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Merge branch 'mueller/FixedTimeslotUpdate' of https://egit.irs.uni-stuttgart.de/KSat/fsfw into mueller/FixedTimeslotUpdate

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This commit is contained in:
Robin Müller 2020-09-29 14:30:05 +02:00
commit c01d904552
21 changed files with 655 additions and 365 deletions
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1
action/ActionHelper.cpp
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@ -1,5 +1,6 @@
#include "ActionHelper.h"
#include "HasActionsIF.h"
#include "../ipc/MessageQueueSenderIF.h"
#include "../objectmanager/ObjectManagerIF.h"
ActionHelper::ActionHelper(HasActionsIF* setOwner, MessageQueueIF* useThisQueue) :

2
datalinklayer/MapPacketExtraction.cpp
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@ -18,7 +18,7 @@ MapPacketExtraction::MapPacketExtraction(uint8_t setMapId,
object_id_t setPacketDestination) :
lastSegmentationFlag(NO_SEGMENTATION), mapId(setMapId), packetLength(0), bufferPosition(
packetBuffer), packetDestination(setPacketDestination), packetStore(
NULL), tcQueueId(MessageQueueSenderIF::NO_QUEUE) {
NULL), tcQueueId(MessageQueueIF::NO_QUEUE) {
memset(packetBuffer, 0, sizeof(packetBuffer));
}

2
devicehandlers/HealthDevice.cpp
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@ -5,7 +5,7 @@ HealthDevice::HealthDevice(object_id_t setObjectId,
MessageQueueId_t parentQueue) :
SystemObject(setObjectId), lastHealth(HEALTHY), parentQueue(
parentQueue), commandQueue(), healthHelper(this, setObjectId) {
commandQueue = QueueFactory::instance()->createMessageQueue(3, CommandMessage::COMMAND_MESSAGE_SIZE);
commandQueue = QueueFactory::instance()->createMessageQueue(3);
}
HealthDevice::~HealthDevice() {

146
ipc/CommandMessage.cpp
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@ -1,124 +1,96 @@
/**
* @file CommandMessage.cpp
* @brief This file defines the CommandMessage class.
* @date 20.06.2013
* @author baetz
*/
#include "../devicehandlers/DeviceHandlerMessage.h"
#include "../health/HealthMessage.h"
#include "CommandMessage.h"
#include "../memory/MemoryMessage.h"
#include "../modes/ModeMessage.h"
#include "../monitoring/MonitoringMessage.h"
#include "../subsystem/modes/ModeSequenceMessage.h"
#include "../tmstorage/TmStoreMessage.h"
#include "../parameters/ParameterMessage.h"
namespace messagetypes {
void clearMissionMessage(CommandMessage* message);
}
#include "CommandMessageCleaner.h"
#include <cstring>
CommandMessage::CommandMessage() {
this->messageSize = COMMAND_MESSAGE_SIZE;
setCommand(CMD_NONE);
MessageQueueMessage::setMessageSize(DEFAULT_COMMAND_MESSAGE_SIZE);
setCommand(CMD_NONE);
}
CommandMessage::CommandMessage(Command_t command, uint32_t parameter1,
uint32_t parameter2) {
this->messageSize = COMMAND_MESSAGE_SIZE;
setCommand(command);
setParameter(parameter1);
setParameter2(parameter2);
uint32_t parameter2) {
MessageQueueMessage::setMessageSize(DEFAULT_COMMAND_MESSAGE_SIZE);
setCommand(command);
setParameter(parameter1);
setParameter2(parameter2);
}
Command_t CommandMessage::getCommand() const {
Command_t command;
memcpy(&command, getData(), sizeof(Command_t));
return command;
Command_t command;
std::memcpy(&command, MessageQueueMessage::getData(), sizeof(Command_t));
return command;
}
void CommandMessage::setCommand(Command_t command) {
memcpy(getData(), &command, sizeof(command));
std::memcpy(MessageQueueMessage::getData(), &command, sizeof(Command_t));
}
uint8_t CommandMessage::getMessageType() const {
// first byte of command ID.
return getCommand() >> 8 & 0xff;
}
uint32_t CommandMessage::getParameter() const {
uint32_t parameter1;
memcpy(&parameter1, getData() + sizeof(Command_t), sizeof(parameter1));
return parameter1;
uint32_t parameter1;
std::memcpy(&parameter1, this->getData(), sizeof(parameter1));
return parameter1;
}
void CommandMessage::setParameter(uint32_t parameter1) {
memcpy(getData() + sizeof(Command_t), &parameter1, sizeof(parameter1));
std::memcpy(this->getData(), &parameter1, sizeof(parameter1));
}
uint32_t CommandMessage::getParameter2() const {
uint32_t parameter2;
memcpy(&parameter2, getData() + sizeof(Command_t) + sizeof(uint32_t),
sizeof(parameter2));
return parameter2;
uint32_t parameter2;
std::memcpy(&parameter2, this->getData() + sizeof(uint32_t),
sizeof(parameter2));
return parameter2;
}
void CommandMessage::setParameter2(uint32_t parameter2) {
memcpy(getData() + sizeof(Command_t) + sizeof(uint32_t), &parameter2,
sizeof(parameter2));
std::memcpy(this->getData() + sizeof(uint32_t), &parameter2,
sizeof(parameter2));
}
void CommandMessage::clearCommandMessage() {
switch((getCommand()>>8) & 0xff){
case messagetypes::MODE_COMMAND:
ModeMessage::clear(this);
break;
case messagetypes::HEALTH_COMMAND:
HealthMessage::clear(this);
break;
case messagetypes::MODE_SEQUENCE:
ModeSequenceMessage::clear(this);
break;
case messagetypes::ACTION:
ActionMessage::clear(this);
break;
case messagetypes::DEVICE_HANDLER_COMMAND:
DeviceHandlerMessage::clear(this);
break;
case messagetypes::MEMORY:
MemoryMessage::clear(this);
break;
case messagetypes::MONITORING:
MonitoringMessage::clear(this);
break;
case messagetypes::TM_STORE:
TmStoreMessage::clear(this);
break;
case messagetypes::PARAMETER:
ParameterMessage::clear(this);
break;
default:
messagetypes::clearMissionMessage(this);
break;
}
uint32_t CommandMessage::getParameter3() const {
uint32_t parameter3;
std::memcpy(&parameter3, this->getData() + 2 * sizeof(uint32_t),
sizeof(parameter3));
return parameter3;
}
bool CommandMessage::isClearedCommandMessage() {
return getCommand() == CMD_NONE;
void CommandMessage::setParameter3(uint32_t parameter3) {
std::memcpy(this->getData() + 2 * sizeof(uint32_t), &parameter3,
sizeof(parameter3));
}
size_t CommandMessage::getMinimumMessageSize() const {
return COMMAND_MESSAGE_SIZE;
return MINIMUM_COMMAND_MESSAGE_SIZE;
}
void CommandMessage::clearCommandMessage() {
clear();
}
void CommandMessage::clear() {
CommandMessageCleaner::clearCommandMessage(this);
}
bool CommandMessage::isClearedCommandMessage() {
return getCommand() == CMD_NONE;
}
void CommandMessage::setToUnknownCommand() {
Command_t initialCommand = getCommand();
clearCommandMessage();
setReplyRejected(UNKNOWN_COMMAND, initialCommand);
Command_t initialCommand = getCommand();
this->clear();
setReplyRejected(UNKNOWN_COMMAND, initialCommand);
}
void CommandMessage::setReplyRejected(ReturnValue_t reason,
Command_t initialCommand) {
Command_t initialCommand) {
setCommand(REPLY_REJECTED);
setParameter(reason);
setParameter2(initialCommand);
setParameter(reason);
setParameter2(initialCommand);
}
ReturnValue_t CommandMessage::getReplyRejectedReason(
@ -129,3 +101,11 @@ ReturnValue_t CommandMessage::getReplyRejectedReason(
}
return reason;
}
uint8_t* CommandMessage::getData() {
return MessageQueueMessage::getData() + sizeof(Command_t);
}
const uint8_t* CommandMessage::getData() const {
return MessageQueueMessage::getData() + sizeof(Command_t);
}

