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internal:can-tcpsockets-parsing [2018/02/05 12:34] – [Forward CAN Frames over TCP Sockets (can-tcp-broadcast.are)] preisig | app-notes:can-tcpsockets-parsing [2019/07/03 08:00] – ↷ Page moved from internal:can-tcpsockets-parsing to app-notes:can-tcpsockets-parsing juraschek | ||
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- | The above graphic illustrates how the test environment was built and what data gets transmitted. First to be able to simulate a CAN bus in a local environment PC1 runs [[https:// | + | The above graphic illustrates how the test environment was setup and what data gets transmitted. First to be able to simulate a CAN bus in a local environment PC1 runs [[https:// |
===== Setup the CAN Interface on the Router ===== | ===== Setup the CAN Interface on the Router ===== | ||
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===== Peaksystem PCAN-FMS Simulator ===== | ===== Peaksystem PCAN-FMS Simulator ===== | ||
- | As mentioned in the introduction Peaksystems PCAN-FMS simluator is used to generate CAN Frames. The software is easy to use and allows a good starting point for local development. | + | As mentioned in the introduction Peaksystems PCAN-FMS simluator is used to generate CAN frames. The software is easy to use and allows a good starting point for local development. |
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===== Incoming RAW CAN Frames on the Router: ===== | ===== Incoming RAW CAN Frames on the Router: ===== | ||
- | The first and most simple test on the router | + | The first and most simple test on the router |
By default, candump provides the following information: | By default, candump provides the following information: | ||
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To show a possible use of forwarding CAN Frames over Ethernet can-tcp-broadcast.are provides a TCP client that broadcasts all incoming CAN Frames to one or several servers that can be passed as arguments. The SDK API already provides several functions to interact with CAN (see ftp:// | To show a possible use of forwarding CAN Frames over Ethernet can-tcp-broadcast.are provides a TCP client that broadcasts all incoming CAN Frames to one or several servers that can be passed as arguments. The SDK API already provides several functions to interact with CAN (see ftp:// | ||
The function start_can() sets required attributes to the can interface and sets up a raw socket descriptor that is used in the main part of the script. Additionally filtering of CAN Identifiers is possible via nb_can_setfilter() to specify which CAN frames shall be filtered out and which shall be passed to upper layers. | The function start_can() sets required attributes to the can interface and sets up a raw socket descriptor that is used in the main part of the script. Additionally filtering of CAN Identifiers is possible via nb_can_setfilter() to specify which CAN frames shall be filtered out and which shall be passed to upper layers. | ||
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+ | //Please be aware// that extended use of filtering or processing on the router itself may affect the overall processing power. An advice would be, to do data processing on a more powerful backend according to ones needs. | ||
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<code c from can-tcp-broadcast.are> | <code c from can-tcp-broadcast.are> | ||
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- | This way data processing could be done on a more powerful backend according to ones needs. Please be sure to check the load of the router to assure normal operation of the device. | ||
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===== Simple CAN Frame parsing (simple-can-parser.are) ===== | ===== Simple CAN Frame parsing (simple-can-parser.are) ===== | ||
An additional test was made to show a simple way of parsing CAN Frames. The example is based on checking for a specific PGN (parameter group number) and then get a SPN (supect parameter name) to display its value in human readable format which then gets logged in a file. | An additional test was made to show a simple way of parsing CAN Frames. The example is based on checking for a specific PGN (parameter group number) and then get a SPN (supect parameter name) to display its value in human readable format which then gets logged in a file. |