android/vendor/h2-0.3.17/src/proto/settings.rs - toolchain/sccache - Git at Google

 use crate::codec::UserError;
 use crate::error::Reason;
 use crate::frame;
 use crate::proto::*;
 use std::task::{Context, Poll};

 #[derive(Debug)]
 pub(crate) struct Settings {
     /// Our local SETTINGS sync state with the remote.
     local: Local,
     /// Received SETTINGS frame pending processing. The ACK must be written to
     /// the socket first then the settings applied **before** receiving any
     /// further frames.
     remote: Option<frame::Settings>,
 }

 #[derive(Debug)]
 enum Local {
     /// We want to send these SETTINGS to the remote when the socket is ready.
     ToSend(frame::Settings),
     /// We have sent these SETTINGS and are waiting for the remote to ACK
     /// before we apply them.
     WaitingAck(frame::Settings),
     /// Our local settings are in sync with the remote.
     Synced,
 }

 impl Settings {
     pub(crate) fn new(local: frame::Settings) -> Self {
         Settings {
             // We assume the initial local SETTINGS were flushed during
             // the handshake process.
             local: Local::WaitingAck(local),
             remote: None,
         }
     }

     pub(crate) fn recv_settings<T, B, C, P>(
         &mut self,
         frame: frame::Settings,
         codec: &mut Codec<T, B>,
         streams: &mut Streams<C, P>,
     ) -> Result<(), Error>
     where
         T: AsyncWrite + Unpin,
         B: Buf,
         C: Buf,
         P: Peer,
     {
         if frame.is_ack() {
             match &self.local {
                 Local::WaitingAck(local) => {
                     tracing::debug!("received settings ACK; applying {:?}", local);

                     if let Some(max) = local.max_frame_size() {
                         codec.set_max_recv_frame_size(max as usize);
                     }

                     if let Some(max) = local.max_header_list_size() {
                         codec.set_max_recv_header_list_size(max as usize);
                     }

                     streams.apply_local_settings(local)?;
                     self.local = Local::Synced;
                     Ok(())
                 }
                 Local::ToSend(..) | Local::Synced => {
                     // We haven't sent any SETTINGS frames to be ACKed, so
                     // this is very bizarre! Remote is either buggy or malicious.
                     proto_err!(conn: "received unexpected settings ack");
                     Err(Error::library_go_away(Reason::PROTOCOL_ERROR))
                 }
             }
         } else {
             // We always ACK before reading more frames, so `remote` should
             // always be none!
             assert!(self.remote.is_none());
             self.remote = Some(frame);
             Ok(())
         }
     }

     pub(crate) fn send_settings(&mut self, frame: frame::Settings) -> Result<(), UserError> {
         assert!(!frame.is_ack());
         match &self.local {
             Local::ToSend(..) | Local::WaitingAck(..) => Err(UserError::SendSettingsWhilePending),
             Local::Synced => {
                 tracing::trace!("queue to send local settings: {:?}", frame);
                 self.local = Local::ToSend(frame);
                 Ok(())
             }
         }
     }

     pub(crate) fn poll_send<T, B, C, P>(
         &mut self,
         cx: &mut Context,
         dst: &mut Codec<T, B>,
         streams: &mut Streams<C, P>,
     ) -> Poll<Result<(), Error>>
     where
         T: AsyncWrite + Unpin,
         B: Buf,
         C: Buf,
         P: Peer,
     {
         if let Some(settings) = &self.remote {
             if !dst.poll_ready(cx)?.is_ready() {
                 return Poll::Pending;
             }

             // Create an ACK settings frame
             let frame = frame::Settings::ack();

             // Buffer the settings frame
             dst.buffer(frame.into()).expect("invalid settings frame");

             tracing::trace!("ACK sent; applying settings");

             streams.apply_remote_settings(settings)?;

             if let Some(val) = settings.header_table_size() {
                 dst.set_send_header_table_size(val as usize);
             }

             if let Some(val) = settings.max_frame_size() {
                 dst.set_max_send_frame_size(val as usize);
             }
         }

         self.remote = None;

         match &self.local {
             Local::ToSend(settings) => {
                 if !dst.poll_ready(cx)?.is_ready() {
                     return Poll::Pending;
                 }

                 // Buffer the settings frame
                 dst.buffer(settings.clone().into())
                     .expect("invalid settings frame");
                 tracing::trace!("local settings sent; waiting for ack: {:?}", settings);

                 self.local = Local::WaitingAck(settings.clone());
             }
             Local::WaitingAck(..) | Local::Synced => {}
         }

