Target side implementation of the RTT (Real-Time Transfer) I/O protocol. RTT implements input and output via a debug probe using in-memory ring buffers and polling. This enables debug logging from the microcontroller with minimal delays and no blocking, making it usable even in real-time applications where e.g. semihosting delays cannot be tolerated.
A platform-specific critical-section
implementation is needed to use this library.
Output directly to a channel object with write!
or the binary write
method does not require locking and therefore does not need any platform-specific critical section.
With a platform-specific critical section in use, printing is as simple as:
use rtt_target::{rtt_init_print, rprintln};
fn main() {
rtt_init_print!();
loop {
rprintln!("Hello, world!");
}
}
rtt-target
also supports initializing multiple RTT channels, and even has a logger implementations
for log
and defmt
that can be used in conjunction with arbitrary
channel setups.
The defmt
integration requires setting features = ["defmt"]
. Furthermore, you have to either invoke rtt_init_defmt!
or set up your channel(s) manually and invoke set_defmt_channel
before using defmt
.
The log
integration requires setting features = ["log"]
. Furthermore, you have to either invoke rtt_init_log!
or set up your channel(s) manually and invoke init_logger
/init_logger_with_level
before using log
.
Note: For your platform, particularly if you're using a multi-core MCU, external logger implementations might be better suited than the one provided by this crate via the log
/defmt
feature.
For more information, please check out the documentation.
The examples-cortex-m and panic-test crates come with build files for the venerable STM32F103C8xx by default, but can be easily adapted for any chip as they contain only minimal platform-specific runtime code to get fn main
to run.