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|
//! Length calculations for encoded ASN.1 DER values
use crate::{Decode, DerOrd, Encode, Error, ErrorKind, Reader, Result, SliceWriter, Writer};
use core::{
cmp::Ordering,
fmt,
ops::{Add, Sub},
};
/// Maximum number of octets in a DER encoding of a [`Length`] using the
/// rules implemented by this crate.
const MAX_DER_OCTETS: usize = 5;
/// Maximum length as a `u32` (256 MiB).
const MAX_U32: u32 = 0xfff_ffff;
/// Octet identifying an indefinite length as described in X.690 Section
/// 8.1.3.6.1:
///
/// > The single octet shall have bit 8 set to one, and bits 7 to
/// > 1 set to zero.
const INDEFINITE_LENGTH_OCTET: u8 = 0b10000000; // 0x80
/// ASN.1-encoded length.
///
/// Maximum length is defined by the [`Length::MAX`] constant (256 MiB).
#[derive(Copy, Clone, Debug, Default, Eq, PartialEq, PartialOrd, Ord)]
pub struct Length(u32);
impl Length {
/// Length of `0`
pub const ZERO: Self = Self(0);
/// Length of `1`
pub const ONE: Self = Self(1);
/// Maximum length currently supported: 256 MiB
pub const MAX: Self = Self(MAX_U32);
/// Create a new [`Length`] for any value which fits inside of a [`u16`].
///
/// This function is const-safe and therefore useful for [`Length`] constants.
pub const fn new(value: u16) -> Self {
Self(value as u32)
}
/// Is this length equal to zero?
pub fn is_zero(self) -> bool {
self == Self::ZERO
}
/// Get the length of DER Tag-Length-Value (TLV) encoded data if `self`
/// is the length of the inner "value" portion of the message.
pub fn for_tlv(self) -> Result<Self> {
Self::ONE + self.encoded_len()? + self
}
/// Perform saturating addition of two lengths.
pub fn saturating_add(self, rhs: Self) -> Self {
Self(self.0.saturating_add(rhs.0))
}
/// Perform saturating subtraction of two lengths.
pub fn saturating_sub(self, rhs: Self) -> Self {
Self(self.0.saturating_sub(rhs.0))
}
/// Get initial octet of the encoded length (if one is required).
///
/// From X.690 Section 8.1.3.5:
/// > In the long form, the length octets shall consist of an initial octet
/// > and one or more subsequent octets. The initial octet shall be encoded
/// > as follows:
/// >
/// > a) bit 8 shall be one;
/// > b) bits 7 to 1 shall encode the number of subsequent octets in the
/// > length octets, as an unsigned binary integer with bit 7 as the
/// > most significant bit;
/// > c) the value 11111111₂ shall not be used.
fn initial_octet(self) -> Option<u8> {
match self.0 {
0x80..=0xFF => Some(0x81),
0x100..=0xFFFF => Some(0x82),
0x10000..=0xFFFFFF => Some(0x83),
0x1000000..=MAX_U32 => Some(0x84),
_ => None,
}
}
}
impl Add for Length {
type Output = Result<Self>;
fn add(self, other: Self) -> Result<Self> {
self.0
.checked_add(other.0)
.ok_or_else(|| ErrorKind::Overflow.into())
.and_then(TryInto::try_into)
}
}
impl Add<u8> for Length {
type Output = Result<Self>;
fn add(self, other: u8) -> Result<Self> {
self + Length::from(other)
}
}
impl Add<u16> for Length {
type Output = Result<Self>;
fn add(self, other: u16) -> Result<Self> {
self + Length::from(other)
}
}
impl Add<u32> for Length {
type Output = Result<Self>;
fn add(self, other: u32) -> Result<Self> {
self + Length::try_from(other)?
}
}
impl Add<usize> for Length {
type Output = Result<Self>;
fn add(self, other: usize) -> Result<Self> {
self + Length::try_from(other)?
}
}
impl Add<Length> for Result<Length> {
type Output = Self;
fn add(self, other: Length) -> Self {
self? + other
}
}
impl Sub for Length {
type Output = Result<Self>;
fn sub(self, other: Length) -> Result<Self> {
self.0
.checked_sub(other.0)
.ok_or_else(|| ErrorKind::Overflow.into())
.and_then(TryInto::try_into)
}
}
impl Sub<Length> for Result<Length> {
type Output = Self;
fn sub(self, other: Length) -> Self {
self? - other
}
}
impl From<u8> for Length {
fn from(len: u8) -> Length {
Length(len.into())
}
}
impl From<u16> for Length {
fn from(len: u16) -> Length {
Length(len.into())
}
}
impl From<Length> for u32 {
fn from(length: Length) -> u32 {
length.0
}
}
impl TryFrom<u32> for Length {
type Error = Error;
fn try_from(len: u32) -> Result<Length> {
if len <= Self::MAX.0 {
Ok(Length(len))
} else {
Err(ErrorKind::Overflow.into())
}
}
}
impl TryFrom<usize> for Length {
type Error = Error;
fn try_from(len: usize) -> Result<Length> {
u32::try_from(len)
.map_err(|_| ErrorKind::Overflow)?
