package ber import ( "bytes" "fmt" "io" "reflect" ) type Packet struct { ClassType uint8 TagType uint8 Tag uint8 Value interface{} ByteValue []byte Data *bytes.Buffer Children []*Packet Description string } const ( TagEOC = 0x00 TagBoolean = 0x01 TagInteger = 0x02 TagBitString = 0x03 TagOctetString = 0x04 TagNULL = 0x05 TagObjectIdentifier = 0x06 TagObjectDescriptor = 0x07 TagExternal = 0x08 TagRealFloat = 0x09 TagEnumerated = 0x0a TagEmbeddedPDV = 0x0b TagUTF8String = 0x0c TagRelativeOID = 0x0d TagSequence = 0x10 TagSet = 0x11 TagNumericString = 0x12 TagPrintableString = 0x13 TagT61String = 0x14 TagVideotexString = 0x15 TagIA5String = 0x16 TagUTCTime = 0x17 TagGeneralizedTime = 0x18 TagGraphicString = 0x19 TagVisibleString = 0x1a TagGeneralString = 0x1b TagUniversalString = 0x1c TagCharacterString = 0x1d TagBMPString = 0x1e TagBitmask = 0x1f // xxx11111b ) var TagMap = map[uint8]string{ TagEOC: "EOC (End-of-Content)", TagBoolean: "Boolean", TagInteger: "Integer", TagBitString: "Bit String", TagOctetString: "Octet String", TagNULL: "NULL", TagObjectIdentifier: "Object Identifier", TagObjectDescriptor: "Object Descriptor", TagExternal: "External", TagRealFloat: "Real (float)", TagEnumerated: "Enumerated", TagEmbeddedPDV: "Embedded PDV", TagUTF8String: "UTF8 String", TagRelativeOID: "Relative-OID", TagSequence: "Sequence and Sequence of", TagSet: "Set and Set OF", TagNumericString: "Numeric String", TagPrintableString: "Printable String", TagT61String: "T61 String", TagVideotexString: "Videotex String", TagIA5String: "IA5 String", TagUTCTime: "UTC Time", TagGeneralizedTime: "Generalized Time", TagGraphicString: "Graphic String", TagVisibleString: "Visible String", TagGeneralString: "General String", TagUniversalString: "Universal String", TagCharacterString: "Character String", TagBMPString: "BMP String", } const ( ClassUniversal = 0 // 00xxxxxxb ClassApplication = 64 // 01xxxxxxb ClassContext = 128 // 10xxxxxxb ClassPrivate = 192 // 11xxxxxxb ClassBitmask = 192 // 11xxxxxxb ) var ClassMap = map[uint8]string{ ClassUniversal: "Universal", ClassApplication: "Application", ClassContext: "Context", ClassPrivate: "Private", } const ( TypePrimitive = 0 // xx0xxxxxb TypeConstructed = 32 // xx1xxxxxb TypeBitmask = 32 // xx1xxxxxb ) var TypeMap = map[uint8]string{ TypePrimitive: "Primative", TypeConstructed: "Constructed", } var Debug bool = false func PrintBytes(buf []byte, indent string) { data_lines := make([]string, (len(buf)/30)+1) num_lines := make([]string, (len(buf)/30)+1) for i, b := range buf { data_lines[i/30] += fmt.Sprintf("%02x ", b) num_lines[i/30] += fmt.Sprintf("%02d ", (i+1)%100) } for i := 0; i < len(data_lines); i++ { fmt.Print(indent + data_lines[i] + "\n") fmt.Print(indent + num_lines[i] + "\n\n") } } func PrintPacket(p *Packet) { printPacket(p, 0, false) } func printPacket(p *Packet, indent int, printBytes bool) { indent_str := "" for len(indent_str) != indent { indent_str += " " } class_str := ClassMap[p.ClassType] tagtype_str := TypeMap[p.TagType] tag_str := fmt.Sprintf("0x%02X", p.Tag) if p.ClassType == ClassUniversal { tag_str = TagMap[p.Tag] } value := fmt.Sprint(p.Value) description := "" if p.Description != "" { description = p.Description + ": " } fmt.Printf("%s%s(%s, %s, %s) Len=%d %q\n", indent_str, description, class_str, tagtype_str, tag_str, p.Data.Len(), value) if printBytes { PrintBytes(p.Bytes(), indent_str) } for _, child := range p.Children { printPacket(child, indent+1, printBytes) } } func resizeBuffer(in []byte, new_size uint64) (out []byte) { out = make([]byte, new_size) copy(out, in) return } func readBytes(reader io.Reader, buf []byte) error { idx := 0 buflen := len(buf) for idx < buflen { n, err := reader.Read(buf[idx:]) if err != nil { return err } idx += n } return nil } func ReadPacket(reader io.Reader) (*Packet, error) { buf := make([]byte, 2) err := readBytes(reader, buf) if err != nil { return nil, err } idx := uint64(2) datalen := uint64(buf[1]) if Debug { fmt.Printf("Read: datalen = %d len(buf) = %d ", datalen, len(buf)) for _, b := range buf { fmt.Printf("%02X ", b) } fmt.Printf("\n") } if datalen&128 != 0 { a := datalen - 128 idx += a buf = resizeBuffer(buf, 2+a) err := readBytes(reader, buf[2:]) if err != nil { return nil, err } datalen = DecodeInteger(buf[2 : 2+a]) if Debug { fmt.Printf("Read: a = %d idx = %d datalen = %d len(buf) = %d", a, idx, datalen, len(buf)) for _, b := range buf { fmt.Printf("%02X ", b) } fmt.Printf("\n") } } buf = resizeBuffer(buf, idx+datalen) err = readBytes(reader, buf[idx:]) if err != nil { return nil, err } if Debug { fmt.Printf("Read: len( buf ) = %d idx=%d datalen=%d idx+datalen=%d\n", len(buf), idx, datalen, idx+datalen) for _, b := range buf { fmt.Printf("%02X ", b) } } p := DecodePacket(buf) return p, nil } func DecodeString(data []byte) (string) { return string(data) } func DecodeInteger(data []byte) (ret uint64) { for _, i := range data { ret = ret * 256 ret = ret + uint64(i) } return } func EncodeInteger(val uint64) []byte { var out bytes.Buffer found := false shift := uint(56) mask := uint64(0xFF00000000000000) for mask > 0 { if !found && (val&mask != 0) { found = true } if found || (shift == 0) { out.Write([]byte{byte((val & mask) >> shift)}) } shift -= 8 mask = mask >> 8 } return out.Bytes() } func DecodePacket(data []byte) *Packet { p, _ := decodePacket(data) return p } func decodePacket(data []byte) (*Packet, []byte) { if Debug { fmt.Printf("decodePacket: enter %d\n", len(data)) } p := new(Packet) p.ClassType = data[0] & ClassBitmask p.TagType = data[0] & TypeBitmask p.Tag = data[0] & TagBitmask datalen := DecodeInteger(data[1:2]) datapos := uint64(2) if datalen&128 != 0 { datalen -= 128 datapos += datalen datalen = DecodeInteger(data[2 : 2+datalen]) } p.Data = new(bytes.Buffer) p.Children = make([]*Packet, 0, 2) p.Value = nil value_data := data[datapos : datapos+datalen] if p.TagType == TypeConstructed { for len(value_data) != 0 { var child *Packet child, value_data = decodePacket(value_data) p.AppendChild(child) } } else if p.ClassType == ClassUniversal { p.Data.Write(data[datapos : datapos+datalen]) p.ByteValue = value_data switch p.Tag { case TagEOC: case TagBoolean: val := DecodeInteger(value_data) p.Value = val != 0 case TagInteger: p.Value = DecodeInteger(value_data) case TagBitString: case TagOctetString: p.Value = DecodeString(value_data) case TagNULL: case TagObjectIdentifier: case TagObjectDescriptor: case TagExternal: case TagRealFloat: case TagEnumerated: p.Value = DecodeInteger(value_data) case TagEmbeddedPDV: case TagUTF8String: case TagRelativeOID: case TagSequence: case TagSet: case TagNumericString: case TagPrintableString: p.Value = DecodeString(value_data) case TagT61String: case TagVideotexString: case TagIA5String: case TagUTCTime: case TagGeneralizedTime: case TagGraphicString: case TagVisibleString: case TagGeneralString: case TagUniversalString: case TagCharacterString: case TagBMPString: } } else { p.Data.Write(data[datapos : datapos+datalen]) } return p, data[datapos+datalen:] } func (p *Packet) DataLength() uint64 { return uint64(p.Data.Len()) } func (p *Packet) Bytes() []byte { var out bytes.Buffer out.Write([]byte{p.ClassType | p.TagType | p.Tag}) packet_length := EncodeInteger(p.DataLength()) if p.DataLength() > 127 || len(packet_length) > 1 { out.Write([]byte{byte(len(packet_length) | 128)}) out.Write(packet_length) } else { out.Write(packet_length) } out.Write(p.Data.Bytes()) return out.Bytes() } func (p *Packet) AppendChild(child *Packet) { p.Data.Write(child.Bytes()) if len(p.Children) == cap(p.Children) { newChildren := make([]*Packet, cap(p.Children)*2) copy(newChildren, p.Children) p.Children = newChildren[0:len(p.Children)] } p.Children = p.Children[0 : len(p.Children)+1] p.Children[len(p.Children)-1] = child } func Encode(ClassType, TagType, Tag uint8, Value interface{}, Description string) *Packet { p := new(Packet) p.ClassType = ClassType p.TagType = TagType p.Tag = Tag p.Data = new(bytes.Buffer) p.Children = make([]*Packet, 0, 2) p.Value = Value p.Description = Description if Value != nil { v := reflect.ValueOf(Value) if ClassType == ClassUniversal { switch Tag { case TagOctetString: sv, ok := v.Interface().(string) if ok { p.Data.Write([]byte(sv)) } } } } return p } func NewSequence(Description string) *Packet { return Encode(ClassUniversal, TypePrimitive, TagSequence, nil, Description) } func NewBoolean(ClassType, TagType, Tag uint8, Value bool, Description string) *Packet { intValue := 0 if Value { intValue = 1 } p := Encode(ClassType, TagType, Tag, nil, Description) p.Value = Value p.Data.Write(EncodeInteger(uint64(intValue))) return p } func NewInteger(ClassType, TagType, Tag uint8, Value uint64, Description string) *Packet { p := Encode(ClassType, TagType, Tag, nil, Description) p.Value = Value p.Data.Write(EncodeInteger(Value)) return p } func NewString(ClassType, TagType, Tag uint8, Value, Description string) *Packet { p := Encode(ClassType, TagType, Tag, nil, Description) p.Value = Value p.Data.Write([]byte(Value)) return p }