mirror of
https://github.com/Fledge68/WiiFlow_Lite.git
synced 2024-12-11 20:44:21 +01:00
d8ee3c1b68
-recompiled mload modules for hermes cIOS -added sdhc module for hermes cIOS -fixed booting wii games from sd card -improved wii game support via sd card, now you can use hermes, wanin and d2x (not d2x only anymore) -moved some more stuff to boot wii games into the external booter -added gecko debug prints to external booter -automatically disabling savegame emulator if you want to boot a wii game via hermes or waninkoko cIOS
408 lines
9.3 KiB
C
408 lines
9.3 KiB
C
#include "mload_modules.h"
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#include "ehcmodule_5.h"
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#include "sdhc_module.h"
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#include "odip_frag.h"
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static u32 ios_36[16] ATTRIBUTE_ALIGN(32)=
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{
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0, // DI_EmulateCmd
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0,
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0x2022DDAC, // dvd_read_controlling_data
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0x20201010+1, // handle_di_cmd_reentry (thumb)
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0x20200b9c+1, // ios_shared_alloc_aligned (thumb)
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0x20200b70+1, // ios_shared_free (thumb)
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0x20205dc0+1, // ios_memcpy (thumb)
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0x20200048+1, // ios_fatal_di_error (thumb)
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0x20202b4c+1, // ios_doReadHashEncryptedState (thumb)
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0x20203934+1, // ios_printf (thumb)
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};
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static u32 ios_38[16] ATTRIBUTE_ALIGN(32)=
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{
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0, // DI_EmulateCmd
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0,
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0x2022cdac, // dvd_read_controlling_data
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0x20200d38+1, // handle_di_cmd_reentry (thumb)
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0x202008c4+1, // ios_shared_alloc_aligned (thumb)
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0x20200898+1, // ios_shared_free (thumb)
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0x20205b80+1, // ios_memcpy (thumb)
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0x20200048+1, // ios_fatal_di_error (thumb)
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0x20202874+1, // ios_doReadHashEncryptedState (thumb)
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0x2020365c+1, // ios_printf (thumb)
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};
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static u32 ios_37[16] ATTRIBUTE_ALIGN(32)=
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{
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0, // DI_EmulateCmd
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0,
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0x2022DD60, // dvd_read_controlling_data
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0x20200F04+1, // handle_di_cmd_reentry (thumb)
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0x2020096C+1, // ios_shared_alloc_aligned (thumb)
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0x2020093C+1, // ios_shared_free (thumb)
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0x20205E54+1, // ios_memcpy (thumb)
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0x20200048+1, // ios_fatal_di_error (thumb)
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0x20202A70+1, // ios_doReadHashEncryptedState (thumb)
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0x2020387C+1, // ios_printf (thumb)
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};
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static u32 ios_57[16] ATTRIBUTE_ALIGN(32)=
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{
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0, // DI_EmulateCmd
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0,
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0x2022cd60, // dvd_read_controlling_data
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0x20200f04+1, // handle_di_cmd_reentry (thumb)
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0x2020096c+1, // ios_shared_alloc_aligned (thumb) // no usado
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0x2020093C+1, // ios_shared_free (thumb) // no usado
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0x20205EF0+1, // ios_memcpy (thumb)
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0x20200048+1, // ios_fatal_di_error (thumb)
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0x20202944+1, // ios_doReadHashEncryptedState (thumb)
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0x20203750+1, // ios_printf (thumb)
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};
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static u32 ios_60[16] ATTRIBUTE_ALIGN(32)=
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{
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0, // DI_EmulateCmd
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0,
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0x2022cd60, // dvd_read_controlling_data
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0x20200f04+1, // handle_di_cmd_reentry (thumb)
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0x2020096c+1, // ios_shared_alloc_aligned (thumb) // no usado
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0x2020093C+1, // ios_shared_free (thumb) // no usado
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0x20205e00+1, // ios_memcpy (thumb)
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0x20200048+1, // ios_fatal_di_error (thumb)
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0x20202944+1, // ios_doReadHashEncryptedState (thumb)
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0x20203750+1, // ios_printf (thumb)
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};
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u32 patch_datas[8] ATTRIBUTE_ALIGN(32);
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data_elf my_data_elf;
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static int my_thread_id = 0;
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int load_ehc_module()
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{
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if(mload_init() < 0)
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return -1;
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mload_elf((void *)ehcmodule_5, &my_data_elf);
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my_thread_id = mload_run_thread(my_data_elf.start, my_data_elf.stack, my_data_elf.size_stack, my_data_elf.prio);
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if(my_thread_id < 0)
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return -2;
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usleep(350*1000);
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int is_ios = mload_get_IOS_base();
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//u32 dip_address = 0x1377E000;
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u32 dip_address = 0x1377C000;
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switch(is_ios)
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{
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case 36:
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memcpy(ios_36, odip_frag, 4); // copy the entry_point
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memcpy(odip_frag, ios_36, 4*10); // copy the adresses from the array
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mload_seek(dip_address, SEEK_SET); // copy odip_frag in the starlet
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mload_write(odip_frag,size_odip_frag);
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// enables DIP plugin
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mload_seek(0x20209040, SEEK_SET);
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mload_write(ios_36, 4);
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break;
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case 37:
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memcpy(ios_37, odip_frag, 4); // copy the entry_point
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memcpy(odip_frag, ios_37, 4*10); // copy the adresses from the array
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mload_seek(dip_address, SEEK_SET); // copy odip_frag in the starlet
