#include <sstream>
#include <net/if.h>
#include <afb/afb-binding>
+#include <climits>
/**
* @brief Convert hex data to string
std::stringstream stream;
stream << std::hex << std::setfill('0');
for(int i = 0; i < length; i++)
- stream << std::hex << ((int) data[i]);
+ stream << std::setfill('0') << std::setw(2) << std::hex << ((int) data[i]);
return stream.str();
}
void converter_t::signal_to_bits_bytes(unsigned int bit_position, unsigned int bit_size, int &new_start_byte, int &new_end_byte, uint8_t &new_start_bit, uint8_t &new_end_bit)
{
new_start_byte = bit_position >> 3;
- new_start_bit = bit_position % 8;
+ new_start_bit = bit_position % CHAR_BIT;
new_end_byte = (bit_position + bit_size - 1) >> 3;
- new_end_bit = (bit_position + bit_size - 1) % 8;
+ new_end_bit = (bit_position + bit_size - 1) % CHAR_BIT;
}
/**
- * @brief This is to use when you have a big endian CAN frame layout.
- * It converts the bit position so it matches with little endiant CAN frame layout.
+ * @brief This is to use when you have a big endian CAN frame layout.
+ * It converts the bit position so it matches with little endiant CAN frame layout.
*
+ * @param msg_length Message length in bytes.
* @param bit_position Original bit position.
- * @param bit_size Size of the data.
- * @return uint32_t New little endian bit position.
+ * @param bit_size Size of the data.
+ * @return uint32_t New bit position.
*/
-uint32_t converter_t::bit_position_swap(uint32_t bit_position,uint32_t bit_size)
+uint32_t converter_t::bit_position_swap(unsigned int msg_length, unsigned int bit_position, unsigned int bit_size)
{
- uint32_t start_byte_position = (uint32_t)(bit_position/8);
- uint32_t bit_size_rest = bit_size;
-
- if((int)(bit_size-(8 + start_byte_position*8-bit_position%8))>0)
- {
- AFB_ERROR("Error: bit_position and bit_size getting out of range");
- return bit_position;
- }
-
- if(bit_size<=8 && ((bit_position+bit_size)%8==bit_size || (bit_position+bit_size)%8==0))
- {
- return (uint32_t)(start_byte_position*8 + (8-bit_size));
- }
- else
- {
- do
- {
- bit_size_rest = bit_size_rest - ((start_byte_position+1)*8-bit_position);
- start_byte_position--;
- bit_position = start_byte_position*8;
- } while (bit_size_rest>8);
- return (uint32_t)(start_byte_position*8 + (8-bit_size_rest));
- }
+ return (msg_length * CHAR_BIT) - bit_position - bit_size;
+}
+/**
+ * @brief This allow to get the correct bit_position using the weird Continental.
+ * bit numbering method where the Frame is read using little endianness
+ * and bit count using a big endianness
+ *
+ * @param msg_length Message length in bytes.
+ * @param bit_position Original bit position.
+ * @param bit_size Size of the data.
+ * @return uint32_t New bit position.
+ */
+uint32_t converter_t::continental_bit_position_mess(unsigned int msg_length, unsigned int bit_position, unsigned int bit_size)
+{
+ return bit_position + (CHAR_BIT - bit_position % CHAR_BIT) - bit_size;
}