SSX3LobbyServer/lib/http/websocket_client.cpp

#include <cstdint>
#include <http/utils.hpp>
#include <http/websocket_client.hpp>
#include <http/proxy_address.hpp>
#include <base/assert.hpp>
#include <spdlog/spdlog.h>

namespace base::http {

	void WebSocketClient::Send(ConstMessagePtr message) {
		BASE_ASSERT(message.get() != nullptr, "This function needs a valid message pointer.");
		if(closed)
			return;

		// If the backpressure is too large for this client
		// then just disconnect it. It's not worth trying to catch up,
		// especially if this client is actually holding references to messages
		// and causing what effectively amounts to a memory leak!
		if(sendQueue.size() > MAX_MESSAGES_IN_QUEUE) {
			if(!closed && !forceClosed) {
				forceClosed = true;
				sendQueue.clear();
				asio::co_spawn(stream.get_executor(), Close(), asio::detached);
			}
			return;
		}

		sendQueue.push_back(message);
		sendCondition.NotifyOne();
	}

	Awaitable<bool> WebSocketClient::Handshake() {
		BASE_ASSERT(upgrade.IsWebsocketUpgrade(), "Arrived here without a valid WebSocket upgrade?");

		// Disable the expiry timeout that the HTTP server placed on the original stream, since
		// websocket::stream has its own functionality to time itself out.
		stream.next_layer().expires_never();

		stream.set_option(beast::websocket::stream_base::timeout::suggested(beast::role_type::server));

		// decorate the handshake with our common server field(s)
		stream.set_option(beast::websocket::stream_base::decorator([](beast::websocket::response_type& res) { SetCommonResponseFields(res); }));

		// try accepting
		try {
			co_await stream.async_accept(upgrade.Native(), asio::deferred);

			// Spawn coroutines for read/write end now that we actually performed the websokcet handshake
			auto exec = stream.next_layer().get_executor();
			asio::co_spawn(exec, WriteEnd(), asio::detached);
			asio::co_spawn(exec, ReadEnd(), asio::detached);
			co_return true;
		} catch(bsys::system_error& ec) {
			// just close the socket then.
			bsys::error_code ignore;
			stream.next_layer().socket().close(ignore);
			co_return false;
		}
		co_return false;
	}

	Awaitable<void> WebSocketClient::Close() {
		return CloseWithReason("Generic close.");
	}

	Awaitable<void> WebSocketClient::CloseWithReason(const std::string& reason) {
		auto self = shared_from_this();

		// don't try to close more than once
		// (this avoids calling the close handler
		// more than once, or trying to close the WebSocket stream
		// multiple times, avoiding crashes.)
		if(self->closed)
			co_return;

		self->closed = true;

		if(self->listener)
			co_await self->listener->OnClose();

		try {
			if(self->stream.next_layer().socket().is_open()) {
				co_await self->stream.async_close(beast::websocket::close_reason { beast::websocket::close_code::try_again_later, reason },
												  asio::deferred);
			}
		} catch(bsys::error_code& ec) {
			spdlog::error("Error when closing (not fatal): {}", ec.what());
		}

		// notify the send task that it needs to stop
		self->sendQueue.clear();
		self->sendCondition.NotifyAll();
		co_return;
	}

	asio::ip::address WebSocketClient::Address() {
		// N.B. The previous "get it from the socket" method would "work"
		// but we don't support any sort of multipath, so the IP we get
		// the upgrade request on (all things considered) will be the IP we read

#ifdef BASE_HTTP_REVERSE_PROXY_SUPPORT
		return http::GetProxyAddress(upgrade.src, upgrade.Native());
#else
		return upgrade.src;
#endif
	}

	Awaitable<void> WebSocketClient::WriteEnd() {
		auto self = shared_from_this();
		try {
			while(true) {
				// If the send queue was empty, then there isn't really anything we can do
				if(self->sendQueue.empty()) {
					self->sending = false;
					self->sendCondition.NotifyOne();
					co_await self->sendCondition.Wait([self]() {
						if(self->closed)
							return true;
						return !self->sendQueue.empty();
					});
				}

				if(closed)
					break;

				self->sending = true;
				auto& message = self->sendQueue.front();

				if(message->GetType() == WebSocketMessage::Type::Text) {
					self->stream.text(true);
					co_await self->stream.async_write(asio::buffer(message->AsText()), asio::deferred);
				} else if(message->GetType() == WebSocketMessage::Type::Binary) {
					self->stream.binary(true);
					co_await self->stream.async_write(asio::buffer(message->AsBinary()), asio::deferred);
				}

				// pop the element off the queue
				self->sendQueue.erase(sendQueue.begin());
				self->sendQueue.shrink_to_fit();
			}
		} catch(bsys::system_error& ec) {
			// spdlog::error("failure in write end: {}", ec.what());
		}

		co_await self->Close();
		co_return;
	}

	Awaitable<void> WebSocketClient::ReadEnd() {
		auto self = shared_from_this();
		beast::flat_buffer messageBuffer;

		try {
			while(true) {
				// wait for the send end to be done sending messages, if it decides to wake up
				co_await self->sendCondition.Wait([self]() {
					if(self->closed)
						return true;
					return !self->sending;
				});

