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12 Commits
51c6fb4bba ... master

Author SHA1 Message Date
Timur A. Fatkhullin
434521a435 net/adc_netproto.h: add AdcStartStopSeqSessionProto class 2025-01-24 09:16:54 +03:00
Timur A. Fatkhullin
8bbba2e236 AdcSpdlogLogger: add logMessage(spdlog::level::level_enum level, 
spdlog::format_string_t<ArgTs...> fmt, ArgTs&&... args) method
 2024-12-18 17:41:52 +03:00
Timur A. Fatkhullin
b7e88b36ce ... 2024-12-15 10:33:13 +03:00
Timur A. Fatkhullin
c45dceaf0e BIG FIXES!!! 
convert functions are now not getter/setter!!!
 2024-12-15 02:31:26 +03:00
Timur A. Fatkhullin
9af89bd180 ... 2024-12-14 22:26:42 +03:00
Timur A. Fatkhullin
afba0fa335 ... 2024-12-14 16:37:00 +03:00
Timur A. Fatkhullin
2cfde5a685 add tests/adc_dev_test.cpp 2024-12-14 01:35:58 +03:00
Timur A. Fatkhullin
776206c9bb AdcDeviceNetServerASIO class: make 'daemonize' method public 2024-12-13 02:24:07 +03:00
Timur A. Fatkhullin
c2673a0345 AdcSpdlogLogger::addMarkToPattern: remove trailing space after [] 2024-12-12 22:02:45 +03:00
Timur A. Fatkhullin
e4fd86a6d4 fix compilation with OPENSSL_LIBRARY=0 2024-12-12 21:34:12 +03:00
Timur A. Fatkhullin
4e133de5b2 Merge branch 'master' of https://git.sao.ru/timur/ADC 
merge independed edited parts of ADC library
 2024-12-10 21:19:10 +03:00
Timur A. Fatkhullin
3f34efd244 ... 2024-11-26 00:23:16 +03:00
10 changed files with 489 additions and 75 deletions
Expand all files Collapse all files

5
CMakeLists.txt
View File

@@ -167,12 +167,17 @@ if (BUILD_TESTS)
set(DEVATTR_TEST_APP adc_devattr_test)
add_executable(${DEVATTR_TEST_APP} tests/adc_devattr_test.cpp)
set(DEV_TEST_APP adc_dev_test)
add_executable(${DEV_TEST_APP} tests/adc_dev_test.cpp)
set(NETMSG_TEST_APP adc_netmsg_test)
add_executable(${NETMSG_TEST_APP} tests/adc_netmsg_test.cpp)
set(NETSERVICE_TEST_APP adc_netservice_test)
add_executable(${NETSERVICE_TEST_APP} tests/adc_netservice_test.cpp)
if (OPENSSL_LIBRARY)
target_link_libraries(${NETSERVICE_TEST_APP} OpenSSL::SSL OpenSSL::Crypto)
endif()
if (ASIO_LIBRARY)
find_package(cxxopts CONFIG)

6
common/adc_spdlog.h
View File

@@ -83,6 +83,12 @@ public:
logMessage(spdlog::level::trace, msg);
}
template <traits::formattable... ArgTs>
void logMessage(spdlog::level::level_enum level, spdlog::format_string_t<ArgTs...> fmt, ArgTs&&... args)
{
_loggerSPtr->log(level, fmt, std::forward<ArgTs>(args)...);
}
template <traits::formattable... ArgTs>
void logCritical(spdlog::format_string_t<ArgTs...> fmt, ArgTs&&... args)
{