170
ipc/CommandMessage.h
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@ -1,114 +1,87 @@
/**
* @file CommandMessage.h
* @brief This file defines the CommandMessage class.
* @date 20.06.2013
* @author baetz
*/
#ifndef COMMANDMESSAGE_H_
#define COMMANDMESSAGE_H_
#include "FwMessageTypes.h"
#include <config/ipc/MissionMessageTypes.h>
#ifndef FSFW_IPC_COMMANDMESSAGE_H_
#define FSFW_IPC_COMMANDMESSAGE_H_
#include "CommandMessageIF.h"
#include "MessageQueueMessage.h"
#include "FwMessageTypes.h"
#define MAKE_COMMAND_ID( number ) ((MESSAGE_ID << 8) + (number))
typedef ReturnValue_t Command_t;
class CommandMessage : public MessageQueueMessage {
/**
* @brief Default command message used to pass command messages between tasks.
* Primary message type for IPC. Contains sender, 2-byte command ID
* field, and 3 4-byte parameter
* @details
* It operates on an external memory which is contained inside a
* class implementing MessageQueueMessageIF by taking its address.
* This allows for a more flexible designs of message implementations.
* The pointer can be passed to different message implementations without
* the need of unnecessary copying.
*
* The command message is based of the generic MessageQueueMessage which
* currently has an internal message size of 28 bytes.
* @author Bastian Baetz
*/
class CommandMessage: public MessageQueueMessage, public CommandMessageIF {
public:
static const uint8_t INTERFACE_ID = CLASS_ID::COMMAND_MESSAGE;
static const ReturnValue_t UNKNOWN_COMMAND = MAKE_RETURN_CODE(0x01);
static const uint8_t MESSAGE_ID = messagetypes::COMMAND;
static const Command_t CMD_NONE = MAKE_COMMAND_ID( 0 );//!< Used internally, will be ignored
static const Command_t REPLY_COMMAND_OK = MAKE_COMMAND_ID( 3 );
static const Command_t REPLY_REJECTED = MAKE_COMMAND_ID( 0xD1 );//!< Reply indicating that the current command was rejected, par1 should contain the error code
/**
* Default size can accomodate 3 4-byte parameters.
*/
static constexpr size_t DEFAULT_COMMAND_MESSAGE_SIZE =
CommandMessageIF::MINIMUM_COMMAND_MESSAGE_SIZE +
3 * sizeof(uint32_t);
/**
* This is the size of a message as it is seen by the MessageQueue
*/
static const size_t COMMAND_MESSAGE_SIZE = HEADER_SIZE
+ sizeof(Command_t) + 2 * sizeof(uint32_t);
/**
* Default Constructor, does not initialize anything.
*
* This constructor should be used when receiving a Message, as the content is filled by the MessageQueue.
* @brief Default Constructor, does not initialize anything.
* @details
* This constructor should be used when receiving a Message, as the
* content is filled by the MessageQueue.
*/
CommandMessage();
/**
* This constructor creates a new message with all message content initialized
* This constructor creates a new message with all message content
* initialized
*
* @param command The DeviceHandlerCommand_t that will be sent
* @param parameter1 The first parameter
* @param parameter2 The second parameter
*/
CommandMessage(Command_t command,
uint32_t parameter1, uint32_t parameter2);
CommandMessage(Command_t command, uint32_t parameter1, uint32_t parameter2);
/**
* Default Destructor
* @brief Default Destructor
*/
virtual ~CommandMessage() {
}
virtual ~CommandMessage() {}
/**
* Read the DeviceHandlerCommand_t that is stored in the message, usually used after receiving
*
* @return the Command stored in the Message
*/
Command_t getCommand() const;
/**
* Read the DeviceHandlerCommand_t that is stored in the message,
* usually used after receiving.
*
* @return the Command stored in the Message
*/
virtual Command_t getCommand() const override;
/**
* Set the command type of the message. Default implementation also
* sets the message type, which will be the first byte of the command ID.
* @param the Command to be sent
*/
virtual void setCommand(Command_t command);
/**
* Set the DeviceHandlerCOmmand_t of the message
*
* @param the Command to be sent
*/
void setCommand(Command_t command);
virtual uint8_t* getData() override;
virtual const uint8_t* getData() const override;
/**
* Get the first parameter of the message
*
* @return the first Parameter of the message
*/
uint32_t getParameter() const;
/**
* Set the first parameter of the message
*
* @param the first parameter of the message
*/
void setParameter(uint32_t parameter1);
/**
* Get the second parameter of the message
*
* @return the second Parameter of the message
*/
uint32_t getParameter2() const;
/**
* Set the second parameter of the message
*
* @param the second parameter of the message
*/
void setParameter2(uint32_t parameter2);
/**
* Set the command to CMD_NONE and try to find
* the correct class to handle a more detailed
* clear.
* Also, calls a mission-specific clearMissionMessage
* function to separate between framework and mission
* messages. Not optimal, may be replaced by totally
* different auto-delete solution (e.g. smart pointers).
*
*/
void clearCommandMessage();
uint32_t getParameter3() const;
void setParameter3(uint32_t parameter3);
/**
* check if a message was cleared
@ -117,18 +90,41 @@ public:
*/
bool isClearedCommandMessage();
/**
* Sets the command to REPLY_REJECTED with parameter UNKNOWN_COMMAND.
* Is needed quite often, so we better code it once only.
*/
void setToUnknownCommand();
void setReplyRejected(ReturnValue_t reason, Command_t initialCommand = CMD_NONE);
ReturnValue_t getReplyRejectedReason(
Command_t *initialCommand = nullptr) const;
void setToUnknownCommand() override;
size_t getMinimumMessageSize() const;
/**
* A command message can be rejected and needs to offer a function
* to set a rejected reply
* @param reason
* @param initialCommand
*/
void setReplyRejected(ReturnValue_t reason,
Command_t initialCommand) override;
/**
* Corrensonding getter function.
* @param initialCommand
* @return
*/
ReturnValue_t getReplyRejectedReason(
Command_t* initialCommand = nullptr) const override;
virtual void clear() override;
void clearCommandMessage();
/**
* Extract message ID, which is the first byte of the command ID for the
* default implementation.
* @return
*/
virtual uint8_t getMessageType() const override;
/** MessageQueueMessageIF functions used for minimum size check. */
size_t getMinimumMessageSize() const override;
};
#endif /* COMMANDMESSAGE_H_ */
#endif /* FSFW_IPC_COMMANDMESSAGE_H_ */

