , _action_flash_android ) ;
btn1 = lv_btn_create ( h1 , NULL ) ;
label_btn = lv_label_create ( btn1 , NULL ) ;
lv_btn_set_fit ( btn1 , true , true ) ;
lv_label_set_static_text ( label_btn , SYMBOL_SD " Next Step " ) ;
lv_obj_align ( btn1 , h1 , LV_ALIGN_IN_TOP_RIGHT , 0 , LV_DPI * 5 ) ;
lv_btn_set_action ( btn1 , LV_BTN_ACTION_CLICK , _create_mbox_partitioning_next ) ;
part_info . btn_partition = btn1 ;
free ( txt_buf ) ;
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sd_unmount ( ) ;
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return LV_RES_OK ;
}