160
device/adc_device_attribute.h
View File

@@ -202,9 +202,22 @@ protected:
template <typename VT>
inline static std::unordered_map<const AdcDeviceAttribute*, std::function<void(const VT&)>> _setterFunc{};
std::function<SerializedT()> _serializerFunc;
// from user to inner type converter
template <typename UT>
inline static std::unordered_map<const AdcDeviceAttribute*,
std::function<void(const UT&, const AdcDeviceAttribute*)>>
_convFuncTo{};
std::function<void(const SerializedT&)> _deserializerFunc;
// from innner to user type converter
template <typename UT>
inline static std::unordered_map<const AdcDeviceAttribute*, std::function<UT(const AdcDeviceAttribute*)>>
_convFuncFrom{};
// std::function<SerializedT()> _serializerFunc;
std::function<SerializedT(const AdcDeviceAttribute*)> _serializerFunc;
// std::function<void(const SerializedT&)> _deserializerFunc;
std::function<void(const SerializedT&, const AdcDeviceAttribute*)> _deserializerFunc;
// static inline std::vector<std::function<void(AdcDeviceAttribute*)>> _clearFunc{};
std::vector<std::function<void(AdcDeviceAttribute*)>> _clearFunc{};
@@ -254,12 +267,16 @@ public:
}
if constexpr (!std::is_null_pointer_v<GT> && !std::is_null_pointer_v<SRT>) {
auto& getter_func = _getterFunc<ValueT>[this];
_serializerFunc = [getter_func, wrapper = traits::adc_pf_wrapper(std::forward<SRT>(serializer)), this]() {
// auto& getter_func = _getterFunc<ValueT>[this];
// _serializerFunc = [getter_func, wrapper = traits::adc_pf_wrapper(std::forward<SRT>(serializer)), this]()
// {
_serializerFunc =
[wrapper = traits::adc_pf_wrapper(std::forward<SRT>(serializer))](const AdcDeviceAttribute* inst) {
auto& serializer = std::get<0>(wrapper);
// auto val = _getterFunc<ValueT>[this]();
auto val = getter_func();
auto val = _getterFunc<ValueT>[inst]();
// auto val = getter_func();
return serializer(val);
};
@@ -267,21 +284,33 @@ public:
if constexpr (!std::is_null_pointer_v<ST> && !std::is_null_pointer_v<DSRT>) {
auto& setter_func = _setterFunc<ValueT>[this];
_deserializerFunc = [setter_func, wrapper = traits::adc_pf_wrapper(std::forward<DSRT>(deserializer)),
this](const SerializedT& sval) {
// auto& setter_func = _setterFunc<ValueT>[this];
// _deserializerFunc = [setter_func, wrapper = traits::adc_pf_wrapper(std::forward<DSRT>(deserializer)),
// this](const SerializedT& sval) {
_deserializerFunc = [wrapper = traits::adc_pf_wrapper(std::forward<DSRT>(deserializer))](
const SerializedT& sval, const AdcDeviceAttribute* inst) {
auto& deserializer = std::get<0>(wrapper);
ValueT val = deserializer(sval);
// _setterFunc<ValueT>[this](val);
setter_func(val);
_setterFunc<ValueT>[inst](val);
// setter_func(val);
};
}
_convFuncTo<ValueT>[this] = [](const ValueT& v, const AdcDeviceAttribute* inst) {
_setterFunc<ValueT>[inst](v);
};
_convFuncFrom<ValueT>[this] = [](const AdcDeviceAttribute* inst) { return _getterFunc<ValueT>[inst](); };
_clearFunc.emplace_back([](AdcDeviceAttribute* inst) {
_getterFunc<ValueT>.erase(inst);
_setterFunc<ValueT>.erase(inst);
_convFuncFrom<ValueT>.erase(inst);
_convFuncTo<ValueT>.erase(inst);
});
@@ -289,12 +318,18 @@ public:
_copyFunc.emplace_back([](const AdcDeviceAttribute* from, AdcDeviceAttribute* to) {
_getterFunc<ValueT>.emplace(to, _getterFunc<ValueT>[from]);
_setterFunc<ValueT>.emplace(to, _setterFunc<ValueT>[from]);
_convFuncFrom<ValueT>.emplace(to, _convFuncFrom<ValueT>[from]);
_convFuncTo<ValueT>.emplace(to, _convFuncTo<ValueT>[from]);
});
// move instance function
_moveFunc.emplace_back([](AdcDeviceAttribute* from, AdcDeviceAttribute* to) {
