A Rust HAL and Embassy driver implementation for the HPMicro's RISC-V MCUs. The PAC(Peripheral Access Crate) is based on hpm-data.
This crate is a working-in-progress and not ready for production use.
MCU Family | PAC | Demo | Embassy | SYSCTL | GPIO | UART | I2C | SPI | DMA | TMR | ADC | USB | CAN |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
HPM6700 | ✓ | ✓ | ✓ | ✓ | ✓+ | ✓+ | ✓+ | ✓+ | ✓+ | ||||
HPM6300 | ✓ | ✓ | ✓ | ✓ | ✓+ | ? | ? | ? | ? | ||||
HPM6200 | ✓ | ✓ | ✓ | ✓ | ✓+ | ||||||||
HPM5300 | ✓ | ✓ | ✓ | ✓ | ✓+ | ✓+ | ✓+ | ✓+ | ✓+ | ✓ | ✓ | ✓ | |
HPM6800 | ✓ | ||||||||||||
HPM6E00 | ✓ | ✓ | ✓ | ✓ | ✓+ | ✓+ | ✓+ | ✓+ | ✓+ | ✓ | ✓ |
- ✓: Implemented
- ?: Requires demo verification
- !: Partially implemented
- Blank: Not implemented
- +: Async support
- Basic rt code: linker, startup
- vectored interrupt handling
- L1C support
- PMP for noncacheable memory
- CPU1 support - how to?
- Embassy time driver using MCHTMR
- SYSCTL init
- Resource group handling
- PLL setting
- GPIO, Flex, Input, Output, Async
- DMA, both HDMA and XDMA
- DMA v2
- DMA v1
- UART
- Blocking driver
- Async driver
- Ring buffer based async
- I2C
- Blocking driver
- Async driver
- SPI driver
- QSPI driver
- Blocking
- Async using DMA
- ADC driver
- ADC16
- blocking one-shot
- blocking periodic
- sequence mode
- preemption mode
- ADC12, and differential mode
- ADC16
- DAC driver
- direct mode
- step mode
- buffer mode
- buffer switch control using async
- hw trigger control
- RTC, with alarm driver and optional chrono datetime
- MBX
- blocking and async, message mode and fifo mode
- DMA driver?
- FEMC
- SDRAM init
- MCAN
- basic
mcan
wrapper [ ] async driver, better impl it in the App layer, see XiaoMi CyberGear motor demo- TSU management
- basic
- USB via embassy-usb
- Device
- Host
- XPI NOR flash driver using embedded-storage
- RNG, in blocking mode
- power domain handling
- andes-riscv for Andes' specific CSRs, PLIC
- hpm-data and hpm-metapac for Chip metadata and PAC generation
- hpm-riscv-rt for customized runtime (riscv-rt does not fit)
- probe-rs
- HPM5300 series flash algorithm support
- Other series are available in the top level of this repo as
HPMicro.yaml
- HPM6750 is not working(unknown bug), use OpenOCD instead
- Other series are available in the top level of this repo as
- probe-rs HPM fork (
hpmicro
branch), with DAP support and flash speed fix for HPM's RISC-V MCUs- Upstream Pull Request #2578 JTag support for DAPLink
- HPM5300 series flash algorithm support
The best reference is the examples in the examples
directory and Github actions workflow.
- A probe(debugger), optional if you are using official HPMicro's development board
- FT2232-based (official HPMicro's development board uses this chip)
- JLink
- DAPLink-based probe
- A flash tool for your probe, choose one from:
- probe-rs
- HPM OpenOCD
- JLink
- HPMIcro Manufacturing Tool
- A RISC-V GCC toolchain if you perfer to use OpenOCD(only GDB is needed)
- A Rust toolchain
rustup default nightly
rustup target add riscv32imafc-unknown-none-elf
- Install Rust: https://rustup.rs/
- Download HPM SDK: https://github.com/hpmicro/hpm_sdk
- Set
HPM_SDK_BASE
environment variable to the SDK path
- Set
- Choose one debugger:
- OpenOCD: HPM's fork https://github.com/hpmicro/riscv-openocd
- probe-rs or probe-rs HPM fork
- The
HPMicro.yaml
flash algorithm is provided in top level of this repo - If you are using DAPLink probe, you need to use the version from PR #2578 JTag support for DAPLink
- The
rustup default nightly
rustup target add riscv32imafc-unknown-none-elf
git clone https://github.com/hpmicro/hpm-hal.git
# Or if you are using SSH
git clone [email protected]:hpmicro/hpm-hal.git
# Or if you are using GitHub CLI
gh repo clone hpmicro/hpm-hal
-
Edit
examples/YOUR_BOARD/.cargo/config.toml
to set the correct flash/run command for your probe. -
(Optional) Edit and run
run-openocd.sh
if using OpenOCD. -
Connect your probe to the target board.
-
Run an example:
cd examples/hpm5300evk
cargo run --release --bin blinky
This repo is licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
This crate is under active development. Before starting your work, it's better to create a "Work in Progress" (WIP) pull request describing your work to avoid conflicts.