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|
use super::{
store, Buffer, Codec, Config, Counts, Frame, Prioritize, Prioritized, Store, Stream, StreamId,
StreamIdOverflow, WindowSize,
};
use crate::codec::UserError;
use crate::frame::{self, Reason};
use crate::proto::{Error, Initiator};
use bytes::Buf;
use http;
use std::task::{Context, Poll, Waker};
use tokio::io::AsyncWrite;
use std::io;
/// Manages state transitions related to outbound frames.
#[derive(Debug)]
pub(super) struct Send {
/// Stream identifier to use for next initialized stream.
next_stream_id: Result<StreamId, StreamIdOverflow>,
/// Any streams with a higher ID are ignored.
///
/// This starts as MAX, but is lowered when a GOAWAY is received.
///
/// > After sending a GOAWAY frame, the sender can discard frames for
/// > streams initiated by the receiver with identifiers higher than
/// > the identified last stream.
max_stream_id: StreamId,
/// Initial window size of locally initiated streams
init_window_sz: WindowSize,
/// Prioritization layer
prioritize: Prioritize,
is_push_enabled: bool,
/// If extended connect protocol is enabled.
is_extended_connect_protocol_enabled: bool,
}
/// A value to detect which public API has called `poll_reset`.
#[derive(Debug)]
pub(crate) enum PollReset {
AwaitingHeaders,
Streaming,
}
impl Send {
/// Create a new `Send`
pub fn new(config: &Config) -> Self {
Send {
init_window_sz: config.remote_init_window_sz,
max_stream_id: StreamId::MAX,
next_stream_id: Ok(config.local_next_stream_id),
prioritize: Prioritize::new(config),
is_push_enabled: true,
is_extended_connect_protocol_enabled: false,
}
}
/// Returns the initial send window size
pub fn init_window_sz(&self) -> WindowSize {
self.init_window_sz
}
pub fn open(&mut self) -> Result<StreamId, UserError> {
let stream_id = self.ensure_next_stream_id()?;
self.next_stream_id = stream_id.next_id();
Ok(stream_id)
}
pub fn reserve_local(&mut self) -> Result<StreamId, UserError> {
let stream_id = self.ensure_next_stream_id()?;
self.next_stream_id = stream_id.next_id();
Ok(stream_id)
}
fn check_headers(fields: &http::HeaderMap) -> Result<(), UserError> {
// 8.1.2.2. Connection-Specific Header Fields
if fields.contains_key(http::header::CONNECTION)
|| fields.contains_key(http::header::TRANSFER_ENCODING)
|| fields.contains_key(http::header::UPGRADE)
|| fields.contains_key("keep-alive")
|| fields.contains_key("proxy-connection")
{
tracing::debug!("illegal connection-specific headers found");
return Err(UserError::MalformedHeaders);
} else if let Some(te) = fields.get(http::header::TE) {
if te != "trailers" {
tracing::debug!("illegal connection-specific headers found");
return Err(UserError::MalformedHeaders);
}
}
Ok(())
}
pub fn send_push_promise<B>(
&mut self,
frame: frame::PushPromise,
buffer: &mut Buffer<Frame<B>>,
stream: &mut store::Ptr,
task: &mut Option<Waker>,
) -> Result<(), UserError> {
if !self.is_push_enabled {
return Err(UserError::PeerDisabledServerPush);
}
tracing::trace!(
"send_push_promise; frame={:?}; init_window={:?}",
frame,
self.init_window_sz
);
Self::check_headers(frame.fields())?;
// Queue the frame for sending
self.prioritize
.queue_frame(frame.into(), buffer, stream, task);
Ok(())
}
pub fn send_headers<B>(
&mut self,
frame: frame::Headers,
