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Location: CSY/reowolf/src/runtime2/component/component_internet.rs - annotation
fb814548c7d5
15.8 KiB
application/rls-services+xml
Add tcp component to standard library
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c62d6f0cc48a c62d6f0cc48a 3b6c40dc10e1 fb814548c7d5 3b6c40dc10e1 3b6c40dc10e1 644bbf1ed134 644bbf1ed134 644bbf1ed134 fb814548c7d5 c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a 3b6c40dc10e1 c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 3b6c40dc10e1 c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a c62d6f0cc48a 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 644bbf1ed134 c62d6f0cc48a | use crate::protocol::eval::{ValueGroup, Value, EvalError};
use crate::runtime2::*;
use crate::runtime2::component::{CompCtx, CompId};
use crate::runtime2::stdlib::internet::*;
use crate::runtime2::poll::*;
use super::component::{self, *};
use super::control_layer::*;
use super::consensus::*;
use std::io::ErrorKind as IoErrorKind;
enum SocketState {
Connected(SocketTcpClient),
Error,
}
impl SocketState {
fn get_socket(&self) -> &SocketTcpClient {
match self {
SocketState::Connected(v) => v,
SocketState::Error => unreachable!(),
}
}
}
/// States from the point of view of the component that is connecting to this
/// TCP component (i.e. from the point of view of attempting to interface with
/// a socket).
#[derive(PartialEq, Debug)]
enum SyncState {
AwaitingCmd,
Getting,
Putting,
FinishSync,
}
pub struct ComponentTcpClient {
// Properties for the tcp socket
socket_state: SocketState,
sync_state: SyncState,
poll_ticket: Option<PollTicket>,
inbox_main: Option<DataMessage>,
inbox_backup: Vec<DataMessage>,
pdl_input_port_id: PortId, // input from PDL, so transmitted over socket
pdl_output_port_id: PortId, // output towards PDL, so received over socket
input_union_send_tag_value: i64,
input_union_receive_tag_value: i64,
input_union_finish_tag_value: i64,
input_union_shutdown_tag_value: i64,
// Generic component state
exec_state: CompExecState,
control: ControlLayer,
consensus: Consensus,
// Temporary variables
byte_buffer: Vec<u8>,
}
impl Component for ComponentTcpClient {
fn on_creation(&mut self, id: CompId, sched_ctx: &SchedulerCtx) {
// Retrieve type information for messages we're going to receive
let pd = &sched_ctx.runtime.protocol;
let cmd_type = pd.find_type(b"std.internet", b"Cmd")
.expect("'Cmd' type in the 'std.internet' module");
let cmd_type = cmd_type
.as_union();
self.input_union_send_tag_value = cmd_type.get_variant_tag_value(b"Send").unwrap();
self.input_union_receive_tag_value = cmd_type.get_variant_tag_value(b"Receive").unwrap();
self.input_union_finish_tag_value = cmd_type.get_variant_tag_value(b"Finish").unwrap();
self.input_union_shutdown_tag_value = cmd_type.get_variant_tag_value(b"Shutdown").unwrap();
// Register socket for async events
if let SocketState::Connected(socket) = &self.socket_state {
let self_handle = sched_ctx.runtime.get_component_public(id);
let poll_ticket = sched_ctx.polling.register(socket, self_handle, true, true)
.expect("registering tcp component");
debug_assert!(self.poll_ticket.is_none());
self.poll_ticket = Some(poll_ticket);
}
}
fn adopt_message(&mut self, _comp_ctx: &mut CompCtx, message: DataMessage) {
if self.inbox_main.is_none() {
self.inbox_main = Some(message);
} else {
self.inbox_backup.push(message);
}
}
fn handle_message(&mut self, sched_ctx: &mut SchedulerCtx, comp_ctx: &mut CompCtx, message: Message) {
match message {
Message::Data(message) => {
self.handle_incoming_data_message(sched_ctx, comp_ctx, message);
},
Message::Sync(message) => {
let decision = self.consensus.receive_sync_message(sched_ctx, comp_ctx, message);
component::default_handle_sync_decision(&mut self.exec_state, decision, &mut self.consensus);
},
Message::Control(message) => {
component::default_handle_control_message(
&mut self.exec_state, &mut self.control, &mut self.consensus,
message, sched_ctx, comp_ctx
);
},
Message::Poll => {
sched_ctx.log("Received polling event");
},
}
}
fn run(&mut self, sched_ctx: &mut SchedulerCtx, comp_ctx: &mut CompCtx) -> Result<CompScheduling, EvalError> {
sched_ctx.log(&format!("Running component ComponentTcpClient (mode: {:?}", self.exec_state.mode));
match self.exec_state.mode {
CompMode::BlockedSelect => {
// Not possible: we never enter this state
unreachable!();
},
CompMode::NonSync => {
// When in non-sync mode
match &mut self.socket_state {
SocketState::Connected(_socket) => {
// Always move into the sync-state
self.sync_state = SyncState::AwaitingCmd;
self.consensus.notify_sync_start(comp_ctx);
self.exec_state.mode = CompMode::Sync;
},
SocketState::Error => {
// Could potentially send an error message to the
// connected component.
