Mirror/GodMode9
1
0
Fork 1
mirror of https://github.com/d0k3/GodMode9.git synced 2025-06-26 13:42:47 +00:00
Code Issues Packages Projects Releases Wiki Activity
GodMode9/source/fatfs/alias.c
d0k3 1fced99d65 Preliminary NAND SD drive support 
... no crypto yet. Also some minor bugfixes
2016-10-28 21:30:10 +02:00

207 lines
6.1 KiB
C
Raw Blame History

#include "alias.h"
#include "aes.h"
#include "sha.h"
#define SDCRYPT_BUFFER ((u8*)0x21400000)
#define SDCRYPT_BUFFER_SIZE (0x100000)
#define NUM_ALIAS_DRV 2
char alias_drv[NUM_ALIAS_DRV]; // 1 char ASCII drive number of the alias drive / 0x00 if unused
char alias_path[NUM_ALIAS_DRV][128]; // full path to resolve the alias into
u8 sd_keyy[NUM_ALIAS_DRV][16]; // key Y belonging to alias drive
int alias_num (const TCHAR* path) {
int num = -1;
for (u32 i = 0; i < NUM_ALIAS_DRV; i++) {
if (!alias_drv[i]) continue;
if ((path[0] == alias_drv[i]) && (path[1] == ':')) {
num = i;
break;
}
}
return num;
}
void dealias_path (TCHAR* alias, const TCHAR* path) {
int num = alias_num(path);
if (num >= 0) // set alias (alias is assumed to be 256 byte)
snprintf(alias, 256, "%s%s", alias_path[num], path + 2);
else strncpy(alias, path, 256);
}
void fx_crypt(XFIL* xfp, void* buff, FSIZE_t off, UINT bt) {
u32 mode = AES_CNT_CTRNAND_MODE;
u8 ctr[16] __attribute__((aligned(32)));
u8 buff16[16];
u8* buffer = buff;
// copy CTR and increment it
memcpy(ctr, xfp->iv, 16);
add_ctr(ctr, off / 16);
// setup the key
setup_aeskeyY(xfp->keyslot, xfp->keyy);
use_aeskey(xfp->keyslot);
// handle misaligned offset (at beginning)
if (off % 16) {
memcpy(buff16 + (off % 16), buff, 16 - (off % 16));
ctr_decrypt(buff16, buff16, 1, mode, ctr);
bt -= 16 - (off % 16);
buffer += 16 - (off % 16);
}
// de/encrypt the data
ctr_decrypt(buff, buff, bt / 16, mode, ctr);
bt -= 16 * (UINT) (bt / 16);
buffer += 16 * (UINT) (bt / 16);
// handle misaligned offset (at end)
if (bt) {
memcpy(buff16, buff, bt);
ctr_decrypt(buff16, buff16, 1, mode, ctr);
buffer += bt;
bt = 0;
}
}
FRESULT fx_open (FIL* fp, XFIL* xfp, const TCHAR* path, BYTE mode) {
int num = alias_num(path);
xfp->keyslot = 0x40;
if (num >= 0) {
// get AES counter, see: http://www.3dbrew.org/wiki/Extdata#Encryption
// path is the part of the full path after //Nintendo 3DS/<ID0>/<ID1>
u8 hashstr[256];
u8 sha256sum[32];
u32 plen = 0;
// poor man's UTF-8 -> UTF-16
for (u32 plen = 0; plen < 128; plen++) {
hashstr[2*plen] = path[2 + plen];
hashstr[2*plen+1] = 0;
if (path[plen] == 0) break;
}
sha_quick(sha256sum, hashstr, (plen + 1) * 2, SHA256_MODE);
for (u32 i = 0; i < 16; i++)
xfp->iv[i] = sha256sum[i] ^ sha256sum[i+16];
// copy over key, set keyslot
memcpy(xfp->keyy, sd_keyy[num], 16);
xfp->keyslot = 0x34;
}
return fa_open(fp, path, mode);
}
FRESULT fx_read (FIL* fp, XFIL* xfp, void* buff, UINT btr, UINT* br) {
FSIZE_t off = f_tell(fp);
FRESULT res = f_read(fp, buff, btr, br);