45
ipc/CommandMessageCleaner.cpp Normal file
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@ -0,0 +1,45 @@
#include "../ipc/CommandMessageCleaner.h"
#include "../devicehandlers/DeviceHandlerMessage.h"
#include "../health/HealthMessage.h"
#include "../memory/MemoryMessage.h"
#include "../modes/ModeMessage.h"
#include "../monitoring/MonitoringMessage.h"
#include "../subsystem/modes/ModeSequenceMessage.h"
#include "../tmstorage/TmStoreMessage.h"
#include "../parameters/ParameterMessage.h"
void CommandMessageCleaner::clearCommandMessage(CommandMessage* message) {
switch(message->getMessageType()){
case messagetypes::MODE_COMMAND:
ModeMessage::clear(message);
break;
case messagetypes::HEALTH_COMMAND:
HealthMessage::clear(message);
break;
case messagetypes::MODE_SEQUENCE:
ModeSequenceMessage::clear(message);
break;
case messagetypes::ACTION:
ActionMessage::clear(message);
break;
case messagetypes::DEVICE_HANDLER_COMMAND:
DeviceHandlerMessage::clear(message);
break;
case messagetypes::MEMORY:
MemoryMessage::clear(message);
break;
case messagetypes::MONITORING:
MonitoringMessage::clear(message);
break;
case messagetypes::TM_STORE:
TmStoreMessage::clear(message);
break;
case messagetypes::PARAMETER:
ParameterMessage::clear(message);
break;
default:
messagetypes::clearMissionMessage(message);
break;
}
}

16
ipc/CommandMessageCleaner.h Normal file
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@ -0,0 +1,16 @@
#ifndef FRAMEWORK_IPC_COMMANDMESSAGECLEANER_H_
#define FRAMEWORK_IPC_COMMANDMESSAGECLEANER_H_
#include "../ipc/CommandMessage.h"
namespace messagetypes {
// Implemented in config.
void clearMissionMessage(CommandMessage* message);
}
class CommandMessageCleaner {
public:
static void clearCommandMessage(CommandMessage* message);
};
#endif /* FRAMEWORK_IPC_COMMANDMESSAGECLEANER_H_ */

73
ipc/CommandMessageIF.h Normal file
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@ -0,0 +1,73 @@
#ifndef FSFW_IPC_COMMANDMESSAGEIF_H_
#define FSFW_IPC_COMMANDMESSAGEIF_H_
#include "MessageQueueMessageIF.h"
#include "FwMessageTypes.h"
#include "../returnvalues/HasReturnvaluesIF.h"
#define MAKE_COMMAND_ID( number ) ((MESSAGE_ID << 8) + (number))
typedef uint16_t Command_t;
class CommandMessageIF {
public:
/**
* Header consists of sender ID and command ID.
*/
static constexpr size_t HEADER_SIZE = MessageQueueMessageIF::HEADER_SIZE +
sizeof(Command_t);
/**
* This minimum size is derived from the interface requirement to be able
* to set a rejected reply, which contains a returnvalue and the initial
* command.
*/
static constexpr size_t MINIMUM_COMMAND_MESSAGE_SIZE =
CommandMessageIF::HEADER_SIZE + sizeof(ReturnValue_t) +
sizeof(Command_t);
static const uint8_t INTERFACE_ID = CLASS_ID::COMMAND_MESSAGE;
static const ReturnValue_t UNKNOWN_COMMAND = MAKE_RETURN_CODE(0x01);
static const uint8_t MESSAGE_ID = messagetypes::COMMAND;
//! Used internally, shall be ignored
static const Command_t CMD_NONE = MAKE_COMMAND_ID( 0 );
static const Command_t REPLY_COMMAND_OK = MAKE_COMMAND_ID( 1 );
//! Reply indicating that the current command was rejected,
//! par1 should contain the error code
static const Command_t REPLY_REJECTED = MAKE_COMMAND_ID( 2 );
virtual ~CommandMessageIF() {};
/**
* A command message shall have a uint16_t command ID field.
* @return
*/
virtual Command_t getCommand() const = 0;
/**
* A command message shall have a uint8_t message type ID field.
* @return
*/
virtual uint8_t getMessageType() const = 0;
/**
* A command message can be rejected and needs to offer a function
* to set a rejected reply
* @param reason
* @param initialCommand
*/
virtual void setReplyRejected(ReturnValue_t reason,
Command_t initialCommand) = 0;
/**
* Corrensonding getter function.
* @param initialCommand
* @return
*/
virtual ReturnValue_t getReplyRejectedReason(
Command_t* initialCommand = nullptr) const = 0;
virtual void setToUnknownCommand() = 0;
virtual void clear() = 0;
};
#endif /* FSFW_IPC_COMMANDMESSAGEIF_H_ */

