BeeeOn Gateway  v2020.3.1-2-g6f737dc
Platform to interconnect the IoT world
Public Member Functions | Protected Member Functions
BeeeOn::ConradDeviceManager Class Reference

The class implements the work with Conrad devices. Allows us to process and execute the commands from server and gather data from the devices. It communicates with the Conrad devices using FHEM server. To communicate with FHEM server the class using FHEMClient which communicates with the FHEM server over telnet. More...

#include <ConradDeviceManager.h>

Inheritance diagram for BeeeOn::ConradDeviceManager:
BeeeOn::DeviceManager BeeeOn::CommandHandler BeeeOn::CommandSender BeeeOn::DeviceStatusHandler BeeeOn::Loggable BeeeOn::StoppableRunnable

Public Member Functions

void run () override
 
void stop () override
 
void setFHEMClient (FHEMClient::Ptr fhemClient)
 
void setEventsExecutor (AsyncExecutor::Ptr executor)
 
void registerListener (ConradListener::Ptr listener)
 
- Public Member Functions inherited from BeeeOn::DeviceManager
 DeviceManager (const DevicePrefix &prefix, const std::initializer_list< std::type_index > &acceptable={})
 
DevicePrefix prefix () const override
 
void stop () override
 
void setDeviceCache (DeviceCache::Ptr cache)
 
void setDistributor (Poco::SharedPtr< Distributor > distributor)
 
bool accept (const Command::Ptr cmd) override
 
void handle (Command::Ptr cmd, Answer::Ptr answer) override
 
void handleRemoteStatus (const DevicePrefix &prefix, const std::set< DeviceID > &devices, const DeviceStatusHandler::DeviceValues &values) override
 Called when devices from a remote server are fetched and so the pairing status of them can be reconsidered. The default implementation just updates the device cache appropriately.
 
- Public Member Functions inherited from BeeeOn::CommandSender
void setCommandDispatcher (CommandDispatcher *dispatcher)
 
void dispatch (Poco::AutoPtr< Command > cmd, Poco::AutoPtr< Answer > answer)
 
void dispatch (Poco::AutoPtr< Command > cmd)
 
AnswerQueueanswerQueue ()
 

Protected Member Functions

AsyncWork::Ptr startDiscovery (const Poco::Timespan &timeout) override
 Starts device discovery process in a technology-specific way. This method is always called inside a critical section and so its implementation does not have to be thread-safe nor reentrant (unless it cooperates with other threads itself). More...
 
AsyncWork< double >::Ptr startSetValue (const DeviceID &id, const ModuleID &module, const double value, const Poco::Timespan &timeout)
 Starts set-value operation in a technology specific way. The method is always called inside a critical section and so its implementation does not have to be thread-save nor reentrant (unless it cooperates with other threads itself). More...
 
AsyncWork< std::set< DeviceID >
>::Ptr 
startUnpair (const DeviceID &id, const Poco::Timespan &) override
 Starts device unpair process in a technology-specific way. This method is always called inside a critical section and so its implementation does not have to be thread-safe nor reentrant (unless it cooperates with other threads itself). More...
 
void handleAccept (const DeviceAcceptCommand::Ptr cmd) override
 Generic handler of the DeviceAcceptCommand. It might be helpful to override this method in case we need to make some technology-specific check of the device to be accepted. The default implementation simply marks the given device as paired.
 
void processEvent (const Poco::JSON::Object::Ptr event)
 Processes the incoming event, which means creating a new device or sending the gathered data to the server.
 
void processMessageEvent (const DeviceID &deviceID, const Poco::JSON::Object::Ptr event)
 Processes the message event. If the event's device is paired then the data from the event are sent to the server.
 
void createNewDeviceUnlocked (const DeviceID &deviceID, const std::string &type)
 Creates instance of Conrad device appends it into m_devices.
 
void fireMessage (DeviceID const &deviceID, const Poco::JSON::Object::Ptr message)
 Transforms received/sent message into ConradEvent and fires it.
 
- Protected Member Functions inherited from BeeeOn::DeviceManager
std::set< DeviceIDwaitRemoteStatus (const Poco::Timespan &timeout)
 Wait until the remote status is delivered or timeout exceeds. DO NOT USE this method, it is intended as a transition mechanism from calling of the deprecated method deviceList(). More...
 
virtual void handleGeneric (const Command::Ptr cmd, Result::Ptr result)
 
void handleListen (const GatewayListenCommand::Ptr cmd)
 Implements handling of the listen command in a generic way. The method ensures that only 1 thread can execute the discovery process at a time. More...
 
virtual AsyncWork::Ptr startSearch (const Poco::Timespan &timeout, const Poco::Net::IPAddress &address)
 Start searching a device by IP address in a technology-specific way. This method is always called inside a critical section and so its implementation does not have to be thread-safe nor reentrant (unless it cooperates with other threads itself). More...
 
virtual AsyncWork::Ptr startSearch (const Poco::Timespan &timeout, const MACAddress &address)
 Start searching a device by MAC address in a technology-specific way. This method is always called inside a critical section and so its implementation does not have to be thread-safe nor reentrant (unless it cooperates with other threads itself). More...
 
virtual AsyncWork::Ptr startSearch (const Poco::Timespan &timeout, const uint64_t serialNumber)
 Start searching a device by serial number in a technology-specific way. This method is always called inside a critical section and so its implementation does not have to be thread-safe nor reentrant (unless it cooperates with other threads itself). More...
 
void handleSearch (const DeviceSearchCommand::Ptr cmd)
 Implements handling of the search command in a generic way. The method ensures that only 1 thread can exactly the search process at a time. It is also mutual exclusive to the discovery process.
 
std::set< DeviceIDhandleUnpair (const DeviceUnpairCommand::Ptr cmd)
 Implements handling of the unpair command in a generic way. The method ensures that only 1 thread can execute the unpair process at a time. More...
 