if (xfp && (xfp->keyslot < 0x40))
fx_crypt(xfp, buff, off, btr);
return res;
}
FRESULT fx_write (FIL* fp, XFIL* xfp, const void* buff, UINT btw, UINT* bw) {
FSIZE_t off = f_tell(fp);
FRESULT res = FR_OK;
if (xfp && (xfp->keyslot < 0x40)) {
*bw = 0;
for (UINT p = 0; (p < btw) && (res == FR_OK); p += SDCRYPT_BUFFER_SIZE) {
UINT pcount = min(SDCRYPT_BUFFER_SIZE, (btw - p));
UINT bwl = 0;
memcpy(SDCRYPT_BUFFER, (u8*) buff + p, pcount);
fx_crypt(xfp, SDCRYPT_BUFFER, off + p, pcount);
res = f_write(fp, (const void*) SDCRYPT_BUFFER, pcount, &bwl);
*bw += bwl;
}
} else res = f_write(fp, buff, btw, bw);
return res;
}
FRESULT fa_open (FIL* fp, const TCHAR* path, BYTE mode) {
TCHAR alias[256];
dealias_path(alias, path);
return f_open(fp, alias, mode);
}
FRESULT fa_opendir (DIR* dp, const TCHAR* path) {
TCHAR alias[256];
dealias_path(alias, path);
return f_opendir(dp, alias);
}
FRESULT fa_stat (const TCHAR* path, FILINFO* fno) {
TCHAR alias[256];
dealias_path(alias, path);
return f_stat(alias, fno);
}
// special functions for access of virtual NAND SD drives
bool SetupNandSdDrive(const char* path, const char* sd_path, const char* movable, int num) {
char alias[128];
// initial checks
if ((num >= NUM_ALIAS_DRV) || (num < 0)) return false;
alias_drv[num] = 0;
if (!sd_path || !movable || !path) return true;
// grab the key Y from movable.sed
UINT bytes_read = 0;
FIL file;
if (f_open(&file, movable, FA_READ | FA_OPEN_EXISTING) != FR_OK)
return false;
f_lseek(&file, 0x110);
if ((f_read(&file, sd_keyy[num], 0x10, &bytes_read) != FR_OK) || (bytes_read != 0x10)) {
f_close(&file);
return false;
}
f_close(&file);
// build the alias path (id0)
u32 sha256sum[8];
sha_quick(sha256sum, sd_keyy[num], 0x10, SHA256_MODE);
snprintf(alias, 127, "%s/Nintendo 3DS/%08lX%08lX%08lX%08lX",
sd_path, sha256sum[0], sha256sum[1], sha256sum[2], sha256sum[3]);
// find the alias path (id1)
char* id1 = alias + strnlen(alias, 127);
DIR pdir;
FILINFO fno;
if (f_opendir(&pdir, alias) != FR_OK)
return false;
(id1++)[0] = '/';
*id1 = '\0';
while (f_readdir(&pdir, &fno) == FR_OK) {
if (fno.fname[0] == 0)
break;
if ((strnlen(fno.fname, 64) != 32) || !(fno.fattrib & AM_DIR))
continue; // check for id1 directory
strncpy(id1, fno.fname, 127 - (id1 - alias));
break;
}
f_closedir(&pdir);
if (!(*id1)) return false;
// create the alias drive
return SetupAliasDrive(path, alias, num);
}
bool SetupAliasDrive(const char* path, const char* alias, int num) {
// initial checks
if ((num >= NUM_ALIAS_DRV) || (num < 0)) return false;
alias_drv[num] = 0;
if (!alias || !path) return true;
// take over drive path and alias
strncpy(alias_path[num], alias, 128);
if (path[1] != ':') return false;
alias_drv[num] = path[0];
return true;
}
bool CheckAliasDrive(const char* path) {
int num = alias_num(path);
return (num >= 0);
}
Reference in New Issue View Git Blame Copy Permalink