buffer: &mut Buffer<Frame<B>>,
stream: &mut store::Ptr,
counts: &mut Counts,
task: &mut Option<Waker>,
) -> Result<(), UserError> {
tracing::trace!(
"send_headers; frame={:?}; init_window={:?}",
frame,
self.init_window_sz
);
Self::check_headers(frame.fields())?;
let end_stream = frame.is_end_stream();
// Update the state
stream.state.send_open(end_stream)?;
if counts.peer().is_local_init(frame.stream_id()) {
// If we're waiting on a PushPromise anyway
// handle potentially queueing the stream at that point
if !stream.is_pending_push {
if counts.can_inc_num_send_streams() {
counts.inc_num_send_streams(stream);
} else {
self.prioritize.queue_open(stream);
}
}
}
// Queue the frame for sending
self.prioritize
.queue_frame(frame.into(), buffer, stream, task);
Ok(())
}
/// Send an explicit RST_STREAM frame
pub fn send_reset<B>(
&mut self,
reason: Reason,
initiator: Initiator,
buffer: &mut Buffer<Frame<B>>,
stream: &mut store::Ptr,
counts: &mut Counts,
task: &mut Option<Waker>,
) {
let is_reset = stream.state.is_reset();
let is_closed = stream.state.is_closed();
let is_empty = stream.pending_send.is_empty();
let stream_id = stream.id;
tracing::trace!(
"send_reset(..., reason={:?}, initiator={:?}, stream={:?}, ..., \
is_reset={:?}; is_closed={:?}; pending_send.is_empty={:?}; \
state={:?} \
",
reason,
initiator,
stream_id,
is_reset,
is_closed,
is_empty,
stream.state
);
if is_reset {
// Don't double reset
tracing::trace!(
" -> not sending RST_STREAM ({:?} is already reset)",
stream_id
);
return;
}
// Transition the state to reset no matter what.
stream.state.set_reset(stream_id, reason, initiator);
// If closed AND the send queue is flushed, then the stream cannot be
// reset explicitly, either. Implicit resets can still be queued.
if is_closed && is_empty {
tracing::trace!(
" -> not sending explicit RST_STREAM ({:?} was closed \
and send queue was flushed)",
stream_id
);
return;
}
// Clear all pending outbound frames.
// Note that we don't call `self.recv_err` because we want to enqueue
// the reset frame before transitioning the stream inside
// `reclaim_all_capacity`.
self.prioritize.clear_queue(buffer, stream);
let frame = frame::Reset::new(stream.id, reason);
tracing::trace!("send_reset -- queueing; frame={:?}", frame);
self.prioritize
.queue_frame(frame.into(), buffer, stream, task);
self.prioritize.reclaim_all_capacity(stream, counts);
}
pub fn schedule_implicit_reset(
&mut self,
stream: &mut store::Ptr,
reason: Reason,
counts: &mut Counts,
task: &mut Option<Waker>,
) {
if stream.state.is_closed() {
// Stream is already closed, nothing more to do
return;
}
stream.state.set_scheduled_reset(reason);
self.prioritize.reclaim_reserved_capacity(stream, counts);
self.prioritize.schedule_send(stream, task);
}
pub fn send_data<B>(
&mut self,
frame: frame::Data<B>,
buffer: &mut Buffer<Frame<B>>,
stream: &mut store::Ptr,
counts: &mut Counts,
task: &mut Option<Waker>,
) -> Result<(), UserError>
where
B: Buf,
{
self.prioritize
.send_data(frame, buffer, stream, counts, task)
}
pub fn send_trailers<B>(
&mut self,
frame: frame::Headers,
buffer: &mut Buffer<Frame<B>>,
stream: &mut store::Ptr,
counts: &mut Counts,
task: &mut Option<Waker>,
) -> Result<(), UserError> {
// TODO: Should this logic be moved into state.rs?
