Skip to content

Latest commit

 

History

History
251 lines (186 loc) · 8.32 KB

README.md

File metadata and controls

251 lines (186 loc) · 8.32 KB

Thermal Camera 2 (tc2) firmware P2

This firmware is designed to take frames from a flir lepton 3 or lepton 3.5 sensor, and relay them to an attached raspberry pi running the tc2-agent software. It works as a drop-in replacement for leptond on 'classic' Cacophony thermal cameras.

This firmware is driven off of the vsync signal from the lepton module, and makes the rp2040 dormant whenever possible in between frame data being sent from the lepton module.

It connects to the lepton via one of the rp2040's built in SPI peripherals, but uses a PIO defined SPI slave to communicate with the raspberry pi, leaving the second hardware SPI peripheral for future communications with the onboard 2Gbit flash module.

The firmware/rp2040 is able to be restarted by the raspberry pi toggling it's RUN pin, and it's also able to be put into dormant mode via i2c by either the raspberry pi or the onboard attiny1616. It can then be woken by an interrupt on the WAKE pin on the board.

Note that currently this firmware includes a copied snapshot of rp2040-hal with some changes made to allow setting the frequency of the rp2040s Ring Oscillator, which is the main system clock used for the firmware due to its low power characteristics, and due to the fact that we don't require super-precise timings.
Once these changes are upstreamed, we should be able to switch to using the HAL as an external dependency.

The rosc also has the added benefit that it can go dormant and resume very quickly in between lepton frames - the onboard crystal oscillator is not able to do this.

Flashing this firmware via an attached raspberry pi

Build the firmware by running

cargo build --release

Copy the binary from ./target/thumbv6m-none-eabi/release/tc2-firmware to your raspberry pi.

With openocd installed on the pi, run

openocd -f interface/raspberrypi-swd.cfg -f target/rp2040.cfg -c "program ./tc2-firmware verify reset exit"

This firmware is based off of rp2040-hal-template.

probe-run is configured as the default runner, so you can start your program as easy as

cargo run --release

If you aren't using a debugger (or want to use cargo-embed/probe-rs-debugger), check out alternative runners for other options

Table of Contents

  1. Requirements
  2. Installation of development dependencies
  3. Running
  4. Alternative runners

Requirements

Installation of development dependencies

rustup target install thumbv6m-none-eabi
cargo install flip-link
# This is our suggested default 'runner'
cargo install probe-run
# If you want to use elf2uf2-rs instead of probe-run, instead do...
cargo install elf2uf2-rs --locked

Running

For a debug build

cargo run

For a release build

cargo run --release

If you do not specify a DEFMT_LOG level, it will be set to debug. That means println!(""), info!("") and debug!("") statements will be printed. If you wish to override this, you can change it in .cargo/config.toml

[env]
DEFMT_LOG = "off"

You can also set this inline (on Linux/MacOS)

DEFMT_LOG=trace cargo run

or set the environment variable so that it applies to every cargo run call that follows:

Linux/MacOS/unix

export DEFMT_LOG=trace

Setting the DEFMT_LOG level for the current session
for bash

export DEFMT_LOG=trace

Windows

Windows users can only override DEFMT_LOG through config.toml or by setting the environment variable as a separate step before calling cargo run

  • cmd
set DEFMT_LOG=trace
  • powershell
$Env:DEFMT_LOG = trace
cargo run

Alternative runners

If you don't have a debug probe or if you want to do interactive debugging you can set up an alternative runner for cargo.

Some of the options for your runner are listed below:

  • cargo embed
    Step 1 - Install cargo embed:

    $ cargo install cargo-embed

    Step 2 - Make sure your .cargo/config contains the following

    [target.thumbv6m-none-eabi]
    runner = "cargo embed"

    Step 3 - Update settings in Embed.toml

    • The defaults are to flash, reset, and start a defmt logging session You can find all the settings and their meanings in the cargo-embed repo

    Step 4 - Use cargo run, which will compile the code and start the specified 'runner'. As the 'runner' is cargo embed, it will flash the device and start running immediately

    $ cargo run --release
  • probe-rs-debugger

    Step 1 - Download probe-rs-debugger VSCode plugin 0.4.0

    Step 2 - Install probe-rs-debugger VSCode plugin

    $ code --install-extension probe-rs-debugger-0.4.0.vsix

    Step 3 - Install probe-rs-debugger

    $ cargo install probe-rs-debugger

    Step 4 - Open this project in VSCode

    Step 5 - Launch a debug session by choosing Run>Start Debugging (or press F5)

  • Loading a UF2 over USB
    Step 1 - Install elf2uf2-rs:

    $ cargo install elf2uf2-rs --locked

    Step 2 - Make sure your .cargo/config contains the following

    [target.thumbv6m-none-eabi]
    runner = "elf2uf2-rs -d"

    The thumbv6m-none-eabi target may be replaced by the all-Arm wildcard 'cfg(all(target_arch = "arm", target_os = "none"))'.

    Step 3 - Boot your RP2040 into "USB Bootloader mode", typically by rebooting whilst holding some kind of "Boot Select" button. On Linux, you will also need to 'mount' the device, like you would a USB Thumb Drive.

    Step 4 - Use cargo run, which will compile the code and start the specified 'runner'. As the 'runner' is the elf2uf2-rs tool, it will build a UF2 file and copy it to your RP2040.

    $ cargo run --release
  • Loading with picotool
    As ELF files produced by compiling Rust code are completely compatible with ELF files produced by compiling C or C++ code, you can also use the Raspberry Pi tool picotool. The only thing to be aware of is that picotool expects your ELF files to have a .elf extension, and by default Rust does not give the ELF files any extension. You can fix this by simply renaming the file.

    This means you can't easily use it as a cargo runner - yet.

    Also of note is that the special pico-sdk macros which hide information in the ELF file in a way that picotool info can read it out, are not supported in Rust. An alternative is TBC.