10
ipc/MessageQueueIF.h
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@ -1,15 +1,15 @@
#ifndef FRAMEWORK_IPC_MESSAGEQUEUEIF_H_
#define FRAMEWORK_IPC_MESSAGEQUEUEIF_H_
#ifndef FSFW_IPC_MESSAGEQUEUEIF_H_
#define FSFW_IPC_MESSAGEQUEUEIF_H_
// COULDDO: We could support blocking calls
#include "messageQueueDefinitions.h"
#include "MessageQueueMessage.h"
#include "MessageQueueSenderIF.h"
#include "../returnvalues/HasReturnvaluesIF.h"
class MessageQueueIF {
public:
static const MessageQueueId_t NO_QUEUE = MessageQueueSenderIF::NO_QUEUE; //!< Ugly hack.
static const MessageQueueId_t NO_QUEUE = 0;
static const uint8_t INTERFACE_ID = CLASS_ID::MESSAGE_QUEUE_IF;
/**

63
ipc/MessageQueueMessage.cpp
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@ -1,13 +1,27 @@
#include "MessageQueueMessage.h"
#include "../serviceinterface/ServiceInterfaceStream.h"
#include <string.h>
#include "../globalfunctions/arrayprinter.h"
#include <cstring>
MessageQueueMessage::MessageQueueMessage() :
messageSize(this->HEADER_SIZE) {
messageSize(getMinimumMessageSize()) {
memset(this->internalBuffer, 0, sizeof(this->internalBuffer));
}
MessageQueueMessage::MessageQueueMessage(uint8_t* data, size_t size) :
messageSize(this->HEADER_SIZE + size) {
if (size <= this->MAX_DATA_SIZE) {
memcpy(this->getData(), data, size);
this->messageSize = this->HEADER_SIZE + size;
}
else {
sif::warning << "MessageQueueMessage: Passed size larger than maximum"
"allowed size! Setting content to 0" << std::endl;
memset(this->internalBuffer, 0, sizeof(this->internalBuffer));
this->messageSize = this->HEADER_SIZE;
}
}
MessageQueueMessage::~MessageQueueMessage() {
}
@ -37,29 +51,34 @@ void MessageQueueMessage::setSender(MessageQueueId_t setId) {
memcpy(this->internalBuffer, &setId, sizeof(MessageQueueId_t));
}
MessageQueueMessage::MessageQueueMessage(uint8_t* data, uint32_t size) :
messageSize(this->HEADER_SIZE + size) {
if (size <= this->MAX_DATA_SIZE) {
memcpy(this->getData(), data, size);
} else {
memset(this->internalBuffer, 0, sizeof(this->internalBuffer));
this->messageSize = this->HEADER_SIZE;
void MessageQueueMessage::print(bool printWholeMessage) {
sif::debug << "MessageQueueMessage content: " << std::endl;
if(printWholeMessage) {
arrayprinter::print(getData(), getMaximumMessageSize());
}
}
size_t MessageQueueMessage::getMinimumMessageSize() {
return this->HEADER_SIZE;
}
void MessageQueueMessage::print() {
sif::debug << "MessageQueueMessage has size: " << this->messageSize << std::hex
<< std::endl;
for (uint8_t count = 0; count < this->messageSize; count++) {
sif::debug << (uint32_t) this->internalBuffer[count] << ":";
else {
arrayprinter::print(getData(), getMessageSize());
}
sif::debug << std::dec << std::endl;
}
void MessageQueueMessage::clear() {
memset(this->getBuffer(), 0, this->MAX_MESSAGE_SIZE);
}
size_t MessageQueueMessage::getMessageSize() const {
return this->messageSize;
}
void MessageQueueMessage::setMessageSize(size_t messageSize) {
this->messageSize = messageSize;
}
size_t MessageQueueMessage::getMinimumMessageSize() const {
return this->MIN_MESSAGE_SIZE;
}
size_t MessageQueueMessage::getMaximumMessageSize() const {
return this->MAX_MESSAGE_SIZE;
}

