Difference between revisions of "Amiibo"

Revision as of 01:03, 18 April 2015

Amiibo are NFC figures made by Nintendo, used in games in different forms (different in each game). It can be used with the New3DS and the Old3DS with an IR peripheral.

Technical specifications

AUTH_PWD

The NFC 32bit password for the PWD_AUTH command(for enabling write-access to the encrypted NFC pages / etc), appears to be generated from unknown data that doesn't change when the Amiibo data pages are being updated.

NTAG215 commands

Amiibo reading

GET_VERSION
READ, startpage=0x03. The read page data for page[0x3] must match little-endian 0xEEFF10F1.
PWD_AUTH
FAST_READ: startpage=0x00, endpage=0x3B
FAST_READ: startpage=0x3C, endpage=0x77
FAST_READ: startpage=0x78, endpage=0x86

Therefore, *all* pages from the Amiibo NFC tag are read, including the configuration pages at the end.

Amiibo writing

Use the same commands under the above reading section, then use those first 3 commands again.
Multiple WRITE commands for writing to pages 0x04..0x0C. The first byte for page[4] is zero here.
Multiple WRITE commands for writing to pages 0x20..0x81.
Use the last 3 commands from the above reading section.
WRITE: page=0x04, same data as before except first byte is 0xA5 this time.
FAST_READ: startpage=0x04, endpage=0x04

NFC pages

Each page is 4-bytes, there is a total of 0x87/135 pages. Minus the configuration pages at the end, the total is 0x82/130 pages. The following is the structure of the NFC pages:

NFC page	Total pages	Raw byte offset in EEPROM	Total byte size	Description
0x0	0x4	0x10	0x10	Same as standard NTAG215: 9-byte serial-number, "internal" u8 value, two lock bytes then the "Capability Container (CC)" page.
0x4	0x1	0x10	0x4	Last 3-bytes here are used with the following HMAC where the size is 0x1DF-bytes. The u16 starting at byte1 is used for the first two bytes in the 0x40-byte input buffer for Amiibo crypto init. The first byte is normally 0xA5. The remaining bytes are initially(before the Amiibo is written to) all-zero. Byte[2](maybe big-endian u16 starting at byte1?) here is incremented each time the Amiibo is written to.
0x5	0x8	0x14	0x20	The system crypts 0x1A0-bytes with some data from here, see below.
0xD	0x8	0x34	0x20	SHA256-(HMAC?) hash. The first 0x18-bytes of this hash is section3 in the encrypted buffer.
0x15	0xB	0x54	0x2C	This is plaintext data, see below.
0x20	0x8	0x80	0x20	SHA256-HMAC hash over 0x1DF-bytes: first 3-bytes are from the last 3-bytes of page[4], the rest is over the first 0x1DC-bytes of the plaintext data.
0x28	0x45	0xA0	0x114	This is section1 in the encrypted buffer.
0x6D	0x15	0x1B4	0x54	This is section2 in the encrypted buffer.

Structure of the data starting at page 0x15

Offset	Size	Description
0x0	0xC	?
0xC	0x20	Probably a SHA256-(HMAC?) hash.

Encrypted data buffer structure

Encrypted buffer offset	Raw byte offset in NFC EEPROM	NFC page	Byte size	Notes
0x0	0x14	0x5	0x20
0x20	0xA0	0x28	0x114
0x134	0x1B4	0x6D	0x54
0x188	0x34	0xD	0x18	This data is included in the crypto buffer, even though this data isn't actually encrypted(this is part of a hash).

Structure of the plaintext data

Offset	Size	Description
0x0	0xB0	Amiibo settings are stored within here.
0xB0	0xD8	AppData, for the user-application specified in the above Amiibo settings. The data stored here is application-specific.
0x188	0x18	Not used in "decrypted" form, since this isn't encrypted to begin with.

Structure of Amiibo settings

Offset	Size	Description
0x0	0x1	Flags. The low 4-bits here are copied to the struct used with NFC:GetAmiiboSettings. The below setup date is only loaded when bit4 and/or bit5 here are set, otherwise value 0 is used instead for the date. Bit4=1 indicates that the Amiibo was setup with amiibo Settings: NFC:GetAmiiboSettings will return an all-zero struct when this is not set. Bit5=1 indicates that the AppData was initialized. NFC:InitializeWriteAppData will return an error if this is value 1, when successful that command will then set this bit to value 1.
0x1	0x1	Unknown. The low 4-bits here are copied to the struct used with NFC:GetAmiiboSettings.
0x2	0x2	This big-endian u16 counter is incremented each time that the CRC32 at offset 0x8 gets updated by NFC:InitializeWriteAppData, due to that value not matching the calculated one. When this value is already 0xFFFF, this counter won't be updated anymore.
0x4	0x2	u16 big-endian date value, see below. This is the date for when the Amiibo was initially setup in amiibo Settings. This is also written by NFC:InitializeWriteAppData.
0x6	0x2	u16 big-endian date value, see below. This is the date for when the Amiibo was last written to.
0x8	0x4	Big-endian CRC32 value with initialval=~0, with the 8-byte output from Cfg:GenHashConsoleUnique. This is written by NFC:InitializeWriteAppData, when the current value doesn't match the calculated one.
0xC	0x14(10*2)	UTF-16BE Amiibo nickname.
0x20	0x60	Owner Mii.
0x80	0x8	Big-endian application programID/titleID from the application which initialized the AppData, zero otherwise. This is only written, not compared with the user application titleID: doing the latter would break games' cross-platform compatibility with 3DS<>Wii U(Super Smash Bros 3DS/Wii U for example).
0x88	0x2	u16 big-endian. This value is incremented each time the Amiibo is written to. When this value is already 0xFFFF, this counter won't be updated anymore.
0x8A	0x4	Big-endian u32 Amiibo AppID.
0x8E	0x2	?
0x90	0x20	Probably a SHA256-HMAC hash.

Format of the big-endian date values:

Bit	Description
0-4	Day
5-8	Month
9-15	Year, relative to 2000.

@@ Line 105: / Line 105: @@
 | 0xC
 | 0x20
-| Probably a SHA256-HMAC hash.
+| Probably a SHA256-(HMAC?) hash.
 |}