use std::collections::VecDeque;
use bytes::BytesMut;
use rusty_tpkt::{TpktConnection, TpktReader, TpktWriter};
use crate::{
api::{CotpConnection, CotpError, CotpProtocolInformation, CotpReader, CotpRecvResult, CotpResponder, CotpWriter},
packet::{
connection_confirm::ConnectionConfirm,
connection_request::ConnectionRequest,
data_transfer::DataTransfer,
parameters::{ConnectionClass, CotpParameter, TpduSize},
payload::TransportProtocolDataUnit,
},
parser::packet::TransportProtocolDataUnitParser,
serialiser::packet::serialise,
};
pub struct TcpCotpConnection<R: TpktReader, W: TpktWriter> {
reader: R,
writer: W,
max_payload_size: usize,
parser: TransportProtocolDataUnitParser,
}
impl<R: TpktReader, W: TpktWriter> TcpCotpConnection<R, W> {
pub async fn initiate(connection: impl TpktConnection, options: CotpProtocolInformation) -> Result<TcpCotpConnection<impl TpktReader, impl TpktWriter>, CotpError> {
let source_reference: u16 = options.initiator_reference();
let parser = TransportProtocolDataUnitParser::new();
let (mut reader, mut writer) = connection.split().await?;
send_connection_request(&mut writer, source_reference, options).await?;
let connection_confirm = receive_connection_confirm(&mut reader, &parser).await?;
let (_, max_payload_size) = calculate_remote_size_payload(connection_confirm.parameters()).await?;
Ok(TcpCotpConnection::new(reader, writer, max_payload_size).await)
}
async fn new(reader: R, writer: W, max_payload_size: usize) -> TcpCotpConnection<R, W> {
TcpCotpConnection { reader, writer, max_payload_size, parser: TransportProtocolDataUnitParser::new() }
}
}
impl<R: TpktReader, W: TpktWriter> CotpConnection for TcpCotpConnection<R, W> {
fn get_protocol_infomation_list(&self) -> &Vec<Box<dyn rusty_tpkt::ProtocolInformation>> {
todo!()
}
async fn split(self) -> Result<(impl CotpReader, impl CotpWriter), CotpError> {
let reader = self.reader;
let writer = self.writer;
Ok((TcpCotpReader::new(reader, self.parser), TcpCotpWriter::new(writer, self.max_payload_size)))
}
}
pub struct TcpCotpAcceptor<R: TpktReader, W: TpktWriter> {
reader: R,
writer: W,
initiator_reference: u16,
max_payload_size: usize,
max_payload_indicator: TpduSize,
called_tsap_id: Option<Vec<u8>>,
calling_tsap_id: Option<Vec<u8>>,
}
impl<R: TpktReader, W: TpktWriter> TcpCotpAcceptor<R, W> {
pub async fn new(tpkt_connection: impl TpktConnection) -> Result<(TcpCotpAcceptor<impl TpktReader, impl TpktWriter>, CotpProtocolInformation), CotpError> {
let parser = TransportProtocolDataUnitParser::new();
let (mut reader, writer) = tpkt_connection.split().await?;
let connection_request = receive_connection_request(&mut reader, &parser).await?;
let (max_payload_indicator, max_payload_size) = calculate_remote_size_payload(connection_request.parameters()).await?;
verify_class_compatibility(&connection_request).await?;
let mut calling_tsap_id = None;
let mut called_tsap_id = None;
for parameter in connection_request.parameters() {
match parameter {
CotpParameter::CallingTsap(tsap_id) => calling_tsap_id = Some(tsap_id.clone()),
CotpParameter::CalledTsap(tsap_id) => called_tsap_id = Some(tsap_id.clone()),
_ => (),
}
}
Ok((
TcpCotpAcceptor { reader, writer, max_payload_size, max_payload_indicator, called_tsap_id: called_tsap_id.clone(), calling_tsap_id: calling_tsap_id.clone(), initiator_reference: connection_request.source_reference() },
CotpProtocolInformation::new(connection_request.source_reference(), 0, calling_tsap_id, called_tsap_id),
))
}
}
impl<R: TpktReader, W: TpktWriter> CotpResponder for TcpCotpAcceptor<R, W> {
async fn accept(mut self, options: CotpProtocolInformation) -> Result<impl CotpConnection, CotpError> {
send_connection_confirm(&mut self.writer, options.responder_reference(), self.initiator_reference, self.max_payload_indicator, self.calling_tsap_id, self.called_tsap_id).await?;
Ok(TcpCotpConnection::new(self.reader, self.writer, self.max_payload_size).await)
}
}
pub struct TcpCotpReader<R: TpktReader> {
reader: R,
parser: TransportProtocolDataUnitParser,
data_buffer: BytesMut,
}
