use crate::{
acknowledgement::{Acknowledgements, DeliveryTag},
auth::Credentials,
channel_status::{ChannelState, ChannelStatus},
confirmation::Confirmation,
connection::Connection,
connection_status::ConnectionState,
consumer::Consumer,
frames::Priority,
id_sequence::IdSequence,
message::{BasicGetMessage, BasicReturnMessage, Delivery},
protocol::{self, AMQPClass, AMQPError, AMQPSoftError},
queue::Queue,
queues::Queues,
returned_messages::ReturnedMessages,
types::*,
wait::{Cancellable, Wait, WaitHandle},
BasicProperties, Error,
};
use amq_protocol::frame::{AMQPContentHeader, AMQPFrame};
use log::{debug, error, info, trace};
use std::borrow::Borrow;
#[cfg(test)]
use crate::queue::QueueState;
#[derive(Clone, Debug)]
pub struct Channel {
id: u16,
connection: Connection,
status: ChannelStatus,
acknowledgements: Acknowledgements,
delivery_tag: IdSequence<DeliveryTag>,
queues: Queues,
returned_messages: ReturnedMessages,
}
impl Channel {
pub(crate) fn new(channel_id: u16, connection: Connection) -> Channel {
let returned_messages = ReturnedMessages::default();
Channel {
id: channel_id,
connection,
status: ChannelStatus::default(),
acknowledgements: Acknowledgements::new(returned_messages.clone()),
delivery_tag: IdSequence::new(false),
queues: Queues::default(),
returned_messages,
}
}
pub fn status(&self) -> &ChannelStatus {
&self.status
}
fn set_closed(&self) -> Result<(), Error> {
self.set_state(ChannelState::Closed);
self.cancel_consumers();
self.connection.remove_channel(self.id)
}
fn set_error(&self) -> Result<(), Error> {
self.set_state(ChannelState::Error);
self.error_consumers();
self.connection.remove_channel(self.id)
}
pub(crate) fn cancel_consumers(&self) {
self.queues.cancel_consumers();
}
pub(crate) fn error_consumers(&self) {
self.queues.error_consumers();
}
pub(crate) fn set_state(&self, state: ChannelState) {
self.status.set_state(state);
}
pub fn id(&self) -> u16 {
self.id
}
pub fn close(&self, reply_code: ShortUInt, reply_text: &str) -> Confirmation<()> {
self.do_channel_close(reply_code, reply_text, 0, 0)
}
pub fn basic_consume(
&self,
queue: &Queue,
consumer_tag: &str,
options: BasicConsumeOptions,
arguments: FieldTable,
) -> Confirmation<Consumer> {
self.do_basic_consume(queue.borrow(), consumer_tag, options, arguments)
}
pub fn wait_for_confirms(&self) -> Confirmation<Vec<BasicReturnMessage>> {
if let Some(wait) = self.acknowledgements.get_last_pending() {
let returned_messages = self.returned_messages.clone();
Confirmation::new(wait).map(Box::new(move |_| returned_messages.drain()))
} else {
let (wait, wait_handle) = Wait::new();
wait_handle.finish(Vec::default());
Confirmation::new(wait)
}
}
#[cfg(test)]
pub(crate) fn register_queue(&self, queue: QueueState) {
self.queues.register(queue);
}
pub(crate) fn send_method_frame(
&self,
method: AMQPClass,
expected_reply: Option<(Reply, Box<dyn Cancellable + Send>)>,
) -> Result<Wait<()>, Error> {
self.send_frame(
Priority::NORMAL,
AMQPFrame::Method(self.id, method),
expected_reply,
)
}
fn send_method_frame_with_body(
&self,
method: AMQPClass,
payload: Vec<u8>,
properties: BasicProperties,
) -> Result<Wait<()>, Error> {
let class_id = method.get_amqp_class_id();
let header = AMQPContentHeader {
class_id,
weight: 0,
body_size: payload.len() as u64,
properties,
};
let frame_max = self.connection.configuration().frame_max();
let mut frames = vec![(
AMQPFrame::Method(self.id, method),
Some(AMQPFrame::Header(self.id, class_id, Box::new(header))),
)];
frames.extend(
payload
.as_slice()
.chunks(frame_max as usize - 8)
.map(|chunk| (AMQPFrame::Body(self.id, chunk.into()), None)),
);
self.connection.send_frames(self.id, frames)
}
pub(crate) fn send_frame(
&self,
priority: Priority,
frame: AMQPFrame,
