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use crate::msgs::alert::AlertMessagePayload;
use crate::msgs::base::Payload;
use crate::msgs::ccs::ChangeCipherSpecPayload;
use crate::msgs::codec::{Codec, Reader};
use crate::msgs::enums::HandshakeType;
use crate::msgs::enums::{AlertDescription, AlertLevel};
use crate::msgs::enums::{ContentType, ProtocolVersion};
use crate::msgs::handshake::HandshakeMessagePayload;
use std::mem;
#[derive(Debug)]
pub enum MessagePayload {
Alert(AlertMessagePayload),
Handshake(HandshakeMessagePayload),
ChangeCipherSpec(ChangeCipherSpecPayload),
Opaque(Payload),
}
impl MessagePayload {
pub fn encode(&self, bytes: &mut Vec<u8>) {
match *self {
MessagePayload::Alert(ref x) => x.encode(bytes),
MessagePayload::Handshake(ref x) => x.encode(bytes),
MessagePayload::ChangeCipherSpec(ref x) => x.encode(bytes),
MessagePayload::Opaque(ref x) => x.encode(bytes),
}
}
pub fn decode_given_type(
&self,
typ: ContentType,
vers: ProtocolVersion,
) -> Option<MessagePayload> {
if let MessagePayload::Opaque(ref payload) = *self {
let mut r = Reader::init(&payload.0);
let parsed = match typ {
ContentType::Alert => {
Some(MessagePayload::Alert(AlertMessagePayload::read(&mut r)?))
}
ContentType::Handshake => {
let p = HandshakeMessagePayload::read_version(&mut r, vers)?;
Some(MessagePayload::Handshake(p))
}
ContentType::ChangeCipherSpec => {
let p = ChangeCipherSpecPayload::read(&mut r)?;
Some(MessagePayload::ChangeCipherSpec(p))
}
_ => None,
};
if r.any_left() { None } else { parsed }
} else {
None
}
}
pub fn length(&self) -> usize {
match *self {
MessagePayload::Alert(ref x) => x.length(),
MessagePayload::Handshake(ref x) => x.length(),
MessagePayload::ChangeCipherSpec(ref x) => x.length(),
MessagePayload::Opaque(ref x) => x.0.len(),
}
}
pub fn new_opaque(data: Vec<u8>) -> MessagePayload {
MessagePayload::Opaque(Payload::new(data))
}
}
#[derive(Debug)]
pub struct Message {
pub typ: ContentType,
pub version: ProtocolVersion,
pub payload: MessagePayload,
}
impl Message {
const MAX_PAYLOAD: u16 = 16384 + 2048;
const HEADER_SIZE: u16 = 1 + 2 + 2;
pub const MAX_WIRE_SIZE: usize = (Message::MAX_PAYLOAD + Message::HEADER_SIZE) as usize;
}
impl Codec for Message {
fn read(r: &mut Reader) -> Option<Message> {
Message::read_with_detailed_error(r).ok()
}
fn encode(&self, bytes: &mut Vec<u8>) {
self.typ.encode(bytes);
self.version.encode(bytes);
(self.payload.length() as u16).encode(bytes);
self.payload.encode(bytes);
}
}
pub enum MessageError {
TooShortForHeader,
TooShortForLength,
IllegalLength,
IllegalContentType,
IllegalProtocolVersion,
}
impl Message {
pub fn read_with_detailed_error(r: &mut Reader) -> Result<Message, MessageError> {
let typ = ContentType::read(r).ok_or(MessageError::TooShortForHeader)?;
let version = ProtocolVersion::read(r).ok_or(MessageError::TooShortForHeader)?;
let len = u16::read(r).ok_or(MessageError::TooShortForHeader)?;
if len >= Message::MAX_PAYLOAD {
return Err(MessageError::IllegalLength);
}
if let ContentType::Unknown(_) = typ {
return Err(MessageError::IllegalContentType);
}
match version {
ProtocolVersion::Unknown(ref v) if (v & 0xff00) != 0x0300 => {
return Err(MessageError::IllegalProtocolVersion);
}
_ => {}
};
let mut sub = r
.sub(len as usize)
.ok_or(MessageError::TooShortForLength)?;
let payload = Payload::read(&mut sub).unwrap();
Ok(Message {
typ,
version,
payload: MessagePayload::Opaque(payload),
})
}
pub fn is_content_type(&self, typ: ContentType) -> bool {
self.typ == typ
}
pub fn is_handshake_type(&self, hstyp: HandshakeType) -> bool {
if let MessagePayload::Handshake(ref hsp) = self.payload {
hsp.typ == hstyp
} else {
false
}
}
pub fn decode_payload(&mut self) -> bool {
if self.typ == ContentType::ApplicationData {
return true;
}
if let Some(x) = self
.payload
.decode_given_type(self.typ, self.version)
{
self.payload = x;
true
} else {
false
}
}
pub fn take_payload(self) -> Vec<u8> {
self.into_opaque()
.take_opaque_payload()
.unwrap()
.0
}
pub fn take_opaque_payload(&mut self) -> Option<Payload> {
if let MessagePayload::Opaque(ref mut op) = self.payload {
Some(mem::replace(op, Payload::empty()))
} else {
None
}
}
pub fn into_opaque(self) -> Message {
if let MessagePayload::Opaque(_) = self.payload {
return self;
}
let mut buf = Vec::new();
self.payload.encode(&mut buf);
Message {
typ: self.typ,
version: self.version,
payload: MessagePayload::new_opaque(buf),
}
}
pub fn build_alert(level: AlertLevel, desc: AlertDescription) -> Message {
Message {
typ: ContentType::Alert,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Alert(AlertMessagePayload {
level,
description: desc,
}),
}
}
pub fn build_key_update_notify() -> Message {
Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_3,
payload: MessagePayload::Handshake(HandshakeMessagePayload::build_key_update_notify()),
}
}
}
impl<'a> Message {
pub fn to_borrowed(&'a self) -> BorrowMessage<'a> {
if let MessagePayload::Opaque(ref p) = self.payload {
BorrowMessage {
typ: self.typ,
version: self.version,
payload: &p.0,
}
} else {
unreachable!("to_borrowed must have opaque message");
}
}
}
pub struct BorrowMessage<'a> {
pub typ: ContentType,
pub version: ProtocolVersion,
pub payload: &'a [u8],
}