ocarina-backends-deos_conf-partitions.adb 18.6 KB
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------------------------------------------------------------------------------
--                                                                          --
--                           OCARINA COMPONENTS                             --
--                                                                          --
--                  OCARINA.BACKENDS.DEOS_CONF.PARTITIONS                   --
--                                                                          --
--                                 B o d y                                  --
--                                                                          --
--                     Copyright (C) 2014 ESA & ISAE.                       --
--                                                                          --
-- Ocarina  is free software;  you  can  redistribute  it and/or  modify    --
-- it under terms of the GNU General Public License as published by the     --
-- Free Software Foundation; either version 2, or (at your option) any      --
-- later version. Ocarina 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 distributed with Ocarina; see file COPYING.   --
-- If not, write to the Free Software Foundation, 51 Franklin Street, Fifth --
-- Floor, Boston, MA 02111-1301, USA.                                       --
--                                                                          --
-- As a special exception,  if other files  instantiate  generics from this --
-- unit, or you link  this unit with other files  to produce an executable, --
-- this  unit  does not  by itself cause  the resulting  executable to be   --
-- covered  by the  GNU  General  Public  License. This exception does not  --
-- however invalidate  any other reasons why the executable file might be   --
-- covered by the GNU Public License.                                       --
--                                                                          --
--                 Ocarina is maintained by the TASTE project               --
--                      (taste-users@lists.tuxfamily.org)                   --
--                                                                          --
------------------------------------------------------------------------------

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--  with Ada.Strings; use Ada.Strings;
--  with Ada.Strings.Fixed; use Ada.Strings.Fixed;
with Ada.Text_IO;
with Ada.Integer_Text_IO;
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with Ocarina.Backends.Messages;
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with Ocarina.ME_AADL;
with Ocarina.ME_AADL.AADL_Instances.Nodes;
with Ocarina.ME_AADL.AADL_Instances.Nutils;
with Ocarina.ME_AADL.AADL_Instances.Entities;

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with Ocarina.Backends.Utils;
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with Ocarina.Backends.Properties;
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with Ocarina.Backends.XML_Tree.Nodes;
with Ocarina.Backends.XML_Tree.Nutils;
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with Ocarina.Backends.Deos_Conf.Mapping;
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package body Ocarina.Backends.Deos_Conf.Partitions is

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   use Ada.Text_IO;
   use Ada.Integer_Text_IO;
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   use Ocarina.ME_AADL;
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   use Ocarina.Backends.Utils;
   use Ocarina.Backends.Messages;
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   use Ocarina.ME_AADL.AADL_Instances.Nodes;
   use Ocarina.ME_AADL.AADL_Instances.Entities;
   use Ocarina.Backends.XML_Tree.Nutils;
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   use Ocarina.Backends.Properties;
   use Ocarina.Backends.Deos_Conf.Mapping;
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   package AIN renames Ocarina.ME_AADL.AADL_Instances.Nodes;
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   package AINU renames Ocarina.ME_AADL.AADL_Instances.Nutils;
   package XTN renames Ocarina.Backends.XML_Tree.Nodes;
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   package XTU renames Ocarina.Backends.XML_Tree.Nutils;
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   Root_Node                : Node_Id := No_Node;
   Partitions_Node          : Node_Id := No_Node;
   Memory_Regions           : Node_Id := No_Node;
   Partition_Identifier     : Integer := 1;
   Process_Nb_Threads       : Unsigned_Long_Long := 0;
   Process_Nb_Buffers       : Unsigned_Long_Long := 0;
   Process_Nb_Events        : Unsigned_Long_Long := 0;
   Process_Nb_Lock_Objects  : Unsigned_Long_Long := 0;
   Process_Nb_Blackboards   : Unsigned_Long_Long := 0;
   Process_Blackboards_Size : Unsigned_Long_Long := 0;
   Process_Buffers_Size     : Unsigned_Long_Long := 0;
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   procedure Visit_Architecture_Instance (E : Node_Id);
   procedure Visit_Component_Instance (E : Node_Id);
   procedure Visit_System_Instance (E : Node_Id);
   procedure Visit_Process_Instance (E : Node_Id);
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   procedure Visit_Thread_Instance (E : Node_Id);
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   procedure Visit_Processor_Instance (E : Node_Id);
   procedure Visit_Bus_Instance (E : Node_Id);
   procedure Visit_Virtual_Processor_Instance (E : Node_Id);
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   function Find_Associated_Process (Runtime : Node_Id;
                                     Current_Node : Node_Id := Root_Node)
                                     return Node_Id;
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   function Find_Associated_Memory_Segment
      (Process       : Node_Id;
       Current_Node  : Node_Id := Root_Node)
      return Node_Id;
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   function Make_Default_Memory_Region return Node_Id;
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   function Make_Memory_Region (Segment : Node_Id) return Node_Id;
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   function Hex_Print (Num : in Integer;
                       Num_Of_Digits : in Positive) return String;

   function Hex_Print (Num           : in Integer;
                       Num_Of_Digits : in Positive) return String is
      Temp_Str    : String (1 .. Num_Of_Digits + 5) := (others => '0');
      New_Str     : String (1 .. Num_Of_Digits)     := (others => '0');
      First_Digit : Positive;
   begin