_getterFunc<ValueT>.emplace(to, std::move(_getterFunc<ValueT>[from]));
_setterFunc<ValueT>.emplace(to, std::move(_setterFunc<ValueT>[from]));
_convFuncFrom<ValueT>.emplace(to, std::move(_convFuncFrom<ValueT>[from]));
_convFuncTo<ValueT>.emplace(to, std::move(_convFuncTo<ValueT>[from]));
});
}
@@ -409,9 +444,13 @@ public:
fn(&other, this);
}
_copyFunc = std::move(other._copyFunc);
_moveFunc = std::move(other._moveFunc);
_clearFunc = std::move(other._clearFunc);
// _copyFunc = std::move(other._copyFunc);
// _moveFunc = std::move(other._moveFunc);
// _clearFunc = std::move(other._clearFunc);
_copyFunc = other._copyFunc;
_moveFunc = other._moveFunc;
_clearFunc = other._clearFunc;
_ident = std::move(other._ident);
_accessType = std::move(other._accessType);
@@ -457,54 +496,86 @@ public:
"Deduced attribute internal type must not be std::nullptr_t!!!");
static_assert(!std::is_null_pointer_v<user_t>, "Deduced user-defined type must not be std::nullptr_t!!!");
// return *this;
try {
if (_accessType != AdcDeviceAttribute::WriteOnly) {
auto& getter = _getterFunc<value_t>.at(this); // throw out_of_range if value_t is invalid
// auto& getter = _getterFunc<value_t>.at(this); // throw out_of_range if value_t is invalid
_getterFunc<user_t>[this] =
[getter, wrapper = traits::adc_pf_wrapper(std::forward<FromFuncT>(func_from_internal)), this]() {
// auto val = _getterFunc<value_t>.at(this)(); // throw out_of_range if value_t is invalid
auto val = getter();
_convFuncFrom<user_t>[this] = [wrapper = traits::adc_pf_wrapper(std::forward<FromFuncT>(
func_from_internal))](const AdcDeviceAttribute* inst) {
auto val = _getterFunc<value_t>[inst]();
return std::get<0>(wrapper)(val); // convert from internal type
};
// _getterFunc<user_t>.try_emplace(
// this, [getter = _getterFunc<value_t>.at(this),
// wrapper = traits::adc_pf_wrapper(std::forward<FromFuncT>(func_from_internal))]() {
// auto val = getter();
// return std::get<0>(wrapper)(val); // convert from internal type
// });
// _getterFunc<user_t>[this] =
// [getter = _getterFunc<value_t>.at(this),
// wrapper = traits::adc_pf_wrapper(std::forward<FromFuncT>(func_from_internal))]() {
// auto val = getter();
// return std::get<0>(wrapper)(val); // convert from internal type
// };
// _getterFunc<user_t>[this] =
// [getter, wrapper = traits::adc_pf_wrapper(std::forward<FromFuncT>(func_from_internal)), this]() {
// // auto val = _getterFunc<value_t>.at(this)(); // throw out_of_range if value_t is invalid
// auto val = getter();
// return std::get<0>(wrapper)(val); // convert from internal type
// };
} // ignore "from_internal" conversional function for write-only attribute
if (_accessType != AdcDeviceAttribute::ReadOnly) {
auto& setter = _setterFunc<value_t>.at(this); // throw out_of_range if value_t is invalid
_setterFunc<user_t>[this] = [setter,
wrapper = traits::adc_pf_wrapper(std::forward<ToFuncT>(func_to_internal)),
this](const user_t& val) {
_convFuncTo<user_t>[this] = [wrapper = traits::adc_pf_wrapper(std::forward<ToFuncT>(func_to_internal))](
const user_t& val, const AdcDeviceAttribute* inst) {
value_t value = std::get<0>(wrapper)(val); // convert to internal type
// throw out_of_range if value_t is invalid
// _setterFunc<value_t>.at(this)(value);
setter(value);
_setterFunc<value_t>[inst](value);
};
// auto& setter = _setterFunc<value_t>.at(this); // throw out_of_range if value_t is invalid
// _setterFunc<user_t>[this] = [setter,
// wrapper =
// traits::adc_pf_wrapper(std::forward<ToFuncT>(func_to_internal)),
// this](const user_t& val) {
// value_t value = std::get<0>(wrapper)(val); // convert to internal type