195
ipc/MessageQueueMessage.h
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@ -1,118 +1,149 @@
#ifndef MESSAGEQUEUEMESSAGE_H_
#define MESSAGEQUEUEMESSAGE_H_
#ifndef FSFW_IPC_MESSAGEQUEUEMESSAGE_H_
#define FSFW_IPC_MESSAGEQUEUEMESSAGE_H_
#include "MessageQueueSenderIF.h"
#include <stddef.h>
#include "../ipc/MessageQueueMessageIF.h"
#include <cstddef>
/**
* \brief This class is the representation and data organizer for interprocess messages.
* @brief This class is the representation and data organizer
* for interprocess messages.
* @details
* To facilitate and standardize interprocess communication, this class was
* created to handle a lightweight "interprocess message protocol".
*
* \details To facilitate and standardize interprocess communication, this class was created
* to handle a lightweight "interprocess message protocol". It adds a header with the
* sender's queue id to every sent message and defines the maximum total message size.
* Specialized messages, such as device commanding messages, can be created by inheriting
* from this class and filling the buffer provided by getData with additional content.
* If larger amounts of data must be sent between processes, the data shall be stored in
* the IPC Store object and only the storage id is passed in a queue message.
* The class is used both to generate and send messages and to receive messages from
* other tasks.
* \ingroup message_queue
* It adds a header with the sender's queue id to every sent message and
* defines the maximum total message size. Specialized messages, such as
* device commanding messages, can be created by inheriting from this class
* and filling the buffer provided by getData with additional content.
*
* If larger amounts of data must be sent between processes, the data shall
* be stored in the IPC Store object and only the storage id is passed in a
* queue message.The class is used both to generate and send messages and to
* receive messages from other tasks.
* @ingroup message_queue
*/
class MessageQueueMessage {
class MessageQueueMessage: public MessageQueueMessageIF {
public:
/**
* \brief This constant defines the maximum size of the data content, excluding the header.
* \details It may be changed if necessary, but in general should be kept as small as possible.
* @brief The class is initialized empty with this constructor.
* @details
* The messageSize attribute is set to the header's size and the whole
* content is set to zero.
*/
MessageQueueMessage();
/**
* @brief With this constructor the class is initialized with
* the given content.
* @details
* If the passed message size fits into the buffer, the passed data is
* copied to the internal buffer and the messageSize information is set.
* Otherwise, messageSize is set to the header's size and the whole
* content is set to zero.
* @param data The data to be put in the message.
* @param size Size of the data to be copied. Must be smaller than
* MAX_MESSAGE_SIZE and larger than MIN_MESSAGE_SIZE.
*/
MessageQueueMessage(uint8_t* data, size_t size);
/**
* @brief As no memory is allocated in this class,
* the destructor is empty.
*/
virtual ~MessageQueueMessage();
/**
* @brief The size information of each message is stored in
* this attribute.
* @details
* It is public to simplify usage and to allow for passing the size
* address as a pointer. Care must be taken when inheriting from this class,
* as every child class is responsible for managing the size information by
* itself. When using the class to receive a message, the size information
* is updated automatically.
*
* Please note that the minimum size is limited by the size of the header
* while the maximum size is limited by the maximum allowed message size.
*/
size_t messageSize;
/**
* @brief This constant defines the maximum size of the data content,
* excluding the header.
* @details
* It may be changed if necessary, but in general should be kept
* as small as possible.
*/
static const size_t MAX_DATA_SIZE = 24;
/**
* \brief This constants defines the size of the header, which is added to every message.
* @brief This constant defines the maximum total size in bytes
* of a sent message.
* @details
* It is the sum of the maximum data and the header size. Be aware that
* this constant is used to define the buffer sizes for every message
* queue in the system. So, a change here may have significant impact on
* the required resources.
*/
static const size_t HEADER_SIZE = sizeof(MessageQueueId_t);
static constexpr size_t MAX_MESSAGE_SIZE = MAX_DATA_SIZE + HEADER_SIZE;
/**
* \brief This constant defines the maximum total size in bytes of a sent message.
* \details It is the sum of the maximum data and the header size. Be aware that this constant
* is used to define the buffer sizes for every message queue in the system. So, a change
* here may have significant impact on the required resources.
* @brief Defines the minimum size of a message where only the
* header is included
*/
static const size_t MAX_MESSAGE_SIZE = MAX_DATA_SIZE + HEADER_SIZE;
static constexpr size_t MIN_MESSAGE_SIZE = HEADER_SIZE;
private:
/**
* \brief This is the internal buffer that contains the actual message data.
* @brief This is the internal buffer that contains the
* actual message data.
*/
uint8_t internalBuffer[MAX_MESSAGE_SIZE];
public:
/**
* \brief The size information of each message is stored in this attribute.
* \details It is public to simplify usage and to allow for passing the variable's address as a
* pointer. Care must be taken when inheriting from this class, as every child class is
* responsible for managing the size information by itself. When using the class to
* receive a message, the size information is updated automatically.
* @brief This method is used to get the complete data of the message.
*/
size_t messageSize;
const uint8_t* getBuffer() const override;
/**
* \brief The class is initialized empty with this constructor.
* \details The messageSize attribute is set to the header's size and the whole content is set to
* zero.
* @brief This method is used to get the complete data of the message.
*/
MessageQueueMessage();
uint8_t* getBuffer() override;
/**
* \brief With this constructor the class is initialized with the given content.
* \details If the passed message size fits into the buffer, the passed data is copied to the
* internal buffer and the messageSize information is set. Otherwise, messageSize
* is set to the header's size and the whole content is set to zero.
* \param data The data to be put in the message.
* \param size Size of the data to be copied. Must be smaller than MAX_MESSAGE_SIZE.
* @brief This method is used to fetch the data content of the message.
* @details
* It shall be used by child classes to add data at the right position.
*/
MessageQueueMessage(uint8_t* data, uint32_t size);
const uint8_t* getData() const override;
/**
* \brief As no memory is allocated in this class, the destructor is empty.
* @brief This method is used to fetch the data content of the message.
* @details
* It shall be used by child classes to add data at the right position.
*/
virtual ~MessageQueueMessage();
uint8_t* getData() override;
/**
* \brief This method is used to get the complete data of the message.
* @brief This method is used to extract the sender's message
* queue id information from a received message.
*/
const uint8_t* getBuffer() const;
MessageQueueId_t getSender() const override;
/**
* \brief This method is used to get the complete data of the message.
* @brief With this method, the whole content
* and the message size is set to zero.
*/
uint8_t* getBuffer();
void clear() override;
/**
* \brief This method is used to fetch the data content of the message.
* \details It shall be used by child classes to add data at the right position.
* @brief This method is used to set the sender's message queue id
* information prior to ing the message.
* @param setId
* The message queue id that identifies the sending message queue.
*/
const uint8_t* getData() const;
void setSender(MessageQueueId_t setId) override;
virtual size_t getMessageSize() const override;
virtual void setMessageSize(size_t messageSize) override;
virtual size_t getMinimumMessageSize() const override;
virtual size_t getMaximumMessageSize() const override;
/**
* \brief This method is used to fetch the data content of the message.
* \details It shall be used by child classes to add data at the right position.
* @brief This is a debug method that prints the content.
*/
uint8_t* getData();
/**
* \brief This method is used to extract the sender's message queue id information from a
* received message.
*/
MessageQueueId_t getSender() const;
/**
* \brief With this method, the whole content and the message size is set to zero.
*/
void clear();
/**
* \brief This is a debug method that prints the content (till messageSize) to the debug output.
*/
void print();
/**
* \brief This method is used to set the sender's message queue id information prior to
* sending the message.
* \param setId The message queue id that identifies the sending message queue.
*/
void setSender(MessageQueueId_t setId);
/**
* \brief This helper function is used by the MessageQueue class to check the size of an
* incoming message.
* \details The method must be overwritten by child classes if size checks shall be more strict.
* @return The default implementation returns HEADER_SIZE.
*/
virtual size_t getMinimumMessageSize();
void print(bool printWholeMessage);
};
#endif /* MESSAGEQUEUEMESSAGE_H_ */
#endif /* FSFW_IPC_MESSAGEQUEUEMESSAGE_H_ */