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mload_write(odip_frag,size_odip_frag);
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// enables DIP plugin
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mload_seek(0x20209030, SEEK_SET);
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mload_write(ios_37, 4);
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break;
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case 38:
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memcpy(ios_38, odip_frag, 4); // copy the entry_point
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memcpy(odip_frag, ios_38, 4*10); // copy the adresses from the array
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mload_seek(dip_address, SEEK_SET); // copy odip_frag in the starlet
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mload_write(odip_frag,size_odip_frag);
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// enables DIP plugin
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mload_seek(0x20208030, SEEK_SET);
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mload_write(ios_38, 4);
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break;
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case 57:
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memcpy(ios_57, odip_frag, 4); // copy the entry_point
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memcpy(odip_frag, ios_57, 4*10); // copy the adresses from the array
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mload_seek(dip_address, SEEK_SET); // copy odip_frag in the starlet
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mload_write(odip_frag,size_odip_frag);
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// enables DIP plugin
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mload_seek(0x20208030, SEEK_SET);
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mload_write(ios_57, 4);
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break;
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case 60:
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memcpy(ios_60, odip_frag, 4); // copy the entry_point
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memcpy(odip_frag, ios_60, 4*10); // copy the adresses from the array
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mload_seek(dip_address, SEEK_SET); // copy odip_frag in the starlet
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mload_write(odip_frag,size_odip_frag);
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// enables DIP plugin
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mload_seek(0x20208030, SEEK_SET);
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mload_write(ios_60, 4);
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break;
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}
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mload_elf((void *)sdhc_module, &my_data_elf);
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my_thread_id = mload_run_thread(my_data_elf.start, my_data_elf.stack,
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my_data_elf.size_stack, my_data_elf.prio);
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if(my_thread_id < 0)
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return -2;
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mload_close();
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return 0;
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}
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#if 0
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#define IOCTL_FAT_MOUNTSD 0xF0
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#define IOCTL_FAT_UMOUNTSD 0xF1
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#define IOCTL_FAT_MOUNTUSB 0xF2
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#define IOCTL_FAT_UMOUNTUSB 0xF3
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#define IOCTL_FFS_MODE 0x80
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void disable_ffs_patch(void)
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{
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u8 * ffs_data=search_for_ehcmodule_cfg((void *) fatffs_module, size_fatffs_module);
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if(ffs_data)
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{
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ffs_data+=12;
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ffs_data[0]=1;
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DCFlushRange((void *) (((u32)ffs_data[0]) & ~31), 32);
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}
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}
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int load_fatffs_module(u8 *discid)
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{
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static char fs[] ATTRIBUTE_ALIGN(32) = "fat";
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s32 hid = -1, fd = -1;
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static char file_name[256] ALIGNED(0x20)="sd:";
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int n;
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char *p;
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s32 ret;
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p=&file_name[0];
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if(mload_init()<0) return -1;
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mload_elf((void *) fatffs_module, &my_data_elf);
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my_thread_id= mload_run_thread(my_data_elf.start, my_data_elf.stack, my_data_elf.size_stack, my_data_elf.prio);
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if(my_thread_id<0) return -1;
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global_mount &=~0xc;
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if(discid)
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{
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sd_ok=ud_ok=1;
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p=get_fat_name(discid);
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sd_ok=ud_ok=0;
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if(!p) return -1;
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global_mount &=~0xc;
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// change 'ud:' by 'usb:'
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if(p[0]=='u') {global_mount|=2;file_name[0]='u';file_name[1]='s';file_name[2]='b';memcpy(file_name+3, (void *)p+2, 253);}
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else {global_mount|=1;memcpy(file_name, (void *) p, 256);}
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// copy filename to odip_frag filename area
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mload_seek(*((u32 *) (odip_frag+14*4)), SEEK_SET); // offset 14 (filename Address - 256 bytes)
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mload_write(file_name, sizeof(file_name));
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mload_close();
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}
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else
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{
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if((global_mount & 3)==0) return 0;
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if(global_mount & 1) p[0]='s';
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if(global_mount & 2) p[0]='u';
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}
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usleep(350*1000);
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/* Create heap */
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if (hid < 0) {
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hid = iosCreateHeap(0x100);
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if (hid < 0)
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return -1;
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}
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/* Open USB device */
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fd = IOS_Open(fs, 0);
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if (fd < 0)
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{
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if(hid>=0)
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{
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iosDestroyHeap(hid);
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hid=-1;
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}
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return -1;
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}
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n=30; // try 20 times