// // throw out_of_range if value_t is invalid
// // _setterFunc<value_t>.at(this)(value);
// setter(value);
// };
} // ignore "to_internal" conversional function for read-only attribute
} catch (const std::out_of_range&) {
throw std::system_error(AdcDeviceAttributeErrorCode::ERROR_INTERNAL_TYPE_MISMATCH);
}
// return *this;
_clearFunc.emplace_back([](AdcDeviceAttribute* inst) {
_getterFunc<user_t>.erase(inst);
_setterFunc<user_t>.erase(inst);
// _getterFunc<user_t>.erase(inst);
// _setterFunc<user_t>.erase(inst);
_convFuncFrom<user_t>.erase(inst);
_convFuncTo<user_t>.erase(inst);
});
// copy instance functions
_copyFunc.emplace_back([](const AdcDeviceAttribute* from, AdcDeviceAttribute* to) {
_getterFunc<user_t>.emplace(to, _getterFunc<user_t>[from]);
_setterFunc<user_t>.emplace(to, _setterFunc<user_t>[from]);
// _getterFunc<user_t>.emplace(to, _getterFunc<user_t>[from]);
// _setterFunc<user_t>.emplace(to, _setterFunc<user_t>[from]);
_convFuncFrom<user_t>.emplace(to, _convFuncFrom<user_t>[from]);
_convFuncTo<user_t>.emplace(to, _convFuncTo<user_t>[from]);
});
// move instance functions
_moveFunc.emplace_back([](AdcDeviceAttribute* from, AdcDeviceAttribute* to) {
_getterFunc<user_t>.emplace(to, std::move(_getterFunc<user_t>[from]));
_setterFunc<user_t>.emplace(to, std::move(_setterFunc<user_t>[from]));
// _getterFunc<user_t>.emplace(to, std::move(_getterFunc<user_t>[from]));
// _setterFunc<user_t>.emplace(to, std::move(_setterFunc<user_t>[from]));
_convFuncFrom<user_t>.emplace(to, std::move(_convFuncFrom<user_t>[from]));
_convFuncTo<user_t>.emplace(to, std::move(_convFuncTo<user_t>[from]));
});
return *this;
@@ -520,7 +591,8 @@ public:
using val_t = std::decay_t<UT>;
try {
return _getterFunc<val_t>.at(this)();
// return _getterFunc<val_t>.at(this)();
return _convFuncFrom<val_t>.at(this)(this);
} catch (const std::out_of_range&) {
throw std::system_error(AdcDeviceAttributeErrorCode::ERROR_NO_CONV_FUNC);
}
@@ -537,7 +609,8 @@ public:
using val_t = std::decay_t<UT>;
try {
_setterFunc<val_t>.at(this)(std::forward<UT>(val));
// _setterFunc<val_t>.at(this)(std::forward<UT>(val));
_convFuncTo<val_t>.at(this)(std::forward<UT>(val), this);
} catch (const std::out_of_range&) {
throw std::system_error(AdcDeviceAttributeErrorCode::ERROR_NO_CONV_FUNC);
}
@@ -574,9 +647,13 @@ public:
fn(&other, this);
}
_copyFunc = std::move(other._copyFunc);
_moveFunc = std::move(other._moveFunc);
_clearFunc = std::move(other._clearFunc);
// _copyFunc = std::move(other._copyFunc);
// _moveFunc = std::move(other._moveFunc);
// _clearFunc = std::move(other._clearFunc);
_copyFunc = other._copyFunc;
_moveFunc = other._moveFunc;
_clearFunc = other._clearFunc;
_ident = std::move(other._ident);
_accessType = std::move(other._accessType);
@@ -593,7 +670,8 @@ public:
throw std::system_error(AdcDeviceAttributeErrorCode::ERROR_WRITE_ONLY);
}
return _serializerFunc();
// return _serializerFunc();
return _serializerFunc(this);
}
template <typename ST>
@@ -616,7 +694,8 @@ public:
throw std::system_error(AdcDeviceAttributeErrorCode::ERROR_READ_ONLY);
}
_deserializerFunc(sval);
// _deserializerFunc(sval);
_deserializerFunc(sval, this);
return *this;
}
@@ -628,7 +707,8 @@ public:
using s_t = std::decay_t<ST>;
if constexpr (traits::adc_input_char_range<s_t> && traits::adc_input_char_range<serialized_t>) {
_deserializerFunc(serialized_t(sval.begin(), sval.end()));
// _deserializerFunc(serialized_t(sval.begin(), sval.end()));
_deserializerFunc(serialized_t(sval.begin(), sval.end()), this);
} else {
static_assert(false, "INVALID USER SERIALIZATION TYPE!");
}