self.exec_state.mode = CompMode::StartExit;
return Ok(CompScheduling::Immediate);
}
}
},
CompMode::Sync => {
// When in sync mode: wait for a command to come in
match self.sync_state {
SyncState::AwaitingCmd => {
if let Some(message) = self.inbox_backup.pop() {
if self.consensus.try_receive_data_message(sched_ctx, comp_ctx, &message) {
// Check which command we're supposed to execute.
let (tag_value, embedded_heap_pos) = message.content.values[0].as_union();
if tag_value == self.input_union_send_tag_value {
// Retrieve bytes from the message
self.byte_buffer.clear();
let union_content = &message.content.regions[embedded_heap_pos as usize];
debug_assert_eq!(union_content.len(), 1);
let array_heap_pos = union_content[0].as_array();
let array_values = &message.content.regions[array_heap_pos as usize];
self.byte_buffer.reserve(array_values.len());
for value in array_values {
self.byte_buffer.push(value.as_uint8());
}
self.sync_state = SyncState::Putting;
return Ok(CompScheduling::Immediate);
} else if tag_value == self.input_union_receive_tag_value {
// Component requires a `recv`
self.sync_state = SyncState::Getting;
return Ok(CompScheduling::Immediate);
} else if tag_value == self.input_union_finish_tag_value {
// Component requires us to end the sync round
let decision = self.consensus.notify_sync_end(sched_ctx, comp_ctx);
component::default_handle_sync_decision(&mut self.exec_state, decision, &mut self.consensus);
} else if tag_value == self.input_union_shutdown_tag_value {
// Component wants to close the connection
todo!("implement clean shutdown, don't forget to unregister to poll ticket");
}
} else {
todo!("handle sync failure due to message deadlock");
return Ok(CompScheduling::Sleep);
}
} else {
self.exec_state.set_as_blocked_get(self.pdl_input_port_id);
return Ok(CompScheduling::Sleep);
}
},
SyncState::Putting => {
// We're supposed to send a user-supplied message fully
// over the socket. But we might end up blocking. In
// that case the component goes to sleep until it is
// polled.
let socket = self.socket_state.get_socket();
while !self.byte_buffer.is_empty() {
match socket.send(&self.byte_buffer) {
Ok(bytes_sent) => {
self.byte_buffer.drain(..bytes_sent);
},
Err(err) => {
if err.kind() == IoErrorKind::WouldBlock {
return Ok(CompScheduling::Sleep); // wait until notified
} else {
todo!("handle socket.send error {:?}", err)
}
}
}
}
// If here then we're done putting the data, we can
// finish the sync round
let decision = self.consensus.notify_sync_end(sched_ctx, comp_ctx);
component::default_handle_sync_decision(&mut self.exec_state, decision, &mut self.consensus);
},
SyncState::Getting => {
// We're going to try and receive a single message. If
// this causes us to end up blocking the component
// goes to sleep until it is polled.