expected_reply: Option<(Reply, Box<dyn Cancellable + Send>)>,
) -> Result<Wait<()>, Error> {
self.connection
.send_frame(self.id, priority, frame, expected_reply)
}
pub(crate) fn handle_content_header_frame(
&self,
size: u64,
properties: BasicProperties,
) -> Result<(), Error> {
if let ChannelState::WillReceiveContent(queue_name, request_id_or_consumer_tag) =
self.status.state()
{
if size > 0 {
self.status.set_state(ChannelState::ReceivingContent(
queue_name.clone(),
request_id_or_consumer_tag.clone(),
size as usize,
));
} else {
self.status.set_state(ChannelState::Connected);
}
if let Some(queue_name) = queue_name {
self.queues.handle_content_header_frame(
queue_name.as_str(),
request_id_or_consumer_tag,
size,
properties,
);
} else {
self.returned_messages.set_delivery_properties(properties);
if size == 0 {
self.returned_messages.new_delivery_complete();
}
}
Ok(())
} else {
self.set_error()
}
}
pub(crate) fn handle_body_frame(&self, payload: Vec<u8>) -> Result<(), Error> {
let payload_size = payload.len();
if let ChannelState::ReceivingContent(
queue_name,
request_id_or_consumer_tag,
remaining_size,
) = self.status.state()
{
if remaining_size >= payload_size {
if let Some(queue_name) = queue_name.as_ref() {
self.queues.handle_body_frame(
queue_name.as_str(),
request_id_or_consumer_tag.clone(),
remaining_size,
payload_size,
payload,
);
} else {
self.returned_messages.receive_delivery_content(payload);
if remaining_size == payload_size {
self.returned_messages.new_delivery_complete();
}
}
if remaining_size == payload_size {
self.status.set_state(ChannelState::Connected);
} else {
self.status.set_state(ChannelState::ReceivingContent(
queue_name,
request_id_or_consumer_tag,
remaining_size - payload_size,
));
}
Ok(())
} else {
error!("body frame too large");
self.set_error()
}
} else {
self.set_error()
}
}
fn acknowledgement_error(
&self,
error: Error,
class_id: u16,
method_id: u16,
) -> Result<(), Error> {
self.do_channel_close(
AMQPSoftError::PRECONDITIONFAILED.get_id(),
"precondition failed",
class_id,
method_id,
)
.into_error()?;
Err(error)
}
fn on_connection_start_ok_sent(
&self,
wait_handle: WaitHandle<Connection>,
credentials: Credentials,
) -> Result<(), Error> {
self.connection
.set_state(ConnectionState::SentStartOk(wait_handle, credentials));
Ok(())
}
fn on_connection_open_sent(&self, wait_handle: WaitHandle<Connection>) -> Result<(), Error> {
self.connection
.set_state(ConnectionState::SentOpen(wait_handle));
Ok(())
}
fn on_connection_close_sent(&self) -> Result<(), Error> {
self.connection.set_closing();
Ok(())
}
fn on_connection_close_ok_sent(&self) -> Result<(), Error> {
self.connection.set_closed()
}
fn on_channel_close_sent(&self) -> Result<(), Error> {
self.set_state(ChannelState::Closing);
Ok(())
}
fn on_channel_close_ok_sent(&self) -> Result<(), Error> {
self.set_closed()
}
fn on_basic_publish_sent(&self) -> Result<(), Error> {
if self.status.confirm() {
let delivery_tag = self.delivery_tag.next();
self.acknowledgements.register_pending(delivery_tag);
}
Ok(())
}
fn on_basic_recover_async_sent(&self) -> Result<(), Error> {
self.queues.drop_prefetched_messages();
Ok(())
}
fn on_basic_ack_sent(&self, multiple: bool, delivery_tag: DeliveryTag) -> Result<(), Error> {
if multiple && delivery_tag == 0 {
self.queues.drop_prefetched_messages();
}
Ok(())
}
fn on_basic_nack_sent(&self, multiple: bool, delivery_tag: DeliveryTag) -> Result<(), Error> {
if multiple && delivery_tag == 0 {
self.queues.drop_prefetched_messages();
}
Ok(())
}
fn tune_connection_configuration(&self, channel_max: u16, frame_max: u32, heartbeat: u16) {
if self.connection.configuration().heartbeat() == 0
|| heartbeat != 0 && heartbeat < self.connection.configuration().heartbeat()