22
net/adc_device_netserver.h
View File

@@ -155,8 +155,8 @@ protected:
CmdIdDeserialT&& cmd_id_deser_func = {})
: _id(id)
{
_get_attr = [dev_ptr, wrapper = traits::adc_pf_wrapper(std::forward<AttrIdDeserialT>(attr_id_deser_func)),
this](const auto& attr_name) mutable {
_get_attr = [dev_ptr, wrapper = traits::adc_pf_wrapper(std::forward<AttrIdDeserialT>(attr_id_deser_func))](
const auto& attr_name) mutable {
auto attr_id = std::get<0>(wrapper)(attr_name);
auto& attr = (*dev_ptr)[attr_id];
// auto& attr = dev_ptr->operator[](attr_id);
@@ -344,7 +344,8 @@ public:
}
}
if (found) {
msg.ack(msg_t::DEVICE_KEY, attrs);
// msg.ack(msg_t::DEVICE_KEY, attrs);
msg.ack(constants::ADC_DEVICE_NETPROTO_KEY_DEVICE, attrs);
} else {
msg.err(std::make_error_code(AdcDeviceNetServerSessionError::ERROR_UNKNOWN_DEVICE_ID));
}
@@ -356,14 +357,17 @@ public:
for (auto& [ptr, dev_wr] : _serverPtr->_devices) {
names.emplace_back(dev_wr.ident());
}
msg.ack(msg_t::NAMES_KEY, names);
// msg.ack(msg_t::NAMES_KEY, names);
msg.ack(constants::ADC_DEVICE_NETPROTO_KEY_NAMES, names);
} else if (msg.isHELLO()) {
msg.ack(msg_t::HELLO_KEY, _serverPtr->_serverIdent);
// msg.ack(msg_t::HELLO_KEY, _serverPtr->_serverIdent);
msg.ack(constants::ADC_DEVICE_NETPROTO_KEY_HELLO, _serverPtr->_serverIdent);
} else if (msg.isGET()) { // get attribute value
attrs = msg.template attrs<attr_vec_t>(0, 1);
if (attrs.size()) {
auto val = _bindDevice->getAttr(get_elem(0));
msg.ack(msg_t::GET_KEY, get_elem(0), val);
// msg.ack(msg_t::GET_KEY, get_elem(0), val);
msg.ack(constants::ADC_DEVICE_NETPROTO_KEY_GET, get_elem(0), val);
} else { // no attr name!
msg.err(std::make_error_code(AdcDeviceNetServerSessionError::ERROR_NO_PROTO_ATTRNAME));
}
@@ -372,7 +376,8 @@ public:
if (attrs.size() >= 2) {
auto val = msg.template joinAttrs<serialized_t>(1);
_bindDevice->setAttr(get_elem(0), val);
msg.ack(msg_t::SET_KEY, get_elem(0), val);
// msg.ack(msg_t::SET_KEY, get_elem(0), val);
msg.ack(constants::ADC_DEVICE_NETPROTO_KEY_SET, get_elem(0), val);
} else { // no attr name or its value!
if (attrs.size() == 1) {
msg.err(std::make_error_code(AdcDeviceNetServerSessionError::ERROR_NO_PROTO_ATTRVALUE));
@@ -385,7 +390,8 @@ public:
if (attrs.size()) {
auto cmd_name = get_elem(0);
_bindDevice->exec(cmd_name);
msg.ack(msg_t::CMD_KEY, cmd_name);
// msg.ack(msg_t::CMD_KEY, cmd_name);
msg.ack(constants::ADC_DEVICE_NETPROTO_KEY_CMD, cmd_name);
} else { // no cmd name!
msg.err(std::make_error_code(AdcDeviceNetServerSessionError::ERROR_NO_PROTO_CMDNAME));
}

30
net/adc_endpoint.h
View File

@@ -304,6 +304,36 @@ public:
return proto() == protoMarkWSS;
}
// add '\0' char (or replace special-meaning char/char-sequence) to construct UNIX abstract namespace
// endpoint path
template <typename T = std::nullptr_t>
AdcEndpoint& makeAbstract(const T& mark = nullptr)
requires(traits::adc_input_char_range<T> || std::same_as<std::remove_cv_t<T>, char> ||
std::is_null_pointer_v<std::remove_cv_t<T>>)
{
if (!(isLocalStream() || isLocalSeqpacket())) { // only local proto is valid!
return *this;
}
if constexpr (std::is_null_pointer_v<T>) { // just insert '\0'
auto it = _endpoint.insert(std::string::const_iterator(_path.begin()), '\0');
_path = std::string_view(it, _endpoint.end());
} else if constexpr (std::same_as<std::remove_cv_t<T>, char>) { // replace a character (mark)
auto pos = std::distance(_endpoint.cbegin(), std::string::const_iterator(_path.begin()));
if (_endpoint[pos] == mark) {
_endpoint[pos] = '\0';
}
} else { // replace a character range (mark)
if (std::ranges::equal(_path | std::views::take(std::ranges::size(mark), mark))) {
auto pos = std::distance(_endpoint.cbegin(), std::string::const_iterator(_path.begin()));
_endpoint.replace(pos, std::ranges::size(mark), 1, '\0');
_path = std::string_view(_endpoint.begin() + pos, _endpoint.end());
}
}
return *this;
}
protected:
std::string _endpoint;
std::string_view _proto, _host, _path, _portView;

