Merge request check

This commit is contained in:
Robin Müller 2020-01-16 19:07:53 +01:00
parent 9bdbc2c380
commit 1d1bb88a6f
10 changed files with 83 additions and 98 deletions

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@ -16,8 +16,8 @@ template<typename key_t, typename T>
class FixedMap: public SerializeIF {
public:
static const uint8_t INTERFACE_ID = CLASS_ID::FIXED_MAP;
static const ReturnValue_t KEY_ALREADY_EXISTS = MAKE_RETURN_CODE(0x01); //!< P1: SID for HK packets
static const ReturnValue_t MAP_FULL = MAKE_RETURN_CODE(0x02); //!< P1: SID for HK packets
static const ReturnValue_t KEY_ALREADY_EXISTS = MAKE_RETURN_CODE(0x01);
static const ReturnValue_t MAP_FULL = MAKE_RETURN_CODE(0x02);
static const ReturnValue_t KEY_DOES_NOT_EXIST = MAKE_RETURN_CODE(0x03);
private:

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@ -148,9 +148,3 @@ ReturnValue_t DataSet::deSerialize(const uint8_t** buffer, int32_t* size,
}
return result;
}
ReturnValue_t DataSet::serializeRawFromIdBuffer(uint8_t ** buffer, uint32_t * size,
const uint32_t max_size, bool bigEndian, uint32_t * poolIdBuffer,
uint32_t poolIdSize) {
return RETURN_OK;
}

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@ -129,9 +129,6 @@ public:
ReturnValue_t deSerialize(const uint8_t** buffer, int32_t* size,
bool bigEndian);
ReturnValue_t serializeRawFromIdBuffer(uint8_t ** buffer, uint32_t * size,
const uint32_t max_size, bool bigEndian, uint32_t * poolIdBuffer,
uint32_t poolIdSize);
private:
/**
* \brief This array represents all pool variables registered in this set.

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@ -38,7 +38,7 @@ ReturnValue_t PoolRawAccess::read() {
result = READ_TYPE_TOO_LARGE;
}
} else {
info << "PoolRawAccess: Size: " << (int)read_out->getSize() << std::endl;
//debug << "PoolRawAccess: Size: " << (int)read_out->getSize() << std::endl;
result = READ_INDEX_TOO_LARGE;
}
} else {

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@ -170,8 +170,6 @@ protected:
static const DeviceCommandId_t NO_COMMAND_ID = -2;
static const MessageQueueId_t NO_COMMANDER = 0;
/**
* Pointer to the raw packet that will be sent.
*/

