Difference between revisions of "File format:Sigrok/v3"
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Revision as of 18:35, 29 August 2014
This page describes the proposed file/stream format (v3) for sigrok sessions.
NOTE: This is work in progress and has not yet been implemented!
Motivation
The previous sigrok session file format (version 2) was a ZIP file containing multiple files (some metadata files and actual sampling data files). This works fine, but it also has some issues:
- In order to get to the data you want, you need to decompress the whole file.
- Appending to a file is not possible easily (and it's not efficient).
- ...
Goals
The following list highlights some of the goals of the new file format:
- It should be able to store metadata and arbitrary data (logic samples, and/or analog samples, and so on).
- It must support compression.
- It should be able to handle run-time changes in the data streams (via meta packets on the session bus), e.g. changing samplerates, changing probes, etc. etc.
- Better compression properties (e.g. using LZO or other algorithms, this is to be evaluated). What we ideally want out of the compression algorithm is:
- Good and relatively fast compression results at only moderate CPU usage.
- Very fast decompression (LZO is probably the best one here, as it's specifically designed for this).
- Ideally, support for appending further data to already compressed data chunks (though this could be also implemented outside of the compression algorithm per se).
- Open-source license and OS portability. There should be an open-source library or code chunk for compression/uncompression and it should be widely available in Linux distros, and portable to Windows, Mac OS X, FreeBSD, Android, and so on.
- Independent of hardware architecture (x86, ARM, PowerPC, MIPS, and so on), operating system, endianness, float representation, and so on. All data fields must be properly specified (endianness, signedness, size, format).
- Must (optionally) allow to store arbitrary extra information that may be useful to frontends (UI state data, user-configured probe colors, names, positions, and so on).
Specification
UUIDs
The format uses random UUIDs (version 4) as per RFC4122 in various places. These UUIDs are always 16 bytes long.
A simple way to generate a random (version 4) UUID (ASCII and hex representation):
$ python3 -c 'import uuid; u = uuid.uuid4(); print(u); print(u.hex)' 14c49f22-f08a-4ef2-b3d7-82ee16c3d531 14c49f22f08a4ef2b3d782ee16c3d531
File/stream format
The format consists entirely of a stream of packets of various types.
These packets can be either written to or read from a file, buffer, pipe, socket, or any other source/destination.
Packet format
Every packet consists of three fields:
Field | Length | Description |
---|---|---|
UUID | 16 | The UUID (binary representation, 16 bytes, little-endian) which identifies the type of packet (globally unique). The reason for using a UUID here (instead of some simple index number) is to allow for clients to define and use their own special-purpose packet types as they see fit, without having to fear any conflicts with existing packet types (or packet types that someone else might add later). |
Length | 4 | The length of the data in this packet (in number of bytes). The length does not include the length of the UUID field or the Length field itself, only the length of the Data field. The length is given as an uint32_t number (little-endian). |
Data | 0..n | The actual payload data, max. 2^32 bytes (4GiB). For some packet types the Data field is optional (in that case it is completely omitted and the Length field is set to 0). The contents of the Data field are entirely dependent on (and vary with) the type of packet. |
Using the common UUID/Length/Data triplet for each packet allows clients to easily skip over (ignore) any packets they do not know how to handle, and instead continue on to checking/handling the next packet.
Example packet with a 7-byte data field:
UUID | Length | Data |
---|---|---|
14 c4 9f 22 f0 8a 4e f2 b3 d7 82 ee 16 c3 d5 31 | 00 00 00 07 | 11 22 33 44 55 66 77 |
Example packet without a data field:
UUID | Length |
---|---|
14 c4 9f 22 f0 8a 4e f2 b3 d7 82 ee 16 c3 d5 31 | 00 00 00 00 |
Packets
The following packets are currently defined for use in projects hosted on sigrok.org.
The "names" (e.g. "SIGROK_PACKET_MAGIC") are for documentation purposes only, the UUIDs are what actually matters. The names are prefixed with SIGROK_ to make it clear that other 3rd-party software may define their own additional packet types with arbitrary contents and for arbitrary purposes.
SIGROK_PACKET_MAGIC
This a special "magic" packet that serves as a file type marker for actual files (so that the file utility can properly detect sigrok files). It also contains some metadata about the file/stream format itself. This packet has to be the very first one in the file/stream and is only allowed to be used exactly once in a file/stream.
This packet uses the fixed UUID 5a1772eb-2854-48a8-a41c-7397d7e9223d.
The Data field has the following contents:
Field | Length | Description |
---|---|---|
Version | 2 | The version of the sigrok file/stream format in binary format (little-endian). Current version: 0x0003 (continuing the count from the last two ZIP-based file format versions). |
Magic marker | 6 | This is a special marker that can be used by the file utility (and other tools) to detect the file format easily. Contents: sIgRoK. |
Example packet:
UUID | Length | Data |
---|---|---|
5a 17 72 eb 28 54 48 a8 a4 1c 73 97 d7 e9 22 3d | 00 00 00 04 | 00 03 73 49 67 52 6f 4b |
SIGROK_PACKET_LOGIC
This is a packet type used to store/transmit (only) digital samples, usually from a logic analyzer.
This packet uses the fixed UUID 2236202e-9ee7-4bc6-81f6-56b4e6e029ba.