115
net/adc_netproto.h
View File

@@ -21,6 +21,7 @@ concept adc_netproto_c = adc_range_of_view_char_range<R> && requires(T t, const
namespace constants
{
static constexpr char ADC_DEFAULT_NETPROTO_STARTSEQ[] = "\v";
static constexpr char ADC_DEFAULT_NETPROTO_STOPSEQ[] = "\n";
static constexpr char ADC_DEFAULT_NETPROTO_STARTMARK[] = "\n\t\r\v\r\t\n";
@@ -39,7 +40,10 @@ struct AdcStopSeqSessionProto {
typedef std::string proto_ident_t;
proto_ident_t ident() const { return "STOP SEQUENCE PROTO"; }
proto_ident_t ident() const
{
return "STOP SEQUENCE PROTO";
}
// template <traits::adc_input_char_range R>
// auto search(const R& r)
@@ -142,6 +146,105 @@ struct AdcStopSeqSessionProto {
};
template <const char* STARTSEQ = constants::ADC_DEFAULT_NETPROTO_STARTSEQ,
const char* STOPSEQ = constants::ADC_DEFAULT_NETPROTO_STOPSEQ>
struct AdcStartStopSeqSessionProto {
static constexpr std::string_view START_SEQ{STARTSEQ};
static constexpr size_t START_SEQ_SIZE = START_SEQ.size();
static constexpr std::string_view STOP_SEQ{STOPSEQ};
static constexpr size_t STOP_SEQ_SIZE = STOP_SEQ.size();
static_assert(START_SEQ_SIZE, "START BYTE SEQUENCE MUST NOT BE AN EMPTY ONE!!!");
static_assert(STOP_SEQ_SIZE, "STOP BYTE SEQUENCE MUST NOT BE AN EMPTY ONE!!!");
typedef std::string proto_ident_t;
proto_ident_t ident() const
{
return "STOP SEQUENCE PROTO";
}
template <traits::adc_input_char_range R>
auto search(const R& r)
{
auto func = [&r](auto& result) {
if (std::ranges::size(r) < (START_SEQ_SIZE + STOP_SEQ_SIZE)) {
return;
}
auto found_start = std::ranges::search(r, START_SEQ);
if (found_start.empty()) {
return;
}
auto found_stop = std::ranges::search(r, STOP_SEQ);
if (found_stop.empty()) {
return;
}
if (found_start.begin() > found_stop.begin()) {
return;
}
if constexpr (std::ranges::viewable_range<R>) {
result = std::span(found_start.begin(), found_stop.end());
} else {
std::ranges::copy(found_start.begin(), found_stop.end(), std::back_inserter(result));
}
};
if constexpr (std::ranges::viewable_range<R>) {
auto res = std::span(r.begin(), r.begin()); // empty std::span
func(res);
return res;
} else {
auto res = std::vector<char>();
func(res);
return res;
}
}
template <traits::adc_input_char_range R>
auto toProto(const R& r)
{
// return 3-element array with the first element - a view of the start sequence, the second one - as a view of
// the input range and the third one - a view of the stop sequence
if constexpr (std::ranges::viewable_range<R>) {
auto res = std::array{std::span(std::span(START_SEQ.begin(), START_SEQ.end()), r.begin(), r.end()),
std::span(STOP_SEQ.begin(), STOP_SEQ.end())};
return res;
} else { // return a copy of input range with added to the fron start sequence and appended stop sequence
std::decay_t<decltype(r)> res;
std::ranges::copy(START_SEQ, std::back_inserter(res));
std::ranges::copy(r, std::back_inserter(res));
std::ranges::copy(STOP_SEQ, std::back_inserter(res));
return res;
}
}
template <traits::adc_input_char_range R>
auto fromProto(const R& r)
{
size_t N = std::distance(r.begin(), r.end());
if (N < (START_SEQ_SIZE + STOP_SEQ_SIZE)) { // one must ensure for input range size correctness
return std::span(r.begin(), r.begin());
}
if constexpr (std::ranges::viewable_range<R>) {
return std::span(r.begin() + START_SEQ_SIZE, r.end() - STOP_SEQ_SIZE);
} else {
R res;
std::ranges::copy(r | std::views::drop(START_SEQ_SIZE) | std::views::take(N - STOP_SEQ_SIZE),
std::back_inserter(res));
return res;
}
}
};
// session protocol for datagram-kind message (e.g. UDP, seqpacket)
// The protocol does not contain any special characters, so to/fromProto methods
// return just a copy/one-element-array-of-vew/view of input byte
@@ -149,7 +252,10 @@ struct AdcStopSeqSessionProto {
struct AdcDatagramSessionProto {
typedef std::string proto_ident_t;
proto_ident_t ident() const { return "DATAGRAM PROTO"; }
proto_ident_t ident() const
{
return "DATAGRAM PROTO";
}
template <traits::adc_input_char_range R>
auto search(const R& r)
@@ -201,7 +307,10 @@ struct AdcBinaryBlobSessionProto {
typedef std::string proto_ident_t;
proto_ident_t ident() const { return "BINARY BLOB PROTO"; }
proto_ident_t ident() const
{
return "BINARY BLOB PROTO";
}
template <traits::adc_input_char_range R>
auto search(const R& r)

