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//! Cipher Type Byte (CTB).
//!
//! The CTB encodes the packet's type and some length information. It
//! has two variants: the so-called old format and the so-called new
//! format. See [Section 4.2 of RFC 4880] for more details.
//!
//! [Section 4.2 of RFC 4880]: https://tools.ietf.org/html/rfc4880#section-4.2
use std::convert::TryFrom;
use crate::{
packet::Tag,
Error,
Result
};
use crate::packet::header::BodyLength;
/// Data common to all CTB formats.
///
/// OpenPGP defines two packet formats: an old format and a new
/// format. They both include the packet's so-called tag.
///
/// See [Section 4.2 of RFC 4880] for more details.
///
/// [Section 4.2 of RFC 4880]: https://tools.ietf.org/html/rfc4880#section-4.2
#[derive(Clone, Debug)]
struct CTBCommon {
/// RFC4880 Packet tag
tag: Tag,
}
/// A CTB using the new format encoding.
///
/// See [Section 4.2 of RFC 4880] for more details.
///
/// [Section 4.2 of RFC 4880]: https://tools.ietf.org/html/rfc4880#section-4.2
#[derive(Clone, Debug)]
pub struct CTBNew {
/// Packet CTB fields
common: CTBCommon,
}
assert_send_and_sync!(CTBNew);
impl CTBNew {
/// Constructs a new-style CTB.
pub fn new(tag: Tag) -> Self {
CTBNew {
common: CTBCommon {
tag,
},
}
}
/// Returns the packet's tag.
pub fn tag(&self) -> Tag {
self.common.tag
}
}
/// The length encoded for an old style CTB.
///
/// The `PacketLengthType` is only part of the [old CTB], and is
/// partially used to determine the packet's size.
///
/// See [Section 4.2.1 of RFC 4880] for more details.
///
/// [old CTB]: CTBOld
/// [Section 4.2.1 of RFC 4880]: https://tools.ietf.org/html/rfc4880#section-4.2.1
#[derive(Debug)]
#[derive(Clone, Copy, PartialEq)]
pub enum PacketLengthType {
/// A one-octet Body Length header encodes a length of 0 to 191 octets.
///
/// The header is 2 octets long. It contains the one byte CTB
/// followed by the one octet length.
OneOctet,
/// A two-octet Body Length header encodes a length of 192 to 8383 octets.
///
/// The header is 3 octets long. It contains the one byte CTB
/// followed by the two octet length.
TwoOctets,
/// A four-octet Body Length.
///
/// The header is 5 octets long. It contains the one byte CTB
/// followed by the four octet length.
FourOctets,
/// The packet is of indeterminate length.
///
/// Neither the packet header nor the packet itself contain any
/// information about the length. The end of the packet is clear
/// from the context, e.g., EOF.
Indeterminate,
}
assert_send_and_sync!(PacketLengthType);
impl TryFrom<u8> for PacketLengthType {
type Error = anyhow::Error;
fn try_from(u: u8) -> Result<Self> {
match u {
0 => Ok(PacketLengthType::OneOctet),
1 => Ok(PacketLengthType::TwoOctets),
2 => Ok(PacketLengthType::FourOctets),
3 => Ok(PacketLengthType::Indeterminate),
_ => Err(Error::InvalidArgument(
format!("Invalid packet length: {}", u)).into()),
}
}
}
impl From<PacketLengthType> for u8 {
fn from(l: PacketLengthType) -> Self {
match l {
PacketLengthType::OneOctet => 0,
PacketLengthType::TwoOctets => 1,
PacketLengthType::FourOctets => 2,
PacketLengthType::Indeterminate => 3,
}
}
}
/// A CTB using the old format encoding.
///
/// See [Section 4.2 of RFC 4880] for more details.
///
/// [Section 4.2 of RFC 4880]: https://tools.ietf.org/html/rfc4880#section-4.2
#[derive(Clone, Debug)]
pub struct CTBOld {
/// Common CTB fields.
common: CTBCommon,
/// Type of length specifier.
length_type: PacketLengthType,
}
assert_send_and_sync!(CTBOld);
impl CTBOld {
/// Constructs an old-style CTB.
///
/// # Errors
///
/// Returns [`Error::InvalidArgument`] if the tag or the body
/// length cannot be expressed using an old-style CTB.
