/* Icinga 2 | (c) 2025 Icinga GmbH | GPLv2+ */ #include "remote/httpmessage.hpp" #include "base/json.hpp" #include "remote/httputility.hpp" #include "remote/url.hpp" #include #include #include using namespace icinga; /** * Adapter class for Boost Beast HTTP messages body to be used with the @c JsonEncoder. * * This class implements the @c nlohmann::detail::output_adapter_protocol<> interface and provides * a way to write JSON data directly into the body of a @c HttpResponse. * * @ingroup base */ class HttpResponseJsonWriter : public AsyncJsonWriter { public: explicit HttpResponseJsonWriter(HttpResponse& msg) : m_Message{msg} { m_Message.body().Start(); #if BOOST_VERSION >= 107000 m_Message.body().Buffer().reserve(m_MinPendingBufferSize); #endif /* BOOST_VERSION */ } ~HttpResponseJsonWriter() override { m_Message.body().Finish(); } void write_character(char c) override { write_characters(&c, 1); } void write_characters(const char* s, std::size_t length) override { auto buf = m_Message.body().Buffer().prepare(length); boost::asio::buffer_copy(buf, boost::asio::const_buffer{s, length}); m_Message.body().Buffer().commit(length); } void MayFlush(boost::asio::yield_context& yield) override { if (m_Message.body().Size() >= m_MinPendingBufferSize) { m_Message.Flush(yield); } } private: HttpResponse& m_Message; // Minimum size of the pending buffer before we flush the data to the underlying stream static constexpr std::size_t m_MinPendingBufferSize = 4096; }; HttpRequest::HttpRequest(Shared::Ptr stream) : m_Stream(std::move(stream)) { } void HttpRequest::ParseHeader(boost::beast::flat_buffer& buf, boost::asio::yield_context yc) { boost::beast::http::async_read_header(*m_Stream, buf, m_Parser, yc); base() = m_Parser.get().base(); } void HttpRequest::ParseBody(boost::beast::flat_buffer& buf, boost::asio::yield_context yc) { boost::beast::http::async_read(*m_Stream, buf, m_Parser, yc); body() = std::move(m_Parser.release().body()); } ApiUser::Ptr HttpRequest::User() const { return m_User; } void HttpRequest::User(const ApiUser::Ptr& user) { m_User = user; } Url::Ptr HttpRequest::Url() const { return m_Url; } void HttpRequest::DecodeUrl() { m_Url = new icinga::Url(std::string(target())); } Dictionary::Ptr HttpRequest::Params() const { return m_Params; } void HttpRequest::DecodeParams() { if (!m_Url) { DecodeUrl(); } m_Params = HttpUtility::FetchRequestParameters(m_Url, body()); } HttpResponse::HttpResponse(Shared::Ptr stream) : m_Stream(std::move(stream)) { } void HttpResponse::Flush(boost::asio::yield_context yc) { if (!chunked() && !has_content_length()) { ASSERT(!m_Serializer.is_header_done()); prepare_payload(); } boost::system::error_code ec; boost::beast::http::async_write(*m_Stream, m_Serializer, yc[ec]); if (ec && ec != boost::beast::http::error::need_buffer) { if (yc.ec_) { *yc.ec_ = ec; return; } else { BOOST_THROW_EXCEPTION(boost::system::system_error{ec}); } } m_Stream->async_flush(yc); ASSERT(m_Serializer.is_done() || !body().Finished()); } void HttpResponse::StartStreaming() { ASSERT(body().Size() == 0 && !m_Serializer.is_header_done()); body().Start(); chunked(true); } void HttpResponse::SendFile(const String& path, boost::asio::yield_context yc) { static constexpr std::uint64_t maxChunkSize = 4096; std::ifstream fp(path.CStr(), std::ifstream::in | std::ifstream::binary | std::ifstream::ate); fp.exceptions(std::ifstream::badbit | std::ifstream::eofbit); std::uint64_t remaining = fp.tellg(); fp.seekg(0); content_length(remaining); body().Start(); while (remaining) { auto maxTransfer = std::min(remaining, maxChunkSize); auto buf = *body().Buffer().prepare(maxTransfer).begin(); fp.read(static_cast(buf.data()), buf.size()); body().Buffer().commit(buf.size()); remaining -= buf.size(); Flush(yc); } } JsonEncoder HttpResponse::GetJsonEncoder(bool pretty) { return JsonEncoder{std::make_shared(*this), pretty}; }