Difference between revisions of "Stage2"
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| 0x1AC | | 0x1AC | ||
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| Global MBK9 Slot Master Setting | | Global MBK9 Slot Master Setting | ||
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+ | | 0x1AF | ||
+ | | 0x1 | ||
+ | | Global WRAMCNT Setting | ||
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| 0x1B0 | | 0x1B0 |
Latest revision as of 17:11, 7 January 2023
Unlike the stage1 bootloader, which must be small enough to fit in ROM (32 kilobytes per core), the stage2 bootloader has about a megabyte of NAND flash reserved for it. The stage2 bootloader understands partitions and filesystems, and it is capable of loading the DSi menu. It also must understand the encryption used on filesystem blocks in the NAND, and it must understand how to load and validate title metadata.
The Stage 2 loader was not modified by the System Menu 1.4 update. This is still earlier in the boot process than the "Health and Safety" warning (that warning is displayed by the sysmenu).
The first stage bootloader reads the sector at offset 0x200 in order to find a table of offsets to the Stage 2 bootloader:
00000220 00 08 00 00 10 64 02 00 00 80 7b 03 00 66 02 00 |.....d....{..f..| 00000230 00 6e 02 00 88 75 02 00 00 80 7b 03 00 76 02 00 |.n...u....{..v..| 00000240 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 |................|
There's two header sectors following this, however stage1 ignores these.
This is describing two chunks of the stage2 loader: the ARM9-binary 0x26410 bytes in length at address 0x800, and the ARM7-binary 0x27588 bytes at address 0x26e00.
Structure of this header:
Offset | Size | Description |
---|---|---|
0x0 | 0x20 | Reserved (zerofilled) |
0x20 | 0x4 | ARM9 Bootcode, eMMC Source Offset |
0x24 | 0x4 | ARM9 Bootcode, Size "Actual decompressed binary size" |
0x28 | 0x4 | ARM9 Bootcode, RAM Destination Address and Entrypoint |
0x2C | 0x4 | ARM9 Bootcode, Size (compressed, if compression is used) rounded up to multiple of 0x200 |
0x30 | 0x4 | ARM7 Bootcode, eMMC Source Offset |
0x34 | 0x4 | ARM7 Bootcode, Size "Actual decompressed binary size" |
0x38 | 0x4 | ARM7 Bootcode, RAM Destination Address and Entrypoint |
0x3C | 0x4 | ARM7 Bootcode, Size (compressed, if compression is used) rounded up to multiple of 0x200 |
0x40 | 0xBF | Reserved (zerofilled) |
0xFF | 0x1 | Option flags (see below). Mostly used for NAND and NVRAM boots, only a single bit is checked for game cartridge boots! Typically 0x0C for NAND boots. NVRAM sets this to 0x80 to signal a NAND boot. |
0x100 | 0x80 | RSA-1024 Data Block |
0x180 | 0x14 | Global MBK1..MBK5 Slot Settings |
0x194 | 0xC | Local MBK6..MBK8 Settings for ARM9 Side |
0x1A0 | 0xC | Local MBK6..MBK8 Settings for ARM7 Side |
0x1AC | 0x3 | Global MBK9 Slot Master Setting |
0x1AF | 0x1 | Global WRAMCNT Setting |
0x1B0 | 0x50 | Reserved (zerofilled) |
Note that the above format roughly resembles the DSi Cartridge Header (entries 0x20-0x3F are roughly similar, and entries 0x180-0x1AF appear to be same as in cart header).
The option byte at +0xff has the following flags:
Bit | Mask | Description |
---|---|---|
0 | 0x01 | Use LZ77 decompression for the ARM9 binary (game cartridge boots ignore this flag and always treat binaries as uncompressed) |
1 | 0x02 | Use LZ77 decompression for the ARM7 binary (game cartridge boots ignore this flag and always treat binaries as uncompressed) |
2 | 0x04 | Run the ARM9 at 133 MHz when performing RSA verification and SHA1 hash calculation (it starts out at 66 MHz). This is the only flag checked during a game cartridge boot. |
3 | 0x08 | Use the IPC FIFO to send compressed payloads to the ARM9, and have the ARM9 decompress them. If not selected, the ARM7 will decompress the payload, then map it to the ARM9 using the MBK registers. Has no effect for uncompressed payloads (and thus game cartridge boots). |
4 | 0x10 | Unknown, doesn't seem to be used. Always 0. |
5 | 0x20 | Unknown, doesn't seem to be used. Always 0. |
6 | 0x40 | When booting from NVRAM, use an 8 MHz SPI clock. If 0, use a 4 MHz SPI clock. Not used for non-NVRAM boots. |
7 | 0x80 | Boot medium selection flag: if 1, boot from NAND. If 0, boot from NVRAM. Not applicable for game cartridge boots (which use a magic key combination). |
The RSA public keys (the one for 3DS and the other one for DSi) for the below signature _for NAND boots_ can be obtained from 3DS TWL_FIRM Process9 (this is required for getting the binaries' keyY). It is also found in the DSi's ARM9 boot ROM, but this is never copied to some place outside the boot ROM. (The bootroms copy _some_ keys to WRAM/ITCM, but not this one.) Public keys for NVRAM and game cartridge boots are only available from the DSi ARM9 boot ROM, and all differ from the NAND RSA public key.