				// If the connection was closed break out
				if(self->closed)
					break;

				// let's try reading a message
				auto b = co_await self->stream.async_read(messageBuffer, asio::deferred);

				if(self->listener) {
					if(self->stream.got_text()) {
						co_await self->listener->OnMessage(std::make_shared<WebSocketMessage>(
													   std::string { reinterpret_cast<char*>(messageBuffer.data().data()), messageBuffer.size() }));
					} else if(self->stream.got_binary()) {
						co_await  self->listener->OnMessage(std::make_shared<WebSocketMessage>(
													   std::span<u8> { reinterpret_cast<u8*>(messageBuffer.data().data()), messageBuffer.size() }));
					}
				}

				messageBuffer.consume(b);

				// notify the send end we're done reading, so it can (if the queue isn't empty) write
				// this might end up blocking us from reading for a while if it decides it can.
				self->sendCondition.NotifyOne();
			}
		} catch(bsys::system_error& ec) {
			// TODO: this should be re-enabled but doesn't seem to limit properly
			// if(ec.code() != beast::websocket::error::closed || ec.code() != asio::error::eof)
			//	spdlog::error("fail in read end {}", ec.what());
		}

		co_await self->Close();
		co_return;
	}
} // namespace base::http
Initial commit of rewrite based on base/ library Should make the code actually possible to finish :v 2024-02-05 06:24:48 -05:00			`#include <cstdint>`
			`#include <http/utils.hpp>`
			`#include <http/websocket_client.hpp>`
			`#include <http/proxy_address.hpp>`
			`#include <base/assert.hpp>`
*: port to spdlog Later commits will work on creating loggers for each component. 2024-03-10 06:34:42 -04:00			`#include <spdlog/spdlog.h>`
Initial commit of rewrite based on base/ library Should make the code actually possible to finish :v 2024-02-05 06:24:48 -05:00
			`namespace base::http {`

			`void WebSocketClient::Send(ConstMessagePtr message) {`
			`BASE_ASSERT(message.get() != nullptr, "This function needs a valid message pointer.");`
			`if(closed)`
			`return;`

			`// If the backpressure is too large for this client`
			`// then just disconnect it. It's not worth trying to catch up,`
			`// especially if this client is actually holding references to messages`
			`// and causing what effectively amounts to a memory leak!`
			`if(sendQueue.size() > MAX_MESSAGES_IN_QUEUE) {`
			`if(!closed && !forceClosed) {`
			`forceClosed = true;`
			`sendQueue.clear();`
			`asio::co_spawn(stream.get_executor(), Close(), asio::detached);`
			`}`
			`return;`
			`}`

			`sendQueue.push_back(message);`
			`sendCondition.NotifyOne();`
			`}`

			`Awaitable<bool> WebSocketClient::Handshake() {`
			`BASE_ASSERT(upgrade.IsWebsocketUpgrade(), "Arrived here without a valid WebSocket upgrade?");`

			`// Disable the expiry timeout that the HTTP server placed on the original stream, since`
			`// websocket::stream has its own functionality to time itself out.`
			`stream.next_layer().expires_never();`

			`stream.set_option(beast::websocket::stream_base::timeout::suggested(beast::role_type::server));`

			`// decorate the handshake with our common server field(s)`
			`stream.set_option(beast::websocket::stream_base::decorator([](beast::websocket::response_type& res) { SetCommonResponseFields(res); }));`

			`// try accepting`
			`try {`
			`co_await stream.async_accept(upgrade.Native(), asio::deferred);`

			`// Spawn coroutines for read/write end now that we actually performed the websokcet handshake`
			`auto exec = stream.next_layer().get_executor();`
			`asio::co_spawn(exec, WriteEnd(), asio::detached);`
			`asio::co_spawn(exec, ReadEnd(), asio::detached);`
			`co_return true;`
			`} catch(bsys::system_error& ec) {`
			`// just close the socket then.`
			`bsys::error_code ignore;`
			`stream.next_layer().socket().close(ignore);`
			`co_return false;`
			`}`
			`co_return false;`
			`}`

			`Awaitable<void> WebSocketClient::Close() {`
			`return CloseWithReason("Generic close.");`
			`}`

			`Awaitable<void> WebSocketClient::CloseWithReason(const std::string& reason) {`
			`auto self = shared_from_this();`

			`// don't try to close more than once`
			`// (this avoids calling the close handler`
			`// more than once, or trying to close the WebSocket stream`
			`// multiple times, avoiding crashes.)`
			`if(self->closed)`
			`co_return;`