if !stream.state.is_send_streaming() {
return Err(UserError::UnexpectedFrameType);
}
stream.state.send_close();
tracing::trace!("send_trailers -- queuing; frame={:?}", frame);
self.prioritize
.queue_frame(frame.into(), buffer, stream, task);
// Release any excess capacity
self.prioritize.reserve_capacity(0, stream, counts);
Ok(())
}
pub fn poll_complete<T, B>(
&mut self,
cx: &mut Context,
buffer: &mut Buffer<Frame<B>>,
store: &mut Store,
counts: &mut Counts,
dst: &mut Codec<T, Prioritized<B>>,
) -> Poll<io::Result<()>>
where
T: AsyncWrite + Unpin,
B: Buf,
{
self.prioritize
.poll_complete(cx, buffer, store, counts, dst)
}
/// Request capacity to send data
pub fn reserve_capacity(
&mut self,
capacity: WindowSize,
stream: &mut store::Ptr,
counts: &mut Counts,
) {
self.prioritize.reserve_capacity(capacity, stream, counts)
}
pub fn poll_capacity(
&mut self,
cx: &Context,
stream: &mut store::Ptr,
) -> Poll<Option<Result<WindowSize, UserError>>> {
if !stream.state.is_send_streaming() {
return Poll::Ready(None);
}
if !stream.send_capacity_inc {
stream.wait_send(cx);
return Poll::Pending;
}
stream.send_capacity_inc = false;
Poll::Ready(Some(Ok(self.capacity(stream))))
}
/// Current available stream send capacity
pub fn capacity(&self, stream: &mut store::Ptr) -> WindowSize {
let available = stream.send_flow.available().as_size() as usize;
let buffered = stream.buffered_send_data;
available
.min(self.prioritize.max_buffer_size())
.saturating_sub(buffered) as WindowSize
}
pub fn poll_reset(
&self,
cx: &Context,
stream: &mut Stream,
mode: PollReset,
) -> Poll<Result<Reason, crate::Error>> {
match stream.state.ensure_reason(mode)? {
Some(reason) => Poll::Ready(Ok(reason)),
None => {
stream.wait_send(cx);
Poll::Pending
}
}
}
pub fn recv_connection_window_update(
&mut self,
frame: frame::WindowUpdate,
store: &mut Store,
counts: &mut Counts,
) -> Result<(), Reason> {
self.prioritize
.recv_connection_window_update(frame.size_increment(), store, counts)
}
pub fn recv_stream_window_update<B>(
&mut self,
sz: WindowSize,
buffer: &mut Buffer<Frame<B>>,
stream: &mut store::Ptr,
counts: &mut Counts,
task: &mut Option<Waker>,
) -> Result<(), Reason> {
if let Err(e) = self.prioritize.recv_stream_window_update(sz, stream) {
tracing::debug!("recv_stream_window_update !!; err={:?}", e);
self.send_reset(
Reason::FLOW_CONTROL_ERROR,
Initiator::Library,
buffer,
stream,
counts,
task,
);
return Err(e);
}
Ok(())
}
pub(super) fn recv_go_away(&mut self, last_stream_id: StreamId) -> Result<(), Error> {
if last_stream_id > self.max_stream_id {
// The remote endpoint sent a `GOAWAY` frame indicating a stream
// that we never sent, or that we have already terminated on account
// of previous `GOAWAY` frame. In either case, that is illegal.
// (When sending multiple `GOAWAY`s, "Endpoints MUST NOT increase
// the value they send in the last stream identifier, since the
// peers might already have retried unprocessed requests on another
// connection.")
proto_err!(conn:
"recv_go_away: last_stream_id ({:?}) > max_stream_id ({:?})",
last_stream_id, self.max_stream_id,
);
return Err(Error::library_go_away(Reason::PROTOCOL_ERROR));
}
self.max_stream_id = last_stream_id;
Ok(())
}
pub fn handle_error<B>(
&mut self,
buffer: &mut Buffer<Frame<B>>,
stream: &mut store::Ptr,
counts: &mut Counts,
) {
// Clear all pending outbound frames
self.prioritize.clear_queue(buffer, stream);
self.prioritize.reclaim_all_capacity(stream, counts);
}
pub fn apply_remote_settings<B>(
&mut self,
settings: &frame::Settings,
buffer: &mut Buffer<Frame<B>>,
store: &mut Store,
counts: &mut Counts,
task: &mut Option<Waker>,
) -> Result<(), Error> {
if let Some(val) = settings.is_extended_connect_protocol_enabled() {
self.is_extended_connect_protocol_enabled = val;
}
// Applies an update to the remote endpoint's initial window size.