///
/// [`Error::InvalidArgument`]: super::super::Error::InvalidArgument
pub fn new(tag: Tag, length: BodyLength) -> Result<Self> {
let n: u8 = tag.into();
// Only tags 0-15 are supported.
if n > 15 {
return Err(Error::InvalidArgument(
format!("Only tags 0-15 are supported, got: {:?} ({})",
tag, n)).into());
}
let length_type = match length {
// Assume an optimal encoding.
BodyLength::Full(l) => {
match l {
// One octet length.
0 ..= 0xFF => PacketLengthType::OneOctet,
// Two octet length.
0x1_00 ..= 0xFF_FF => PacketLengthType::TwoOctets,
// Four octet length,
_ => PacketLengthType::FourOctets,
}
},
BodyLength::Partial(_) =>
return Err(Error::InvalidArgument(
"Partial body lengths are not support for old format packets".
into()).into()),
BodyLength::Indeterminate =>
PacketLengthType::Indeterminate,
};
Ok(CTBOld {
common: CTBCommon {
tag,
},
length_type,
})
}
/// Returns the packet's tag.
pub fn tag(&self) -> Tag {
self.common.tag
}
/// Returns the packet's length type.
pub fn length_type(&self) -> PacketLengthType {
self.length_type
}
}
/// The CTB variants.
///
/// There are two CTB variants: the [old CTB format] and the [new CTB
/// format].
///
/// [old CTB format]: CTBOld
/// [new CTB format]: CTBNew
///
/// Note: CTB stands for Cipher Type Byte.
#[derive(Clone, Debug)]
pub enum CTB {
/// New (current) packet header format.
New(CTBNew),
/// Old PGP 2.6 header format.
Old(CTBOld),
}
assert_send_and_sync!(CTB);
impl CTB {
/// Constructs a new-style CTB.
pub fn new(tag: Tag) -> Self {
CTB::New(CTBNew::new(tag))
}
/// Returns the packet's tag.
pub fn tag(&self) -> Tag {
match self {
CTB::New(c) => c.tag(),
CTB::Old(c) => c.tag(),
}
}
}
impl TryFrom<u8> for CTB {
type Error = anyhow::Error;
/// Parses a CTB as described in [Section 4.2 of RFC 4880]. This
/// function parses both new and old format CTBs.
///
/// [Section 4.2 of RFC 4880]: https://tools.ietf.org/html/rfc4880#section-4.2
fn try_from(ptag: u8) -> Result<CTB> {
// The top bit of the ptag must be set.
if ptag & 0b1000_0000 == 0 {
return Err(
Error::MalformedPacket(
format!("Malformed CTB: MSB of ptag ({:#010b}) not set{}.",
ptag,
if ptag == b'-' {
" (ptag is a dash, perhaps this is an \
ASCII-armor encoded message)"
} else {
""
})).into());
}
let new_format = ptag & 0b0100_0000 != 0;
let ctb = if new_format {
let tag = ptag & 0b0011_1111;
CTB::New(CTBNew {
common: CTBCommon {
tag: tag.into()
}})
} else {
let tag = (ptag & 0b0011_1100) >> 2;
let length_type = ptag & 0b0000_0011;
CTB::Old(CTBOld {
common: CTBCommon {
tag: tag.into(),
},
length_type: PacketLengthType::try_from(length_type)?,
})
};
Ok(ctb)
}
}
#[test]
fn ctb() {
// 0x99 = public key packet
if let CTB::Old(ctb) = CTB::try_from(0x99).unwrap() {
assert_eq!(ctb.tag(), Tag::PublicKey);
assert_eq!(ctb.length_type, PacketLengthType::TwoOctets);
} else {
panic!("Expected an old format packet.");
}
// 0xa3 = old compressed packet
if let CTB::Old(ctb) = CTB::try_from(0xa3).unwrap() {
assert_eq!(ctb.tag(), Tag::CompressedData);
assert_eq!(ctb.length_type, PacketLengthType::Indeterminate);
} else {
panic!("Expected an old format packet.");
}
// 0xcb: new literal
if let CTB::New(ctb) = CTB::try_from(0xcb).unwrap() {
assert_eq!(ctb.tag(), Tag::Literal);
} else {
panic!("Expected a new format packet.");
}
}