AES Registers
Registers
Old3DS | Name | Address | Width | RW |
---|---|---|---|---|
Yes | AES_CNT | 0x10009000 | 4 | RW |
Yes | AES_BLKCNT | 0x10009004 | 4 | W |
Yes | AES_WRFIFO | 0x10009008 | 4 | W |
Yes | AES_RDFIFO | 0x1000900C | 4 | R |
Yes | AES_KEYSEL | 0x10009010 | 1 | RW |
Yes | AES_KEYCNT | 0x10009011 | 1 | RW |
Yes | AES_CTR | 0x10009020 | 16 | W |
Yes | AES_MAC | 0x10009030 | 16 | W |
Yes | AES_KEY0 | 0x10009040 | 48 | W |
Yes | AES_KEY1 | 0x10009070 | 48 | W |
Yes | AES_KEY2 | 0x100090A0 | 48 | W |
Yes | AES_KEY3 | 0x100090D0 | 48 | W |
Yes | AES_KEYFIFO | 0x10009100 | 4 | W |
Yes | AES_KEYXFIFO | 0x10009104 | 4 | W |
Yes | AES_KEYYFIFO | 0x10009108 | 4 | W |
AES_CNT
Bit | Description |
---|---|
4-0 | Write FIFO count (0-16) |
9-5 | Read FIFO count (0-16) |
10 | Flush write FIFO (1=Clear write FIFO) |
11 | Flush read fifo (1=Clear read FIFO) |
12-13 | Write FIFO DMA size (0=16, 1=12, 2=8, 3=4 words) |
14-15 | Read FIFO DMA size (0=4, 1=8, 2=12, 3=16 words) |
18-16 | MAC size (encoding = (maclen-2)/2) |
19 | ? (MAC related) |
20 | MAC input control (0 = read MAC from FIFO, 1 = read from MAC register) |
21 | MAC status (0 = invalid, 1 = verified) |
22 | Output endianness (1=Big endian, 0=Little endian) |
23 | Input endianness (1=Big endian, 0=Little endian) |
24 | Output word order (1=Normal order, 0=Reversed order) |
25 | Input word order (1=Normal order, 0=Reversed order) |
26 | Update keyslot (selects the keyslot specified by AES_KEYSEL when this bit is set) |
29-27 | Mode (0=CCM decrypt, 1=CCM encrypt, 2=CTR, 3=CTR, 4=CBC decrypt, 5=CBC encrypt, 6=ECB decrypt, 7=ECB encrypt) |
30 | Interrupt enable (1=enable, 0=disable) |
31 | Start (1=enable/busy, 0=idle) |
When bit31 is set, this register essentially becomes locked and doesn't change when written to. However if bit26 is "set", keyslot-selection is cued to be handled when bit31 is cleared.
Clearing bit31 while the AES engine is doing crypto will result in the AES engine stopping crypto, once it finishes processing the current block.
Read/Write FIFO counts and the MAC status can never be set by writing to AES_CNT, they are read-only.
Changing the input word order triggers the key/keyX/keyY FIFOs to be flushed.
AES_BLKCNT
Bit | Description |
---|---|
16-31 | (Data length)>>4 (i.e. the number of blocks to process) |
AES_WRFIFO/AES_RDFIFO
Up to 128 bytes of input data can be buffered.
The input data for the AES crypto operation is written to AES_WRFIFO, the output data is read from AES_RDFIFO.
Reading from AES_RDFIFO when there's no data available in the RDFIFO will result in reading the last word that was in the RDFIFO.
When triggering either RDFIFO or WRFIFO to be flushed, the AES Engine does not clear either buffer.
Word order and endianness can be changed between each read/write to these FIFOs. However changing the word order when writing to WRFIFO can cause the word to be written outside the current block, leaving uninitialized data in its place. Attempts to change endianness or word order are not honored when reading from RDFIFO when no more data is available.