//
// Per RFC 7540 §6.9.2:
//
// In addition to changing the flow-control window for streams that are
// not yet active, a SETTINGS frame can alter the initial flow-control
// window size for streams with active flow-control windows (that is,
// streams in the "open" or "half-closed (remote)" state). When the
// value of SETTINGS_INITIAL_WINDOW_SIZE changes, a receiver MUST adjust
// the size of all stream flow-control windows that it maintains by the
// difference between the new value and the old value.
//
// A change to `SETTINGS_INITIAL_WINDOW_SIZE` can cause the available
// space in a flow-control window to become negative. A sender MUST
// track the negative flow-control window and MUST NOT send new
// flow-controlled frames until it receives WINDOW_UPDATE frames that
// cause the flow-control window to become positive.
if let Some(val) = settings.initial_window_size() {
let old_val = self.init_window_sz;
self.init_window_sz = val;
if val < old_val {
// We must decrease the (remote) window on every open stream.
let dec = old_val - val;
tracing::trace!("decrementing all windows; dec={}", dec);
let mut total_reclaimed = 0;
store.for_each(|mut stream| {
let stream = &mut *stream;
stream.send_flow.dec_send_window(dec);
// It's possible that decreasing the window causes
// `window_size` (the stream-specific window) to fall below
// `available` (the portion of the connection-level window
// that we have allocated to the stream).
// In this case, we should take that excess allocation away
// and reassign it to other streams.
let window_size = stream.send_flow.window_size();
let available = stream.send_flow.available().as_size();
let reclaimed = if available > window_size {
// Drop down to `window_size`.
let reclaim = available - window_size;
stream.send_flow.claim_capacity(reclaim);
total_reclaimed += reclaim;
reclaim
} else {
0
};
tracing::trace!(
"decremented stream window; id={:?}; decr={}; reclaimed={}; flow={:?}",
stream.id,
dec,
reclaimed,
stream.send_flow
);
// TODO: Should this notify the producer when the capacity
// of a stream is reduced? Maybe it should if the capacity
// is reduced to zero, allowing the producer to stop work.
});
self.prioritize
.assign_connection_capacity(total_reclaimed, store, counts);
} else if val > old_val {
let inc = val - old_val;
store.try_for_each(|mut stream| {
self.recv_stream_window_update(inc, buffer, &mut stream, counts, task)
.map_err(Error::library_go_away)
})?;
}
}
if let Some(val) = settings.is_push_enabled() {
self.is_push_enabled = val
}
Ok(())
}
pub fn clear_queues(&mut self, store: &mut Store, counts: &mut Counts) {
self.prioritize.clear_pending_capacity(store, counts);
self.prioritize.clear_pending_send(store, counts);
self.prioritize.clear_pending_open(store, counts);
}
pub fn ensure_not_idle(&self, id: StreamId) -> Result<(), Reason> {
if let Ok(next) = self.next_stream_id {
if id >= next {
return Err(Reason::PROTOCOL_ERROR);
}
}
// if next_stream_id is overflowed, that's ok.
Ok(())
}
pub fn ensure_next_stream_id(&self) -> Result<StreamId, UserError> {
self.next_stream_id
.map_err(|_| UserError::OverflowedStreamId)
}
pub fn may_have_created_stream(&self, id: StreamId) -> bool {
if let Ok(next_id) = self.next_stream_id {
// Peer::is_local_init should have been called beforehand
debug_assert_eq!(id.is_server_initiated(), next_id.is_server_initiated(),);
id < next_id
} else {
true
}
}
pub(super) fn maybe_reset_next_stream_id(&mut self, id: StreamId) {
if let Ok(next_id) = self.next_stream_id {
// Peer::is_local_init should have been called beforehand
debug_assert_eq!(id.is_server_initiated(), next_id.is_server_initiated());
if id >= next_id {
self.next_stream_id = id.next_id();
}
}
}
pub(crate) fn is_extended_connect_protocol_enabled(&self) -> bool {
self.is_extended_connect_protocol_enabled
}
}
|