AsyncWork< double >::Ptr startSetValueByMode (const DeviceID &id, const ModuleID &module, const double value, const OpMode &mode, const Poco::Timespan &timeout)
 Call an implementation of startSetValue() based on the given operation mode.
 
virtual AsyncWork< double >::Ptr startSetValueTryHarder (const DeviceID &id, const ModuleID &module, const double value, const Poco::Timespan &timeout)
 Default implementation just calls startSetValue().
 
virtual AsyncWork< double >::Ptr startSetValueRepeatOnFail (const DeviceID &id, const ModuleID &module, const double value, const Poco::Timespan &timeout)
 Default implementation calls startSetValue() again if a Poco::IOException is thrown until timeout exceeds. However, due to asynchronous behaviour, this way of repeating on fail might be inappropriate.
 
void handleSetValue (const DeviceSetValueCommand::Ptr cmd)
 Implements handling of the set-value command in a generic way. The method ensures that only 1 thread can execute set-value process at a time. If the set-value operation succeeds, it ships the set value. More...
 
void ship (const SensorData &sensorData)
 
DeviceCache::Ptr deviceCache () const
 
CancellableSetcancellable ()
 
Poco::Timespan checkDelayedOperation (const std::string &opname, const Poco::Clock &started, const Poco::Timespan &duration) const
 When starting an asynchronous operation, it might happen we sleep too long on a lock because the previous operation did not finished yet. This method performs such checks and also tests for global stop request. If everything is in order it just fixes the duration by the time elapsed by waiting. Otherwise, it throws an exception. More...
 
bool manageUntilFinished (const std::string &opname, AnyAsyncWork::Ptr work, const Poco::Timespan &timeout)
 Manage an AsyncWork after it is started. If it does not finish in the given timeout, it is cancelled explicitly. More...
 
- Protected Member Functions inherited from BeeeOn::Loggable
void setupLogger (Poco::Logger *logger=0) const
 
Poco::Logger & logger () const
 
 Loggable (const ClassInfo &info)
 
 Loggable (const std::type_info &info)
 

Additional Inherited Members

- Public Types inherited from BeeeOn::DeviceManager
typedef Poco::SharedPtr
< DeviceManager
Ptr
 
- Public Types inherited from BeeeOn::DeviceStatusHandler
typedef Poco::SharedPtr
< DeviceStatusHandler
Ptr
 
typedef std::map< DeviceID,
std::map< ModuleID, double > > 
DeviceValues
 
- Public Types inherited from BeeeOn::StoppableRunnable
typedef Poco::SharedPtr
< StoppableRunnable
Ptr
 
- Protected Types inherited from BeeeOn::StoppableRunnable
typedef Poco::SharedPtr
< StoppableRunnable
Ptr
 
- Static Protected Member Functions inherited from BeeeOn::Loggable
static Poco::Logger & forMethod (const char *name)
 
static Poco::Logger & forClass (const ClassInfo &info)
 
static Poco::Logger & forClass (const std::type_info &info)
 
template<typename T >
static Poco::Logger & forInstance (const T *i)
 
static void configureSimple (Poco::Logger &logger, const std::string &level)
 
static void logException (Poco::Logger &logger, const Poco::Message::Priority priority, const Poco::Exception &e, const char *file, size_t line)
 
- Protected Attributes inherited from BeeeOn::DeviceManager
StopControl m_stopControl
 

Detailed Description

The class implements the work with Conrad devices. Allows us to process and execute the commands from server and gather data from the devices. It communicates with the Conrad devices using FHEM server. To communicate with FHEM server the class using FHEMClient which communicates with the FHEM server over telnet.

Member Function Documentation

AsyncWork ::Ptr BeeeOn::ConradDeviceManager::startDiscovery ( const Poco::Timespan &  timeout)
overrideprotectedvirtual

Starts device discovery process in a technology-specific way. This method is always called inside a critical section and so its implementation does not have to be thread-safe nor reentrant (unless it cooperates with other threads itself).

The purpose of this call is to initialize and start the discovery process which might be a non-blocking operation. The caller uses the provided AsyncWork<> instance to wait until it finishes or to cancel it earlier if needed.

Reimplemented from BeeeOn::DeviceManager.

AsyncWork<double>::Ptr BeeeOn::ConradDeviceManager::startSetValue ( const DeviceID id,
const ModuleID module,
const double  value,
const Poco::Timespan &  timeout 
)
protectedvirtual

Starts set-value operation in a technology specific way. The method is always called inside a critical section and so its implementation does not have to be thread-save nor reentrant (unless it cooperates with other threads itself).

The set-value process might a be a non-blocking operation. The value set by the set-value is expected as a result of the returned AsyncWork instance.

Reimplemented from BeeeOn::DeviceManager.

AsyncWork<std::set<DeviceID> >::Ptr BeeeOn::ConradDeviceManager::startUnpair ( const DeviceID id,
const Poco::Timespan &  timeout 
)
overrideprotectedvirtual

Starts device unpair process in a technology-specific way. This method is always called inside a critical section and so its implementation does not have to be thread-safe nor reentrant (unless it cooperates with other threads itself).

The unpairing process might be a non-blocking operation. The unpaired devices are provided via the result of the returned AsyncWork instance.

Reimplemented from BeeeOn::DeviceManager.

void BeeeOn::ConradDeviceManager::stop ( )
overridevirtual

Stop the runnable. The call should not block.

Implements BeeeOn::StoppableRunnable.


The documentation for this class was generated from the following files: