unleashed-firmware/documentation/file_formats/SubGhzFileFormats.md
2023-10-08 11:43:16 +03:00

14 KiB

File Formats for Flipper's SubGhz Subsystem

.sub File Format

Flipper uses .sub files to store SubGhz transmissions. These are text files in Flipper File Format. .sub files can contain either a SubGhz Key with a certain protocol or SubGhz RAW data.

A .sub files consist of 3 parts:

  • header, contains file type, version, and frequency
  • preset information, preset type and, in case of a custom preset, transceiver configuration data
  • protocol and its data, contains protocol name and its specific data, such as key, bit length, etc., or RAW data

Flipper's SubGhz subsystem uses presets to configure the radio transceiver. Presets are used to configure modulation, bandwidth, filters, etc. There are several presets available in stock firmware, and there is a way to create custom presets. See SubGhz Presets for more details.

Header format

Header is a mandatory part of .sub file. It contains file type, version, and frequency.

Field Type Description
Filetype string Filetype of subghz file format, must be Flipper SubGhz Key File
Version uint Version of subghz file format, current version is 1
Frequency uint Frequency in Hertz

Preset information

Preset information is a mandatory part for .sub files. It contains preset type and, in case of custom preset, transceiver configuration data.

When using one of the standard presets, only Preset field is required. When using a custom preset, Custom_preset_module and Custom_preset_data fields are required.

Field Description
Preset Radio preset name (configures modulation, bandwidth, filters, etc.). When using a custom preset, must be FuriHalSubGhzPresetCustom
Custom_preset_module Transceiver identifier, CC1101 for Flipper Zero
Custom_preset_data Transceiver configuration data

Built-in presets:

  • FuriHalSubGhzPresetOok270Async — On/Off Keying, 270kHz bandwidth, async(IO throw GP0)
  • FuriHalSubGhzPresetOok650Async — On/Off Keying, 650kHz bandwidth, async(IO throw GP0)
  • FuriHalSubGhzPreset2FSKDev238Async — 2 Frequency Shift Keying, deviation 2kHz, 270kHz bandwidth, async(IO throw GP0)
  • FuriHalSubGhzPreset2FSKDev476Async — 2 Frequency Shift Keying, deviation 47kHz, 270kHz bandwidth, async(IO throw GP0)

Transceiver Configuration Data

Transceiver configuration data is a string of bytes, encoded in hex format, separated by spaces. For CC1101 data structure is: XX YY XX YY .. 00 00 ZZ ZZ ZZ ZZ ZZ ZZ ZZ ZZ, where:

  • XX, holds register address,
  • YY, contains register value,
  • 00 00, marks register block end,
  • ZZ ZZ ZZ ZZ ZZ ZZ ZZ ZZ, 8 byte PA table (Power amplifier ramp table).

You can find more details in the CC1101 datasheet and furi_hal_subghz code.

File Data

.sub file data section contains either key data — protocol name and its specific data, bit length, etc., or RAW data — an array of signal timings, recorded without any protocol-specific processing.

Key Files

.sub files with key data files contain protocol name and its specific data, such as key value, bit length, etc. Check out the protocol registry for the full list of supported protocol names.

Example of a key data block in Princeton format:

...
Protocol: Princeton
Bit: 24
Key: 00 00 00 00 00 95 D5 D4
TE: 400

Protocol-specific fields in this example:

Field Description
Bit Princeton payload length, in bits
Key Princeton payload data
TE Princeton quantization interval

This file may contain additional fields, more details on available fields can be found in subghz protocols library.

RAW Files

RAW .sub files contain raw signal data that is not processed through protocol-specific decoding. These files are useful for testing or sending data not supported by any known protocol.

For RAW files, 2 fields are required:

  • Protocol, must be RAW
  • RAW_Data, contains an array of timings, specified in microseconds Values must be non-zero, start with a positive number, and interleaved (change sign with each value). Up to 512 values per line. Can be specified multiple times to store multiple lines of data.

Example of RAW data:

Protocol: RAW
RAW_Data: 29262 361 -68 2635 -66 24113 -66 11 ...

Long payload not fitting into internal memory buffer and consisting of short duration timings (< 10us) may not be read fast enough from the SD card. That might cause the signal transmission to stop before reaching the end of the payload. Ensure that your SD Card has good performance before transmitting long or complex RAW payloads.