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@ -25,80 +25,79 @@ public:
* MODE_ON and MODE_OFF are included in hasModesIF.h
*/
// MODE_ON = 0, //!< The device is powered and ready to perform operations. In this mode, no commands are sent by the device handler itself, but direct commands van be commanded and will be interpreted
// MODE_OFF = 1, //!< The device is powered off. The only command accepted in this mode is a mode change to on.
static const Mode_t MODE_NORMAL = 2; //!< The device is powered on and the device handler periodically sends commands. The commands to be sent are selected by the handler according to the submode.
static const Mode_t MODE_RAW = 3; //!< The device is powered on and ready to perform operations. In this mode, raw commands can be sent. The device handler will send all replies received from the command back to the commanding object.
static const Mode_t MODE_ERROR_ON = 4; //!4< The device is shut down but the switch could not be turned off, so the device still is powered. In this mode, only a mode change to @c MODE_OFF can be commanded, which tries to switch off the device again.
static const Mode_t _MODE_START_UP = TRANSITION_MODE_CHILD_ACTION_MASK | 5; //!< This is a transitional state which can not be commanded. The device handler performs all commands to get the device in a state ready to perform commands. When this is completed, the mode changes to @c MODE_ON.
static const Mode_t _MODE_SHUT_DOWN = TRANSITION_MODE_CHILD_ACTION_MASK | 6; //!< This is a transitional state which can not be commanded. The device handler performs all actions and commands to get the device shut down. When the device is off, the mode changes to @c MODE_OFF.
static const Mode_t _MODE_TO_ON = TRANSITION_MODE_CHILD_ACTION_MASK | HasModesIF::MODE_ON; //!< It is possible to set the mode to _MODE_TO_ON to use the to on transition if available.
static const Mode_t _MODE_TO_RAW = TRANSITION_MODE_CHILD_ACTION_MASK | MODE_RAW;
static const Mode_t _MODE_TO_NORMAL = TRANSITION_MODE_CHILD_ACTION_MASK | MODE_NORMAL;
static const Mode_t _MODE_POWER_DOWN = TRANSITION_MODE_BASE_ACTION_MASK | 1; //!< This is a transitional state which can not be commanded. The device is shut down and ready to be switched off. After the command to set the switch off has been sent, the mode changes to @c MODE_WAIT_OFF
static const Mode_t _MODE_POWER_ON = TRANSITION_MODE_BASE_ACTION_MASK | 2; //!< This is a transitional state which can not be commanded. The device will be switched on in this state. After the command to set the switch on has been sent, the mode changes to @c MODE_WAIT_ON
static const Mode_t _MODE_WAIT_OFF = TRANSITION_MODE_BASE_ACTION_MASK | 3; //!< This is a transitional state which can not be commanded. The switch has been commanded off and the handler waits for it to be off. When the switch is off, the mode changes to @c MODE_OFF.
static const Mode_t _MODE_WAIT_ON = TRANSITION_MODE_BASE_ACTION_MASK | 4; //!< This is a transitional state which can not be commanded. The switch has been commanded on and the handler waits for it to be on. When the switch is on, the mode changes to @c MODE_TO_ON.
static const Mode_t _MODE_SWITCH_IS_OFF = TRANSITION_MODE_BASE_ACTION_MASK | 5; //!< This is a transitional state which can not be commanded. The switch has been commanded off and is off now. This state is only to do an RMAP cycle once more where the doSendRead() function will set the mode to MODE_OFF. The reason to do this is to get rid of stuck packets in the IO Board
// MODE_ON = 0, //!< The device is powered and ready to perform operations. In this mode, no commands are sent by the device handler itself, but direct commands van be commanded and will be interpreted
// MODE_OFF = 1, //!< The device is powered off. The only command accepted in this mode is a mode change to on.
static const Mode_t MODE_NORMAL = 2; //!< The device is powered on and the device handler periodically sends commands. The commands to be sent are selected by the handler according to the submode.
static const Mode_t MODE_RAW = 3; //!< The device is powered on and ready to perform operations. In this mode, raw commands can be sent. The device handler will send all replies received from the command back to the commanding object.
static const Mode_t MODE_ERROR_ON = 4; //!4< The device is shut down but the switch could not be turned off, so the device still is powered. In this mode, only a mode change to @c MODE_OFF can be commanded, which tries to switch off the device again.