14
net/asio/adc_device_netserver_asio.h
View File

@@ -196,6 +196,13 @@ public:
_sessionSendTimeout.count());
}
void daemonize()
{
this->logInfo("Daemonize server process (server addr: {})", (void*)this);
base_t::daemonize();
}
protected:
asio::io_context& _ioContext;
@@ -204,13 +211,6 @@ protected:
std::chrono::milliseconds _sessionRecvTimeout = std::chrono::hours(12);
std::chrono::milliseconds _sessionSendTimeout = std::chrono::seconds(5);
void daemonize()
{
this->logInfo("Daemonize server process (server addr: {})", (void*)this);
base_t::daemonize();
}
// demonizing ASIO-related methods
virtual void daemonizePrepare()
{

5
net/asio/adc_netservice_asio.h
View File

@@ -159,7 +159,8 @@ public:
typedef std::function<int(const std::string& serial, const std::vector<unsigned char>& fingerprint, int depth)>
cert_comp_func_t;
#else
using session_level_socket_t = socket_t;
// using session_level_socket_t = socket_t;
using session_level_socket_t = std::nullptr_t;
#endif
@@ -830,8 +831,8 @@ protected:
asio::socket_base::shutdown_type _shutdownType = asio::socket_base::shutdown_both;
#ifdef USE_OPENSSL_WITH_ASIO
session_level_socket_t _sessSocket;
#ifdef USE_OPENSSL_WITH_ASIO
std::conditional_t<isTLS, asio::ssl::context, std::nullptr_t> _tlsContext;
asio::ssl::verify_mode _tlsPeerVerifyMode;
cert_comp_func_t _tlsCertCompFunc;

15
tests/adc_asio_netserver_test.cpp
View File

@@ -162,13 +162,14 @@ int main(int argc, char* argv[])
for (auto& ep : epnt) {
adc::AdcEndpoint epn(ep);
if (epn.isValid()) {
if (epn.isLocalSeqpacket() || epn.isLocalStream()) {
if (epn.path()[0] == '@') { // replace '@' to '\0' (use of UNIX abstract namespace)
auto it = std::ranges::find(ep, '@');
*it = '\0';
epn = adc::AdcEndpoint(ep);
}
}
epn.makeAbstract('@');
// if (epn.isLocalSeqpacket() || epn.isLocalStream()) {
// if (epn.path()[0] == '@') { // replace '@' to '\0' (use of UNIX abstract namespace)
// auto it = std::ranges::find(ep, '@');
// *it = '\0';
// epn = adc::AdcEndpoint(ep);
// }
// }
// std::cout << "try to start listenning at '" << ep << "' ...";