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while(n>0)
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{
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if((global_mount & 10)==2) {ret=IOS_IoctlvFormat(hid, fd, IOCTL_FAT_MOUNTUSB, ":");if(ret==0) global_mount|=8;}
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else {ret=IOS_IoctlvFormat(hid, fd, IOCTL_FAT_MOUNTSD, ":");if(ret==0) {global_mount|=4;}}
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if((global_mount & 7)==3 && ret==0)
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{ret=IOS_IoctlvFormat(hid, fd, IOCTL_FAT_MOUNTSD, ":");if(ret==0) global_mount|=4;}
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if((global_mount & 3)==((global_mount>>2) & 3) && (global_mount & 3)) {ret=0;break;} else ret=-1;
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//ret=IOS_IoctlvFormat(hid, fd, IOCTL_FAT_MOUNTSD, ":");
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//if(ret==0) break;
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usleep(500*1000);
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n--;
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}
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if (fd >= 0) {
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IOS_Close(fd);
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fd = -1;
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}
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if(hid>=0)
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{
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iosDestroyHeap(hid);
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hid=-1;
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}
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if(n==0) return -1;
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return 0;
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}
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int enable_ffs(int mode)
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{
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static char fs[] ATTRIBUTE_ALIGN(32) = "fat";
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s32 hid = -1, fd = -1;
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s32 ret;
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/* Create heap */
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if (hid < 0) {
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hid = iosCreateHeap(0x100);
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if (hid < 0)
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return -1;
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}
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/* Open USB device */
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fd = IOS_Open(fs, 0);
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if (fd < 0)
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{
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if(hid>=0)
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{
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iosDestroyHeap(hid);
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hid=-1;
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}
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return -1;
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}
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ret=IOS_IoctlvFormat(hid, fd, IOCTL_FFS_MODE, "i:", mode);
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if (fd >= 0) {
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IOS_Close(fd);
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fd = -1;
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}
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if(hid>=0)
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{
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iosDestroyHeap(hid);
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hid=-1;
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}
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return ret;
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}
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void enable_ES_ioctlv_vector(void)
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{
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patch_datas[0]=*((u32 *) (odip_frag+16*4));
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mload_set_ES_ioctlv_vector((void *) patch_datas[0]);
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}
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void Set_DIP_BCA_Datas(u8 *bca_data)
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{
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// write in odip_frag bca data area
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mload_seek(*((u32 *) (odip_frag+15*4)), SEEK_SET); // offset 15 (bca_data area)
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mload_write(bca_data, 64);
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mload_close();
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}
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void test_and_patch_for_port1()
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{
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// test for port 1
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u8 *ehc_data = search_for_ehcmodule_cfg((void *)ehcmodule_5, size_ehcmodule_5);
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if(ehc_data)
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{
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ehc_data+=12;
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use_port1=ehc_data[0];//=0; // fixed to 0
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DCFlushRange((void *) (((u32)ehc_data[0]) & ~31), 32);
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}
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if(use_port1) // release port 0 and use port 1
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{
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u32 dat=0;
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u32 addr;
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// get EHCI base registers
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mload_getw((void *) 0x0D040000, &addr);
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addr&=0xff;
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addr+=0x0D040000;
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mload_getw((void *) (addr+0x44), &dat);
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if((dat & 0x2001)==1) mload_setw((void *) (addr+0x44), 0x2000);
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mload_getw((void *) (addr+0x48), &dat);
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if((dat & 0x2000)==0x2000) mload_setw((void *) (addr+0x48), 0x1001);
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}
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}
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void free_usb_ports()
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{
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u32 dat=0;
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u32 addr;
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// get EHCI base registers
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mload_getw((void *) 0x0D040000, &addr);
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addr&=0xff;
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addr+=0x0D040000;
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mload_getw((void *) (addr+0x44), &dat);
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if((dat & 0x2001)==1) mload_setw((void *) (addr+0x44), 0x2000);
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mload_getw((void *) (addr+0x48), &dat);
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if((dat & 0x2001)==1) mload_setw((void *) (addr+0x48), 0x2000);
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}
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#endif
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u8 *search_for_ehcmodule_cfg(u8 *p, int size)
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{
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int n;
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for(n = 0; n < size; n++)
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{
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if(!memcmp((void *) &p[n],"EHC_CFG",8) && p[n+8]==0x12 && p[n+9]==0x34 && p[n+10]==0x00 && p[n+11]==0x01)
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return &p[n];
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}
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return NULL;
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}
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