AES_KEYCNT
Bit | Description |
---|---|
5-0 | Keyslot |
6 | Hardware key-generator type: 0 = 3DS, 1 = DSi. |
7 | This normally has value 1 written here when updating keys. 0 = disable key FIFO flush, 1 = enable key FIFO flush. |
Bit6 is only used when keyslots >=4 are used, value1 has the same affect as doing key-init with the TWL keyslots. Bit6 is only checked when a keyY was completely written, for when the final-normalkey needs updated via the key-generator. Changing bit6 has no affect on the generated normalkey when writing to this bit immediately after writing the last keyY word.
AES_CTR
This register specifies the counter (CTR mode), nonce (CCM mode) or the initialization vector (CBC mode) depending on the mode of operation. For CBC and CTR mode this register takes up the full 16 bytes, but for CCM mode the nonce is only the first 12 bytes. The AES engine will automatically increment the counter up to the maximum BLKCNT, after which point it must be manually incremented and set again.
AES_MAC
This register specifies the message authentication code (MAC) for use in CCM mode.
AES_KEY0/1/2/3
Endianness and word order
When writing to the AES_CTR, AES_MAC or AES_KEY0/1/2/3 register, the hardware will process the written data according to the current input endianness specified in AES_CNT. However, the current specified input word order will not be honored for this register, and always defaults to reversed word order. Therefore, for normal word order, the reversal must be carried out manually if required.
Keyslot ranges
This is approximately a table of what is set by bootrom before booting into FIRM. Often it appears that keyslots in groups of 4 have the same keyX, and sometimes also same keyY set.
Byte | Description |
---|---|
0-15 | Normalkey |
16-31 | KeyX |
32-47 | KeyY |
Keyslot | Name | KeyX | KeyY/Normal-key | Console unique. |
---|---|---|---|---|
0x00-0x03 | TWL keys. | Probably unset. | Probably unset. | - |
0x04-0x07 | NAND partition keys. | Same for all. | Different for all. | Yes |
0x08-0x0B | See below. | Same for all. | Different for all. | Yes |
0x0C-0x0F | SSL cert key. | Same for all. | Same for all. | No |
0x10-0x17 | - | Not set. | Not set. | - |
0x18-0x1B | Never used. | Same for all. | Same for all. | Yes |
0x1C-0x1F | Never used. | Same for all. | Same for all. | Yes |
0x20-0x23 | Never used. | Same for all. | Same for all. | Normalkey is not. keyX is. keyY unknown. |
0x24 | Never used. | Individually set. | Individually set. | Normalkey is not. keyX is. keyY unknown. |
0x25-0x27 | - | Not set. | Not set. | - |
0x28-0x2B | Never used. | Individually set. | Individually set. | Normalkey is not. keyX is. keyY unknown. |
0x2C-0x2F | Various uniques. | Same for all. | Same for all, probably. | No |
0x30-0x33 | Various uniques. | Same for all. | Same for all, probably. | No |
0x34-0x37 | Various uniques. | Same for all. | Same for all, probably. | No |
0x38-0x3B | Various uniques. | Same for all. | Different for all. | No |
0x3C-0x3F | Various uniques. | Individually set. | Individually set. | No |
Keyslot pairs (0x24, 0x28) and (0x38, 0x3C) shares the same normal-key, while at the same time having different keyX's. This suggests they were set to same normal-key by bootrom.
Keyslots
There are 0x40 keyslots, each of which stores three keys called keyX, keyY and normalkey. All keys can be set explicitly, but the normalkey can optionally be generated using a hardware key generator instead (see below). There is no way to read the contents of a keyslot.
Keyslot | Description | KeyX set by | KeyY set by | Normal-key | Old3DS |
---|---|---|---|---|---|
0x00-0x03 | TWL keys. | NATIVE_FIRM hard-boot. | NATIVE_FIRM hard-boot. | - | Yes |
0x04..0x07 | NAND partition keys.
Keyslot is determined by NCSD partition FS type and encryption type. The New3DS Process9 sets the keyY for keyslot 0x05 (New3DS CTRNAND) to a key from .(ro)data. Its keyX is console-unique and set by the bootloader. |
Bootrom. | Bootrom. | - | Yes |
0x0A | DSiWare export key.