static const Mode_t _MODE_START_UP = TRANSITION_MODE_CHILD_ACTION_MASK | 5; //!< This is a transitional state which can not be commanded. The device handler performs all commands to get the device in a state ready to perform commands. When this is completed, the mode changes to @c MODE_ON.
static const Mode_t _MODE_SHUT_DOWN = TRANSITION_MODE_CHILD_ACTION_MASK | 6; //!< This is a transitional state which can not be commanded. The device handler performs all actions and commands to get the device shut down. When the device is off, the mode changes to @c MODE_OFF.
static const Mode_t _MODE_TO_ON = TRANSITION_MODE_CHILD_ACTION_MASK | HasModesIF::MODE_ON; //!< It is possible to set the mode to _MODE_TO_ON to use the to on transition if available.
static const Mode_t _MODE_TO_RAW = TRANSITION_MODE_CHILD_ACTION_MASK | MODE_RAW;
static const Mode_t _MODE_TO_NORMAL = TRANSITION_MODE_CHILD_ACTION_MASK | MODE_NORMAL;
static const Mode_t _MODE_POWER_DOWN = TRANSITION_MODE_BASE_ACTION_MASK | 1; //!< This is a transitional state which can not be commanded. The device is shut down and ready to be switched off. After the command to set the switch off has been sent, the mode changes to @c MODE_WAIT_OFF
static const Mode_t _MODE_POWER_ON = TRANSITION_MODE_BASE_ACTION_MASK | 2; //!< This is a transitional state which can not be commanded. The device will be switched on in this state. After the command to set the switch on has been sent, the mode changes to @c MODE_WAIT_ON
static const Mode_t _MODE_WAIT_OFF = TRANSITION_MODE_BASE_ACTION_MASK | 3; //!< This is a transitional state which can not be commanded. The switch has been commanded off and the handler waits for it to be off. When the switch is off, the mode changes to @c MODE_OFF.
static const Mode_t _MODE_WAIT_ON = TRANSITION_MODE_BASE_ACTION_MASK | 4; //!< This is a transitional state which can not be commanded. The switch has been commanded on and the handler waits for it to be on. When the switch is on, the mode changes to @c MODE_TO_ON.
static const Mode_t _MODE_SWITCH_IS_OFF = TRANSITION_MODE_BASE_ACTION_MASK | 5; //!< This is a transitional state which can not be commanded. The switch has been commanded off and is off now. This state is only to do an RMAP cycle once more where the doSendRead() function will set the mode to MODE_OFF. The reason to do this is to get rid of stuck packets in the IO Board
static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::CDH;
static const Event DEVICE_BUILDING_COMMAND_FAILED = MAKE_EVENT(0, SEVERITY::LOW);
static const Event DEVICE_SENDING_COMMAND_FAILED = MAKE_EVENT(1, SEVERITY::LOW);
static const Event DEVICE_REQUESTING_REPLY_FAILED = MAKE_EVENT(2, SEVERITY::LOW);
static const Event DEVICE_READING_REPLY_FAILED = MAKE_EVENT(3, SEVERITY::LOW);
static const Event DEVICE_INTERPRETING_REPLY_FAILED = MAKE_EVENT(4, SEVERITY::LOW);
static const Event DEVICE_MISSED_REPLY = MAKE_EVENT(5, SEVERITY::LOW);
static const Event DEVICE_UNKNOWN_REPLY = MAKE_EVENT(6, SEVERITY::LOW);
static const Event DEVICE_UNREQUESTED_REPLY = MAKE_EVENT(7, SEVERITY::LOW);
static const Event INVALID_DEVICE_COMMAND = MAKE_EVENT(8, SEVERITY::LOW); //!< Indicates a SW bug in child class.
static const Event MONITORING_LIMIT_EXCEEDED = MAKE_EVENT(9, SEVERITY::LOW);
static const Event MONITORING_AMBIGUOUS = MAKE_EVENT(10, SEVERITY::HIGH);
static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::CDH;
static const Event DEVICE_BUILDING_COMMAND_FAILED = MAKE_EVENT(0, SEVERITY::LOW);
static const Event DEVICE_SENDING_COMMAND_FAILED = MAKE_EVENT(1, SEVERITY::LOW);
static const Event DEVICE_REQUESTING_REPLY_FAILED = MAKE_EVENT(2, SEVERITY::LOW);
static const Event DEVICE_READING_REPLY_FAILED = MAKE_EVENT(3, SEVERITY::LOW);
static const Event DEVICE_INTERPRETING_REPLY_FAILED = MAKE_EVENT(4, SEVERITY::LOW);
static const Event DEVICE_MISSED_REPLY = MAKE_EVENT(5, SEVERITY::LOW);
static const Event DEVICE_UNKNOWN_REPLY = MAKE_EVENT(6, SEVERITY::LOW);
static const Event DEVICE_UNREQUESTED_REPLY = MAKE_EVENT(7, SEVERITY::LOW);
static const Event INVALID_DEVICE_COMMAND = MAKE_EVENT(8, SEVERITY::LOW); //!< Indicates a SW bug in child class.
static const Event MONITORING_LIMIT_EXCEEDED = MAKE_EVENT(9, SEVERITY::LOW);
static const Event MONITORING_AMBIGUOUS = MAKE_EVENT(10, SEVERITY::HIGH);
static const uint8_t INTERFACE_ID = CLASS_ID::DEVICE_HANDLER_IF;
static const ReturnValue_t NO_COMMAND_DATA = MAKE_RETURN_CODE(0xA0);