BIN_RAW Files

BinRAW .sub files and RAW files both contain data that has not been decoded by any protocol. However, unlike RAW, BinRAW files only record a useful repeating sequence of durations with a restored byte transfer rate and without broadcast noise. These files can emulate nearly all static protocols, whether Flipper knows them or not.

  • Usually, you have to receive the signal a little longer so that Flipper accumulates sufficient data for correct analysis.

For BinRAW files, the following parameters are required and must be aligned to the left:

  • Protocol, must be BinRAW.
  • Bit, is the length of the payload of the entire file, in bits (max 4096).
  • TE, is the quantization interval, in us.
  • Bit_RAW, is the length of the payload in the next Data_RAW parameter, in bits.
  • Data_RAW, is an encoded sequence of durations, where each bit in the sequence encodes one TE interval: 1 - high level (there is a carrier), 0 - low (no carrier). For example, TE=100, Bit_RAW=8, Data_RAW=0x37 => 0b00110111, that is, -200 200 -100 300 will be transmitted. When sending uploads, Bit_RAW and Data_RAW form a repeating block. Several such blocks are necessary if you want to send different sequences sequentially. However, usually, there will be only one block.

Example data from a BinRAW file:

...
Protocol: BinRAW
Bit: 1572
TE: 597
Bit_RAW: 260
Data_RAW: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0F 4A B5 55 4C B3 52 AC D5 2D 53 52 AD 4A D5 35 00
Bit_RAW: 263
Data_RAW: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 02 00 04 D5 32 D2 AB 2B 33 32 CB 2C CC B3 52 D3 00
Bit_RAW: 259
Data_RAW: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 03 4A AB 55 34 D5 2D 4C CD 33 4A CD 55 4C D2 B3 00
Bit_RAW: 263
Data_RAW: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0F 7F 4A AA D5 2A CC B2 B4 CB 34 CC AA AB 4D 53 53 00
Bit_RAW: 264
Data_RAW: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 01 FC 00 00 15 2C CB 34 D3 35 35 4D 4B 32 B2 D3 33 00
Bit_RAW: 263
Data_RAW: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 DE 02 D3 54 D5 4C D2 CC AD 4B 2C B2 B5 54 CC AB 00

File examples

Key file, standard preset

Filetype: Flipper SubGhz Key File
Version: 1
Frequency: 433920000
Preset: FuriHalSubGhzPresetOok650Async
Protocol: Princeton
Bit: 24
Key: 00 00 00 00 00 95 D5 D4
TE: 400

Key file, custom preset

Filetype: Flipper SubGhz Key File
Version: 1
Frequency: 433920000
Preset: FuriHalSubGhzPresetCustom
Custom_preset_module: CC1101
Custom_preset_data: 02 0D 03 07 08 32 0B 06 14 00 13 00 12 30 11 32 10 17 18 18 19 18 1D 91 1C 00 1B 07 20 FB 22 11 21 B6 00 00 00 C0 00 00 00 00 00 00
Protocol: Princeton
Bit: 24
Key: 00 00 00 00 00 95 D5 D4
TE: 400

RAW file, standard preset

Filetype: Flipper SubGhz RAW File
Version: 1
Frequency: 433920000
Preset: FuriHalSubGhzPresetOok650Async
Protocol: RAW
RAW_Data: 29262 361 -68 2635 -66 24113 -66 11 ...
RAW_Data: -424 205 -412 159 -412 381 -240 181 ...
RAW_Data: -1448 361 -17056 131 -134 233 -1462 131 -166 953 -100 ...

RAW file, custom preset

Filetype: Flipper SubGhz RAW File
Version: 1
Frequency: 433920000
Preset: FuriHalSubGhzPresetCustom
Custom_preset_module: CC1101
Custom_preset_data: 02 0D 03 07 08 32 0B 06 14 00 13 00 12 30 11 32 10 17 18 18 19 18 1D 91 1C 00 1B 07 20 FB 22 11 21 B6 00 00 00 C0 00 00 00 00 00 00
Protocol: RAW
RAW_Data: 29262 361 -68 2635 -66 24113 -66 11 ...
RAW_Data: -424 205 -412 159 -412 381 -240 181 ...
RAW_Data: -1448 361 -17056 131 -134 233 -1462 131 -166 953 -100 ...

SubGhz configuration files

SubGhz application provides support for adding extra radio presets and additional keys for decoding transmissions in certain protocols.