Used for encrypting the all-zero 0x10-byte block in the DSiWare_Exports header. Console-unique. |
See above keyslot info. | See above keyslot info. | - | Yes |
0x0B | This is console-unique. This keyslot is used for the NAND dbs images AESMACs, and the Nand/private/movable.sed AESMAC(when used). | See above keyslot info. | See above keyslot info. | - | Yes |
0x0D | SSL-certificate key.
See EncryptDecryptAes. |
- | - | Bootrom. | Yes |
0x11 | Temporary keyslot.
Used by FIRM for general normal-key crypto. Also used by the New3DS FIRM arm9 binary loader. |
Arm9Loader. | Arm9Loader. | NATIVE_FIRM. | Yes |
0x14 | Starting with 5.0.0-11, NATIVE_FIRM Process9 now sets the keyY for this to the same one it uses for initializing 3 of the keyslots' keyYs from here. | Bootrom. | NATIVE_FIRM boot. | - | Yes |
0x15 | Used/initialized by the New3DS arm9 binary loader, see here. | Arm9Loader. | Arm9Loader. | See previous info for this keyslot. | No |
0x16 | Used/initialized by the New3DS arm9 binary loader starting with 9.5.0-X, see here. | Arm9Loader. | Arm9Loader. | See previous info for this keyslot. | No |
0x18..0x1F | These are the New3DS keyslots, where the keyX is generated with keyslot 0x11 by the New3DS arm9 binary loader. As of FIRM 9.6.0-X keyslots 0x1C..0x1F are not yet used by Process9. | Arm9Loader. | NATIVE_FIRM / see previous info for these keyslots. | See previous info for these keyslots. | No |
0x18 | New3DS 9.3.0-X NCCH key, when ncchflag[3] is 0x0A. | Arm9Loader. | NATIVE_FIRM | - | No |
0x19 | New3DS gamecard savedata AES-MAC key.
Equivalent of keyslot 0x33, used when a NCSD flag is set to a certain value (implemented with 9.3.0-X). |
Arm9Loader. | NATIVE_FIRM | - | No |
0x1A | New3DS gamecard savedata actual key.
Equivalent of keyslot 0x37, used when a NCSD flag is set to a certain value (implemented with 9.3.0-X). |
Arm9Loader. | NATIVE_FIRM | - | No |
0x1B | New3DS 9.6.0-X NCCH key, when ncchflag[3] is 0x0B. | Arm9Loader. | NATIVE_FIRM | - | No |
0x24 | AGB_FIRM savegame AES-MAC key. | Bootrom. | AGB/NATIVE_FIRM. | - | Yes |
0x25 | v7.0 NCCH key, when ncchflag[3] is 0x01. | NATIVE_FIRM boot. | NATIVE_FIRM. | - | Yes |
0x2C | Original NCCH key, when ncchflag[3] is 0x00 and always for certain NCCH sections. | Bootrom. | Process9. | - | Yes |
0x2D | UDS local-WLAN CCMP key.
See EncryptDecryptAes. |
Bootrom. | Bootrom. | - | Yes |
0x2E | Streetpass key.
See EncryptDecryptAes. |
Bootrom. | NATIVE_FIRM. | - | Yes |
0x2F | v6.0 save key. | Bootrom. | NATIVE_FIRM. | - | Yes |
0x30 | SD/NAND AES-MAC key.
This keyY is initialized via movable.sed. This is used for calculating the AESMACs under SD /Nintendo 3DS/<ID0>/<ID1>/ (except DSiWare_Exports) and NAND /data/. |
Bootrom. | NATIVE_FIRM. | - | Yes |
0x31 | APT wrap key.
See EncryptDecryptAes. NATIVE_FIRM sets this keyY to the same one used for keyslot 0x2E. |
Bootrom. | NATIVE_FIRM. | - | Yes |
0x32 | Unknown.
See EncryptDecryptAes. |
Bootrom. | Bootrom. | - | Yes |
0x33 | Gamecard savedata AES-MAC. | Bootrom. | NATIVE_FIRM. | - | Yes |
0x34 | SD key.