.try_into()
}
}
impl TryFrom<Length> for usize {
type Error = Error;
fn try_from(len: Length) -> Result<usize> {
len.0.try_into().map_err(|_| ErrorKind::Overflow.into())
}
}
impl<'a> Decode<'a> for Length {
fn decode<R: Reader<'a>>(reader: &mut R) -> Result<Length> {
match reader.read_byte()? {
// Note: per X.690 Section 8.1.3.6.1 the byte 0x80 encodes indefinite
// lengths, which are not allowed in DER, so disallow that byte.
len if len < INDEFINITE_LENGTH_OCTET => Ok(len.into()),
INDEFINITE_LENGTH_OCTET => Err(ErrorKind::IndefiniteLength.into()),
// 1-4 byte variable-sized length prefix
tag @ 0x81..=0x84 => {
let nbytes = tag.checked_sub(0x80).ok_or(ErrorKind::Overlength)? as usize;
debug_assert!(nbytes <= 4);
let mut decoded_len = 0u32;
for _ in 0..nbytes {
decoded_len = decoded_len.checked_shl(8).ok_or(ErrorKind::Overflow)?
| u32::from(reader.read_byte()?);
}
let length = Length::try_from(decoded_len)?;
// X.690 Section 10.1: DER lengths must be encoded with a minimum
// number of octets
if length.initial_octet() == Some(tag) {
Ok(length)
} else {
Err(ErrorKind::Overlength.into())
}
}
_ => {
// We specialize to a maximum 4-byte length (including initial octet)
Err(ErrorKind::Overlength.into())
}
}
}
}
impl Encode for Length {
fn encoded_len(&self) -> Result<Length> {
match self.0 {
0..=0x7F => Ok(Length(1)),
0x80..=0xFF => Ok(Length(2)),
0x100..=0xFFFF => Ok(Length(3)),
0x10000..=0xFFFFFF => Ok(Length(4)),
0x1000000..=MAX_U32 => Ok(Length(5)),
_ => Err(ErrorKind::Overflow.into()),
}
}
fn encode(&self, writer: &mut impl Writer) -> Result<()> {
match self.initial_octet() {
Some(tag_byte) => {
writer.write_byte(tag_byte)?;
// Strip leading zeroes
match self.0.to_be_bytes() {
[0, 0, 0, byte] => writer.write_byte(byte),
[0, 0, bytes @ ..] => writer.write(&bytes),
[0, bytes @ ..] => writer.write(&bytes),
bytes => writer.write(&bytes),
}
}
#[allow(clippy::cast_possible_truncation)]
None => writer.write_byte(self.0 as u8),
}
}
}
impl DerOrd for Length {
fn der_cmp(&self, other: &Self) -> Result<Ordering> {
let mut buf1 = [0u8; MAX_DER_OCTETS];
let mut buf2 = [0u8; MAX_DER_OCTETS];
let mut encoder1 = SliceWriter::new(&mut buf1);
encoder1.encode(self)?;
let mut encoder2 = SliceWriter::new(&mut buf2);
encoder2.encode(other)?;
Ok(encoder1.finish()?.cmp(encoder2.finish()?))
}
}
impl fmt::Display for Length {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.0.fmt(f)
}
}
// Implement by hand because the derive would create invalid values.
// Generate a u32 with a valid range.
#[cfg(feature = "arbitrary")]
impl<'a> arbitrary::Arbitrary<'a> for Length {
fn arbitrary(u: &mut arbitrary::Unstructured<'a>) -> arbitrary::Result<Self> {
Ok(Self(u.int_in_range(0..=MAX_U32)?))
}
fn size_hint(depth: usize) -> (usize, Option<usize>) {
u32::size_hint(depth)
}
}
/// Length type with support for indefinite lengths as used by ASN.1 BER,
/// as described in X.690 Section 8.1.3.6:
///
/// > 8.1.3.6 For the indefinite form, the length octets indicate that the
/// > contents octets are terminated by end-of-contents
/// > octets (see 8.1.5), and shall consist of a single octet.
/// >
/// > 8.1.3.6.1 The single octet shall have bit 8 set to one, and bits 7 to
/// > 1 set to zero.
/// >
/// > 8.1.3.6.2 If this form of length is used, then end-of-contents octets
/// > (see 8.1.5) shall be present in the encoding following the contents
/// > octets.
///
/// Indefinite lengths are non-canonical and therefore invalid DER, however
/// there are interoperability corner cases where we have little choice but to
/// tolerate some BER productions where this is helpful.