const BUFFER_SIZE: usize = 1024; // TODO: Move to config
let socket = self.socket_state.get_socket();
debug_assert!(self.byte_buffer.is_empty());
self.byte_buffer.resize(BUFFER_SIZE, 0);
match socket.receive(&mut self.byte_buffer) {
Ok(num_received) => {
self.byte_buffer.resize(num_received, 0);
let message_content = self.bytes_to_data_message_content(&self.byte_buffer);
let scheduling = component::default_send_data_message(&mut self.exec_state, self.pdl_output_port_id, message_content, sched_ctx, &mut self.consensus, comp_ctx);
self.sync_state = SyncState::FinishSync;
return Ok(scheduling);
},
Err(err) => {
if err.kind() == IoErrorKind::WouldBlock {
return Ok(CompScheduling::Sleep); // wait until polled
} else {
todo!("handle socket.receive error {:?}", err);
}
}
}
},
SyncState::FinishSync => {
let decision = self.consensus.notify_sync_end(sched_ctx, comp_ctx);
self.exec_state.mode = CompMode::SyncEnd;
component::default_handle_sync_decision(&mut self.exec_state, decision, &mut self.consensus);
return Ok(CompScheduling::Requeue);
}
}
},
CompMode::BlockedGet => {
// Entered when awaiting a new command
debug_assert_eq!(self.sync_state, SyncState::AwaitingCmd);
return Ok(CompScheduling::Sleep);
},
CompMode::SyncEnd | CompMode::BlockedPut =>
return Ok(CompScheduling::Sleep),
CompMode::StartExit =>
return Ok(component::default_handle_start_exit(&mut self.exec_state, &mut self.control, sched_ctx, comp_ctx)),
CompMode::BusyExit =>
return Ok(component::default_handle_busy_exit(&mut self.exec_state, &mut self.control, sched_ctx)),
CompMode::Exit =>
return Ok(component::default_handle_exit(&self.exec_state)),
}
return Ok(CompScheduling::Immediate);
}
}
impl ComponentTcpClient {
pub(crate) fn new(arguments: ValueGroup) -> Self {
use std::net::{IpAddr, Ipv4Addr};
debug_assert_eq!(arguments.values.len(), 4);
// Parsing arguments
let ip_heap_pos = arguments.values[0].as_array();
let ip_elements = &arguments.regions[ip_heap_pos as usize];
if ip_elements.len() != 4 {
todo!("friendly error reporting: ip contains 4 octects");
}
let ip_address = IpAddr::V4(Ipv4Addr::new(
ip_elements[0].as_uint8(), ip_elements[1].as_uint8(),
ip_elements[2].as_uint8(), ip_elements[3].as_uint8()
));
let port = arguments.values[1].as_uint16();
let input_port = component::port_id_from_eval(arguments.values[2].as_input());
let output_port = component::port_id_from_eval(arguments.values[3].as_output());
let socket = SocketTcpClient::new(ip_address, port);
if let Err(socket) = socket {
todo!("friendly error reporting: failed to open socket {:?}", socket);
}
return Self{
socket_state: SocketState::Connected(socket.unwrap()),
sync_state: SyncState::AwaitingCmd,
poll_ticket: None,
inbox_main: None,
inbox_backup: Vec::new(),
input_union_send_tag_value: -1,
input_union_receive_tag_value: -1,
input_union_finish_tag_value: -1,
input_union_shutdown_tag_value: -1,
pdl_input_port_id: input_port,
pdl_output_port_id: output_port,
exec_state: CompExecState::new(),
control: ControlLayer::default(),
consensus: Consensus::new(),
byte_buffer: Vec::new(),
}
}
// Handles incoming data from the PDL side (hence, going into the socket)
fn handle_incoming_data_message(&mut self, sched_ctx: &SchedulerCtx, comp_ctx: &mut CompCtx, message: DataMessage) {
if self.exec_state.mode.is_in_sync_block() {
self.consensus.handle_incoming_data_message(comp_ctx, &message);
}
match component::default_handle_incoming_data_message(
&mut self.exec_state, &mut self.inbox_main, comp_ctx, message, sched_ctx, &mut self.control
) {
IncomingData::PlacedInSlot => {},
IncomingData::SlotFull(message) => {
self.inbox_backup.push(message);
}
}
}
fn data_message_to_bytes(&self, message: DataMessage, bytes: &mut Vec<u8>) {
debug_assert_eq!(message.data_header.target_port, self.pdl_input_port_id);
debug_assert_eq!(message.content.values.len(), 1);
if let Value::Array(array_pos) = message.content.values[0] {
let region = &message.content.regions[array_pos as usize];
bytes.reserve(region.len());
for value in region {
bytes.push(value.as_uint8());
}
} else {
unreachable!();
}
}
fn bytes_to_data_message_content(&self, buffer: &[u8]) -> ValueGroup {
// Turn bytes into silly executor-style array
let mut values = Vec::with_capacity(buffer.len());
for byte in buffer.iter().copied() {
values.push(Value::UInt8(byte));
}
// Put in a value group
let mut value_group = ValueGroup::default();
value_group.regions.push(values);
value_group.values.push(Value::Array(0));
return value_group;
}
}
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