			`self->closed = true;`

			`if(self->listener)`
			`co_await self->listener->OnClose();`

			`try {`
			`if(self->stream.next_layer().socket().is_open()) {`
			`co_await self->stream.async_close(beast::websocket::close_reason { beast::websocket::close_code::try_again_later, reason },`
			`asio::deferred);`
			`}`
			`} catch(bsys::error_code& ec) {`
*: port to spdlog Later commits will work on creating loggers for each component. 2024-03-10 06:34:42 -04:00			`spdlog::error("Error when closing (not fatal): {}", ec.what());`
Initial commit of rewrite based on base/ library Should make the code actually possible to finish :v 2024-02-05 06:24:48 -05:00			`}`

			`// notify the send task that it needs to stop`
			`self->sendQueue.clear();`
			`self->sendCondition.NotifyAll();`
			`co_return;`
			`}`

			`asio::ip::address WebSocketClient::Address() {`
			`// N.B. The previous "get it from the socket" method would "work"`
			`// but we don't support any sort of multipath, so the IP we get`
			`// the upgrade request on (all things considered) will be the IP we read`

			`#ifdef BASE_HTTP_REVERSE_PROXY_SUPPORT`
			`return http::GetProxyAddress(upgrade.src, upgrade.Native());`
			`#else`
			`return upgrade.src;`
			`#endif`
			`}`

			`Awaitable<void> WebSocketClient::WriteEnd() {`
			`auto self = shared_from_this();`
			`try {`
			`while(true) {`
			`// If the send queue was empty, then there isn't really anything we can do`
			`if(self->sendQueue.empty()) {`
			`self->sending = false;`
			`self->sendCondition.NotifyOne();`
			`co_await self->sendCondition.Wait([self]() {`
			`if(self->closed)`
			`return true;`
			`return !self->sendQueue.empty();`
			`});`
			`}`

			`if(closed)`
			`break;`

			`self->sending = true;`
			`auto& message = self->sendQueue.front();`

			`if(message->GetType() == WebSocketMessage::Type::Text) {`
			`self->stream.text(true);`
			`co_await self->stream.async_write(asio::buffer(message->AsText()), asio::deferred);`
			`} else if(message->GetType() == WebSocketMessage::Type::Binary) {`
			`self->stream.binary(true);`
			`co_await self->stream.async_write(asio::buffer(message->AsBinary()), asio::deferred);`
			`}`

			`// pop the element off the queue`
			`self->sendQueue.erase(sendQueue.begin());`
			`self->sendQueue.shrink_to_fit();`
			`}`
			`} catch(bsys::system_error& ec) {`
*: port to spdlog Later commits will work on creating loggers for each component. 2024-03-10 06:34:42 -04:00			`// spdlog::error("failure in write end: {}", ec.what());`
Initial commit of rewrite based on base/ library Should make the code actually possible to finish :v 2024-02-05 06:24:48 -05:00			`}`

			`co_await self->Close();`
			`co_return;`
			`}`

			`Awaitable<void> WebSocketClient::ReadEnd() {`
			`auto self = shared_from_this();`
			`beast::flat_buffer messageBuffer;`

			`try {`
			`while(true) {`
			`// wait for the send end to be done sending messages, if it decides to wake up`
			`co_await self->sendCondition.Wait([self]() {`
			`if(self->closed)`
			`return true;`
			`return !self->sending;`
			`});`

			`// If the connection was closed break out`
			`if(self->closed)`
			`break;`

			`// let's try reading a message`
			`auto b = co_await self->stream.async_read(messageBuffer, asio::deferred);`

			`if(self->listener) {`
			`if(self->stream.got_text()) {`
			`co_await self->listener->OnMessage(std::make_shared<WebSocketMessage>(`
			`std::string { reinterpret_cast<char*>(messageBuffer.data().data()), messageBuffer.size() }));`
			`} else if(self->stream.got_binary()) {`
			`co_await self->listener->OnMessage(std::make_shared<WebSocketMessage>(`
			`std::span<u8> { reinterpret_cast<u8*>(messageBuffer.data().data()), messageBuffer.size() }));`
			`}`
			`}`

			`messageBuffer.consume(b);`

			`// notify the send end we're done reading, so it can (if the queue isn't empty) write`
			`// this might end up blocking us from reading for a while if it decides it can.`
			`self->sendCondition.NotifyOne();`
			`}`
			`} catch(bsys::system_error& ec) {`
			`// TODO: this should be re-enabled but doesn't seem to limit properly`
			`// if(ec.code() != beast::websocket::error::closed \|\| ec.code() != asio::error::eof)`
*: port to spdlog Later commits will work on creating loggers for each component. 2024-03-10 06:34:42 -04:00			`// spdlog::error("fail in read end {}", ec.what());`
Initial commit of rewrite based on base/ library Should make the code actually possible to finish :v 2024-02-05 06:24:48 -05:00			`}`

			`co_await self->Close();`
			`co_return;`
			`}`
			`} // namespace base::http`