SubGhz keeloq_mfcodes_user file

This file contains additional manufacturer keys for Keeloq protocol. It is used to decode Keeloq transmissions. This file is loaded at subghz application start and is located at path /ext/subghz/assets/keeloq_mfcodes_user.

File format

File contains a header and a list of manufacturer keys.

File header format:

Field Type Description
Filetype string SubGhz Keystore file format, always Flipper SubGhz Keystore File
Version uint File format version, 0
Encryption uint File encryption: for user-provided file, set to 0 (disabled)

Following the header, file contains a list of user-provided manufacture keys, one key per line. For each key, a name and encryption method must be specified, according to comment in file header. More information can be found in keeloq decoder source code.

Example

# to use manual settings and prevent them from being deleted on upgrade, rename *_user.example files to *_user
# for adding manufacture keys
# AABBCCDDEEFFAABB:X:NAME
# AABBCCDDEEFFAABB - man 64 bit
# X - encryption method:
# - 0 - iterates over both previous and man in direct and reverse byte sequence
# - 1 - Simple Learning
# - 2 - Normal_Learning
# - 3 - Secure_Learning
# - 4 - Magic_xor_type1 Learning
#
# NAME - name (string without spaces) max 64 characters long
Filetype: Flipper SubGhz Keystore File
Version: 0
Encryption: 0
AABBCCDDEEFFAABB:1:Test1
AABBCCDDEEFFAABB:1:Test2

SubGhz setting_user file

This file contains additional radio presets and frequencies for SubGhz application. It is used to add new presets and frequencies for existing presets. This file is being loaded on subghz application start and is located at path /ext/subghz/assets/setting_user.

File format

File contains a header, basic options, and optional lists of presets and frequencies.

Header must contain the following fields:

  • Filetype: SubGhz setting file format, must be Flipper SubGhz Setting File.
  • Version: file format version, current is 1.

Basic settings

  • Add_standard_frequencies: bool, flag indicating whether to load standard frequencies shipped with firmware. If set to false, only frequencies specified in this file will be used.
  • Default_frequency: uint, default frequency used in SubGhz application.

Adding more frequencies

  • Frequency: uint — additional frequency for the subghz application frequency list. Used in Read and Read RAW. You can specify multiple frequencies, one per line.

Adding more hopper frequencies

  • Hopper_frequency: uint — additional frequency for subghz application frequency hopping. Used in Frequency Analyzer. You can specify multiple frequencies, one per line.

Repeating the same frequency will cause Flipper to listen to this frequency more often.

Adding a Custom Preset

You can have as many presets as you want. Presets are embedded into .sub files, so another Flipper can load them directly from that file. Each preset is defined by the following fields:

Field Description
Custom_preset_name string, preset name that will be shown in SubGHz application
Custom_preset_module string, transceiver identifier. Set to CC1101 for Flipper Zero
Custom_preset_data transceiver configuration data. See Transceiver Configuration Data for details.

Example

# to use manual settings and prevent them from being deleted on upgrade, rename *_user.example files to *_user
Filetype: Flipper SubGhz Setting File
Version: 1

# Add Standard frequencies for your region
Add_standard_frequencies: true

# Default Frequency: used as default for "Read" and "Read Raw"
Default_frequency: 433920000

# Frequencies used for "Read", "Read Raw" and "Frequency Analyzer"
Frequency: 300000000
Frequency: 310000000
Frequency: 320000000

# Frequencies used for hopping mode (keep this list small or Flipper will miss the signal)
Hopper_frequency: 300000000
Hopper_frequency: 310000000
Hopper_frequency: 310000000

# Custom preset
# format for CC1101 "Custom_preset_data:" XX YY XX YY .. 00 00 ZZ ZZ ZZ ZZ ZZ ZZ ZZ ZZ, where: XX-register, YY - register data, 00 00 - end load register, ZZ - 8 byte Pa table register

#Custom_preset_name: AM_1
Custom_preset_module: CC1101
Custom_preset_data: 02 0D 03 07 08 32 0B 06 14 00 13 00 12 30 11 32 10 17 18 18 19 18 1D 91 1C 00 1B 07 20 FB 22 11 21 B6 00 00 00 C0 00 00 00 00 00 00

#Custom_preset_name: AM_2
#Custom_preset_module: CC1101
#Custom_preset_data: 02 0D 03 07 08 32 0B 06 14 00 13 00 12 30 11 32 10 17 18 18 19 18 1D 91 1C 00 1B 07 20 FB 22 11 21 B6 00 00 00 C0 00 00 00 00 00 00