This repository contains Peripheral Access Crates (PACs) for TI's Low Power RF (LPRF) series of Cortex-M microcontrollers.
All these crates are automatically generated using svd2rust and tixml2svd.
Every device family within the LPRF chip series has its own PAC.
A device family is how TI groups similar devices that share the same peripherals.
In this naming scheme x
is a wildcard. i.e. a CC2652 and CC1312 both belong
to the cc13x2_26x2 family.
To prevent lots of repetition in the crates, there is one PAC per device family, not per device.
The PACs are listed below:
PAC | Supported Devices | TI SDK Link | target |
---|---|---|---|
cc13x0 |
CC1310, CC1350 | https://www.ti.com/tool/download/SIMPLELINK-CC13X0-SDK | thumbv7m-none-eabi |
cc13x1_cc26x1 |
CC1311P3, CC1311R3, CC2651P3, CC2651R3, CC2651R3SIPA | https://github.com/TexasInstruments/cc13xx_cc26xx_sdk | thumbv7em-none-eabi |
cc13x2_26x2 |
CC2642R, CC2652R, CC2652RB, CC1312R, CC1352R, CC1352P, CC2652P, CC2652PSIP, CC2652RSIP | https://github.com/TexasInstruments/cc13xx_cc26xx_sdk | thumbv7em-none-eabihf |
cc13x2x7_cc26x2x7 |
CC1312R7, CC1352P7, CC2652P7, CC2652R7 | https://github.com/TexasInstruments/cc13xx_cc26xx_sdk | thumbv7em-none-eabihf |
cc13x4_cc26x4 |
CC1314R, CC1354R, CC1354P, CC2674R, CC2674P | https://github.com/TexasInstruments/cc13xx_cc26xx_sdk | thumbv8m.main-none-eabihf |
cc2640r2 |
CC2640R2 | https://www.ti.com/tool/download/SIMPLELINK-CC2640R2-SDK | thumbv7m-none-eabi |
Warning: The cc13x2_26x2
PAC crate is named differently (note the missing cc before 26x2) due to the fact that
other (non maintained) cc13x2_cc26x2 crates exist.
This repo tries to automate as much as possible using tixml2svd and svd2rust. This section seeks to describe how this repo is built.
To see how the code is organized, try running the command below
$ tree -L 2
This should give an output similar to below:
.
├── Cargo.lock
├── Cargo.toml
├── CONTRIBUTING.md
├── input
│ ├── devices
│ └── Modules
├── LICENSE.txt
├── pacs
│ ├── cc13x0
│ ├── cc13x1_cc26x1
│ ├── cc13x2_26x2
│ ├── cc13x2x7_cc26x2x7
│ ├── cc13x4_cc26x4
│ └── cc2640r2
├── README.md
├── svds
│ ├── cc13x0.svd
│ ├── cc13x1_cc26x1.svd
│ ├── cc13x2_26x2.svd
│ ├── cc13x2x7_cc26x2x7.svd
│ ├── cc13x4_cc26x4.svd
│ └── cc2640r2.svd
├── tests
│ ├── cc13x0
│ ├── cc13x2-cc26x2
│ ├── cc13x4-cc26x4
│ └── cc2640r2
├── tools
│ └── generate_pacs.py
└── xtask
├── Cargo.toml
└── src
27 directories, 15 files
The creation of pacs from the input XML files is automated using
tools/generate_pacs.py
.
The input
directory contains the device definition files from TI. They can be
copied from a
Code Composer Studio (CCS)
installation.
The files within the Modules
folder define the peripheral set of the devices
in a TI XML format.
These files are used to generate svd
files using tixml2svd.
The XML files within input/devices
are hand maintained. They are based upon
device families. One XML file within input/devices
will produce one PAC.
The TI XML source doesn't contain interrupt defintions. So there are also hand
maintained rust files that contain the needed code to define the interrupt
vector table in Rust. These files are used to patch the generated
lib.rs
file. Ideally the SVD files would also be patched, but this is a bit
more complex, so we use a simpler solution, for now.
To update the source files, copy the Modules
folder from
<INSTALL_LOC>/ti/ccs<CCS_VER>/ccs/ccs_base/common/targetdb/
into input/Modules
folder within this repository. <INSTALL_LOC>
is the
location you installed CCS. <CCS_VER>
is the version of CCS you installed
without any .
or other delimiter so 12.2.0 becomes 1220.
- Copy the files from CCS as described above
- If adding a new device family, create a device family XML descriptor in
input/devices/
.- Tip: These can be copied from CCS
<INSTALL_LOC>/ti/ccs<CCS_VER>/ccs/ccs_base/common/targetdb/devices
. - Pick one device from your wanted family and copy it into the tree and rename it
- Tip: These can be copied from CCS
- If adding a new device family, create
device_family_ints.rs
where swappingdevice_family
with the device family name.- For a hint, use the C file created by TI. It can be found in
<TI_SDK>/source/ti/devices/<device_family>/inc/hw_ints.h
.
- For a hint, use the C file created by TI. It can be found in
- Run
cargo xtask generate
- Update
device.x
based on the vector table you created in the last step