220 lines
5.7 KiB
Go
220 lines
5.7 KiB
Go
package message
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/////////////////////CAN串行总线 bit 流处理 ////////////////////////
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// CanBits 可以在CAN总线上传输的bit流
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// 按bit位来存储数据
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// 一个字节中bit位编号,从高位到低位依次为bit7-bit0
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type CanBits struct {
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Data []byte
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LastBitsLen int //Data中最后一个字节中从高位到低位存储数据的有效位数,值范围[1,8],8-LastBitsLen则为最后一个字节中低位剩余的空位数量
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readRowIndex int //行读指针,Data中的一个字节为一行,从0开始;当前值表示当前可读位置
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readColIndex int //列读指针,字节中的bit位为列,从7开始到0,字节中最左侧bit为最高位编号7;当前值表示当前可读位置;当值为-1时表示已经读结束
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}
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// CanBusData CAN总线上传输的数据
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type CanBusData interface {
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GetData() []byte
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GetLastRowBitsLen() int
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}
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type CanBitsReader interface {
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// ReadByte 读取一个字节
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ReadByte() (byte, bool)
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// ReadBits 读取bits,一次最多8bits
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ReadBits(bitsLen int) (byte, bool)
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}
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type CanBitsWriter interface {
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// AddByte 添加一整个字节bit数据
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AddByte(bits byte) bool
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// AddBits 添加bit数据,bitsLen-bits字节中有效位数,有效位向低位对齐
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AddBits(bits byte, bitsLen int) bool
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//GetReader 获取CanBits reader
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GetReader() CanBitsReader
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}
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func NewCanBitsWriter(cap int) CanBitsWriter {
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return &CanBits{LastBitsLen: 8, Data: make([]byte, 0, cap)}
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}
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func NewCanBitsReader(data []byte, lastRowBitsLen int) CanBitsReader {
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return &CanBits{
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LastBitsLen: lastRowBitsLen,
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Data: data,
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readRowIndex: 0,
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readColIndex: 7,
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}
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}
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func (b *CanBits) GetData() []byte {
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return b.Data
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}
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func (b *CanBits) GetLastRowBitsLen() int {
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return b.LastBitsLen
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}
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func (b *CanBits) GetReader() CanBitsReader {
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if len(b.Data) > 0 {
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b.readRowIndex = 0
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b.readColIndex = 7
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} else {
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b.readRowIndex = -1
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}
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return b
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}
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// ReadByte 读取一个字节
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func (b *CanBits) ReadByte() (byte, bool) {
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return b.ReadBits(8)
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}
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// ReadBits 读取bits,一次最多8bits
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func (b *CanBits) ReadBits(bitsLen int) (byte, bool) {
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if bitsLen < 1 || bitsLen > 8 {
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return 0, false
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}
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//当前可读行可读bits数
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if !b.isReadEnd() {
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rowBitsLen := b.curRowCanReadLen()
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if bitsLen <= rowBitsLen { //当前行有足够的bits
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sb := b.Data[b.readRowIndex]
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sb >>= b.readColIndex - bitsLen + 1
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b.toNextReadPos(bitsLen)
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return sb & b.getCanBitsMask(bitsLen), true
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} else { //当前行没有有足够的bits
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sb1 := b.Data[b.readRowIndex]
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rt1 := sb1 >> (b.readColIndex - rowBitsLen + 1)
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rt1 <<= bitsLen - rowBitsLen
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b.toNextReadPos(rowBitsLen)
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if !b.isReadEnd() {
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readBitsLen := bitsLen - rowBitsLen
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if b.curRowCanReadLen() >= readBitsLen {
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sb2 := b.Data[b.readRowIndex]
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sb2 >>= b.readColIndex - readBitsLen + 1
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b.toNextReadPos(readBitsLen)
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return (rt1 | sb2) & b.getCanBitsMask(bitsLen), true
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}
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}
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}
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}
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//
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return 0, false
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}
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// 是否读到最后一行
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func (b *CanBits) isReadInLastRow() bool {
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return b.readRowIndex == len(b.Data)-1
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}
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// 当前可读行可读bits数
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func (b *CanBits) curRowCanReadLen() int {
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if b.isReadInLastRow() {
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return b.LastBitsLen - (7 - b.readColIndex)