#[derive(Copy, Clone, Debug, Eq, PartialEq, PartialOrd, Ord)]
pub struct IndefiniteLength(Option<Length>);
impl IndefiniteLength {
/// Length of `0`.
pub const ZERO: Self = Self(Some(Length::ZERO));
/// Length of `1`.
pub const ONE: Self = Self(Some(Length::ONE));
/// Indefinite length.
pub const INDEFINITE: Self = Self(None);
}
impl IndefiniteLength {
/// Create a definite length from a type which can be converted into a
/// `Length`.
pub fn new(length: impl Into<Length>) -> Self {
Self(Some(length.into()))
}
/// Is this length definite?
pub fn is_definite(self) -> bool {
self.0.is_some()
}
/// Is this length indefinite?
pub fn is_indefinite(self) -> bool {
self.0.is_none()
}
}
impl<'a> Decode<'a> for IndefiniteLength {
fn decode<R: Reader<'a>>(reader: &mut R) -> Result<IndefiniteLength> {
if reader.peek_byte() == Some(INDEFINITE_LENGTH_OCTET) {
// Consume the byte we already peeked at.
let byte = reader.read_byte()?;
debug_assert_eq!(byte, INDEFINITE_LENGTH_OCTET);
Ok(Self::INDEFINITE)
} else {
Length::decode(reader).map(Into::into)
}
}
}
impl Encode for IndefiniteLength {
fn encoded_len(&self) -> Result<Length> {
match self.0 {
Some(length) => length.encoded_len(),
None => Ok(Length::ONE),
}
}
fn encode(&self, writer: &mut impl Writer) -> Result<()> {
match self.0 {
Some(length) => length.encode(writer),
None => writer.write_byte(INDEFINITE_LENGTH_OCTET),
}
}
}
impl From<Length> for IndefiniteLength {
fn from(length: Length) -> IndefiniteLength {
Self(Some(length))
}
}
impl From<Option<Length>> for IndefiniteLength {
fn from(length: Option<Length>) -> IndefiniteLength {
IndefiniteLength(length)
}
}
impl From<IndefiniteLength> for Option<Length> {
fn from(length: IndefiniteLength) -> Option<Length> {
length.0
}
}
impl TryFrom<IndefiniteLength> for Length {
type Error = Error;
fn try_from(length: IndefiniteLength) -> Result<Length> {
length.0.ok_or_else(|| ErrorKind::IndefiniteLength.into())
}
}
#[cfg(test)]
mod tests {
use super::{IndefiniteLength, Length};
use crate::{Decode, DerOrd, Encode, ErrorKind};
use core::cmp::Ordering;
#[test]
fn decode() {
assert_eq!(Length::ZERO, Length::from_der(&[0x00]).unwrap());
assert_eq!(Length::from(0x7Fu8), Length::from_der(&[0x7F]).unwrap());
assert_eq!(
Length::from(0x80u8),
Length::from_der(&[0x81, 0x80]).unwrap()
);
assert_eq!(
Length::from(0xFFu8),
Length::from_der(&[0x81, 0xFF]).unwrap()
);
assert_eq!(
Length::from(0x100u16),
Length::from_der(&[0x82, 0x01, 0x00]).unwrap()
);
assert_eq!(
Length::try_from(0x10000u32).unwrap(),
Length::from_der(&[0x83, 0x01, 0x00, 0x00]).unwrap()
);
}
#[test]
fn encode() {
let mut buffer = [0u8; 4];
assert_eq!(&[0x00], Length::ZERO.encode_to_slice(&mut buffer).unwrap());
assert_eq!(
&[0x7F],
Length::from(0x7Fu8).encode_to_slice(&mut buffer).unwrap()
);
assert_eq!(
&[0x81, 0x80],
Length::from(0x80u8).encode_to_slice(&mut buffer).unwrap()
);
assert_eq!(
&[0x81, 0xFF],
Length::from(0xFFu8).encode_to_slice(&mut buffer).unwrap()
);
assert_eq!(
&[0x82, 0x01, 0x00],
Length::from(0x100u16).encode_to_slice(&mut buffer).unwrap()
);
assert_eq!(
&[0x83, 0x01, 0x00, 0x00],
Length::try_from(0x10000u32)
.unwrap()
.encode_to_slice(&mut buffer)
.unwrap()
);
}
#[test]
fn indefinite_lengths() {
// DER disallows indefinite lengths
assert!(Length::from_der(&[0x80]).is_err());
// The `IndefiniteLength` type supports them
let indefinite_length = IndefiniteLength::from_der(&[0x80]).unwrap();
assert!(indefinite_length.is_indefinite());
assert_eq!(indefinite_length, IndefiniteLength::INDEFINITE);
// It also supports definite lengths.
let length = IndefiniteLength::from_der(&[0x83, 0x01, 0x00, 0x00]).unwrap();
assert!(length.is_definite());
assert_eq!(
Length::try_from(0x10000u32).unwrap(),
length.try_into().unwrap()
);
}
#[test]
fn add_overflows_when_max_length_exceeded() {
let result = Length::MAX + Length::ONE;
assert_eq!(
result.err().map(|err| err.kind()),
Some(ErrorKind::Overflow)
);
}
#[test]
fn der_ord() {
assert_eq!(Length::ONE.der_cmp(&Length::MAX).unwrap(), Ordering::Less);
}
}
|