These are a list of unsorted, commonly asked questions and answers.
Please feel free to add items to link:https://github.com/embassy-rs/embassy/edit/main/docs/modules/ROOT/pages/faq.adoc[this page], especially if someone in the chat answered a question for you!
The command-line parameters `--deploy` will detect your device and upload the binary, `--serial` starts a serial connection. See the documentation for more info.
All of these flags are elaborated on in the Rust Book page linked above.
=== My binary is still big... filled with `std::fmt` stuff!
This means your code is sufficiently complex that `panic!` invocation's formatting requirements could not be optimized out, despite your usage of `panic-halt` or `panic-reset`.
You can remedy this by adding the following to your `.cargo/config.toml`:
[source,toml]
----
[unstable]
build-std = ["core"]
build-std-features = ["panic_immediate_abort"]
----
This replaces all panics with a `UDF` (undefined) instruction.
Depending on your chipset, this will exhibit different behavior.
Refer to the spec for your chipset, but for `thumbv6m`, it results in a hardfault. Which can be configured like so:
>>> referenced by driver.rs:127 (src/driver.rs:127)
>>> embassy_time-846f66f1620ad42c.embassy_time.4f6a638abb75dd4c-cgu.0.rcgu.o:(embassy_time::driver::now::hefb1f99d6e069842) in archive Devel/Embedded/pogodyna/target/thumbv7em-none-eabihf/debug/deps/libembassy_time-846f66f1620ad42c.rlib
>>> referenced by driver.rs:134 (src/driver.rs:134)
>>> embassy_time-846f66f1620ad42c.embassy_time.4f6a638abb75dd4c-cgu.0.rcgu.o:(embassy_time::driver::allocate_alarm::hf5145b6bd46706b2) in archive Devel/Embedded/pogodyna/target/thumbv7em-none-eabihf/debug/deps/libembassy_time-846f66f1620ad42c.rlib
>>> referenced by driver.rs:139 (src/driver.rs:139)
>>> embassy_time-846f66f1620ad42c.embassy_time.4f6a638abb75dd4c-cgu.0.rcgu.o:(embassy_time::driver::set_alarm_callback::h24f92388d96eafd2) in archive Devel/Embedded/pogodyna/target/thumbv7em-none-eabihf/debug/deps/libembassy_time-846f66f1620ad42c.rlib
>>> referenced by driver.rs:144 (src/driver.rs:144)
>>> embassy_time-846f66f1620ad42c.embassy_time.4f6a638abb75dd4c-cgu.0.rcgu.o:(embassy_time::driver::set_alarm::h530a5b1f444a6d5b) in archive Devel/Embedded/pogodyna/target/thumbv7em-none-eabihf/debug/deps/libembassy_time-846f66f1620ad42c.rlib
----
You probably need to enable a time driver for your HAL (not in `embassy-time`!). For example with `embassy-stm32`, you might need to enable `time-driver-any`:
** make `main`` spawn everything, then enable link:https://docs.rs/cortex-m/latest/cortex_m/peripheral/struct.SCB.html#method.set_sleeponexit[SCB.SLEEPONEXIT] and `loop { cortex_m::asm::wfi() }`
Something like this error will occur at **compile time** if the task arena is *too large* for the target's RAM:
[source,plain]
----
rust-lld: error: section '.bss' will not fit in region 'RAM': overflowed by _ bytes
rust-lld: error: section '.uninit' will not fit in region 'RAM': overflowed by _ bytes
----
And this message will appear at **runtime** if the task arena is *too small* for the tasks running:
[source,plain]
----
ERROR panicked at 'embassy-executor: task arena is full. You must increase the arena size, see the documentation for details: https://docs.embassy.dev/embassy-executor/'
----
NOTE: If all tasks are spawned at startup, this panic will occur immediately.
Yes! This can be useful if you need to respond to an event as fast as possible, and the latency caused by the usual “ISR, wake, return from ISR, context switch to woken task” flow is too much for your application. Simply define a `#[interrupt] fn INTERRUPT_NAME() {}` handler as you would link:https://docs.rust-embedded.org/book/start/interrupts.html[in any other embedded rust project].
== How can I measure resource usage (CPU, RAM, etc.)?
=== For CPU Usage:
There are a couple techniques that have been documented, generally you want to measure how long you are spending in the idle or low priority loop.
We need to document specifically how to do this in embassy, but link:https://blog.japaric.io/cpu-monitor/[this older post] describes the general process.
If you end up doing this, please update this section with more specific examples!
=== For Static Memory Usage
Tools like `cargo size` and `cargo nm` can tell you the size of any globals or other static usage. Specifically you will want to see the size of the `.data` and `.bss` sections, which together make up the total global/static memory usage.
Check out link:https://github.com/Dirbaio/cargo-call-stack/[`cargo-call-stack`] for statically calculating worst-case stack usage. There are some caveats and inaccuracies possible with this, but this is a good way to get the general idea. See link:https://github.com/dirbaio/cargo-call-stack#known-limitations[the README] for more details.