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CAN_RX_MSG_FLAGS
CAN_RX_MSG_FLAGS are flags related to reception of CAN message. If a particular
bit is set; corresponding meaning is TRUE or else it will be FALSE.
#define CAN_RX_FILTER_BITS 0x07
// Use it to access filter bits
#define CAN_RX_FILTER_1 0x00
#define CAN_RX_FILTER_2 0x01
#define CAN_RX_FILTER_3 0x02
#define CAN_RX_FILTER_4 0x03
#define CAN_RX_FILTER_5 0x04
#define CAN_RX_FILTER_6 0x05
#define CAN_RX_OVERFLOW 0x08
// Set if Overflowed; else clear
#define CAN_RX_INVALID_MSG 0x10
// Set if invalid; else clear
#define CAN_RX_XTD_FRAME 0x20
// Set if XTD msg; else clear
#define CAN_RX_RTR_FRAME 0x40
// Set if RTR msg; else clear
#define CAN_RX_DBL_BUFFERED 0x80
// Set if msg was
// hardware double-buffered
You may use bitwise AND (&) to adjust the appropriate flags. For example:
if (MsgFlag & CAN_RX_OVERFLOW != 0) {
... // Receiver overflow has occurred; previous message is lost.
}
CAN_MASK
CAN_MASK constants define mask codes. Function CANSetMask expects one of
these as its argument:
#define CAN_MASK_B1 0
#define CAN_MASK_B2 1
CAN_FILTER
CAN_FILTER constants define filter codes. Function CANSetFilter expects one of
these as its argument:
#define CAN_FILTER_B1_F1 0
#define CAN_FILTER_B1_F2 1
#define CAN_FILTER_B2_F1 2
#define CAN_FILTER_B2_F2 3
#define CAN_FILTER_B2_F3 4
#define CAN_FILTER_B2_F4 5
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