impl<R: TpktReader> TcpCotpReader<R> {
pub fn new(reader: R, parser: TransportProtocolDataUnitParser) -> Self {
Self { reader, parser, data_buffer: BytesMut::new() }
}
}
impl<R: TpktReader> CotpReader for TcpCotpReader<R> {
async fn recv(&mut self) -> Result<CotpRecvResult, CotpError> {
loop {
let raw_data = match self.reader.recv().await? {
None => return Ok(CotpRecvResult::Closed),
Some(raw_data) => raw_data,
};
let data_transfer = match self.parser.parse(raw_data.as_slice())? {
TransportProtocolDataUnit::ER(tpdu_error) => return Err(CotpError::ProtocolError(format!("Received an error from the remote host: {:?}", tpdu_error.reason()).into())),
TransportProtocolDataUnit::CR(_) => return Err(CotpError::ProtocolError("Received a Connection Request when expecting data.".into())),
TransportProtocolDataUnit::CC(_) => return Err(CotpError::ProtocolError("Received a Connection Config when expecting data.".into())),
TransportProtocolDataUnit::DR(_) => return Ok(CotpRecvResult::Closed),
TransportProtocolDataUnit::DT(data_transfer) => data_transfer,
};
self.data_buffer.extend_from_slice(data_transfer.user_data());
if data_transfer.end_of_transmission() {
let data = self.data_buffer.to_vec();
self.data_buffer.clear();
return Ok(CotpRecvResult::Data(data));
}
}
}
}
pub struct TcpCotpWriter<W: TpktWriter> {
writer: W,
max_payload_size: usize,
chunks: VecDeque<Vec<u8>>,
}
impl<W: TpktWriter> TcpCotpWriter<W> {
pub fn new(writer: W, max_payload_size: usize) -> Self {
Self { writer, max_payload_size, chunks: VecDeque::new() }
}
}
impl<W: TpktWriter> CotpWriter for TcpCotpWriter<W> {
async fn send(&mut self, input: &mut VecDeque<Vec<u8>>) -> Result<(), CotpError> {
const HEADER_LENGTH: usize = 3;
while let Some(data_item) = input.pop_front() {
let chunks = data_item.as_slice().chunks(self.max_payload_size - HEADER_LENGTH);
let chunk_count = chunks.len();
for (chunk_index, chunk_data) in chunks.enumerate() {
let end_of_transmission = chunk_index + 1 >= chunk_count;
let tpdu = DataTransfer::new(end_of_transmission, chunk_data);
let tpdu_data = serialise(&TransportProtocolDataUnit::DT(tpdu))?;
self.chunks.push_back(tpdu_data);
}
}
while !self.chunks.is_empty() {
self.writer.send(&mut self.chunks).await?;
}
self.writer.send(&mut self.chunks).await?;
Ok(())
}
}
async fn verify_class_compatibility(connection_request: &ConnectionRequest) -> Result<(), CotpError> {
let empty_set = Vec::new();
let class_parameters = connection_request
.parameters()
.iter()
.filter_map(|p| match p {
CotpParameter::AlternativeClassParameter(x) => Some(x),
_ => None,
})
.last()
.unwrap_or(&empty_set);
match connection_request.preferred_class() {
ConnectionClass::Class0 => (),
ConnectionClass::Class1 => (),
ConnectionClass::Class2 if class_parameters.contains(&&ConnectionClass::Class0) => (),
ConnectionClass::Class3 if class_parameters.contains(&&ConnectionClass::Class0) => (),
ConnectionClass::Class3 if class_parameters.contains(&&ConnectionClass::Class1) => (),
ConnectionClass::Class4 if class_parameters.contains(&&ConnectionClass::Class0) => (),
ConnectionClass::Class4 if class_parameters.contains(&&ConnectionClass::Class1) => (),
_ => {
return Err(CotpError::ProtocolError(format!("Cannot downgrade connection request to Class 0 {:?} - {:?}", connection_request.preferred_class(), class_parameters)));
}
};
Ok(())
}
async fn receive_connection_request(reader: &mut impl TpktReader, parser: &TransportProtocolDataUnitParser) -> Result<ConnectionRequest, CotpError> {
let data = match reader.recv().await {
Ok(Some(x)) => x,
Ok(None) => return Err(CotpError::ProtocolError("The connection was closed before the COTP handshake was complete.".into())),
Err(e) => return Err(e.into()),
};
return Ok(match parser.parse(data.as_slice())? {
TransportProtocolDataUnit::CR(x) => x,
TransportProtocolDataUnit::CC(_) => return Err(CotpError::ProtocolError("Expected connection request on handshake but got a connextion confirm".into())),
TransportProtocolDataUnit::DR(_) => return Err(CotpError::ProtocolError("Expected connection request on handshake but got a disconnect reqeust".into())),
