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use super::op::OpImpl;
use crate::client::ClientSocketOp;
use crate::stack::constants::MAX_SEND_LENGTH;
use crate::stack::sock_holder::SocketStore;
use crate::stack::socket_callbacks::SocketCallbacks;
use crate::stack::socket_callbacks::{AsyncOp, AsyncState, SendRequest};
use crate::transfer::Xfer;
use crate::Handle;
use crate::StackError;
#[derive(Debug)]
pub struct TcpSendOp<'data> {
handle: Handle,
data: &'data [u8],
}
impl<'data> TcpSendOp<'data> {
pub fn new(handle: Handle, data: &'data [u8]) -> Self {
Self { handle, data }
}
}
impl<X: Xfer> OpImpl<X> for TcpSendOp<'_> {
type Output = usize;
type Error = StackError;
fn poll_impl(
&mut self,
manager: &mut crate::manager::Manager<X>,
callbacks: &mut SocketCallbacks,
) -> Result<Option<Self::Output>, Self::Error> {
let (sock, op) = callbacks
.tcp_sockets
.get(self.handle)
.ok_or(StackError::SocketNotFound)?;
let socket = *sock;
match op {
ClientSocketOp::AsyncOp(AsyncOp::Send(req, Some(len)), AsyncState::Done) => {
// Validate callback length parameter
let callback_len = *len;
if callback_len < 0 {
// Negative length is invalid - treat as error
*op = ClientSocketOp::None;
return Err(StackError::OpFailed(callback_len.into()));
}
// Validate callback length doesn't exceed remaining data in buffer
let remaining_in_buffer = self.data.len() - req.offset;
let validated_len = if callback_len as usize > remaining_in_buffer {
// Clamp to remaining data if callback reports more than possible
remaining_in_buffer
} else {
callback_len as usize
};
// Ensure validated_len fits in i16 for arithmetic
if validated_len > i16::MAX as usize {
*op = ClientSocketOp::None;
return Err(StackError::InvalidParameters);
}
let validated_len_i16 = validated_len as i16;
// Compute new offset using safe checked arithmetic
let offset = req
.offset
.checked_add(validated_len)
.ok_or(StackError::InvalidParameters)?;
// Update grand_total_sent using validated length
let grand_total_sent = req
.grand_total_sent
.checked_add(validated_len_i16)
.ok_or(StackError::InvalidParameters)?;
if offset >= self.data.len() {
// Complete - reset operation
*op = ClientSocketOp::None;
Ok(Some(usize::from(grand_total_sent as u16)))
} else {
// Continue sending next chunk
let remaining_data = self.data.len() - offset;
let to_send = remaining_data.min(MAX_SEND_LENGTH);
// Ensure to_send fits in i16
if to_send > i16::MAX as usize {
*op = ClientSocketOp::None;
return Err(StackError::InvalidParameters);
}
let new_req = SendRequest {
offset,
grand_total_sent,
total_sent: 0,
remaining: to_send as i16,
};
// Set operation state BEFORE calling send_send to avoid reentrancy races
let prev_op = core::mem::replace(
op,
ClientSocketOp::AsyncOp(
AsyncOp::Send(new_req, None),
AsyncState::Pending(None),
),
);
// Now call send_send - if it fails, revert to previous state
match manager.send_send(socket, &self.data[offset..offset + to_send]) {
Ok(()) => Ok(None), // Still in progress
Err(e) => {
// Revert to previous state on failure
*op = prev_op;
Err(StackError::SendSendFailed(e))
}
}
}
}
ClientSocketOp::AsyncOp(AsyncOp::Send(_, None), AsyncState::Pending(_)) => {
// Still waiting for callback response
Ok(None)
}
_ => {
// Not started or in an unexpected state, so initialize
let to_send = self.data.len().min(MAX_SEND_LENGTH);
// Ensure to_send fits in i16
if to_send > i16::MAX as usize {
return Err(StackError::InvalidParameters);
}
let req = SendRequest {
offset: 0,
grand_total_sent: 0,
total_sent: 0,
remaining: to_send as i16,
};
// Set operation state BEFORE calling send_send to avoid reentrancy races
// if callbacks run synchronously
let prev_op = core::mem::replace(
op,
ClientSocketOp::AsyncOp(AsyncOp::Send(req, None), AsyncState::Pending(None)),
);
// Now call send_send - if it fails, revert to previous state
match manager.send_send(socket, &self.data[..to_send]) {
Ok(()) => Ok(None), // Still in progress
Err(e) => {
// Revert to previous state on failure
*op = prev_op;
Err(StackError::SendSendFailed(e))
}
}
}
}
}
}