80
ipc/MessageQueueMessageIF.h Normal file
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@ -0,0 +1,80 @@
#ifndef FRAMEWORK_IPC_MESSAGEQUEUEMESSAGEIF_H_
#define FRAMEWORK_IPC_MESSAGEQUEUEMESSAGEIF_H_
#include <fsfw/ipc/messageQueueDefinitions.h>
#include <cstddef>
#include <cstdint>
class MessageQueueMessageIF {
public:
/**
* @brief This constants defines the size of the header,
* which is added to every message.
*/
static const size_t HEADER_SIZE = sizeof(MessageQueueId_t);
virtual ~MessageQueueMessageIF() {};
/**
* @brief With this method, the whole content and the message
* size is set to zero.
* @details
* Implementations should also take care to clear data which is stored
* indirectly (e.g. storage data).
*/
virtual void clear() = 0;
/**
* @brief Get read-only pointer to the complete data of the message.
* @return
*/
virtual const uint8_t* getBuffer() const = 0;
/**
* @brief This method is used to get the complete data of the message.
*/
virtual uint8_t* getBuffer() = 0;
/**
* @brief This method is used to set the sender's message queue id
* information prior to sending the message.
* @param setId
* The message queue id that identifies the sending message queue.
*/
virtual void setSender(MessageQueueId_t setId) = 0;
/**
* @brief This method is used to extract the sender's message queue id
* information from a received message.
*/
virtual MessageQueueId_t getSender() const = 0;
/**
* @brief This method is used to fetch the data content of the message.
* @details
* It shall be used by child classes to add data at the right position.
*/
virtual const uint8_t* getData() const = 0;
/**
* @brief This method is used to fetch the data content of the message.
* @details
* It shall be used by child classes to add data at the right position.
*/
virtual uint8_t* getData() = 0;
/**
* Get constant message size of current message implementation.
* @return
*/
virtual size_t getMessageSize() const = 0;
virtual void setMessageSize(size_t messageSize) = 0;
virtual size_t getMinimumMessageSize() const = 0;
virtual size_t getMaximumMessageSize() const = 0;
};
#endif /* FRAMEWORK_IPC_MESSAGEQUEUEMESSAGEIF_H_ */

29
ipc/MessageQueueSenderIF.h
View File

@ -1,37 +1,26 @@
#ifndef FRAMEWORK_IPC_MESSAGEQUEUESENDERIF_H_
#define FRAMEWORK_IPC_MESSAGEQUEUESENDERIF_H_
#ifndef FSFW_IPC_MESSAGEQUEUESENDERIF_H_
#define FSFW_IPC_MESSAGEQUEUESENDERIF_H_
#include "../ipc/MessageQueueIF.h"
#include "../ipc/MessageQueueMessageIF.h"
#include "../objectmanager/ObjectManagerIF.h"
class MessageQueueMessage;
//TODO: Actually, the definition of this ID to be a uint32_t is not ideal and breaks layering.
//However, it is difficult to keep layering, as the ID is stored in many places and sent around in
//MessageQueueMessage.
//Ideally, one would use the (current) object_id_t only, however, doing a lookup of queueIDs for every
//call does not sound ideal.
//In a first step, I'll circumvent the issue by not touching it, maybe in a second step.
//This also influences Interface design (getCommandQueue) and some other issues..
typedef uint32_t MessageQueueId_t;
class MessageQueueSenderIF {
public:
static const MessageQueueId_t NO_QUEUE = 0;
virtual ~MessageQueueSenderIF() {}
/**
* Allows sending messages without actually "owing" a message queue.
* Allows sending messages without actually "owning" a message queue.
* Not sure whether this is actually a good idea.
* Must be implemented by a subclass.
*/
static ReturnValue_t sendMessage(MessageQueueId_t sendTo,
MessageQueueMessage* message, MessageQueueId_t sentFrom =
MessageQueueSenderIF::NO_QUEUE, bool ignoreFault=false);
MessageQueueMessage* message,
MessageQueueId_t sentFrom = MessageQueueIF::NO_QUEUE,
bool ignoreFault = false);
private:
MessageQueueSenderIF() {}
};
#endif /* FRAMEWORK_IPC_MESSAGEQUEUESENDERIF_H_ */
#endif /* FSFW_IPC_MESSAGEQUEUESENDERIF_H_ */

19
ipc/messageQueueDefinitions.h Normal file
View File

@ -0,0 +1,19 @@
#ifndef FSFW_IPC_MESSAGEQUEUEDEFINITIONS_H_
#define FSFW_IPC_MESSAGEQUEUEDEFINITIONS_H_
#include <cstdint>
/*
* TODO: Actually, the definition of this ID to be a uint32_t is not ideal and
* breaks layering. However, it is difficult to keep layering, as the ID is
* stored in many places and sent around in MessageQueueMessage.
* Ideally, one would use the (current) object_id_t only, however, doing a
* lookup of queueIDs for every call does not sound ideal.
* In a first step, I'll circumvent the issue by not touching it,
* maybe in a second step. This also influences Interface design
* (getCommandQueue) and some other issues..
*/
using MessageQueueId_t = uint32_t;
#endif /* FSFW_IPC_MESSAGEQUEUEDEFINITIONS_H_ */

8
modes/ModeHelper.cpp
View File

@ -36,7 +36,7 @@ ReturnValue_t ModeHelper::handleModeCommand(CommandMessage* message) {
commandedMode = mode;
commandedSubmode = submode;
if ((parentQueueId != MessageQueueSenderIF::NO_QUEUE)
if ((parentQueueId != MessageQueueIF::NO_QUEUE)
&& (theOneWhoCommandedAMode != parentQueueId)) {
owner->setToExternalControl();
}
@ -74,7 +74,7 @@ ReturnValue_t ModeHelper::initialize(MessageQueueId_t parentQueueId) {
void ModeHelper::modeChanged(Mode_t mode, Submode_t submode) {
forced = false;
CommandMessage reply;
if (theOneWhoCommandedAMode != MessageQueueSenderIF::NO_QUEUE) {
if (theOneWhoCommandedAMode != MessageQueueIF::NO_QUEUE) {
if ((mode != commandedMode) || (submode != commandedSubmode)) {
ModeMessage::setModeMessage(&reply,
ModeMessage::REPLY_WRONG_MODE_REPLY, mode, submode);
@ -86,12 +86,12 @@ void ModeHelper::modeChanged(Mode_t mode, Submode_t submode) {
owner->getCommandQueue());
}
if (theOneWhoCommandedAMode != parentQueueId
&& parentQueueId != MessageQueueSenderIF::NO_QUEUE) {
&& parentQueueId != MessageQueueIF::NO_QUEUE) {
ModeMessage::setModeMessage(&reply, ModeMessage::REPLY_MODE_INFO, mode,
submode);
MessageQueueSenderIF::sendMessage(parentQueueId, &reply, owner->getCommandQueue());
}
theOneWhoCommandedAMode = MessageQueueSenderIF::NO_QUEUE;
theOneWhoCommandedAMode = MessageQueueIF::NO_QUEUE;
}
void ModeHelper::startTimer(uint32_t timeoutMs) {