Structure of the 0x74-byte "hash-data" stored in the RSA message:
Offset | Size | Description |
---|---|---|
0x0 | 0x10 | AES_Engine keyY used for the ARM9/ARM7 binaries crypto. |
0x10 | 0x14 | SHA1 hash, calculated over the first 0x28-bytes of NVRAM, then the first 0x100-bytes of the header, then the last 0x80-bytes of the header (following the signature). The bootloader contained in TWL_FIRM uses the first 0x28-bytes from NAND. For non-NAND boot mediums, this hash is calculated the same except there's no 0x28-byte block. |
0x24 | 0x14 | SHA1 hash over the plaintext ARM9 binary, with the actual binary size. |
0x38 | 0x14 | SHA1 hash over the plaintext ARM7 binary, with the actual binary size. |
0x4C | 0x14 | Unknown, not used by 3DS TWL_FIRM. Normally all-zero. Copied to 0x01FFC880 by ARM9 Stage1. |
0x60 | 0x14 | SHA1 of all previous fields in the RSA message, used to prevent RSA signature forgery. Not used by 3DS TWL_FIRM(?). |
Note that this sector (and two similar ones at 0x400 and 0x600) appear to be the only unencrypted blocks on the NAND flash.
After loading+verifying the the above header, the ARM7 binary is loaded+verified, then the ARM9 binary is loaded+verified (see stage1).
Whereas the filesystem data in NAND is encrypted using a unique key for every DSi, the stage2 bootloader is identical on every DSi tested so far. The stage2 bootloader binaries are not encrypted with any console-unique keys.
Stage1 uses the AES_Engine with mode AES-CTR to decrypt each ARM9/ARM7 binary, where keyY is from the above signature. The AES_Engine keyslot used here is the same one used for the shared areas for Tad, therefore the keyX is the same as the one used for that. The following is used for the CTR, where "binblk->binblocksize" is the above binary size aligned to 0x200-bytes:
unsigned int ctr[4]; memset(ctr, 0, 16); ctr[0] = binblk->binblocksize; ctr[1] = (unsigned int)(-binblk->binblocksize); ctr[2] = ~binblk->binblocksize; ctr[3] = AES block offset (starts at 0)
Stage2 operations
After Stage 2 is loaded:
- Main RAM (aka FCRAM aka DRAM) is allowed bus access (using the EXMEMCNT MMIO register) and initialized.
- The status registers of the BPTWL are read to check whether this is a warmboot. The powerbutton action of the BPTWL is reset as well.
- The NAND flash is partially re-initialized
- Various hardware components, such as the touchscreen/sound controller, Wifi chip, etc. are initialized. (Cameras aren't initialized, though.)
- Sector 0 is read from the NAND. This is an (encrypted) DOS-style MBR.
- The MBR signature and the type of the first partition are verified.
- Filesystem metadata is read from sectors starting around 0x100000. The metadata is in FAT16 format with long filenames.
- Multiple files are loaded from the filesystem. The exact read addresses will vary depending on your DSi's firmware version and the state of its filesystem when you performed the last firmware update. On a brand new DSi, it appears that the DSi Menu itself is loaded from 0xb20000 after two small metadata files are read from 0xb1c000 and 0x7a0000.
All errors show before the health and safety screen. It appears that stage2 errors from a cold power-on always cause the DSi to hang at a black screen, whereas stage2 errors after reset (pressing but not holding the power button) will give an error message screen. Known errors:
Text | Description |
---|---|
"Error: 1-2435-8325" | Invalid signature or partition type in MBR, invalid starting LBA. |
"Error: 2-2435-8325" | Invalid Firmware |
"Error: 3-2435-8325" | DSi Menu integrity checks failed |