/usr/share/gocode/src/gopkg.in/asn1-ber.v1/ber.go is in golang-gopkg-asn1-ber.v1-dev 1.2-4.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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import (
"bytes"
"errors"
"fmt"
"io"
"os"
"reflect"
)
type Packet struct {
Identifier
Value interface{}
ByteValue []byte
Data *bytes.Buffer
Children []*Packet
Description string
}
type Identifier struct {
ClassType Class
TagType Type
Tag Tag
}
type Tag uint64
const (
TagEOC Tag = 0x00
TagBoolean Tag = 0x01
TagInteger Tag = 0x02
TagBitString Tag = 0x03
TagOctetString Tag = 0x04
TagNULL Tag = 0x05
TagObjectIdentifier Tag = 0x06
TagObjectDescriptor Tag = 0x07
TagExternal Tag = 0x08
TagRealFloat Tag = 0x09
TagEnumerated Tag = 0x0a
TagEmbeddedPDV Tag = 0x0b
TagUTF8String Tag = 0x0c
TagRelativeOID Tag = 0x0d
TagSequence Tag = 0x10
TagSet Tag = 0x11
TagNumericString Tag = 0x12
TagPrintableString Tag = 0x13
TagT61String Tag = 0x14
TagVideotexString Tag = 0x15
TagIA5String Tag = 0x16
TagUTCTime Tag = 0x17
TagGeneralizedTime Tag = 0x18
TagGraphicString Tag = 0x19
TagVisibleString Tag = 0x1a
TagGeneralString Tag = 0x1b
TagUniversalString Tag = 0x1c
TagCharacterString Tag = 0x1d
TagBMPString Tag = 0x1e
TagBitmask Tag = 0x1f // xxx11111b
// HighTag indicates the start of a high-tag byte sequence
HighTag Tag = 0x1f // xxx11111b
// HighTagContinueBitmask indicates the high-tag byte sequence should continue
HighTagContinueBitmask Tag = 0x80 // 10000000b
// HighTagValueBitmask obtains the tag value from a high-tag byte sequence byte
HighTagValueBitmask Tag = 0x7f // 01111111b
)
const (
// LengthLongFormBitmask is the mask to apply to the length byte to see if a long-form byte sequence is used
LengthLongFormBitmask = 0x80
// LengthValueBitmask is the mask to apply to the length byte to get the number of bytes in the long-form byte sequence
LengthValueBitmask = 0x7f
// LengthIndefinite is returned from readLength to indicate an indefinite length
LengthIndefinite = -1
)
var tagMap = map[Tag]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",
}
type Class uint8
const (
ClassUniversal Class = 0 // 00xxxxxxb
ClassApplication Class = 64 // 01xxxxxxb
ClassContext Class = 128 // 10xxxxxxb
ClassPrivate Class = 192 // 11xxxxxxb
ClassBitmask Class = 192 // 11xxxxxxb
)
var ClassMap = map[Class]string{
ClassUniversal: "Universal",
ClassApplication: "Application",
ClassContext: "Context",
ClassPrivate: "Private",
}
type Type uint8
const (
TypePrimitive Type = 0 // xx0xxxxxb
TypeConstructed Type = 32 // xx1xxxxxb
TypeBitmask Type = 32 // xx1xxxxxb
)
var TypeMap = map[Type]string{
TypePrimitive: "Primitive",
TypeConstructed: "Constructed",
}
var Debug bool = false
func PrintBytes(out io.Writer, 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++ {
out.Write([]byte(indent + data_lines[i] + "\n"))
out.Write([]byte(indent + num_lines[i] + "\n\n"))
}
}
func PrintPacket(p *Packet) {
printPacket(os.Stdout, p, 0, false)
}
func printPacket(out io.Writer, 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.Fprintf(out, "%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(out, p.Bytes(), indent_str)
}
for _, child := range p.Children {
printPacket(out, child, indent+1, printBytes)
}
}
// ReadPacket reads a single Packet from the reader
func ReadPacket(reader io.Reader) (*Packet, error) {
p, _, err := readPacket(reader)
if err != nil {
return nil, err
}
return p, nil
}
func DecodeString(data []byte) string {
return string(data)
}
func parseInt64(bytes []byte) (ret int64, err error) {
if len(bytes) > 8 {
// We'll overflow an int64 in this case.
err = fmt.Errorf("integer too large")
return
}
for bytesRead := 0; bytesRead < len(bytes); bytesRead++ {
ret <<= 8
ret |= int64(bytes[bytesRead])
}
// Shift up and down in order to sign extend the result.
ret <<= 64 - uint8(len(bytes))*8
ret >>= 64 - uint8(len(bytes))*8
return
}
func encodeInteger(i int64) []byte {
n := int64Length(i)
out := make([]byte, n)
var j int
for ; n > 0; n-- {
out[j] = (byte(i >> uint((n-1)*8)))
j++
}
return out
}
func int64Length(i int64) (numBytes int) {
numBytes = 1
for i > 127 {
numBytes++
i >>= 8
}
for i < -128 {
numBytes++
i >>= 8
}
return
}
// DecodePacket decodes the given bytes into a single Packet
// If a decode error is encountered, nil is returned.
