package main 
import (
 "encoding/binary"
 "fmt"
 "os"
)
 
func main() {
 file, err := os.Open("tim.bmp")
 if err != nil {
  fmt.Println(err)
  return
 }
 
 defer file.Close() 
 //type拆成两个byte来读
 var headA, headB byte
 //Read第二个参数字节序一般windows/linux大部分都是LittleEndian,苹果系统用BigEndian
 binary.Read(file, binary.LittleEndian, &headA)
 binary.Read(file, binary.LittleEndian, &headB)
 
 //文件大小
 var size uint32
 binary.Read(file, binary.LittleEndian, &size)
 
 //预留字节
 var reservedA, reservedB uint16
 binary.Read(file, binary.LittleEndian, &reservedA)
 binary.Read(file, binary.LittleEndian, &reservedB)
 
 //偏移字节
 var offbits uint32
 binary.Read(file, binary.LittleEndian, &offbits) 
 fmt.Println(headA, headB, size, reservedA, reservedB, offbits) 
}

package main 
import (
 "encoding/binary"
 "fmt"
 "os"
)
 
type BitmapInfoHeader struct {
 Size   uint32
 Width   int32
 Height   int32
 Places   uint16
 BitCount  uint16
 Compression uint32
 SizeImage  uint32
 XperlsPerMeter int32
 YperlsPerMeter int32
 ClsrUsed  uint32
 ClrImportant uint32
}
 
func main() {
 file, err := os.Open("tim.bmp")
 if err != nil {
  fmt.Println(err)
  return
 }
 
 defer file.Close() 
 //type拆成两个byte来读
 var headA, headB byte
 //Read第二个参数字节序一般windows/linux大部分都是LittleEndian,苹果系统用BigEndian
 binary.Read(file, binary.LittleEndian, &headA)
 binary.Read(file, binary.LittleEndian, &headB)
 
 //文件大小
 var size uint32
 binary.Read(file, binary.LittleEndian, &size)
 
 //预留字节
 var reservedA, reservedB uint16
 binary.Read(file, binary.LittleEndian, &reservedA)
 binary.Read(file, binary.LittleEndian, &reservedB)
 
 //偏移字节
 var offbits uint32
 binary.Read(file, binary.LittleEndian, &offbits)
 
 fmt.Println(headA, headB, size, reservedA, reservedB, offbits)
 
 infoHeader := new(BitmapInfoHeader)
 binary.Read(file, binary.LittleEndian, infoHeader)
 fmt.Println(infoHeader) 
}

byte(3) –> “00000011”
[]byte{1,2,3} –> “[00000001 00000010 00000011]”
“[00000011 10000000]” –> []byte{0x3, 0x80}

//byte/[]byte -> string
bs := []byte{1, 2, 3}
s := biu.BytesToBinaryString(bs)
fmt.Println(s) //[00000001 00000010 00000011]
fmt.Println(biu.ByteToBinaryString(byte(3))) //00000011
//string -> []byte
s := "[00000011 10000000]"
bs := biu.BinaryStringToBytes(s)
fmt.Printf("%#v\n", bs) //[]byte{0x3, 0x80}

const (
 zero = byte('0')
 one = byte('1')
 lsb = byte('[') // left square brackets
 rsb = byte(']') // right square brackets
 space = byte(' ')
)
var uint8arr [8]uint8
// ErrBadStringFormat represents a error of input string's format is illegal .
var ErrBadStringFormat = errors.New("bad string format")
// ErrEmptyString represents a error of empty input string.
var ErrEmptyString = errors.New("empty string")
func init() {
 uint8arr[0] = 128
 uint8arr[1] = 64
 uint8arr[2] = 32
 uint8arr[3] = 16
 uint8arr[4] = 8
 uint8arr[5] = 4
 uint8arr[6] = 2
 uint8arr[7] = 1
}
// append bytes of string in binary format.
func appendBinaryString(bs []byte, b byte) []byte {
 var a byte
 for i := 0; i < 8; i++ {
  a = b
  b <<= 1
  b = 1
  switch a {
  case b:
   bs = append(bs, zero)
  default:
   bs = append(bs, one)
  }
  b <<= 1
 }
 return bs
}
// ByteToBinaryString get the string in binary format of a byte or uint8.
func ByteToBinaryString(b byte) string {
 buf := make([]byte, 0, 8)
 buf = appendBinaryString(buf, b)
 return string(buf)
}
// BytesToBinaryString get the string in binary format of a []byte or []int8.
func BytesToBinaryString(bs []byte) string {
 l := len(bs)
 bl := l*8 + l + 1
 buf := make([]byte, 0, bl)
 buf = append(buf, lsb)
 for _, b := range bs {
  buf = appendBinaryString(buf, b)
  buf = append(buf, space)
 }
 buf[bl-1] = rsb
 return string(buf)
}
// regex for delete useless string which is going to be in binary format.
var rbDel = regexp.MustCompile(`[^01]`)
// BinaryStringToBytes get the binary bytes according to the
// input string which is in binary format.
func BinaryStringToBytes(s string) (bs []byte) {
 if len(s) == 0 {
  panic(ErrEmptyString)
 }
 s = rbDel.ReplaceAllString(s, "")
 l := len(s)
 if l == 0 {
  panic(ErrBadStringFormat)
 }
 mo := l % 8
 l /= 8
 if mo != 0 {
  l++
 }
 bs = make([]byte, 0, l)
 mo = 8 - mo
 var n uint8
 for i, b := range []byte(s) {
  m := (i + mo) % 8
  switch b {
  case one:
   n += uint8arr[m]
  }
  if m == 7 {
   bs = append(bs, n)
   n = 0
  }
 }
 return
}