{
self.connection.configuration().set_heartbeat(heartbeat);
}
if channel_max != 0 {
if self.connection.configuration().channel_max() == 0
|| channel_max < self.connection.configuration().channel_max()
{
self.connection.configuration().set_channel_max(channel_max);
}
}
if self.connection.configuration().channel_max() == 0 {
self.connection
.configuration()
.set_channel_max(u16::max_value());
}
if frame_max != 0 {
if self.connection.configuration().frame_max() == 0
|| frame_max < self.connection.configuration().frame_max()
{
self.connection.configuration().set_frame_max(frame_max);
}
}
if self.connection.configuration().frame_max() == 0 {
self.connection
.configuration()
.set_frame_max(u32::max_value());
}
}
fn on_connection_start_received(
&self,
method: protocol::connection::Start,
) -> Result<(), Error> {
trace!("Server sent connection::Start: {:?}", method);
let state = self.connection.status().state();
if let ConnectionState::SentProtocolHeader(wait_handle, credentials, mut options) = state {
let mechanism = options.mechanism.to_string();
let locale = options.locale.clone();
if !method.mechanisms.split_whitespace().any(|m| m == mechanism) {
error!("unsupported mechanism: {}", mechanism);
}
if !method.locales.split_whitespace().any(|l| l == locale) {
error!("unsupported locale: {}", mechanism);
}
if !options.client_properties.contains_key("product")
|| !options.client_properties.contains_key("version")
{
options.client_properties.insert(
"product".into(),
AMQPValue::LongString(env!("CARGO_PKG_NAME").into()),
);
options.client_properties.insert(
"version".into(),
AMQPValue::LongString(env!("CARGO_PKG_VERSION").into()),
);
}
options
.client_properties
.insert("platform".into(), AMQPValue::LongString("rust".into()));
let mut capabilities = FieldTable::default();
capabilities.insert("publisher_confirms".into(), AMQPValue::Boolean(true));
capabilities.insert(
"exchange_exchange_bindings".into(),
AMQPValue::Boolean(true),
);
capabilities.insert("basic.nack".into(), AMQPValue::Boolean(true));
capabilities.insert("consumer_cancel_notify".into(), AMQPValue::Boolean(true));
capabilities.insert("connection.blocked".into(), AMQPValue::Boolean(true));
capabilities.insert(
"authentication_failure_close".into(),
AMQPValue::Boolean(true),
);
options
.client_properties
.insert("capabilities".into(), AMQPValue::FieldTable(capabilities));
self.connection_start_ok(
options.client_properties,
&mechanism,
&credentials.sasl_auth_string(options.mechanism),
&locale,
wait_handle,
credentials,
)
.into_error()
} else {
error!("Invalid state: {:?}", state);
self.connection.set_error()?;
Err(Error::InvalidConnectionState(state))
}
}
fn on_connection_secure_received(
&self,
method: protocol::connection::Secure,
) -> Result<(), Error> {
trace!("Server sent connection::Secure: {:?}", method);
let state = self.connection.status().state();
if let ConnectionState::SentStartOk(_, credentials) = state {
self.connection_secure_ok(&credentials.rabbit_cr_demo_answer())
.into_error()
} else {
error!("Invalid state: {:?}", state);
self.connection.set_error()?;
Err(Error::InvalidConnectionState(state))
}
}
fn on_connection_tune_received(&self, method: protocol::connection::Tune) -> Result<(), Error> {
debug!("Server sent Connection::Tune: {:?}", method);
let state = self.connection.status().state();
if let ConnectionState::SentStartOk(wait_handle, _) = state {
self.tune_connection_configuration(
method.channel_max,
method.frame_max,
method.heartbeat,
);
self.connection_tune_ok(
self.connection.configuration().channel_max(),
self.connection.configuration().frame_max(),
self.connection.configuration().heartbeat(),
)
.into_error()?;