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} else {
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return b.readColIndex + 1
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}
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}
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func (b *CanBits) toNextReadPos(hadReadRowLen int) {
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lastRow := b.isReadInLastRow()
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b.readColIndex -= hadReadRowLen
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if !lastRow {
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if b.readColIndex < 0 {
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b.readRowIndex++
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b.readColIndex = 7
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}
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}
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}
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// 是否读结束
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func (b *CanBits) isReadEnd() bool {
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return b.isReadInLastRow() && (7-b.readColIndex >= b.LastBitsLen) || b.readRowIndex < 0
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}
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// AddByte 添加一整个字节bit数据
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func (b *CanBits) AddByte(bits byte) bool {
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return b.AddBits(bits, 8)
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}
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// AddBits 添加bit数据,bitsLen-bits字节中有效位数,有效位向低位对齐
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func (b *CanBits) AddBits(bits byte, bitsLen int) bool {
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if bitsLen < 1 || bitsLen > 8 {
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return false
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}
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if len(b.Data) <= 0 {
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b.LastBitsLen = 8
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}
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//
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bits &= b.getCanBitsMask(bitsLen)
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//
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lastByteHavePos := b.LastBitsLen < 8
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if lastByteHavePos {
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lastBytePosWidth := 8 - b.LastBitsLen //最后一个字节低位剩余可用bit位
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if bitsLen <= lastBytePosWidth { //最后一个字节有足够的空位
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bits <<= lastBytePosWidth - bitsLen
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b.Data[len(b.Data)-1] |= bits
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b.LastBitsLen += bitsLen
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} else { //最后一个字节没有足够的空位
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lb := bits >> (bitsLen - lastBytePosWidth)
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b.Data[len(b.Data)-1] |= lb //至此最后一个字节中的位存满
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//
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nb := bits << (8 - (bitsLen - lastBytePosWidth))
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b.Data = append(b.Data, nb)
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b.LastBitsLen = bitsLen - lastBytePosWidth
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}
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} else {
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bits <<= 8 - bitsLen
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b.Data = append(b.Data, bits)
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b.LastBitsLen = bitsLen
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}
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return true
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}
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func (b *CanBits) getCanBitsMask(bitsLen int) byte {
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switch bitsLen {
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case 1:
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return CAN_BITS_LEN1
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case 2:
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return CAN_BITS_LEN2
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case 3:
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return CAN_BITS_LEN3
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case 4:
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return CAN_BITS_LEN4
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case 5:
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return CAN_BITS_LEN5
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case 6:
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return CAN_BITS_LEN6
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case 7:
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return CAN_BITS_LEN7
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case 8:
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return CAN_BITS_LEN8
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default:
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panic("bitsLen<1||bitsLen>8")
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}
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}
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const (
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CAN_BITS_LEN1 = byte(0b0000_0001)
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CAN_BITS_LEN2 = byte(0b0000_0011)
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CAN_BITS_LEN3 = byte(0b0000_0111)
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CAN_BITS_LEN4 = byte(0b0000_1111)
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CAN_BITS_LEN5 = byte(0b0001_1111)
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CAN_BITS_LEN6 = byte(0b0011_1111)
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CAN_BITS_LEN7 = byte(0b0111_1111)
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CAN_BITS_LEN8 = byte(0b1111_1111)
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)
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///////////////////// CRC ////////////////////////
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const (
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CAN_CRC16_ATPREQ = 0x11021
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)
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var (
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crc16AtpReqTable []uint32 = nil
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)
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func CanCreateCrcTable() {
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if crc16AtpReqTable == nil {
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crc16AtpReqTable = CreateCrcTable(CAN_CRC16_ATPREQ, 16, false)
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}
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}
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func calculateAtpReqCrc16(data []byte) uint16 {
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crc := CrcTableBased(data, 16, 0, false, false, 0, crc16AtpReqTable)
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return uint16(crc)
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}
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