static const ReturnValue_t COMMAND_NOT_SUPPORTED = MAKE_RETURN_CODE(0xA1);
static const ReturnValue_t COMMAND_ALREADY_SENT = MAKE_RETURN_CODE(0xA2);
static const ReturnValue_t COMMAND_WAS_NOT_SENT = MAKE_RETURN_CODE(0xA3);
static const ReturnValue_t CANT_SWITCH_IOBOARD = MAKE_RETURN_CODE(0xA4);
static const ReturnValue_t WRONG_MODE_FOR_COMMAND = MAKE_RETURN_CODE(0xA5);
static const ReturnValue_t TIMEOUT = MAKE_RETURN_CODE(0xA6);
static const ReturnValue_t BUSY = MAKE_RETURN_CODE(0xA7);
static const ReturnValue_t NO_REPLY_EXPECTED = MAKE_RETURN_CODE(0xA8); //!< Used to indicate that this is a command-only command.
static const ReturnValue_t NON_OP_TEMPERATURE = MAKE_RETURN_CODE(0xA9);
static const ReturnValue_t COMMAND_NOT_IMPLEMENTED = MAKE_RETURN_CODE(0xAA);
static const uint8_t INTERFACE_ID = CLASS_ID::DEVICE_HANDLER_IF;
static const ReturnValue_t NO_COMMAND_DATA = MAKE_RETURN_CODE(0xA0);
static const ReturnValue_t COMMAND_NOT_SUPPORTED = MAKE_RETURN_CODE(0xA1);
static const ReturnValue_t COMMAND_ALREADY_SENT = MAKE_RETURN_CODE(0xA2);
static const ReturnValue_t COMMAND_WAS_NOT_SENT = MAKE_RETURN_CODE(0xA3);
static const ReturnValue_t CANT_SWITCH_IOBOARD = MAKE_RETURN_CODE(0xA4);
static const ReturnValue_t WRONG_MODE_FOR_COMMAND = MAKE_RETURN_CODE(0xA5);
static const ReturnValue_t TIMEOUT = MAKE_RETURN_CODE(0xA6);
static const ReturnValue_t BUSY = MAKE_RETURN_CODE(0xA7);
static const ReturnValue_t NO_REPLY_EXPECTED = MAKE_RETURN_CODE(0xA8); //!< Used to indicate that this is a command-only command.
static const ReturnValue_t NON_OP_TEMPERATURE = MAKE_RETURN_CODE(0xA9);
static const ReturnValue_t COMMAND_NOT_IMPLEMENTED = MAKE_RETURN_CODE(0xAA);
//standard codes used in scan for reply
//standard codes used in scan for reply
// static const ReturnValue_t TOO_SHORT = MAKE_RETURN_CODE(0xB1);
static const ReturnValue_t CHECKSUM_ERROR = MAKE_RETURN_CODE(0xB2);
static const ReturnValue_t LENGTH_MISSMATCH = MAKE_RETURN_CODE(0xB3);
static const ReturnValue_t INVALID_DATA = MAKE_RETURN_CODE(0xB4);
static const ReturnValue_t PROTOCOL_ERROR = MAKE_RETURN_CODE(0xB5);
static const ReturnValue_t CHECKSUM_ERROR = MAKE_RETURN_CODE(0xB2);
static const ReturnValue_t LENGTH_MISSMATCH = MAKE_RETURN_CODE(0xB3);
static const ReturnValue_t INVALID_DATA = MAKE_RETURN_CODE(0xB4);
static const ReturnValue_t PROTOCOL_ERROR = MAKE_RETURN_CODE(0xB5);
//standard codes used in interpret device reply
static const ReturnValue_t DEVICE_DID_NOT_EXECUTE = MAKE_RETURN_CODE(0xC1); //the device reported, that it did not execute the command
static const ReturnValue_t DEVICE_REPORTED_ERROR = MAKE_RETURN_CODE(0xC2);
static const ReturnValue_t UNKNOW_DEVICE_REPLY = MAKE_RETURN_CODE(0xC3); //the deviceCommandId reported by scanforReply is unknown
static const ReturnValue_t DEVICE_REPLY_INVALID = MAKE_RETURN_CODE(0xC4); //syntax etc is correct but still not ok, eg parameters where none are expected
//standard codes used in interpret device reply
static const ReturnValue_t DEVICE_DID_NOT_EXECUTE = MAKE_RETURN_CODE(0xC1); //the device reported, that it did not execute the command
static const ReturnValue_t DEVICE_REPORTED_ERROR = MAKE_RETURN_CODE(0xC2);
static const ReturnValue_t UNKNOW_DEVICE_REPLY = MAKE_RETURN_CODE(0xC3); //the deviceCommandId reported by scanforReply is unknown
static const ReturnValue_t DEVICE_REPLY_INVALID = MAKE_RETURN_CODE(0xC4); //syntax etc is correct but still not ok, eg parameters where none are expected
//Standard codes used in buildCommandFromCommand
static const ReturnValue_t INVALID_COMMAND_PARAMETER = MAKE_RETURN_CODE(
0xD0);
static const ReturnValue_t INVALID_NUMBER_OR_LENGTH_OF_PARAMETERS =
MAKE_RETURN_CODE(0xD1);
//Standard codes used in buildCommandFromCommand
static const ReturnValue_t INVALID_COMMAND_PARAMETER = MAKE_RETURN_CODE(
0xD0);
static const ReturnValue_t INVALID_NUMBER_OR_LENGTH_OF_PARAMETERS =
MAKE_RETURN_CODE(0xD1);
/**
* RMAP Action that will be executed.
*
* This is used by the child class to tell the base class what to do.
*/
enum RmapAction_t {
SEND_WRITE,//!< RMAP send write
GET_WRITE, //!< RMAP get write
SEND_READ, //!< RMAP send read
GET_READ, //!< RMAP get read
NOTHING //!< Do nothing.
};
/**
* RMAP Action that will be executed.
*
* This is used by the child class to tell the base class what to do.
*/
enum RmapAction_t {
SEND_WRITE,//!< RMAP send write
GET_WRITE, //!< RMAP get write
SEND_READ, //!< RMAP send read
GET_READ, //!< RMAP get read
NOTHING //!< Do nothing.
};
/**
* Default Destructor
*/

