add AdcDeviceNetClient class
This commit is contained in:
Timur A. Fatkhullin
parent
f3a6aa3571
commit
ae6fbf18ca
@ -57,6 +57,7 @@ set(ADC_NETWORK_HEADERS
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net/adc_net_concepts.h
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net/adc_device_netmsg.h
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net/adc_device_netserver.h
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net/adc_device_netclient.h
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)
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@ -4,6 +4,82 @@
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#include "adc_device_netmsg.h"
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#include "adc_netclient.h"
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namespace adc
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{
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enum class AdcDeviceNetClientSessionError : int {
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ERROR_OK,
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ERROR_INVALID_SERVER_RESPOND,
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ERROR_UNEXPECTED_SERVER_RESPOND,
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ERROR_UNKNOWN_ERROR
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};
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}
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// place here to allow clang compilation
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namespace std
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{
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template <>
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class is_error_code_enum<adc::AdcDeviceNetClientSessionError> : public true_type
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{
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};
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} // namespace std
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namespace adc
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{
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struct AdcDeviceNetClientSessionErrorCategory : std::error_category {
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AdcDeviceNetClientSessionErrorCategory() : std::error_category() {}
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const char* name() const noexcept
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{
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return "ADC_DEVICE_NESERVER_SESSION";
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}
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std::string message(int ec) const
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{
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AdcDeviceNetClientSessionError err = static_cast<AdcDeviceNetClientSessionError>(ec);
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switch (err) {
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case AdcDeviceNetClientSessionError::ERROR_OK:
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return "OK";
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case AdcDeviceNetClientSessionError::ERROR_INVALID_SERVER_RESPOND:
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return "invalid server respond message";
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case AdcDeviceNetClientSessionError::ERROR_UNEXPECTED_SERVER_RESPOND:
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return "unexpected server respond message";
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case AdcDeviceNetClientSessionError::ERROR_UNKNOWN_ERROR:
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return "catch unhandled exception";
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default:
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return "UNKNOWN";
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}
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}
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static const AdcDeviceNetClientSessionErrorCategory& get()
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{
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static const AdcDeviceNetClientSessionErrorCategory constInst;
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return constInst;
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}
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};
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} // namespace adc
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namespace std
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{
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inline std::error_code make_error_code(adc::AdcDeviceNetClientSessionError ec)
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{
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return std::error_code(static_cast<int>(ec), adc::AdcDeviceNetClientSessionErrorCategory::get());
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}
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} // namespace std
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namespace adc
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{
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@ -17,6 +93,8 @@ public:
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class Session : public std::enable_shared_from_this<Session<NetServiceT, SessionIdentT>>
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{
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public:
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enum ServerResponseType { RESP_INVALID, RESP_ACK, RESP_ERROR, RESP_UNEXPECTED };
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typedef SessionIdentT netsession_ident_t;
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typedef NetServiceT netservice_t;
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@ -67,6 +145,125 @@ public:
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}
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// ADC device helper methods (blocking)
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typedef std::vector<std::string> default_server_resp_t;
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// get names of devices
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template <traits::adc_range_of_output_char_range R>
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R deviceNames(ServerResponseType& rtype)
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{
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typename netservice_t::send_msg_t bytes;
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AdcDeviceProtoMessage msg(bytes);
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msg.names();
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using m_t = std::remove_cvref_t<decltype(msg)>;
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// expected respond: ACK NAMES DEV1 DEV2 ...
