8.1.1. How to Use the CAN Module
8.1.1.1. How to add a new CAN Message
Add the new CAN message to the symbol file (
tools/dbc/foxbms.sym
).If the message is foxBMS 2 specific prefix it with
foxBMS
.Set the DLC
Add a comment that follows the pattern
optional comment text (in<file>:<function>, fv:tx) optional comment text
for files that are transmitted andoptional comment text (in<file>:<function>, fv:rx) optional comment text
for files that are received as seen by the foxBMS 2 hardware.
Export the symbol file as dbc file.
Declare the callback function in
in file
src\app\driver\can\cbs\tx\can_cbs_tx.h
for the transmit callbacksin file
src\app\driver\can\cbs\rx\can_cbs_rx.h
for the receive callbacks
Implement a callback. If the message handling suites in any of the existing callback implementation files (
src/app/driver/can/cbs/tx/*
or respectivelysrc/app/driver/can/cbs/rx/*
), implement the callback there, otherwise create a new file (and accompanying test file) and implement the callback there.Add the message ID and message details:
in file
src/app/driver/config/can_cfg_tx-message-definitions.h
for transmit messagesin file
src/app/driver/config/can_cfg_rx-message-definitions.h
for receive messages
Add the message to the callback array in
in file
src/app/driver/config/can_cfg_tx.c
for transmit messages in the arraycan_txMessages
in file
src/app/driver/config/can_cfg_rx.c
for receive messages in the arraycan_rxMessages
Verify that the CAN message is defined and implemented as expected by foxBMS 2 guidelines:
C:\Users\vulpes\Documents\foxbms-2>python tests/can/check_ids.py C:\Users\vulpes\Documents\foxbms-2>python tests/can/check_implemented.py
Warning
These script do no syntactical or similar checks of the implementation. These scripts do text based comparisons in order to help to get a consistent style for the CAN message implementations. The correct implementation etc. must be checked by compiling and debugging.
8.1.1.1.1. Example for a Transmit Message
8.1.1.1.1.1. Creating the Transmit Message
In this example a message to transmit the foxBMS 2 system status is
implemented.
The name of the message is therefore BmsState
(following PascalCase naming
convention).
In the symbol file the message is implemented as foxBMS_BmsState
(prefix
foxBMS
followed by the message name) with the ID 0x220
.
As the message is transmitted from the point of view of the BMS, the comment in
the symbol file must be
Message containing the foxBMS system state (in:can_cbs_tx_state.c:CANTX_BmsState, fv:tx)
.
The new dbc file must be exported.
8.1.1.1.1.2. Required Macros
The name of the macro to be implemented in
src/app/driver/config/can_cfg_tx-message-definitions.h
needs to be prefixed
with CANTX_ID
(CANTX
is the module prefix) followed by the message name
in uppercase (BMS_STATE
), i.e., the full macro name is
CANTX_BMS_STATE_ID
.
The macro for the period of the transmitted message must be defined: Module
prefix CANTX
followed by the message name (BMS_STATE
) and the period in
milliseconds (PERIOD_ms
), i.e., the full macro name is
CANTX_BMS_STATE_PERIOD_ms
.
Last, the macro for the phase of the transmitted message must be defined:
Module prefix CANTX
followed by the message name (BMS_STATE
) and the
phase in milliseconds (PHASE_ms
) i.e., the full macro name is
CANTX_BMS_STATE_PHASE_ms
.
1/** CAN message properties for BMS state message. Required properties are:
2 * - Message ID
3 * - Identifier type (standard or extended)
4 * - Message period and phase in ms
5 * - Endianness of message data @{*/
6#define CANTX_BMS_STATE_ID (0x220u)
7#define CANTX_BMS_STATE_ID_TYPE (CAN_STANDARD_IDENTIFIER_11_BIT)
8#define CANTX_BMS_STATE_PERIOD_ms (100u)
9#define CANTX_BMS_STATE_PHASE_ms (0u)
10#define CANTX_BMS_STATE_ENDIANNESS (CAN_BIG_ENDIAN)
11/**@}*/
Now the details of the ID need to be added in an additional macro, that is then
used for the initialization of the transmitted messages macro.
The macro must be named Module prefix (CANTX
) followed by the message name
(BMS_STATE
) and suffixed with MESSAGE
.
1#define CANTX_BMS_STATE_MESSAGE \
2 { \
3 .dlc = CAN_DEFAULT_DLC, \
4 .id = CANTX_BMS_STATE_ID, \
5 .endianness = CANTX_BMS_STATE_ENDIANNESS, \
6 .idType = CANTX_BMS_STATE_ID_TYPE, \
7 }, \
8 { \
9 .period = CANTX_BMS_STATE_PERIOD_ms, .phase = CANTX_BMS_STATE_PHASE_ms \
10 }
8.1.1.1.1.3. Callback Function
The callback declaration must be done in file
src\app\driver\can\cbs\tx\can_cbs_tx.h
.
1extern uint32_t CANTX_BmsState(
2 CAN_MESSAGE_PROPERTIES_s message,
3 uint8_t *pCanData,
4 uint8_t *pMuxId,
5 const CAN_SHIM_s *const kpkCanShim);
The callback definition must be done in the appropriate implementation file,
i.e., for the BMS state message in
src\app\driver\can\cbs\tx\can_cbs_tx_state.c
.
1extern uint32_t CANTX_BmsState(
2 CAN_MESSAGE_PROPERTIES_s message,
3 uint8_t *pCanData,
4 uint8_t *pMuxId,
5 const CAN_SHIM_s *const kpkCanShim) {
6 /* Do message handling stuff */
7 return 0;
8}
8.1.1.1.1.4. Required Variables Adaptations
The message needs to be added the transmitted messages array as follows:
1const CAN_TX_MESSAGE_TYPE_s can_txMessages[] = {
2 /* other messages */
3 {CAN_NODE_1, CANTX_BMS_STATE_MESSAGE, &CANTX_BmsState, NULL_PTR}, /*!< BMS state */
4};
8.1.1.1.1.5. Verification
Run the check scripts to verify that the messages are implemented as described in this how-to’s guidelines.
C:\Users\vulpes\Documents\foxbms-2>python tests/can/check_ids.py
C:\Users\vulpes\Documents\foxbms-2>python tests/can/check_implemented.py
8.1.1.1.2. Example for a Receive Message
The implementation of a receive message is done analogous, by replacing tx
with rx
in paths, prefixes, function names etc.
8.1.1.2. Using the CAN4 interface
If the CAN Module should be extended to the CAN4 interface, a workaround for a bug in HALCoGen has to be applied. For details, please refer to HALCoGen tool documentation.