MightyPork / TinyFrame

A simple library for building and parsing data frames for serial interfaces (like UART / RS232)
MIT License
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arduino embedded esp8266 protocol stm32 uart

TinyFrame

TinyFrame is a simple library for building and parsing data frames to be sent over a serial interface (e.g. UART, telnet, socket). The code is written to build with --std=gnu99 and mostly compatible with --std=gnu89.

The library provides a high level interface for passing messages between the two peers. Multi-message sessions, response listeners, checksums, timeouts are all handled by the library.

TinyFrame is suitable for a wide range of applications, including inter-microcontroller communication, as a protocol for FTDI-based PC applications or for messaging through UDP packets.

The library lets you register listeners (callback functions) to wait for (1) any frame, (2) a particular frame Type, or (3) a specific message ID. This high-level API is general enough to implement most communication patterns.

TinyFrame is re-entrant and supports creating multiple instances with the limitation that their structure (field sizes and checksum type) is the same. There is a support for adding multi-threaded access to a shared instance using a mutex.

TinyFrame also comes with (optional) helper functions for building and parsing message payloads, those are provided in the utils/ folder.

Ports

TinyFrame has been ported to mutiple languages:

Please note most of the ports are experimental and may exhibit various bugs or missing features. Testers are welcome :)

Functional overview

The basic functionality of TinyFrame is explained here. For particlars, such as the API functions, it's recommended to read the doc comments in the header file.

Structure of a frame

Each frame consists of a header and a payload. Both parts can be protected by a checksum, ensuring a frame with a malformed header (e.g. with a corrupted length field) or a corrupted payload is rejected.

The frame header contains a frame ID and a message type. Frame ID is incremented with each new message. The highest bit of the ID field is fixed to 1 and 0 for the two peers, avoiding a conflict.

Frame ID can be re-used in a response to tie the two messages together. Values of the type field are user defined.

All fields in the frame have a configurable size. By changing a field in the config file, such as TF_LEN_BYTES (1, 2 or 4), the library seamlessly switches between uint8_t, uint16_t and uint32_t for all functions working with the field.

,-----+-----+-----+------+------------+- - - -+-------------,
| SOF | ID  | LEN | TYPE | HEAD_CKSUM | DATA  | DATA_CKSUM  |
| 0-1 | 1-4 | 1-4 | 1-4  | 0-4        | ...   | 0-4         | <- size (bytes)
'-----+-----+-----+------+------------+- - - -+-------------'

SOF ......... start of frame, usually 0x01 (optional, configurable)
ID  ......... the frame ID (MSb is the peer bit)
LEN ......... number of data bytes in the frame
TYPE ........ message type (used to run Type Listeners, pick any values you like)
HEAD_CKSUM .. header checksum

DATA ........ LEN bytes of data
DATA_CKSUM .. data checksum (left out if LEN is 0)

Message listeners

TinyFrame is based on the concept of message listeners. A listener is a callback function waiting for a particular message Type or ID to be received.

There are 3 listener types, in the order of precedence:

ID listeners can be registered automatically when sending a message. All listeners can also be registered and removed manually.

ID listeners are used to receive the response to a request. When registerign an ID listener, it's possible to attach custom user data to it that will be made available to the listener callback. This data (void *) can be any kind of application context variable.

ID listeners can be assigned a timeout. When a listener expires, before it's removed, the callback is fired with NULL payload data in order to let the user free() any attached userdata. This happens only if the userdata is not NULL.

Listener callbacks return values of the TF_Result enum:

Data buffers, multi-part frames

TinyFrame uses two data buffers: a small transmit buffer and a larger receive buffer. The transmit buffer is used to prepare bytes to send, either all at once, or in a circular fashion if the buffer is not large enough. The buffer must only contain the entire frame header, so e.g. 32 bytes should be sufficient for short messages.

Using the *_Multipart() sending functions, it's further possible to split the frame header and payload to multiple function calls, allowing the applciation to e.g. generate the payload on-the-fly.

In contrast to the transmit buffer, the receive buffer must be large enough to contain an entire frame. This is because the final checksum must be verified before the frame is handled.

If frames larger than the possible receive buffer size are required (e.g. in embedded systems with small RAM), it's recommended to implement a multi-message transport mechanism at a higher level and send the data in chunks.

Usage Hints

Gotchas to look out for

Examples

You'll find various examples in the demo/ folder. Each example has it's own Makefile, read it to see what options are available.

The demos are written for Linux, some using sockets and clone() for background processing. They try to simulate real TinyFrame behavior in an embedded system with asynchronous Rx and Tx. If you can't run the demos, the source files are still good as examples.