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// return DEV1 DEV2 ... (or error description 'code category what')
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return _getFromServer<R>(m_t::NAMES_KEY, bytes, rtype);
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}
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default_server_resp_t deviceNames(ServerResponseType& rtype)
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{
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return deviceNames<default_server_resp_t>(rtype);
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}
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// bind device to the client
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template <traits::adc_range_of_output_char_range R, traits::adc_input_char_range DevNameT>
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R bindDevice(DevNameT&& dev_name, ServerResponseType& rtype)
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{
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typename netservice_t::send_msg_t bytes;
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AdcDeviceProtoMessage msg(bytes);
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msg.device(std::forward<DevNameT>(dev_name));
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using m_t = std::remove_cvref_t<decltype(msg)>;
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// expected respond: ACK DEVICE DEV_NAME
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// return DEV_NAME ... (or error description 'code category what')
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return _getFromServer<R>(m_t::DEVICE_KEY, bytes, rtype);
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}
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template <traits::adc_input_char_range DevNameT>
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default_server_resp_t bindDevice(DevNameT&& dev_name, ServerResponseType& rtype)
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{
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return bindDevice<default_server_resp_t>(std::forward<DevNameT>(dev_name), rtype);
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}
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// execute a command
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template <traits::adc_range_of_output_char_range R, traits::adc_input_char_range CmdNameT>
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R exec(CmdNameT&& cmd_name, ServerResponseType& rtype)
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{
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typename netservice_t::send_msg_t bytes;
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AdcDeviceProtoMessage msg(bytes);
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msg.cmd(std::forward<CmdNameT>(cmd_name));
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using m_t = std::remove_cvref_t<decltype(msg)>;
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// expected respond: ACK CMD CMD_NAME
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// return CMD_NAME ... (or error description 'code category what')
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return _getFromServer<R>(m_t::CMD_KEY, bytes, rtype);
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}
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template <traits::adc_input_char_range CmdNameT>
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default_server_resp_t exec(CmdNameT&& cmd_name, ServerResponseType& rtype)
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{
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return exec<default_server_resp_t>(std::forward<CmdNameT>(cmd_name), rtype);
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}
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// get an attribute value
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template <traits::adc_range_of_output_char_range R, traits::adc_input_char_range AttrNameT>
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R getAttr(AttrNameT&& attr_name, ServerResponseType& rtype)
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{
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typename netservice_t::send_msg_t bytes;
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AdcDeviceProtoMessage msg(bytes);
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msg.get(std::forward<AttrNameT>(attr_name));
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using m_t = std::remove_cvref_t<decltype(msg)>;
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// expected respond: ACK GET ATTR_NAME ATTR_VALUE
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// return ATTR_NAME ATTR_VALUE (or error description 'code category what')
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return _getFromServer<R>(m_t::GET_KEY, bytes, rtype);
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}
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template <traits::adc_input_char_range AttrNameT>
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default_server_resp_t getAttr(AttrNameT&& attr_name, ServerResponseType& rtype)
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{
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return getAttr<default_server_resp_t>(std::forward<AttrNameT>(attr_name), rtype);
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}
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// set an attribute value
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template <traits::adc_range_of_output_char_range R,
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traits::adc_input_char_range AttrNameT,
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typename ValueT,
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typename... ValueTs>
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R setAttr(AttrNameT&& attr_name, ServerResponseType& rtype, ValueT&& value, ValueTs&&... values)
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{
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typename netservice_t::send_msg_t bytes;
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AdcDeviceProtoMessage msg(bytes);
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msg.set(std::forward<AttrNameT>(attr_name), std::forward<ValueT>(value), std::forward<ValueTs>(values)...);
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using m_t = std::remove_cvref_t<decltype(msg)>;
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// expected respond: ACK SET ATTR_NAME ATTR_VALUE
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// return ATTR_NAME ATTR_VALUE (or error description 'code category what')
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return _getFromServer<R>(m_t::SET_KEY, bytes, rtype);
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}
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template <traits::adc_input_char_range AttrNameT, typename ValueT, typename... ValueTs>
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default_server_resp_t setAttr(AttrNameT&& attr_name,
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ServerResponseType& rtype,
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ValueT&& value,
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ValueTs&&... values)
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{
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return setAttr<default_server_resp_t>(std::forward<AttrNameT>(attr_name), rtype,
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std::forward<ValueT>(value), std::forward<ValueTs>(values)...);
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}
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protected:
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netsession_ident_t _ident;
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@ -76,11 +273,40 @@ public:
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std::chrono::milliseconds _recvTimeout = std::chrono::seconds(5);
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std::chrono::milliseconds _sendTimeout = std::chrono::seconds(5);
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// main 'run' method
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virtual void run() = 0;
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// helper methods
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std::function<void(typename netservice_t::async_callback_err_t,
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typename netservice_t::async_receive_callback_t)>
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_defaultRecvCallback = [this](auto err, auto msg) {
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template <traits::adc_range_of_output_char_range R>
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R _getFromServer(std::string_view key, const typename netservice_t::send_msg_t& bytes, ServerResponseType& type)
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{
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auto rbytes = sendRecv(bytes);
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AdcDeviceProtoMessage dev_msg(rbytes);
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if (!dev_msg.isValid()) {
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throw std::system_error(AdcDeviceNetClientSessionError::ERROR_INVALID_SERVER_RESPOND);
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}
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if (dev_msg.isACK(key)) {
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type = RESP_ACK;
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return dev_msg.template attrs<R>(1);
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} else if (dev_msg.isERROR()) {
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type = RESP_ERROR;
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return dev_msg.template attrs<R>();
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} else {
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throw std::system_error(AdcDeviceNetClientSessionError::ERROR_UNEXPECTED_SERVER_RESPOND);
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}
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}
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void _sendRecvCallbackWrapper(auto err,
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typename netservice_t::recv_msg_t msg,
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auto&& ack_func,
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auto&& error_func)
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{
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if (err) {
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_clientPtr->logError("An error occured while receiving server respond: {}",
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netservice_t::formattableError(err));
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@ -93,9 +319,11 @@ public:
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}
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if (dev_msg.isACK()) {
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std::forward<decltype(ack_func)>(ack_func)(dev_msg.attrs());
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} else if (dev_msg.isERROR()) {
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std::forward<decltype(error_func)>(error_func)(dev_msg.attrs());
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} else {
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_clientPtr->logError("Unexpectable server respond");
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_clientPtr->logError("Unexpectable server respond (msg key: {})", dev_msg.key());
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}
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}
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};
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@ -115,6 +343,14 @@ public:
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},
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_sendTimeout);
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}
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template <traits::adc_input_char_range SendMsgT>
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auto sendRecv(const SendMsgT& send_msg)
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{
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_netService.send(send_msg, _sendTimeout);
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return _netService.receive(_recvTimeout);
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}
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}; // end of 'Session' class declaration
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using base_t::base_t;
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@ -369,6 +369,17 @@ public:
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return isKey(ACK_KEY_IDX);
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}
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// ACK KEY_NAME ...