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@ -78,9 +78,8 @@ public:
virtual void printList() = 0;
};
/**
* @brief Documentation can be found in the class method declration.
*/
/*Documentation can be found in the class method declaration above.*/
template <typename T>
T* ObjectManagerIF::get( object_id_t id ) {
SystemObjectIF* temp = this->getSystemObject(id);

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@ -1,6 +1,6 @@
#include <framework/serialize/SerialBufferAdapter.h>
#include <cstring>
#include <framework/serviceinterface/ServiceInterfaceStream.h>
#include <cstring>
template<typename T>
SerialBufferAdapter<T>::SerialBufferAdapter(const uint8_t* buffer,

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@ -9,17 +9,16 @@
* buffers with a header containing the buffer length.
* @details
*
* Can be used by SerialLinkedListAdapter by using this type in
* SerializeElement<>.
*
* Buffers with a size header inside that class can be declared with
* SerialFixedArrayListAdapter<BUFFER_TYPE, MAX_BUFFER_LENGTH, LENGTH_FIELD_TYPE>.
* LENGTH_FIELD_TYPE specifies the data type of the buffer header containing the buffer size
* (defaults to 1 byte length field) that follows and MAX_BUFFER_LENGTH specifies
* the maximum allowed value for the buffer size.
*
* Can be used by SerialLinkedListAdapter by declaring
* as a linked element with SerializeElement<SerialFixedArrayListAdapter<...>>.
* The sequence of objects is defined in the constructor by using the setStart and setNext functions.
*
* 1. Buffers with a size header inside that class can be declared with
* SerialFixedArrayListAdapter<BUFFER_TYPE, MAX_BUFFER_LENGTH, LENGTH_FIELD_TYPE>.
* 2. MAX_BUFFER_LENGTH specifies the maximum allowed value for the buffer size.
* 3. LENGTH_FIELD_TYPE specifies the data type of the buffer header containing the buffer size
* (defaults to 1 byte length field) that follows
*
* @ingroup serialize
*/
template<typename BUFFER_TYPE, uint32_t MAX_SIZE, typename count_t = uint8_t>

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@ -19,7 +19,7 @@
* @details
* An alternative to the AutoSerializeAdapter functions
* - All object members with a datatype are declared as SerializeElement<element_type>
* inside the class implementing this adapter.
* members inside the class implementing this adapter.
* - The element type can also be a SerialBufferAdapter to de-/serialize buffers,
* with a known size, where the size can also be serialized
* - The element type can also be a SerialFixedArrayListAdapter to de-/serialize buffers
@ -29,14 +29,13 @@
* the setStart and setNext functions.
*
* - The serialization process is done by instantiating the class and
* calling the serialize after all SerializeElement entries have been set by
* using a constructor or setter functions. An additional size variable can be supplied
* calling serializ after all SerializeElement entries have been set by
* using the constructor or setter functions. An additional size variable can be supplied
* which is calculated/incremented automatically
* - The deserialization process is done by instantiating the class and supplying
* a buffer with the data which is converted into an object. The size of
* data to serialize can be supplied and is decremented in the function
*
*
* @ingroup serialize
*/
template<typename T, typename count_t = uint8_t>