------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- Cheddar is a GNU GPL real-time scheduling analysis tool. -- This program provides services to automatically check schedulability and -- other performance criteria of real-time architecture models. -- -- Copyright (C) 2002-2020, Frank Singhoff, Alain Plantec, Jerome Legrand, -- Hai Nam Tran, Stephane Rubini -- -- The Cheddar project was started in 2002 by -- Frank Singhoff, Lab-STICC UMR CNRS 6285, Universite de Bretagne Occidentale -- -- Cheddar has been published in the "Agence de Protection des Programmes/France" in 2008. -- Since 2008, Ellidiss technologies also contributes to the development of -- Cheddar and provides industrial support. -- -- The full list of contributors and sponsors can be found in AUTHORS.txt and SPONSORS.txt -- -- This program is free software; you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation; either version 2 of the License, or -- (at your option) any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with this program; if not, write to the Free Software -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- -- -- Contact : cheddar@listes.univ-brest.fr -- ------------------------------------------------------------------------------ -- Last update : -- $Rev$ -- $Date$ -- $Author: singhoff $ ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ with Time_Unit_Events; use Time_Unit_Events; with Systems; use Systems; with Call_Framework_Interface; use Call_Framework_Interface; with Processors; use Processors; with Processor_Set; use Processor_Set; use Processor_Set.Generic_Processor_Set; with Ada.Strings.Unbounded; use Ada.Strings.Unbounded; with Scheduler_Interface; use Scheduler_Interface; with Scheduler; use Scheduler; with Scheduler_builder; use Scheduler_builder; with Multiprocessor_Services_Interface; use Multiprocessor_Services_Interface; use Multiprocessor_Services_Interface.Scheduling_Result_Per_Processor_Package; with Task_Set; use Task_Set; use Task_Set.Generic_Task_Set; with Scheduling_Options; use Scheduling_Options; package Call_Scheduling_Framework is procedure Compute_Simulation_Time_Line (Sys : in out System; Result : in out Unbounded_String; Period : in Natural; Options : in Scheduling_Option; Event_To_Generate : in Time_Unit_Event_Type_Boolean_Table; Output : in Output_Format := String_Output); procedure Compute_Simulation_Basics (Sys : in System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; Output : in Output_Format := String_Output); procedure Compute_Simulation_Number_Of_Preemption (Sys : in System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; Output : in Output_Format := String_Output); procedure Compute_Simulation_Number_Of_Context_Switch (Sys : in System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; Output : in Output_Format := String_Output); procedure Compute_Simulation_Response_Time (Sys : in System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; Worst_Case : Boolean; Best_Case : Boolean; Average_Case : Boolean; Output : in Output_Format := String_Output); procedure Compute_feasibility_test_by_name (Sys : in System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; test_name : unbounded_string; Output : in Output_Format := String_Output); procedure Run_User_Defined_Event_Handlers (Sys : in System; Result : in out Unbounded_String; Output : in Output_Format := String_Output); procedure Compute_Feasibility_Basics (Sys : in out System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; Output : in Output_Format := String_Output); procedure Compute_Feasibility_Interval (Sys : in System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; Output : in Output_Format := String_Output); procedure Compute_Feasibility_Processor_Utilization_Factor (Sys : in System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; Output : in Output_Format := String_Output); procedure Compute_Feasibility_By_Demand_Bound_Function (Sys : in System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; Output : in Output_Format := String_Output); procedure Compute_Feasibility_Response_Time (Sys : in out System; Result : in out Unbounded_String; a_transaction : in transaction_wcrt_type; WCRT_With_Memory_Interferences : in Memory_Interference_Computation_Approach_Type := No_Memory_Interference; With_CRPD : in CRPD_Computation_Approach_Type := No_CRPD; A_Processor : in Generic_Processor_Ptr; Output : in Output_Format := String_Output); procedure Set_Priorities (Sys : in out System; Result : in out Unbounded_String; A_Processor : in Generic_Processor_Ptr; A_Scheduler : in Framework_Statement_Type; Output : in Output_Format := String_Output); procedure Partionning_Tasks (Sys : in out System; Result : in out Unbounded_String; A_Parition_Rule : in Partioning_Type; Output : in Output_Format := String_Output); end Call_Scheduling_Framework;