package ber import ( "errors" "fmt" "io" ) func readLength(reader io.Reader) (length int, read int, err error) { // length byte b, err := readByte(reader) if err != nil { if Debug { fmt.Printf("error reading length byte: %v\n", err) } return 0, 0, err } read++ switch { case b == 0xFF: // Invalid 0xFF (x.600, 8.1.3.5.c) return 0, read, errors.New("invalid length byte 0xff") case b == LengthLongFormBitmask: // Indefinite form, we have to decode packets until we encounter an EOC packet (x.600, 8.1.3.6) length = LengthIndefinite case b&LengthLongFormBitmask == 0: // Short definite form, extract the length from the bottom 7 bits (x.600, 8.1.3.4) length = int(b) & LengthValueBitmask case b&LengthLongFormBitmask != 0: // Long definite form, extract the number of length bytes to follow from the bottom 7 bits (x.600, 8.1.3.5.b) lengthBytes := int(b) & LengthValueBitmask // Protect against overflow // TODO: support big int length? if lengthBytes > 8 { return 0, read, errors.New("long-form length overflow") } // Accumulate into a 64-bit variable var length64 int64 for i := 0; i < lengthBytes; i++ { b, err = readByte(reader) if err != nil { if Debug { fmt.Printf("error reading long-form length byte %d: %v\n", i, err) } return 0, read, err } read++ // x.600, 8.1.3.5 length64 <<= 8 length64 |= int64(b) } // Cast to a platform-specific integer length = int(length64) // Ensure we didn't overflow if int64(length) != length64 { return 0, read, errors.New("long-form length overflow") } default: return 0, read, errors.New("invalid length byte") } return length, read, nil } func encodeLength(length int) []byte { lengthBytes := encodeUnsignedInteger(uint64(length)) if length > 127 || len(lengthBytes) > 1 { longFormBytes := []byte{LengthLongFormBitmask | byte(len(lengthBytes))} longFormBytes = append(longFormBytes, lengthBytes...) lengthBytes = longFormBytes } return lengthBytes }