      Put (To => Temp_Str, Item => Num, Base => 16);

      for I in 1 .. Num_Of_Digits + 4 loop
         if Temp_Str (I) = '#' then
            First_Digit := I + 1;
            exit;
         end if;
      end loop;

      New_Str (First_Digit - 4 .. Num_Of_Digits) :=
         Temp_Str (First_Digit .. Num_Of_Digits + 4);
      return New_Str;
   end Hex_Print;
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   --------------------------------
   -- Make_Default_Memory_Region --
   --------------------------------

   function Make_Default_Memory_Region return Node_Id is
      N : Node_Id;
   begin
      N := Make_XML_Node ("MemoryRegion");
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      XTU.Add_Attribute ("Name", "Initial RAM Pool", N);
      XTU.Add_Attribute ("Type", "Initial RAM Pool", N);
      XTU.Add_Attribute ("Address", "0x0", N);
      XTU.Add_Attribute ("Size", "0x19000", N);
      XTU.Add_Attribute ("AccessRights", "READ_WRITE", N);
      XTU.Add_Attribute ("PlatformMemoryPool", "0", N);

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      return N;
   end Make_Default_Memory_Region;

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   ------------------------
   -- Make_Memory_Region --
   ------------------------

   function Make_Memory_Region (Segment : Node_Id)
      return Node_Id is
      N : Node_Id;
   begin
      N := Make_XML_Node ("MemoryRegion");

      XTU.Add_Attribute ("Name", "Initial RAM Pool", N);
      XTU.Add_Attribute ("Type", "Initial RAM Pool", N);
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      XTU.Add_Attribute ("Address",
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                        "0x" & Hex_Print
                           (Integer
                              (Get_Base_Address (Segment)), 8),
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                         N);
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--      Put (Size_Str, To_Bytes
--                      (Get_Memory_Size (Segment)), 16);
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      XTU.Add_Attribute ("Size",
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                        "0x" & Hex_Print
                           (Integer (To_Bytes
                              (Get_Memory_Size (Segment))), 8),
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                         N);
      XTU.Add_Attribute ("AccessRights", "READ_WRITE", N);
      XTU.Add_Attribute ("PlatformMemoryPool", "0", N);

      return N;
   end Make_Memory_Region;

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   -----------------------------
   -- Find_Associated_Process --
   -----------------------------

   function Find_Associated_Process (Runtime : Node_Id;
                                     Current_Node : Node_Id := Root_Node)
                                     return Node_Id is
      T : Node_Id;
      S : Node_Id;
   begin
      if Get_Category_Of_Component (Current_Node) = CC_Process and then
         Get_Bound_Processor (Current_Node) = Runtime
      then
         return Current_Node;
      end if;

      if not AINU.Is_Empty (Subcomponents (Current_Node)) then
         S := First_Node (Subcomponents (Current_Node));
         while Present (S) loop
            T := Find_Associated_Process
               (Runtime, Corresponding_Instance (S));

            if T /= No_Node then
               return T;
            end if;

            S := Next_Node (S);
         end loop;
      end if;

      return No_Node;
   end Find_Associated_Process;
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   ------------------------------------
   -- Find_Associated_Memory_Segment --
   ------------------------------------

   function Find_Associated_Memory_Segment
      (Process : Node_Id;
       Current_Node : Node_Id := Root_Node)
      return Node_Id is
      T : Node_Id;
      S : Node_Id;
   begin
      if Get_Category_Of_Component (Current_Node) = CC_Memory and then
         Get_Bound_Memory (Process) = Current_Node
      then
         return Current_Node;
      end if;

      if not AINU.Is_Empty (Subcomponents (Current_Node)) then
         S := First_Node (Subcomponents (Current_Node));
         while Present (S) loop
            T := Find_Associated_Memory_Segment
               (Process, Corresponding_Instance (S));

            if T /= No_Node then
               return T;
            end if;

            S := Next_Node (S);
         end loop;
      end if;

      return No_Node;
   end Find_Associated_Memory_Segment;

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   -----------
   -- Visit --
   -----------

   procedure Visit (E : Node_Id) is
   begin
      case Kind (E) is
         when K_Architecture_Instance =>
            Visit_Architecture_Instance (E);

         when K_Component_Instance =>
            Visit_Component_Instance (E);

         when others =>
            null;
      end case;
   end Visit;

   ---------------------------------
   -- Visit_Architecture_Instance --
   ---------------------------------

   procedure Visit_Architecture_Instance (E : Node_Id) is
   begin
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      Root_Node := Root_System (E);
      Visit (Root_Node);
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   end Visit_Architecture_Instance;

   ------------------------------
   -- Visit_Component_Instance --
   ------------------------------

   procedure Visit_Component_Instance (E : Node_Id) is
      Category : constant Component_Category := Get_Category_Of_Component (E);
   begin
      case Category is
         when CC_System =>
            Visit_System_Instance (E);

         when CC_Process =>
            Visit_Process_Instance (E);