The Data field has the following contents:
Field | Length | Description |
---|---|---|
Version | 2 | The version of the SIGROK_PACKET_LOGIC format in binary format (little-endian). Current version: 0x0001. |
Reserved | 2 | Reserved field. Reads should ignore this field, writes should keep this field's value unchanged (if it was read before), otherwise set it to 0x0000. Current value: 0x0000. |
Payload format UUID | 16 | A UUID (binary representation, 16 bytes, little-endian) which identifies a certain payload format. |
Compression scheme UUID | 16 | A UUID (binary representation, 16 bytes, little-endian) which identifies a certain compression scheme that is applied to the payload data. |
Payload length | 4 | The length of the actual payload data in this SIGROK_PACKET_LOGIC packet (in number of bytes). The length only includes the Payload field. The length is given as an uint32_t number (little-endian). |
Payload | 0..n | The actual payload data, i.e. logic analyzer samples in the specified payload format, using the specified compression scheme. |
Example packet:
(Packet type SIGROK_PACKET_LOGIC, 0x30 bytes packet data, SIGROK_PACKET_LOGIC version 0x0001, SIGROK_PAYLOAD_FORMAT_LOGIC_V1 payload format, SIGROK_COMPRESSION_NONE compression scheme, 8 bytes of logic analyzer payload (compressed))
UUID | Length | Data |
---|---|---|
22 36 20 2e 9e e7 4b c6 81 f6 56 b4 e6 e0 29 ba | 00 00 00 30 | 00 01 00 00 d2 96 4f 38 8b 13 45 70 9a dd ad d5 67 8a 03 94 ec 6b d7 63 c8 79 4a a7 a9 7a 7e df 0e 68 af c7 00 00 00 08 11 22 33 44 5 66 77 88 |
SIGROK_PACKET_ANALOG
This is a packet type used to store/transmit (only) analog samples, e.g. from a multimeter, oscilloscope, sound level meter, or any other source for analog data.
This packet uses the fixed UUID 59def330-536a-46b1-8edd-62f2195d1c95.
Details yet to be defined.
SIGROK_PACKET_FRONTEND
This is a packet type used to store/transmit configuration data of (supported) sigrok frontends. This can include an arbitrary number of things, such as user-configured channel names, channel colors, window sizes and other UI state, protocol decoder setups, and so on.
This packet uses the fixed UUID 1325b595-0d5e-40a4-ac4d-36e89224dcb9.
Details yet to be defined.
List of known packet types
This is a short overview of known packet types that are in use. This includes the packet types used in projects hosted at sigrok.org, as well as pointers to packet types that other (3rd-party) software is known to use.
UUID | Packet type | Description |
---|---|---|
5a1772eb-2854-48a8-a41c-7397d7e9223d | SIGROK_PACKET_MAGIC | See above. |
5a1772eb-2854-48a8-a41c-7397d7e9223d | SIGROK_PACKET_LOGIC | See above. |
59def330-536a-46b1-8edd-62f2195d1c95 | SIGROK_PACKET_ANALOG | See above. |
1325b595-0d5e-40a4-ac4d-36e89224dcb9 | SIGROK_PACKET_FRONTEND | See above. |
List of known payload formats
This is a short overview of known payload formats that are in use. This includes the payload formats used in projects hosted at sigrok.org, as well as pointers to payload formats that other (3rd-party) software is known to use.
UUID | Payload format | Description |
---|---|---|
d2964f38-8b13-4570-9add-add5678a0394 | SIGROK_PAYLOAD_FORMAT_LOGIC_V1 | This payload format can only store digital samples from a logic analyzer (0/1 values for a certain channel/probe/pin). It is basically identical to the format that was used in the previous ZIP-based file format versions. Details are yet to be defined. |
79e7cfd1-0f56-4d5e-968a-b66fdbdff624 | SIGROK_PAYLOAD_FORMAT_ANALOG_V1 | A certain type of payload format that can store (only) analog samples of a certain number of analog channels. Details are yet to be defined. |
List of known compression schemes
This is a short overview of known compression schemes that are in use. This includes the schemes used in projects hosted at sigrok.org, as well as pointers to schemes that other (3rd-party) software is known to use.
UUID | Compression scheme | Description |
---|---|---|
ec6bd763-c879-4aa7-a97a-7edf0e68afc7 | SIGROK_COMPRESSION_NONE | No compression whatsoever is used. |
acd2e249-5c4d-426d-96ae-ded5b6020e6f | SIGROK_COMPRESSION_RLE_V1 | A certain type of RLE-based compression is used. Details are yet to be defined. |
Futher notes and ideas to consider
- Data should be encoded in a data aware way. This would give greater compression:
- Logic Data is most efficient stored in RLE+Huffman or Golomb coding. e.g. a clock signal may compress to one bit per edge.
- FLAC (libflac) or a FLAC inspired codec (linear predicition) is probably as good as it gets for lossless analog data encoding.
- If data is stored in a format specific way, it would be best to store it as a series of stream-blocks, similar to how video containers work. Would it be possible to simply leverage a video container such as OGG? IIRC this contains headers to declare metadata about each stream, then a series of timestamped stream blocks interleaved together. The time stamp is a format specific number... for audio: the sample number, for video: the frame number, so sigrok formats can easily leverage this.
- Similarly RTP is a rather natural protocol for sigrok network streaming.