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bool isACK(std::string_view key) const
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{
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auto ats = attrs();
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if (std::ranges::size(ats)) {
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return isKey(ACK_KEY_IDX) && (key == *ats.begin());
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} else {
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return false;
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}
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}
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bool isSET() const
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{
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return isKey(SET_KEY_IDX);
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@ -52,15 +52,15 @@ using adc_common_duration_t = adc_duration_common_type_t<std::chrono::nanosecond
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// a) true - asynchronous operation completed without errors
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// b) false - an error occured
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template <typename ERRT>
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concept adc_async_callback_err_t = std::convertible_to<std::remove_cvref_t<ERRT>, bool> ||
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concept adc_async_callback_err_c = std::convertible_to<std::remove_cvref_t<ERRT>, bool> ||
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requires(const std::remove_cvref_t<ERRT> err) { err.operator bool(); };
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// concepts for asynchronous opereration callback callable
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// 1) the type must be a callable with at least 1 input argument
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// 2) the first argument type must satisfy the concept adc_async_callback_err_t
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// 2) the first argument type must satisfy the concept adc_async_callback_err_c
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template <typename T>
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concept adc_async_callback_t = traits::adc_is_callable<T> && (traits::adc_func_traits<T>::arity >= 1) &&
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adc_async_callback_err_t<traits::adc_func_arg1_t<T>>;
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concept adc_async_callback_c = traits::adc_is_callable<T> && (traits::adc_func_traits<T>::arity >= 1) &&
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adc_async_callback_err_c<traits::adc_func_arg1_t<T>>;
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/*
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struct NetService {
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@ -107,17 +107,17 @@ concept adc_netservice_c = requires(SRVT srv, const SRVT srv_const) {
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// underlying protocol
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// asynchronous operation error
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requires adc_async_callback_err_t<typename SRVT::async_callback_err_t>;
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requires adc_async_callback_err_c<typename SRVT::async_callback_err_t>;
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// callback callables for asynchronous operations
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requires adc_async_callback_t<typename SRVT::async_connect_callback_t>;
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requires adc_async_callback_t<typename SRVT::async_send_callback_t>;
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requires adc_async_callback_t<typename SRVT::async_receive_callback_t>;
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requires adc_async_callback_c<typename SRVT::async_connect_callback_t>;
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requires adc_async_callback_c<typename SRVT::async_send_callback_t>;
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requires adc_async_callback_c<typename SRVT::async_receive_callback_t>;
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// acceptor type
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requires std::is_class_v<typename SRVT::acceptor_t>;
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requires adc_async_callback_t<typename SRVT::acceptor_t::async_accept_callback_t>;
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requires adc_async_callback_c<typename SRVT::acceptor_t::async_accept_callback_t>;
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requires requires(typename SRVT::acceptor_t acc, const typename SRVT::acceptor_t acc_const) {
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acc.asyncAccept(std::declval<typename SRVT::acceptor_t::async_accept_callback_t>(),
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std::declval<const typename SRVT::timeout_t&>());
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@ -136,9 +136,6 @@ concept adc_netservice_c = requires(SRVT srv, const SRVT srv_const) {
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// asynchronous (non-blocking) operations
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// srv.asyncAccept(std::declval<const typename SRVT::endpoint_t&>(), std::declval<typename
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// SRVT::async_call_ctx_t&>(),
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// std::declval<const typename SRVT::timeout_t&>());
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srv.asyncConnect(std::declval<const typename SRVT::endpoint_t&>(),
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std::declval<typename SRVT::async_connect_callback_t>(),
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@ -152,7 +149,7 @@ concept adc_netservice_c = requires(SRVT srv, const SRVT srv_const) {
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std::declval<const typename SRVT::timeout_t&>());
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// synchronous (blocking) operations
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// srv.accept(std::declval<const typename SRVT::endpoint_t&>(), std::declval<const typename SRVT::timeout_t&>());
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// it is assumed these methods throw an exception if error occures
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srv.connect(std::declval<const typename SRVT::endpoint_t&>(), std::declval<const typename SRVT::timeout_t&>());
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