14
objectmanager/frameworkObjects.h
View File

@ -4,13 +4,13 @@
namespace objects {
enum framework_objects {
// Default verification reporter.
PUS_SERVICE_1 = 0x53000001,
PUS_SERVICE_2 = 0x53000002,
PUS_SERVICE_5 = 0x53000005,
PUS_SERVICE_8 = 0x53000008,
PUS_SERVICE_9 = 0x53000009,
PUS_SERVICE_17 = 0x53000017,
PUS_SERVICE_200 = 0x53000200,
PUS_SERVICE_1_VERIFICATION = 0x53000001,
PUS_SERVICE_2_DEVICE_ACCESS = 0x53000002,
PUS_SERVICE_5_EVENT_REPORTING = 0x53000005,
PUS_SERVICE_8_FUNCTION_MGMT = 0x53000008,
PUS_SERVICE_9_TIME_MGMT = 0x53000009,
PUS_SERVICE_17_TEST = 0x53000017,
PUS_SERVICE_200_MODE_MGMT = 0x53000200,
//Generic IDs for IPC, modes, health, events
HEALTH_TABLE = 0x53010000,

4
osal/FreeRTOS/MessageQueue.cpp
View File

@ -1,5 +1,6 @@
#include "MessageQueue.h"
#include "../../objectmanager/ObjectManagerIF.h"
#include "../../serviceinterface/ServiceInterfaceStream.h"
// TODO I guess we should have a way of checking if we are in an ISR and then use the "fromISR" versions of all calls
@ -101,7 +102,8 @@ ReturnValue_t MessageQueue::sendMessageFromMessageQueue(MessageQueueId_t sendTo,
reinterpret_cast<const void*>(message->getBuffer()), 0);
if (result != pdPASS) {
if (!ignoreFault) {
InternalErrorReporterIF* internalErrorReporter = objectManager->get<InternalErrorReporterIF>(
InternalErrorReporterIF* internalErrorReporter =
objectManager->get<InternalErrorReporterIF>(
objects::INTERNAL_ERROR_REPORTER);
if (internalErrorReporter != NULL) {
internalErrorReporter->queueMessageNotSent();

15
osal/FreeRTOS/QueueFactory.cpp
View File

@ -1,18 +1,21 @@
#include "../../ipc/MessageQueueSenderIF.h"
#include "../../ipc/QueueFactory.h"
#include "MessageQueue.h"
QueueFactory* QueueFactory::factoryInstance = NULL;
QueueFactory* QueueFactory::factoryInstance = nullptr;
ReturnValue_t MessageQueueSenderIF::sendMessage(MessageQueueId_t sendTo,
MessageQueueMessage* message, MessageQueueId_t sentFrom,bool ignoreFault) {
return MessageQueue::sendMessageFromMessageQueue(sendTo,message,sentFrom,ignoreFault);
MessageQueueMessage* message, MessageQueueId_t sentFrom,
bool ignoreFault) {
return MessageQueue::sendMessageFromMessageQueue(sendTo,message,
sentFrom,ignoreFault);
}
QueueFactory* QueueFactory::instance() {
if (factoryInstance == NULL) {
if (factoryInstance == nullptr) {
factoryInstance = new QueueFactory;
}
return factoryInstance;
@ -24,9 +27,9 @@ QueueFactory::QueueFactory() {
QueueFactory::~QueueFactory() {
}
MessageQueueIF* QueueFactory::createMessageQueue(uint32_t message_depth,
MessageQueueIF* QueueFactory::createMessageQueue(uint32_t messageDepth,
size_t maxMessageSize) {
return new MessageQueue(message_depth, maxMessageSize);
return new MessageQueue(messageDepth, maxMessageSize);
}
void QueueFactory::deleteMessageQueue(MessageQueueIF* queue) {

10
osal/linux/QueueFactory.cpp
View File

@ -1,8 +1,14 @@
#include "../../ipc/QueueFactory.h"
#include "MessageQueue.h"
#include "../../ipc/messageQueueDefinitions.h"
#include "../../ipc/MessageQueueSenderIF.h"
#include "../../serviceinterface/ServiceInterfaceStream.h"
#include <mqueue.h>
#include <errno.h>
#include "MessageQueue.h"
#include "../../serviceinterface/ServiceInterfaceStream.h"
#include <cstring>
QueueFactory* QueueFactory::factoryInstance = nullptr;

