Ondřej Hruška
13c74ea6e6
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7 years ago | |
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demo | 7 years ago | |
utilities | 7 years ago | |
.gitignore | 7 years ago | |
CMakeLists.txt | 7 years ago | |
LICENSE | 8 years ago | |
README.md | 7 years ago | |
TF_Config.example.h | 7 years ago | |
TF_Integration.example.c | 7 years ago | |
TinyFrame.c | 7 years ago | |
TinyFrame.h | 7 years ago |
README.md
TinyFrame
TinyFrame is a simple library for building and parsing data frames to be sent
over a serial interface (e.g. UART, telnet etc.). The code is written to build with
--std=gnu89
and later.
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. If you find a good use for it, please let me know so I can add it here!
Frames can be protected by a checksum (~XOR, CRC16 or CRC32) and contain a unique ID field which can be used for chaining related messages. The highest bit of the generated frame IDs is different in each peer to avoid collisions. Peers are functionally equivalent and can send messages to each other (the names "master" and "slave" are used only for convenience).
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 lets the user easily implement various async communication patterns.
TinyFrame is re-entrant and supports creating multiple instances with the limitation that their structure (field sizes and checksum type) must be the same. There is a support for adding multi-threaded access to a shared instance using a mutex (via a callback stub).
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:
- The reference C implementation is in this repo
- Python port - MightyPork/PonyFrame
- Rust port - cpsdqs/tinyframe-rs
- JavaScript port - cpsdqs/tinyframe-js
Please note most of the ports are experimental and may exhibit various bugs or missing features. Testers are welcome :)
Frame structure
All fields in the message frame have a configurable size (see the top of the header file).
By just changing a definition in the header, such as TF_LEN_BYTES
(1, 2 or 4), the library
seamlessly switches between uint8_t
, uint16_t
and uint32_t
. Choose field lengths that
best suit your application needs.
For example, you don't need 4 bytes (uint32_t
) for the
length field if your payloads are 20 bytes long, using a 1-byte field (uint8_t
) will save
3 bytes. This may be significant if you need high throughput.
,-----+-----+-----+------+------------+- - - -+-------------,
| 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 (can be 0, in which case DATA_CKSUM is omitted as well)
DATA_CKSUM .. data checksum
Usage Hints
- All TinyFrame functions, typedefs and macros start with the
TF_
prefix. - Both peers must include the library with the same parameters (configured at the top of the header file)
- Start by calling
TF_Init()
withTF_MASTER
orTF_SLAVE
as the argument. This creates a handle. UseTF_InitStatic()
to avoid the use of malloc(). If multiple instances are used, you can tag them using thetf.userdata
/tf.usertag
field. - Implement
TF_WriteImpl()
- declared at the bottom of the header file asextern
. This function is used byTF_Send()
and others to write bytes to your UART (or other physical layer). A frame can be sent in it's entirety, or in multiple parts, depending on its size. - If you wish to use timeouts, periodically call
TF_Tick()
. The calling period determines the length of 1 tick. This is used to time-out the parser in case it gets stuck in a bad state (such as receiving a partial frame) and can also time-out ID listeners. - Bind Type or Generic listeners using
TF_AddTypeListener()
orTF_AddGenericListener()
. - Send a message using
TF_Send()
,TF_Query()
,TF_SendSimple()
,TF_QuerySimple()
. Query functions take a listener callback (function pointer)that will be added as an ID listener and wait for a response. - To reply to a message (when your listener gets called), use
TF_Respond()
with the msg boject you received, replacing thedata
pointer (andlen
) with response. - Manually reset the parser using
TF_ResetParser()
Message listeners
Listeners are callback functions that are called by TinyFrame when a message which they can handle is received.
There are 3 listener types:
- ID listeners
- Type listeners
- Generic listeners
Listeners return an enum constant based on what should be done next - remove the listener, keep it, renew it's timeout, or let some other listener handle the message.
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.