TransportProtocolDataUnit::DT(_) => return Err(CotpError::ProtocolError("Expected connection request on handshake but got a data transfer".into())),
TransportProtocolDataUnit::ER(_) => return Err(CotpError::ProtocolError("Expected connection request on handshake but got a error response".into())),
});
}
async fn calculate_remote_size_payload(parameters: &[CotpParameter]) -> Result<(TpduSize, usize), CotpError> {
let parameter: &TpduSize = parameters
.iter()
.filter_map(|p| match p {
CotpParameter::TpduLengthParameter(x) => Some(x),
_ => None,
})
.last()
.unwrap_or(&TpduSize::Size128);
Ok(match parameter {
TpduSize::Size8192 => return Err(CotpError::ProtocolError("The remote side selected an 8192 bytes COTP payload but Class 0 support a maximum for 2048 bytes.".into())),
TpduSize::Size4096 => return Err(CotpError::ProtocolError("The remote side selected an 4096 bytes COTP payload but Class 0 support a maximum for 2048 bytes.".into())),
TpduSize::Unknown(x) => return Err(CotpError::ProtocolError(format!("The requested TPDU size is unknown {:?}.", x).into())),
TpduSize::Size128 => (TpduSize::Size128, 128),
TpduSize::Size256 => (TpduSize::Size256, 256),
TpduSize::Size512 => (TpduSize::Size512, 512),
TpduSize::Size1024 => (TpduSize::Size1024, 1024),
TpduSize::Size2048 => (TpduSize::Size2048, 2048),
})
}
async fn send_connection_confirm<W: TpktWriter>(writer: &mut W, source_reference: u16, destination_reference: u16, size: TpduSize, calling_tsap_id: Option<Vec<u8>>, called_tsap_id: Option<Vec<u8>>) -> Result<(), CotpError> {
let mut parameters = vec![CotpParameter::TpduLengthParameter(size)];
if let Some(tsap_id) = calling_tsap_id {
parameters.push(CotpParameter::CallingTsap(tsap_id));
}
if let Some(tsap_id) = called_tsap_id {
parameters.push(CotpParameter::CalledTsap(tsap_id));
}
let payload = serialise(&TransportProtocolDataUnit::CC(ConnectionConfirm::new(0, source_reference, destination_reference, ConnectionClass::Class0, vec![], parameters, &[])))?;
Ok(writer.send(&mut VecDeque::from_iter(vec![payload].into_iter())).await?)
}
async fn send_connection_request(writer: &mut impl TpktWriter, source_reference: u16, options: CotpProtocolInformation) -> Result<(), CotpError> {
let mut parameters = vec![CotpParameter::TpduLengthParameter(TpduSize::Size2048)];
if let Some(calling_tsap) = options.calling_tsap_id() {
parameters.push(CotpParameter::CallingTsap(calling_tsap.clone()));
}
if let Some(called_tsap) = options.called_tsap_id() {
parameters.push(CotpParameter::CalledTsap(called_tsap.clone()));
}
let payload = serialise(&TransportProtocolDataUnit::CR(ConnectionRequest::new(source_reference, 0, ConnectionClass::Class0, vec![], parameters, &[])))?;
Ok(writer.send(&mut VecDeque::from_iter(vec![payload].into_iter())).await?)
}
async fn receive_connection_confirm(reader: &mut impl TpktReader, parser: &TransportProtocolDataUnitParser) -> Result<ConnectionConfirm, CotpError> {
let data = match reader.recv().await {
Ok(Some(x)) => x,
Ok(None) => return Err(CotpError::ProtocolError("The connection was closed before the COTP handshake was complete.".into())),
Err(e) => return Err(e.into()),
};
return Ok(match parser.parse(data.as_slice())? {
TransportProtocolDataUnit::CC(x) if x.preferred_class() != &ConnectionClass::Class0 => return Err(CotpError::ProtocolError("Remote failed to select COTP Class 0.".into())),
TransportProtocolDataUnit::CC(x) => x,
TransportProtocolDataUnit::CR(_) => return Err(CotpError::ProtocolError("Expected connection confirmed on handshake but got a connection request".into())),
TransportProtocolDataUnit::DR(_) => return Err(CotpError::ProtocolError("Expected connection confirmed on handshake but got a disconnect reqeust".into())),
TransportProtocolDataUnit::DT(_) => return Err(CotpError::ProtocolError("Expected connection confirmed on handshake but got a data transfer".into())),
TransportProtocolDataUnit::ER(_) => return Err(CotpError::ProtocolError("Expected connection confirmed on handshake but got a error response".into())),
});
}