77
tmtcservices/VerificationReporter.cpp
View File

@ -1,55 +1,59 @@
#include "../serviceinterface/ServiceInterfaceStream.h"
#include "VerificationReporter.h"
#include "AcceptsVerifyMessageIF.h"
#include "PusVerificationReport.h"
#include "VerificationReporter.h"
object_id_t VerificationReporter::messageReceiver = 0;
#include "../ipc/MessageQueueIF.h"
#include "../serviceinterface/ServiceInterfaceStream.h"
#include "../objectmanager/frameworkObjects.h"
object_id_t VerificationReporter::messageReceiver =
objects::PUS_SERVICE_1_VERIFICATION;
VerificationReporter::VerificationReporter() :
acknowledgeQueue() {
acknowledgeQueue(MessageQueueIF::NO_QUEUE) {
}
VerificationReporter::~VerificationReporter() {
//Default, empty
}
VerificationReporter::~VerificationReporter() {}
void VerificationReporter::sendSuccessReport(uint8_t set_report_id,
TcPacketBase* current_packet, uint8_t set_step) {
if (this->acknowledgeQueue == 0) {
if (acknowledgeQueue == MessageQueueIF::NO_QUEUE) {
this->initialize();
}
PusVerificationMessage message(set_report_id,
current_packet->getAcknowledgeFlags(),
current_packet->getPacketId(),
current_packet->getPacketSequenceControl(), 0, set_step);
ReturnValue_t status = MessageQueueSenderIF::sendMessage(acknowledgeQueue, &message);
ReturnValue_t status = MessageQueueSenderIF::sendMessage(acknowledgeQueue,
&message);
if (status != HasReturnvaluesIF::RETURN_OK) {
sif::error
<< "VerificationReporter::sendSuccessReport: Error writing to queue. Code: "
<< (uint16_t) status << std::endl;
sif::error << "VerificationReporter::sendSuccessReport: Error writing "
<< "to queue. Code: " << std::hex << status << std::dec
<< std::endl;
}
}
void VerificationReporter::sendSuccessReport(uint8_t set_report_id,
uint8_t ackFlags, uint16_t tcPacketId, uint16_t tcSequenceControl,
uint8_t set_step) {
if (this->acknowledgeQueue == 0) {
if (acknowledgeQueue == MessageQueueIF::NO_QUEUE) {
this->initialize();
}
PusVerificationMessage message(set_report_id, ackFlags, tcPacketId,
tcSequenceControl, 0, set_step);
ReturnValue_t status = MessageQueueSenderIF::sendMessage(acknowledgeQueue, &message);
ReturnValue_t status = MessageQueueSenderIF::sendMessage(acknowledgeQueue,
&message);
if (status != HasReturnvaluesIF::RETURN_OK) {
sif::error
<< "VerificationReporter::sendSuccessReport: Error writing to queue. Code: "
<< (uint16_t) status << std::endl;
sif::error << "VerificationReporter::sendSuccessReport: Error writing "
<< "to queue. Code: " << std::hex << status << std::dec
<< std::endl;
}
}
void VerificationReporter::sendFailureReport(uint8_t report_id,
TcPacketBase* current_packet, ReturnValue_t error_code, uint8_t step,
uint32_t parameter1, uint32_t parameter2) {
if (this->acknowledgeQueue == 0) {
if (acknowledgeQueue == MessageQueueIF::NO_QUEUE) {
this->initialize();
}
PusVerificationMessage message(report_id,
@ -57,11 +61,12 @@ void VerificationReporter::sendFailureReport(uint8_t report_id,
current_packet->getPacketId(),
current_packet->getPacketSequenceControl(), error_code, step,
parameter1, parameter2);
ReturnValue_t status = MessageQueueSenderIF::sendMessage(acknowledgeQueue, &message);
ReturnValue_t status = MessageQueueSenderIF::sendMessage(acknowledgeQueue,
&message);
if (status != HasReturnvaluesIF::RETURN_OK) {
sif::error
<< "VerificationReporter::sendFailureReport Error writing to queue. Code: "
<< (uint16_t) status << std::endl;
sif::error << "VerificationReporter::sendFailureReport: Error writing "
<< "to queue. Code: " << std::hex << "0x" << status << std::dec
<< std::endl;
}
}
@ -69,27 +74,33 @@ void VerificationReporter::sendFailureReport(uint8_t report_id,
uint8_t ackFlags, uint16_t tcPacketId, uint16_t tcSequenceControl,
ReturnValue_t error_code, uint8_t step, uint32_t parameter1,
uint32_t parameter2) {
if (this->acknowledgeQueue == 0) {
if (acknowledgeQueue == MessageQueueIF::NO_QUEUE) {
this->initialize();
}
PusVerificationMessage message(report_id, ackFlags, tcPacketId,
tcSequenceControl, error_code, step, parameter1, parameter2);
ReturnValue_t status = MessageQueueSenderIF::sendMessage(acknowledgeQueue, &message);
ReturnValue_t status = MessageQueueSenderIF::sendMessage(acknowledgeQueue,
&message);
if (status != HasReturnvaluesIF::RETURN_OK) {
sif::error
<< "VerificationReporter::sendFailureReport Error writing to queue. Code: "
<< (uint16_t) status << std::endl;
sif::error << "VerificationReporter::sendFailureReport: Error writing "
<< "to queue. Code: " << std::hex << "0x" << status << std::dec
<< std::endl;
}
}
void VerificationReporter::initialize() {
if(messageReceiver == objects::NO_OBJECT) {
sif::warning << "VerificationReporter::initialize: Verification message"
" receiver object ID not set yet in Factory!" << std::endl;
return;
}
AcceptsVerifyMessageIF* temp = objectManager->get<AcceptsVerifyMessageIF>(
messageReceiver);
if (temp != NULL) {
this->acknowledgeQueue = temp->getVerificationQueue();
} else {
sif::error
<< "VerificationReporter::VerificationReporter: Configuration error."
<< std::endl;
if (temp == nullptr) {
sif::error << "VerificationReporter::initialize: Message "
<< "receiver invalid. Make sure it is set up properly and "
<< "implementsAcceptsVerifyMessageIF" << std::endl;
return;
}
this->acknowledgeQueue = temp->getVerificationQueue();
}

41
tmtcservices/VerificationReporter.h
View File

@ -1,31 +1,50 @@
#ifndef VERIFICATIONREPORTER_H_
#define VERIFICATIONREPORTER_H_
#ifndef FSFW_TMTCSERVICES_VERIFICATIONREPORTER_H_
#define FSFW_TMTCSERVICES_VERIFICATIONREPORTER_H_
#include "../objectmanager/ObjectManagerIF.h"
#include "PusVerificationReport.h"
#include "../objectmanager/ObjectManagerIF.h"
namespace Factory{
void setStaticFrameworkObjectIds();
}
/**
* @brief This helper object is used to forward verification messages
* which are generated by the Flight Software Framework.
* @details
* The messages can be relayed to an arbitrary object, for example a dedicated
* Verification Reporter. The destination is set by setting the static framework
* Id VerificationReporter::messageReceiver. The default verification reporter
* will be the PUS service 1, which sends verification messages according
* to the PUS standard.
*
*/
class VerificationReporter {
friend void (Factory::setStaticFrameworkObjectIds)();
public:
VerificationReporter();
virtual ~VerificationReporter();
void sendSuccessReport( uint8_t set_report_id, TcPacketBase* current_packet, uint8_t set_step = 0 );
void sendSuccessReport(uint8_t set_report_id, uint8_t ackFlags, uint16_t tcPacketId, uint16_t tcSequenceControl, uint8_t set_step = 0);
void sendFailureReport( uint8_t report_id, TcPacketBase* current_packet, ReturnValue_t error_code = 0,
uint8_t step = 0, uint32_t parameter1 = 0, uint32_t parameter2 = 0 );
void sendSuccessReport( uint8_t set_report_id, TcPacketBase* current_packet,
uint8_t set_step = 0 );
void sendSuccessReport(uint8_t set_report_id, uint8_t ackFlags,
uint16_t tcPacketId, uint16_t tcSequenceControl,
uint8_t set_step = 0);
void sendFailureReport( uint8_t report_id, TcPacketBase* current_packet,
ReturnValue_t error_code = 0,
uint8_t step = 0, uint32_t parameter1 = 0,
uint32_t parameter2 = 0 );
void sendFailureReport(uint8_t report_id,
uint8_t ackFlags, uint16_t tcPacketId, uint16_t tcSequenceControl, ReturnValue_t error_code = 0, uint8_t step = 0,
uint8_t ackFlags, uint16_t tcPacketId, uint16_t tcSequenceControl,
ReturnValue_t error_code = 0, uint8_t step = 0,
uint32_t parameter1 = 0, uint32_t parameter2 = 0);
void initialize();
private:
static object_id_t messageReceiver;
MessageQueueId_t acknowledgeQueue;
};
#endif /* VERIFICATIONREPORTER_H_ */
#endif /* FSFW_TMTCSERVICES_VERIFICATIONREPORTER_H_ */