self.connection_open(&self.connection.status().vhost(), wait_handle)
.into_error()
} else {
error!("Invalid state: {:?}", state);
self.connection.set_error()?;
Err(Error::InvalidConnectionState(state))
}
}
fn on_connection_open_ok_received(&self, _: protocol::connection::OpenOk) -> Result<(), Error> {
let state = self.connection.status().state();
if let ConnectionState::SentOpen(wait_handle) = state {
self.connection.set_state(ConnectionState::Connected);
wait_handle.finish(self.connection.clone());
Ok(())
} else {
error!("Invalid state: {:?}", state);
self.connection.set_error()?;
Err(Error::InvalidConnectionState(state))
}
}
fn on_connection_close_received(
&self,
method: protocol::connection::Close,
) -> Result<(), Error> {
if let Some(error) = AMQPError::from_id(method.reply_code) {
error!(
"Connection closed on channel {} by {}:{} => {:?} => {}",
self.id, method.class_id, method.method_id, error, method.reply_text
);
} else {
info!("Connection closed on channel {}: {:?}", self.id, method);
}
let state = self.connection.status().state();
self.connection.set_closing();
self.connection.drop_pending_frames();
self.connection_close_ok().into_error()?;
match state {
ConnectionState::SentProtocolHeader(wait_handle, ..) => {
wait_handle.error(Error::ConnectionRefused)
}
ConnectionState::SentStartOk(wait_handle, _) => {
wait_handle.error(Error::ConnectionRefused)
}
ConnectionState::SentOpen(wait_handle) => wait_handle.error(Error::ConnectionRefused),
_ => {}
}
Ok(())
}
fn on_connection_blocked_received(
&self,
_method: protocol::connection::Blocked,
) -> Result<(), Error> {
self.connection.do_block();
Ok(())
}
fn on_connection_unblocked_received(
&self,
_method: protocol::connection::Unblocked,
) -> Result<(), Error> {
self.connection.do_unblock()
}
fn on_connection_close_ok_received(&self) -> Result<(), Error> {
self.connection.set_closed()
}
fn on_channel_open_ok_received(
&self,
_method: protocol::channel::OpenOk,
wait_handle: WaitHandle<Channel>,
) -> Result<(), Error> {
self.status.set_state(ChannelState::Connected);
wait_handle.finish(self.clone());
Ok(())
}
fn on_channel_flow_received(&self, method: protocol::channel::Flow) -> Result<(), Error> {
self.status.set_send_flow(method.active);
self.channel_flow_ok(ChannelFlowOkOptions {
active: method.active,
})
.into_error()
}
fn on_channel_flow_ok_received(
&self,
method: protocol::channel::FlowOk,
wait_handle: WaitHandle<Boolean>,
) -> Result<(), Error> {
wait_handle.finish(method.active);
Ok(())
}
fn on_channel_close_received(&self, method: protocol::channel::Close) -> Result<(), Error> {
if let Some(error) = AMQPError::from_id(method.reply_code) {
error!(
"Channel {} closed by {}:{} => {:?} => {}",
self.id, method.class_id, method.method_id, error, method.reply_text
);
} else {
info!("Channel {} closed: {:?}", self.id, method);
}
self.channel_close_ok().into_error()
}
fn on_channel_close_ok_received(&self) -> Result<(), Error> {
self.set_closed()
}
fn on_queue_delete_ok_received(
&self,
method: protocol::queue::DeleteOk,
wait_handle: WaitHandle<LongUInt>,
queue: ShortString,
) -> Result<(), Error> {
self.queues.deregister(queue.as_str());
wait_handle.finish(method.message_count);
Ok(())
}
fn on_queue_purge_ok_received(
&self,
method: protocol::queue::PurgeOk,
wait_handle: WaitHandle<LongUInt>,
) -> Result<(), Error> {
wait_handle.finish(method.message_count);
Ok(())
}
fn on_queue_declare_ok_received(
&self,
method: protocol::queue::DeclareOk,
wait_handle: WaitHandle<Queue>,
) -> Result<(), Error> {
let queue = Queue::new(method.queue, method.message_count, method.consumer_count);
wait_handle.finish(queue.clone());
self.queues.register(queue.into());
Ok(())
}
fn on_basic_get_ok_received(
&self,
method: protocol::basic::GetOk,