         Poll::Ready(Ok(()))
     }
 }
	use crate::codec::UserError;
	use crate::error::Reason;
	use crate::frame;
	use crate::proto::*;
	use std::task::{Context, Poll};

	#[derive(Debug)]
	pub(crate) struct Settings {
	/// Our local SETTINGS sync state with the remote.
	local: Local,
	/// Received SETTINGS frame pending processing. The ACK must be written to
	/// the socket first then the settings applied before receiving any
	/// further frames.
	remote: Option<frame::Settings>,
	}

	#[derive(Debug)]
	enum Local {
	/// We want to send these SETTINGS to the remote when the socket is ready.
	ToSend(frame::Settings),
	/// We have sent these SETTINGS and are waiting for the remote to ACK
	/// before we apply them.
	WaitingAck(frame::Settings),
	/// Our local settings are in sync with the remote.
	Synced,
	}

	impl Settings {
	pub(crate) fn new(local: frame::Settings) -> Self {
	Settings {
	// We assume the initial local SETTINGS were flushed during
	// the handshake process.
	local: Local::WaitingAck(local),
	remote: None,
	}
	}

	pub(crate) fn recv_settings<T, B, C, P>(
	&mut self,
	frame: frame::Settings,
	codec: &mut Codec<T, B>,
	streams: &mut Streams<C, P>,
	) -> Result<(), Error>
	where
	T: AsyncWrite + Unpin,
	B: Buf,
	C: Buf,
	P: Peer,
	{
	if frame.is_ack() {
	match &self.local {
	Local::WaitingAck(local) => {
	tracing::debug!("received settings ACK; applying {:?}", local);

	if let Some(max) = local.max_frame_size() {
	codec.set_max_recv_frame_size(max as usize);
	}

	if let Some(max) = local.max_header_list_size() {
	codec.set_max_recv_header_list_size(max as usize);
	}

	streams.apply_local_settings(local)?;
	self.local = Local::Synced;
	Ok(())
	}
	Local::ToSend(..) \| Local::Synced => {
	// We haven't sent any SETTINGS frames to be ACKed, so
	// this is very bizarre! Remote is either buggy or malicious.
	proto_err!(conn: "received unexpected settings ack");
	Err(Error::library_go_away(Reason::PROTOCOL_ERROR))
	}
	}
	} else {
	// We always ACK before reading more frames, so `remote` should
	// always be none!
	assert!(self.remote.is_none());
	self.remote = Some(frame);
	Ok(())
	}
	}

	pub(crate) fn send_settings(&mut self, frame: frame::Settings) -> Result<(), UserError> {
	assert!(!frame.is_ack());
	match &self.local {
	Local::ToSend(..) \| Local::WaitingAck(..) => Err(UserError::SendSettingsWhilePending),
	Local::Synced => {
	tracing::trace!("queue to send local settings: {:?}", frame);
	self.local = Local::ToSend(frame);
	Ok(())
	}
	}
	}

	pub(crate) fn poll_send<T, B, C, P>(
	&mut self,
	cx: &mut Context,
	dst: &mut Codec<T, B>,
	streams: &mut Streams<C, P>,
	) -> Poll<Result<(), Error>>
	where
	T: AsyncWrite + Unpin,
	B: Buf,
	C: Buf,
	P: Peer,
	{
	if let Some(settings) = &self.remote {
	if !dst.poll_ready(cx)?.is_ready() {
	return Poll::Pending;
	}

	// Create an ACK settings frame
	let frame = frame::Settings::ack();

	// Buffer the settings frame
	dst.buffer(frame.into()).expect("invalid settings frame");

	tracing::trace!("ACK sent; applying settings");

	streams.apply_remote_settings(settings)?;

	if let Some(val) = settings.header_table_size() {
	dst.set_send_header_table_size(val as usize);
	}

	if let Some(val) = settings.max_frame_size() {
	dst.set_max_send_frame_size(val as usize);
	}
	}

	self.remote = None;

	match &self.local {
	Local::ToSend(settings) => {
	if !dst.poll_ready(cx)?.is_ready() {
	return Poll::Pending;
	}

	// Buffer the settings frame
	dst.buffer(settings.clone().into())
	.expect("invalid settings frame");
	tracing::trace!("local settings sent; waiting for ack: {:?}", settings);

	self.local = Local::WaitingAck(settings.clone());
	}
	Local::WaitingAck(..) \| Local::Synced => {}
	}

	Poll::Ready(Ok(()))
	}
	}