192 lines
4.8 KiB
Go
192 lines
4.8 KiB
Go
package message
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//rssp 协议中crc校验,查表法实现
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// Crc16Table G(x)=X16+X11+X4+1,计算初始值为0
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var crc16Table []uint32 = nil
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var crc32C1Table []uint32 = nil
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var crc32C2Table []uint32 = nil
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const (
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RsspCrc16GX uint32 = 0b1_0000_1000_0001_0001 //生成多项式 G(X)=X16+X11+X4+1
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RsspCrc32C1 uint32 = 0x100d4e63 //安全通道1 CRC32生成多项式
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RsspCrc32C2 uint32 = 0x8ce56011 //安全通道1 CRC32生成多项式
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)
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func CreateRsspCrcTable() {
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if crc16Table == nil {
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var table = make([]uint32, 0, 256)
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for bt := 0x00; bt <= 0xff; bt++ {
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table = append(table, Lookup(uint32(bt), RsspCrc16GX, 16, false))
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}
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crc16Table = table
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}
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if crc32C1Table == nil {
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var table = make([]uint32, 0, 256)
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for bt := 0x00; bt <= 0xff; bt++ {
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table = append(table, Lookup(uint32(bt), RsspCrc32C1, 32, false))
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}
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crc32C1Table = table
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}
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if crc32C2Table == nil {
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var table = make([]uint32, 0, 256)
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for bt := 0x00; bt <= 0xff; bt++ {
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table = append(table, Lookup(uint32(bt), RsspCrc32C2, 32, false))
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}
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crc32C2Table = table
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}
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}
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func RsspCrc16(data []byte) uint16 {
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return uint16(CrcTableBased(data, 16, 0, false, false, 0, crc16Table))
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}
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func RsspC1Crc32(data []byte) uint32 {
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return CrcTableBased(data, 32, 0, false, false, 0, crc32C1Table)
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}
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func RsspC2Crc32(data []byte) uint32 {
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return CrcTableBased(data, 32, 0, false, false, 0, crc32C2Table)
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}
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/////////////////////////////////////////////////////////////////////////////
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// 反转(0b00001010->0b01010000)
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func reflect(data uint32, width int) uint32 {
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var register1 uint32 = 0
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var significant_mask uint32 = 0xffffffff >> (32 - width)
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var register_msb_mask uint32 = 1 << (width - 1)
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var register_lsb_mask uint32 = 1
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for i := 0; i < width; i++ {
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need_or := (data>>i)®ister_lsb_mask == register_lsb_mask
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if need_or {
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register1 |= register_msb_mask >> i
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}
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}
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return register1 & significant_mask
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}
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// Lookup 计算单个数值的crc
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func Lookup(data uint32,
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polynomial uint32,
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width int,
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input_reflected bool) uint32 {
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var register1 uint32 = 0
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var significant_mask uint32 = 0xffffffff >> (32 - width)
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var register_msb_mask uint32 = 1 << (width - 1)
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var register_lsb_mask uint32 = 1
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var byte_msb_mask uint32 = 0x80
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var byte_lsb_mask uint32 = 1
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if input_reflected {
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polynomial = reflect(polynomial, width)
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}
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for i := 0; i < 1+(width/8); i++ {
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var byteData uint32 = 0
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if i < 1 {
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byteData = data
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}
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for j := 0; j < 8; j++ {
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need_xor := false
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if input_reflected {
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need_xor = (register1 & register_lsb_mask) == register_lsb_mask
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register1 >>= 1
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need_or := (byteData & byte_lsb_mask) == byte_lsb_mask
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byteData >>= 1
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if need_or {
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register1 |= register_msb_mask
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}
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} else {
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need_xor = (register1 & register_msb_mask) == register_msb_mask
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register1 <<= 1
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need_or := (byteData & byte_msb_mask) == byte_msb_mask
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byteData <<= 1
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if need_or {
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register1 |= register_lsb_mask
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}
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}
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if need_xor {
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register1 ^= polynomial
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}
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}
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}
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return register1 & significant_mask
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}
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// CrcTableBased 查表法计算字节数组的crc
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func CrcTableBased(
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data []byte,
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width int,
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initial_value uint32,
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input_reflected bool,
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result_reflected bool,
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final_xor_value uint32,
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table []uint32) uint32 {
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//
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length := len(data)
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var register1 uint32 = initial_value
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var significant_mask uint32 = 0xffffffff >> (32 - width)
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var register_lsb_mask uint32 = 0xff
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if input_reflected {
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register1 = reflect(register1, width)
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}
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for i := 0; i < length; i++ {
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var byteData = uint32(data[i])
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var shift_out uint32 = 0
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if input_reflected {
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shift_out = register1 & register_lsb_mask
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register1 = (register1 >> 8) ^ table[shift_out^byteData]
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} else {
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shift_out = (register1 >> (width - 8)) & register_lsb_mask
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register1 = (register1 << 8) ^ table[shift_out^byteData]
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}
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}
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if input_reflected != result_reflected {
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register1 = reflect(register1, width)
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}
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return (register1 ^ final_xor_value) & significant_mask
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}
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// MSB优先(字节中高位bit即最左侧bit优先)
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func CrcBitOrientedMsbFirst(data []byte, polynomial uint32, width int) uint32 {
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var register1 uint32 = 0
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var significant_mask uint32 = 0xffffffff >> (32 - width)
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var register_msb_mask uint32 = 1 << (width - 1)
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var register_lsb_mask uint32 = 1
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var byte_msb_mask uint32 = 0x80
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length := len(data)
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for i := 0; i < length+(width/8); i++ {
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var byteData uint32 = 0
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if i < length {
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byteData = uint32(data[i])
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}
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for j := 0; j < 8; j++ {
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need_xor := (register1 & register_msb_mask) == register_msb_mask
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register1 <<= 1
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need_or := (byteData & byte_msb_mask) == byte_msb_mask
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byteData <<= 1
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if need_or {
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register1 |= register_lsb_mask
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}
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if need_xor {
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register1 ^= polynomial
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}
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}
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}
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return register1 & significant_mask
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}
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