This keyY is initialized via movable.sed. This is used for encrypting *all* SD card data under /Nintendo 3DS/<ID0>/<ID1>/. |
Bootrom. | NATIVE_FIRM. | - | Yes |
0x35 | Movable.sed key.
This is the keyslot used for movable.sed encryption + AES-MAC with the import/export commands. |
Bootrom. | Bootrom. | - | Yes |
0x36 | Unknown. Used by friends module.
See EncryptDecryptAes. |
Bootrom. | Bootrom. | - | Yes |
0x37 | Gamecard savedata actual key. | Bootrom. | NATIVE_FIRM. | - | Yes |
0x38 | BOSS key.
See EncryptDecryptAes. |
Bootrom. | Bootrom. | - | Yes |
0x39 | Download Play key, and the actual NFC key for generating retail Amiibo keys.
This keyslot is used for two different keys. Both are available via EncryptDecryptAes. NATIVE_FIRM sets this keyY to the same one used for keyslot 0x2E. |
Bootrom. | NATIVE_FIRM. | - | Yes |
0x3A | DSiWare export key.
This keyY is initialized via movable.sed. This is used for calculating the AESMACs for SD DSiWare_Exports. |
Bootrom. | NATIVE_FIRM. | - | Yes |
0x3B | CTR-CARD hardware-crypto seed decryption key.
AES-CCM is used, the keyY, nonce and MAC are stored in the Card Info Header. |
Bootrom. | NATIVE_FIRM. | - | Yes |
0x3D | Common key.
Used to decrypt title keys in Ticket. |
Bootrom. | NATIVE_FIRM. | - | Yes |
Updating keydata
The contents of the keyslot specified in AES_KEYCNT can be updated by consecutively writing four words to AES_KEYXFIFO (keyX), AES_KEYYFIFO(keyY), or AES_KEYFIFO (normalkey).
After writing to a keyslot, the keyslot must be selected again(write AES_KEYSEL + set AES_CNT bit26), even when writing to the same keyslot. Writing the last word to a key FIFO immediately after selecting a keyslot will not affect the keyslot keydata that gets used at that time, the new keydata will not get used until the keyslot gets selected again.
Writing to the key FIFOs with byte writes results in the AES engine converting the byte to a word for setting the key word, with this: word = (byteval) | (byteval<<8) | (byteval<<16) | (byteval<<24). The result is the same regardless of which FIFO register byte was written to.
The TWL keyslots 0x00-0x03 can be set directly by writing to the AES_KEY0-AES_KEY3 registers.
The key FIFOs can be written simultaneously. For example, executing the following will result in the keyX and keyY being set to all-zero(unknown for normalkey): memset(0x10009100, 0, 0x100);
Each key FIFO has a 0x10-byte tmp-buffer for storing the words written to that FIFO. Once the last word is written to a key FIFO, the filled tmp-buffer is then written to the key-data for the keyslot selected by AES_KEYCNT at the time the last word was written.
Hardware key generator
A dedicated hardware key generator can be used to generate a keyslot's normal-key from its keyX and keyY. The hardware key generator is triggered by writing the keyY, which is the only way to trigger it with the 3DS keyslots.
The algorithm for generating the normal-key from keyX and keyY is as follows, in big-endian 128-bit unsigned wraparound arithmetic:
Mode | Formula |
---|---|
3DS | NormalKey = (((KeyX ROL 2) XOR KeyY) + C1) ROR 41 |
DSi | NormalKey = ((KeyX XOR KeyY) + C2) ROL 42 |
Unless noted otherwise, all keyslots on retail units use the hardware key generator.
FIRM-launch key clearing
Starting with 9.0.0-20 the Process9 FIRM-launch code now "clears" the following AES keyslots, with certain keydata by writing the normal-key: 0x15 and 0x18-0x20. These are the keyslots used by the New3DS FIRM arm9bin loader(minus keyslot 0x11), the New3DS Process9 does this too.