#pragma once #include "http_body.hpp" #include "http_request.hpp" #include "http_response.hpp" #include #include #include #include #include #include #include #include namespace crow { namespace sse_socket { struct Connection : public std::enable_shared_from_this { public: Connection() = default; Connection(const Connection&) = delete; Connection(Connection&&) = delete; Connection& operator=(const Connection&) = delete; Connection& operator=(const Connection&&) = delete; virtual ~Connection() = default; virtual boost::asio::io_context& getIoContext() = 0; virtual void close(std::string_view msg = "quit") = 0; virtual void sendEvent(std::string_view id, std::string_view msg) = 0; }; template class ConnectionImpl : public Connection { public: ConnectionImpl(Adaptor&& adaptorIn, std::function openHandlerIn, std::function closeHandlerIn) : adaptor(std::move(adaptorIn)), timer(static_cast( adaptor.get_executor().context())), openHandler(std::move(openHandlerIn)), closeHandler(std::move(closeHandlerIn)) { BMCWEB_LOG_DEBUG("SseConnectionImpl: SSE constructor {}", logPtr(this)); } ConnectionImpl(const ConnectionImpl&) = delete; ConnectionImpl(const ConnectionImpl&&) = delete; ConnectionImpl& operator=(const ConnectionImpl&) = delete; ConnectionImpl& operator=(const ConnectionImpl&&) = delete; ~ConnectionImpl() override { BMCWEB_LOG_DEBUG("SSE ConnectionImpl: SSE destructor {}", logPtr(this)); } boost::asio::io_context& getIoContext() override { return static_cast( adaptor.get_executor().context()); } void start() { if (!openHandler) { BMCWEB_LOG_CRITICAL("No open handler???"); return; } openHandler(*this); sendSSEHeader(); } void close(const std::string_view msg) override { BMCWEB_LOG_DEBUG("Closing connection with reason {}", msg); // send notification to handler for cleanup if (closeHandler) { closeHandler(*this); } BMCWEB_LOG_DEBUG("Closing SSE connection {} - {}", logPtr(this), msg); boost::beast::get_lowest_layer(adaptor).close(); } void sendSSEHeader() { BMCWEB_LOG_DEBUG("Starting SSE connection"); res.set(boost::beast::http::field::content_type, "text/event-stream"); boost::beast::http::response_serializer& serial = serializer.emplace(res); boost::beast::http::async_write_header( adaptor, serial, std::bind_front(&ConnectionImpl::sendSSEHeaderCallback, this, shared_from_this())); } void sendSSEHeaderCallback(const std::shared_ptr& /*self*/, const boost::system::error_code& ec, size_t /*bytesSent*/) { serializer.reset(); if (ec) { BMCWEB_LOG_ERROR("Error sending header{}", ec); close("async_write_header failed"); return; } BMCWEB_LOG_DEBUG("SSE header sent - Connection established"); // SSE stream header sent, So let us setup monitor. // Any read data on this stream will be error in case of SSE. adaptor.async_read_some(boost::asio::buffer(buffer), std::bind_front(&ConnectionImpl::afterReadError, this, shared_from_this())); } void afterReadError(const std::shared_ptr& /*self*/, const boost::system::error_code& ec, size_t bytesRead) { BMCWEB_LOG_DEBUG("Read {}", bytesRead); if (ec == boost::asio::error::operation_aborted) { return; } if (ec) { BMCWEB_LOG_ERROR("Read error: {}", ec); } close("Close SSE connection"); } void doWrite() { if (doingWrite) { return; } if (inputBuffer.size() == 0) { BMCWEB_LOG_DEBUG("inputBuffer is empty... Bailing out"); return; } startTimeout(); doingWrite = true; adaptor.async_write_some( inputBuffer.data(), std::bind_front(&ConnectionImpl::doWriteCallback, this, shared_from_this())); } void doWriteCallback(const std::shared_ptr& /*self*/, const boost::beast::error_code& ec, size_t bytesTransferred) { timer.cancel(); doingWrite = false; inputBuffer.consume(bytesTransferred); if (ec == boost::asio::error::eof) { BMCWEB_LOG_ERROR("async_write_some() SSE stream closed"); close("SSE stream closed"); return; } if (ec) { BMCWEB_LOG_ERROR("async_write_some() failed: {}", ec.message()); close("async_write_some failed"); return; } BMCWEB_LOG_DEBUG("async_write_some() bytes transferred: {}", bytesTransferred); doWrite(); } void sendEvent(std::string_view id, std::string_view msg) override { if (msg.empty()) { BMCWEB_LOG_DEBUG("Empty data, bailing out."); return; } dataFormat(id, msg); doWrite(); } void dataFormat(std::string_view id, std::string_view msg) { constexpr size_t bufferLimit = 10485760U; // 10MB if (id.size() + msg.size() + inputBuffer.size() >= bufferLimit) { BMCWEB_LOG_ERROR("SSE Buffer overflow while waiting for client"); close("Buffer overflow"); return; } std::string rawData; if (!id.empty()) { rawData += "id: "; rawData.append(id); rawData += "\n"; } rawData += "data: "; for (char character : msg) { rawData += character; if (character == '\n') { rawData += "data: "; } } rawData += "\n\n"; size_t copied = boost::asio::buffer_copy( inputBuffer.prepare(rawData.size()), boost::asio::buffer(rawData)); inputBuffer.commit(copied); } void startTimeout() { std::weak_ptr weakSelf = weak_from_this(); timer.expires_after(std::chrono::seconds(30)); timer.async_wait(std::bind_front(&ConnectionImpl::onTimeoutCallback, this, weak_from_this())); } void onTimeoutCallback(const std::weak_ptr& weakSelf, const boost::system::error_code& ec) { std::shared_ptr self = weakSelf.lock(); if (!self) { BMCWEB_LOG_CRITICAL("{} Failed to capture connection", logPtr(self.get())); return; } if (ec == boost::asio::error::operation_aborted) { BMCWEB_LOG_DEBUG("Timer operation aborted"); // Canceled wait means the path succeeded. return; } if (ec) { BMCWEB_LOG_CRITICAL("{} timer failed {}", logPtr(self.get()), ec); } BMCWEB_LOG_WARNING("{} Connection timed out, closing", logPtr(self.get())); self->close("closing connection"); } private: std::array buffer{}; boost::beast::multi_buffer inputBuffer; Adaptor adaptor; using BodyType = bmcweb::HttpBody; boost::beast::http::response res; std::optional> serializer; boost::asio::steady_timer timer; bool doingWrite = false; std::function openHandler; std::function closeHandler; }; } // namespace sse_socket } // namespace crow