func DecodePacket(data []byte) *Packet {
p, _, _ := readPacket(bytes.NewBuffer(data))
return p
}
// DecodePacketErr decodes the given bytes into a single Packet
// If a decode error is encountered, nil is returned
func DecodePacketErr(data []byte) (*Packet, error) {
p, _, err := readPacket(bytes.NewBuffer(data))
if err != nil {
return nil, err
}
return p, nil
}
// readPacket reads a single Packet from the reader, returning the number of bytes read
func readPacket(reader io.Reader) (*Packet, int, error) {
identifier, length, read, err := readHeader(reader)
if err != nil {
return nil, read, err
}
p := &Packet{
Identifier: identifier,
}
p.Data = new(bytes.Buffer)
p.Children = make([]*Packet, 0, 2)
p.Value = nil
if p.TagType == TypeConstructed {
// TODO: if universal, ensure tag type is allowed to be constructed
// Track how much content we've read
contentRead := 0
for {
if length != LengthIndefinite {
// End if we've read what we've been told to
if contentRead == length {
break
}
// Detect if a packet boundary didn't fall on the expected length
if contentRead > length {
return nil, read, fmt.Errorf("expected to read %d bytes, read %d", length, contentRead)
}
}
// Read the next packet
child, r, err := readPacket(reader)
if err != nil {
return nil, read, err
}
contentRead += r
read += r
// Test is this is the EOC marker for our packet
if isEOCPacket(child) {
if length == LengthIndefinite {
break
}
return nil, read, errors.New("eoc child not allowed with definite length")
}
// Append and continue
p.AppendChild(child)
}
return p, read, nil
}
if length == LengthIndefinite {
return nil, read, errors.New("indefinite length used with primitive type")
}
// Read definite-length content
content := make([]byte, length, length)
if length > 0 {
_, err := io.ReadFull(reader, content)
if err != nil {
if err == io.EOF {
return nil, read, io.ErrUnexpectedEOF
}
return nil, read, err
}
read += length
}
if p.ClassType == ClassUniversal {
p.Data.Write(content)
p.ByteValue = content
switch p.Tag {
case TagEOC:
case TagBoolean:
val, _ := parseInt64(content)
p.Value = val != 0
case TagInteger:
p.Value, _ = parseInt64(content)
case TagBitString:
case TagOctetString:
// the actual string encoding is not known here
// (e.g. for LDAP content is already an UTF8-encoded
// string). Return the data without further processing
p.Value = DecodeString(content)
case TagNULL:
case TagObjectIdentifier:
case TagObjectDescriptor:
case TagExternal:
case TagRealFloat:
case TagEnumerated:
p.Value, _ = parseInt64(content)
case TagEmbeddedPDV:
case TagUTF8String:
p.Value = DecodeString(content)
case TagRelativeOID:
case TagSequence:
case TagSet:
case TagNumericString:
case TagPrintableString:
p.Value = DecodeString(content)
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(content)
}
return p, read, nil
}
func (p *Packet) Bytes() []byte {
var out bytes.Buffer
out.Write(encodeIdentifier(p.Identifier))
out.Write(encodeLength(p.Data.Len()))
out.Write(p.Data.Bytes())
return out.Bytes()
}
func (p *Packet) AppendChild(child *Packet) {
p.Data.Write(child.Bytes())
p.Children = append(p.Children, child)
}
func Encode(ClassType Class, TagType Type, Tag Tag, 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, TypeConstructed, TagSequence, nil, Description)
}
func NewBoolean(ClassType Class, TagType Type, Tag Tag, Value bool, Description string) *Packet {
intValue := int64(0)
if Value {
intValue = 1
}
p := Encode(ClassType, TagType, Tag, nil, Description)
p.Value = Value
p.Data.Write(encodeInteger(intValue))
return p
}
func NewInteger(ClassType Class, TagType Type, Tag Tag, Value interface{}, Description string) *Packet {
p := Encode(ClassType, TagType, Tag, nil, Description)
p.Value = Value
switch v := Value.(type) {
case int:
p.Data.Write(encodeInteger(int64(v)))
case uint:
p.Data.Write(encodeInteger(int64(v)))
case int64:
p.Data.Write(encodeInteger(v))
case uint64:
// TODO : check range or add encodeUInt...
p.Data.Write(encodeInteger(int64(v)))
case int32:
p.Data.Write(encodeInteger(int64(v)))
case uint32:
p.Data.Write(encodeInteger(int64(v)))
case int16:
p.Data.Write(encodeInteger(int64(v)))
case uint16:
p.Data.Write(encodeInteger(int64(v)))
case int8:
p.Data.Write(encodeInteger(int64(v)))
case uint8:
p.Data.Write(encodeInteger(int64(v)))
default:
// TODO : add support for big.Int ?
panic(fmt.Sprintf("Invalid type %T, expected {u|}int{64|32|16|8}", v))
}
return p
}
func NewString(ClassType Class, TagType Type, Tag Tag, Value, Description string) *Packet {
p := Encode(ClassType, TagType, Tag, nil, Description)
p.Value = Value
p.Data.Write([]byte(Value))
return p
}
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