176
tests/adc_dev_test.cpp Normal file
View File

@@ -0,0 +1,176 @@
#include <iostream>
#include "../common/adc_traits.h"
#include "../device/adc_device.h"
#include "../device/adc_device_attribute.h"
#include "../device/adc_device_command.h"
using namespace adc;
typedef std::vector<char> serialized_t;
class DeviceWrapper
{
public:
// using char_range_t = std::span<const char>;
using char_range_t = std::span<char>;
private:
serialized_t _id;
std::function<serialized_t(const serialized_t&)> _get_attr = [](auto) -> serialized_t {
throw std::invalid_argument("BAD _get_attr");
};
std::function<void(const serialized_t&, const serialized_t&)> _set_attr = [](auto, auto) {
throw std::invalid_argument("BAD _set_attr");
};
std::function<void(const serialized_t&)> _exec_cmd = [](auto) { throw std::invalid_argument("BAD _exec_cmd"); };
public:
DeviceWrapper() : _id()
{
// null device
std::string_view id{"NULL-DEVICE"};
std::ranges::copy(id, std::back_inserter(_id));
};
template <typename DeviceT,
typename AttrIdDeserialT = traits::adc_char_identity<typename DeviceT::attr_ident_t>,
typename CmdIdDeserialT = traits::adc_char_identity<typename DeviceT::cmd_ident_t>>
DeviceWrapper(DeviceT* dev_ptr,
const serialized_t& id,
AttrIdDeserialT&& attr_id_deser_func = {},
CmdIdDeserialT&& cmd_id_deser_func = {})
: _id(id)
{
_get_attr = [dev_ptr, wrapper = traits::adc_pf_wrapper(std::forward<AttrIdDeserialT>(attr_id_deser_func))](
const auto& attr_name) mutable {
auto attr_id = std::get<0>(wrapper)(attr_name);
auto& attr = (*dev_ptr)[attr_id];
// auto& attr = dev_ptr->operator[](attr_id);
auto val = attr.serialize();
return val;
};
_set_attr = [dev_ptr, wrapper = traits::adc_pf_wrapper(std::forward<AttrIdDeserialT>(attr_id_deser_func))](
const auto& attr_name, const auto& val) mutable {
auto attr_id = std::get<0>(wrapper)(attr_name);
(*dev_ptr)[attr_id].deserialize(val);
};
_exec_cmd = [dev_ptr, wrapper = traits::adc_pf_wrapper(std::forward<CmdIdDeserialT>(cmd_id_deser_func))](
const auto& cmd_name) mutable {
auto cmd_id = std::get<0>(wrapper)(cmd_name);
(*dev_ptr)(cmd_id);
};
}
serialized_t ident() const
{
// return _get_id();
return _id;
}
serialized_t getAttr(const serialized_t& attr_name)
{
return _get_attr(attr_name);
}
void setAttr(const serialized_t& attr_name, const serialized_t& val)
{
_set_attr(attr_name, val);
}
void exec(const serialized_t& cmd_name)
{
_exec_cmd(cmd_name);
}
};
static std::vector<DeviceWrapper> devs;
auto getAttr(size_t dev_idx, const serialized_t& name)
{
DeviceWrapper& dev = devs[dev_idx];
return dev.getAttr(name);
}
int main()
{
typedef AdcGenericDevice<std::string_view, AdcDeviceAttribute<std::string_view, serialized_t>, AdcDeviceCommand<>>
dev_t;
dev_t dev1("DEV1");
int attr1_val = 10;
// dev1.addAttribute(
// "ATTR1",
// [&attr1_val]() {
// std::cout << "ATTR1 getter\n";
// return attr1_val;
// },
// [&attr1_val](const int& v) {
// std::cout << "ATTR1 setter\n";
// attr1_val = v;
// });
// dev1.addAttribute(
// "ATTR2",
// [&attr1_val]() {
// std::cout << "ATTR2 getter\n";
// return attr1_val + 10;
// },
// [&attr1_val](const int& v) {
// std::cout << "ATTR2 setter\n";
// attr1_val = v;
// },
// utils::AdcDefaultValueConverter<>::serialize<dev_t::attribute_t::serialized_t, int>);
dev1.addAttribute(dev_t::attribute_t::makeArithAttr(
"ATTR1",
[&attr1_val]() {
std::cout << "ATTR1 getter\n";
return attr1_val;
},
[&attr1_val](const int& v) {
std::cout << "ATTR1 setter\n";
attr1_val = v;
}));
dev1.addAttribute(dev_t::attribute_t::makeArithAttr(
"ATTR2",
[&attr1_val]() {
std::cout << "ATTR2 getter\n";
return (long)attr1_val + 10;
},
[&attr1_val](const long& v) {
std::cout << "ATTR2 setter\n";
attr1_val = v;
},
utils::AdcDefaultValueConverter<>::serialize<dev_t::attribute_t::serialized_t, long>));
devs.push_back({&dev1, {'D', '1'}});
serialized_t sn1, sn2;
std::ranges::copy(std::string_view("ATTR1"), std::back_inserter(sn1));
std::ranges::copy(std::string_view("ATTR2"), std::back_inserter(sn2));
devs[0].setAttr(sn1, {'7', '7'});
auto r = getAttr(0, sn1);
std::string rs;
std::ranges::copy(r, std::back_inserter(rs));
std::cout << "ATTR1 = " << rs << "\n";
devs[0].setAttr(sn2, {'7', '7'});
r = getAttr(0, sn2);
rs.clear();
std::ranges::copy(r, std::back_inserter(rs));
std::cout << "ATTR2 = " << rs << "\n";
return 0;
}