wait_handle: WaitHandle<Option<BasicGetMessage>>,
queue: ShortString,
) -> Result<(), Error> {
self.queues.start_basic_get_delivery(
queue.as_str(),
BasicGetMessage::new(
method.delivery_tag,
method.exchange,
method.routing_key,
method.redelivered,
method.message_count,
),
wait_handle,
);
self.status
.set_state(ChannelState::WillReceiveContent(Some(queue), None));
Ok(())
}
fn on_basic_get_empty_received(&self, _: protocol::basic::GetEmpty) -> Result<(), Error> {
match self.connection.next_expected_reply(self.id) {
Some(Reply::BasicGetOk(wait_handle, _)) => {
wait_handle.finish(None);
Ok(())
}
_ => {
self.set_error()?;
Err(Error::UnexpectedReply)
}
}
}
#[allow(clippy::too_many_arguments)]
fn on_basic_consume_ok_received(
&self,
method: protocol::basic::ConsumeOk,
wait_handle: WaitHandle<Consumer>,
queue: ShortString,
) -> Result<(), Error> {
let consumer = Consumer::new(method.consumer_tag.clone());
self.queues
.register_consumer(queue.as_str(), method.consumer_tag, consumer.clone());
wait_handle.finish(consumer);
Ok(())
}
fn on_basic_deliver_received(&self, method: protocol::basic::Deliver) -> Result<(), Error> {
if let Some(queue_name) = self.queues.start_consumer_delivery(
method.consumer_tag.as_str(),
Delivery::new(
method.delivery_tag,
method.exchange,
method.routing_key,
method.redelivered,
),
) {
self.status.set_state(ChannelState::WillReceiveContent(
Some(queue_name),
Some(method.consumer_tag),
));
}
Ok(())
}
fn on_basic_cancel_received(&self, method: protocol::basic::Cancel) -> Result<(), Error> {
self.queues
.deregister_consumer(method.consumer_tag.as_str());
if !method.nowait {
self.basic_cancel_ok(method.consumer_tag.as_str())
.into_error()
} else {
Ok(())
}
}
fn on_basic_cancel_ok_received(&self, method: protocol::basic::CancelOk) -> Result<(), Error> {
self.queues
.deregister_consumer(method.consumer_tag.as_str());
Ok(())
}
fn on_basic_ack_received(&self, method: protocol::basic::Ack) -> Result<(), Error> {
if self.status.confirm() {
if method.multiple {
if method.delivery_tag > 0 {
self.acknowledgements
.ack_all_before(method.delivery_tag)
.or_else(|err| {
self.acknowledgement_error(
err,
method.get_amqp_class_id(),
method.get_amqp_method_id(),
)
})?;
} else {
self.acknowledgements.ack_all_pending();
}
} else {
self.acknowledgements
.ack(method.delivery_tag)
.or_else(|err| {
self.acknowledgement_error(
err,
method.get_amqp_class_id(),
method.get_amqp_method_id(),
)
})?;
}
}
Ok(())
}
fn on_basic_nack_received(&self, method: protocol::basic::Nack) -> Result<(), Error> {
if self.status.confirm() {
if method.multiple {
if method.delivery_tag > 0 {
self.acknowledgements
.nack_all_before(method.delivery_tag)
.or_else(|err| {
self.acknowledgement_error(
err,
method.get_amqp_class_id(),
method.get_amqp_method_id(),
)
})?;
} else {
self.acknowledgements.nack_all_pending();
}
} else {
self.acknowledgements
.nack(method.delivery_tag)
.or_else(|err| {
self.acknowledgement_error(
err,
method.get_amqp_class_id(),
method.get_amqp_method_id(),
)
})?;
}
}
Ok(())
}
fn on_basic_return_received(&self, method: protocol::basic::Return) -> Result<(), Error> {
self.returned_messages
.start_new_delivery(BasicReturnMessage::new(
method.exchange,
method.routing_key,
method.reply_code,
method.reply_text,
));
self.status
.set_state(ChannelState::WillReceiveContent(None, None));
Ok(())
}
fn on_basic_recover_ok_received(&self) -> Result<(), Error> {
self.queues.drop_prefetched_messages();
Ok(())
}
fn on_confirm_select_ok_received(&self) -> Result<(), Error> {
self.status.set_confirm();
Ok(())
}
fn on_access_request_ok_received(&self, _: protocol::access::RequestOk) -> Result<(), Error> {
Ok(())
}
}
include!(concat!(env!("OUT_DIR"), "/channel.rs"));