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objects-solutions | ||
README.md |
Object Manager
The FSFW is an object-oriented framework and uses the concept of classes and objects to model the satellite. Usually, every non-trivial object in the flight software is assigned a 32-bit object ID. This ID is then used as an address field for various command types.
The framework also has a global singleton class to store global objects and retrieve them back in an arbitrary format (e.g. only a certain interface of an object) at a later point.
The required interface of a class to be compatible to the object manager is the SystemObjectIF
.
The SystemObject
class is a base class implementing this interface which is implemented
by most base classes in the framework.
It is recommended to do the task workshop located inside ws-tasks
before doing this workshop,
unless you are familiar with how task scheduling with the framework works.
1. Creating a user SystemObject
In this chapter, a custom class will be created which is insertable into the global object manager.
Subtasks
- Create a custom class
MySystemObject
which implements theSystemObject
base class. Use the object ID 0x10101010. The second argument of theSystemObject
constructor can be used to disable object manager registration. Use it to do exactly that. - Override the
initialize
function and print out a test string in the function. - Create a dynamic instance of that class on the heap using the
new
keyword. - Print out the object ID in hex format with 8 digits. You can use the
iostream
manipulators setw, setfill and hex to do this. You need to include theiomanip
C++ system header t ouse those. - Call the
initialize
function of your dynamic object - Explicitely delete your global object. Forgetting to delete dynamic resources in C++ is generally a resource leak because the memory claimed for creating that dynamic resource can not be re-used by the OS.
Hints
- You can use
#include "fsfw/objectmanager.h"
to include everything you need. - The
SystemObject
base class receives its object ID information by constructor argument. Every base (parent) class which does not have a default (empty) constructor needs to be initialized by the child class constructor. You can do this in the child class constructor member initializer list
Notes on memory and resource management
In desktop programs, it is very common to simply dynamically allocate all required resources
as they are required. It should be noted that dynamic memory allocation can show non-deterministic
behaviour, which is non-favorable in real-time environments. Especially on smaller systems, where
the RAM might be limited to something like for example 1 MB, one has to be really careful with
dynamic memory management to not run out of memory during run-time. A possible side-effect
of running out of memory would be that the allocation can take a possibly infinite time. Another
side-effect which is probably more common is that the allocation simply fails and a nullptr
is
returned, which causes the application to crash unless every allocation call is checked.
Omitting dynamic memory allocation altogether is not really a acceptable solution either unless dealing with really, REALLY (!) small systems like a PIC microcontroller. A good solution is to limit the dynamic memory allocation to the program initialization time and only use pre-allocated memory during run-time. This is what the FSFW or real time OSes like RTEMS generally promote and support.
It is also important to keep in mind that std
library containers generally allocate dynamically
when inserting new entries.
2. Initialize the object using the ObjectManager
The SystemObject
base class will take care of automatically registering the object at the
global object manager as part of its constructor. The object manager stores all inserted objects
by the SystemObjectIF
base class pointer inside a hash map, so all inserted objects can be
retrieved at a later stage. The object manager is also able to call the initialize
method of
all its registered objects. The initialize method allows to return an explicit returnvalue
for failed object initialization. This is generally not possible for object constructors.
The usual way to have an object construction fail is to use exceptions, which might or might not
be available to your project.
Subtasks
- Register the
MySystemObject
class into the global object manager. You can do this with a simple tweak of the base class constructor. - Remove the
delete
call. The object manager will delete all of its contained objects automatically in its own destructor - Retrieve the global instance of the object manager using its static
instance
method and use it to initialize all system objects including your custom system object. - Retrieve the concrete instance of your object using the
ObjectManager
get
method. Please note that you explicitely have to specify the target type you want to retrieve using a template argument toget
. Use that instance to retrieve and print the object ID instead of using the instance returned bynew
3. Schedule your object using its object ID
The object ID is now an addressing unit which can be used at various places in the framework. One example is to schedule the object. This means that instead of passing the concrete instance of the object, you can also add units to schedule by using their object ID.
Subtasks
-
Retrieve the global instance of the
TaskFactory
using its staticinstance
method. -
Create a new enum called
ObjectIds
and make your object ID constant an enum number if it. If this is not the case already the case, refactor yourMySystemObject
to expect the Object ID via constructor argument and pass your enum member as the object ID. -
Add the
ExecutableObjectIF
to the list of implemented interface inMySystemObject
and rename it toMyObject
to make it executable. Most IDEs have some functionality to make renaming an object as convenient as possible. -
Create a
PeriodicTask
and add your custom system object using its object ID with theaddComponent
method. -
Schedule the object. Do not forget to put the main thread to sleep, for example by using code like this
while(true) { using namespace std::chrono_literals; this_thread::sleep_for(5000ms); }
Hints
- You can use
#include "fsfw/tasks/TaskFactory.h"
to include everything you need.