Trice <- TRace Ids C Embedded
Log in (a) trice (S>G)
even inside β― interrupts in less than 1 Β΅sβ
About
- Replace
printf
orlog
in C-code for getting: - Main idea: Logging strings not into an embedded device to display them later on a PC but keep usage comfortable and simple.
- Trice consists of 2 parts:
- C code
TRICE
macros generating tiny & super-fast embedded device real-time trace/log code - Tool trice for managing and visualization.
- Written in Go and therefore usable on all platforms Go supports.
- You can also use your own environment to receive the Trice packages, exchange the carried IDs with the format string and print out.
- C code
- Trice User guide
Possible Use Cases
- Using Trice not only for printf debugging but also as logging technique is possible and gives the advantage to have very short messages (no strings) for transmission, but keep in mind that the file til.json is the key to read all output if your devices in the field for 10 or more years.
- You can see Trice also as a kind of data compression what could be interesting for IoT things, especially NB-IoT, where you have very low data rates.
- Storing Trice messages in FLASH memory for later log analysis saves memory because a typical
TRICE
occupies only about 4-8 bytes independently of the format string length. - Also, it is possible to encrypt the Trice transfer packets to get a reasonable protection for many cases.
- You can even translate the til.json file in different languages, so changing a language is just changing the til.json file without touching the target binary.
- With Trice it is easy to do timing analysis on distributed embedded systems. Host and target timestamps are supported.
How it approximately works (UART example)
This slightly simplified view is explained here
Data Transfer
- Implemented:
- UART connectable to virtual UART over USB
- RTT over J-Link and RTT over ST-Link
- A small separate microcontroller is always usable as interfaces bridge to GPIO, IΒ²C, SPI, CAN, LIN, ...
- With a Chip from FTDI, check for example Adafruit FT232H Breakout, GPIO, I2C and SPI are easy accessable.
Display server option
Start trice ds
inside a console, option: third_party/alacritty, locally or on a remote PC and connect with several trice tool instances like with trice log -p COM15 -ds
for example.
Documentation
- https://interrupt.memfault.com/blog/trice
- Trice User Guide
- Check the docs folder. No need to read all this stuff - it is just for help and reference.
Support?
Yes please - or simply β it. βΊ
Cloning the repo:
git clone https://github.com/rokath/trice.git
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Debugging using VS-Code and Clang for a Trice-instrumented Project in Direct-Out Mode over SEGGER-RTT
(See folder ./examples for more details.)