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All the essential DBC information is stored in the YAML CAN file. A python script takes care of generating the DBC file based on the information specified in the YAML file. The script also generates the C header and source files for encoding, decoding, packing, and unpacking CAN data based on the information supplied from the DBC file. The code generation suite makes use of the cantools API.
Making Changes to Rover CAN
Because the entirety of the rover's CAN messages are described in a single YAML file, you should follow the procedure outlined below when implementing or updating features that rely on CAN.
- Create a new git branch in the HW Bridge repository
- In your new branch, make the necessary edits to the YAML CAN file (can/uwrt_mars_rover_can.yaml)
- In the root directory of the HW Bridge repository, run:
python3 scripts/generate_can.py - You can now make use of any of the generated CAN enums, structs, and functions under can/generated
UWRT YAML CAN Format
All descriptions of mars rover CAN messages and signals are stored in a single YAML file located in the UWRT Hardware Bridge GitHub repository. The HW bridge repo is shared between the Firmware and Software teams so CAN descriptions are standardized between teams.
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The first entry at the top-most level of the YAML CAN file is the rover CAN bus. The CAN bus entry has the following fields:
bus_frequency
- The frequency (Hz) or bitrate (bps) of the CAN bus
canid_filter_mask
- Mask used for filtering the address portion of rover CAN ID
canid_filters
- Rover CAN ID filter values
nodes
- List of all nodes in the bus
roboteq_canids
- CAN IDs of Roboteq messages
messages
- List of all CAN messages in the bus
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- Brief description of the CAN message
id
- The message CAN ID (in decimal)
size
- The message size in bytes (max = 8)
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- List of nodes that send this message
receivers
- List of ndoes nodes that receive this message
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- Brief description of the CAN signal
startbit
- The index of the starting bit of the signal within the message
length
- The length of the signal in bits
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- The maximum value of the decoded signal
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NOTES
- For each signal, you can provide either the scale/offset fields or the min/max fields, or both. If only one of these pairs is provided, the other pair will be automatically generated based on the signal length and the values of what was provided.
- The signal min/max bounds do not include the signal SNA value (SNA = signal not available). The value of SNA is generally set to the maximum value representable by the signal.