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         when CC_Thread =>
            Visit_Thread_Instance (E);

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         when CC_Processor =>
            Visit_Processor_Instance (E);

         when CC_Bus =>
            Visit_Bus_Instance (E);

         when CC_Virtual_Processor =>
            Visit_Virtual_Processor_Instance (E);

         when others =>
            null;
      end case;
   end Visit_Component_Instance;

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      ---------------------------
      -- Visit_Thread_Instance --
      ---------------------------

      procedure Visit_Thread_Instance (E : Node_Id) is
         F : Node_Id;
      begin
         Process_Nb_Threads := Process_Nb_Threads + 1;

         if not AINU.Is_Empty (Features (E)) then
            F := First_Node (Features (E));

            while Present (F) loop
               if Kind (F) = K_Port_Spec_Instance then
                  if Get_Connection_Pattern (F) = Intra_Process
                    and then Is_In (F)
                  then
                     if AIN.Is_Data (F) and then not AIN.Is_Event (F) then
                        Process_Nb_Blackboards := Process_Nb_Blackboards + 1;
                        Process_Blackboards_Size :=
                           Process_Blackboards_Size +
                              To_Bytes
                                 (Get_Data_Size
                                    (Corresponding_Instance (F)));
                     elsif AIN.Is_Data (F) and then AIN.Is_Event (F) then
                        Process_Nb_Buffers := Process_Nb_Buffers + 1;
                     elsif AIN.Is_Event (F) and then not AIN.Is_Data (F) then
                        Process_Nb_Events := Process_Nb_Events + 1;
                     else
                        Display_Error ("Communication Pattern not handled",
                                       Fatal => True);
                     end if;

                     Process_Nb_Lock_Objects := Process_Nb_Lock_Objects + 1;
                  end if;
               end if;
               F := Next_Node (F);
            end loop;
         end if;

      end Visit_Thread_Instance;

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   ----------------------------
   -- Visit_Process_Instance --
   ----------------------------

   procedure Visit_Process_Instance (E : Node_Id) is
      S : Node_Id;
   begin
      if not AINU.Is_Empty (Subcomponents (E)) then
         S := First_Node (Subcomponents (E));
         while Present (S) loop
            --  Visit the component instance corresponding to the
            --  subcomponent S.

            Visit (Corresponding_Instance (S));
            S := Next_Node (S);
         end loop;
      end if;
   end Visit_Process_Instance;

   ---------------------------
   -- Visit_System_Instance --
   ---------------------------

   procedure Visit_System_Instance (E : Node_Id) is
      S : Node_Id;
   begin
      if not AINU.Is_Empty (Subcomponents (E)) then
         S := First_Node (Subcomponents (E));
         while Present (S) loop
            --  Visit the component instance corresponding to the
            --  subcomponent S.
            if AINU.Is_Processor (Corresponding_Instance (S)) then
               Visit (Corresponding_Instance (S));
            end if;
            S := Next_Node (S);
         end loop;
      end if;
   end Visit_System_Instance;

   ------------------------
   -- Visit_Bus_Instance --
   ------------------------

   procedure Visit_Bus_Instance (E : Node_Id) is
      pragma Unreferenced (E);
   begin
      null;
   end Visit_Bus_Instance;

   ------------------------------
   -- Visit_Processor_Instance --
   ------------------------------

   procedure Visit_Processor_Instance (E : Node_Id) is
      S : Node_Id;
      U : Node_Id;
      P : Node_Id;
   begin
      U := XTN.Unit (Backend_Node (Identifier (E)));
      P := XTN.Node (Backend_Node (Identifier (E)));

      Push_Entity (P);
      Push_Entity (U);

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      Partition_Identifier := 1;
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      Current_XML_Node := XTN.Root_Node (XTN.XML_File (U));

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      Partitions_Node := Make_XML_Node ("Partitions");

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      Append_Node_To_List
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        (Partitions_Node,
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         XTN.Subitems (Current_XML_Node));

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      --
      --  First, make the <Partition/> nodes
      --

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      if not AINU.Is_Empty (Subcomponents (E)) then
         S := First_Node (Subcomponents (E));
         while Present (S) loop
            --  Visit the component instance corresponding to the
            --  subcomponent S.

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            if AINU.Is_Virtual_Processor (Corresponding_Instance (S)) then
               Visit (Corresponding_Instance (S));
            end if;
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            S := Next_Node (S);
         end loop;
      end if;

      Pop_Entity;
      Pop_Entity;
   end Visit_Processor_Instance;

   --------------------------------------
   -- Visit_Virtual_Processor_Instance --
   --------------------------------------

   procedure Visit_Virtual_Processor_Instance (E : Node_Id) is
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      S                       : Node_Id;
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      F                       : Node_Id;
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      Corresponding_Process   : Node_Id := No_Node;
      Memory_Segment          : Node_Id := No_Node;
      Partition_Node          : Node_Id;
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      Sampling_Ports          : Node_Id := No_Node;
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   begin
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      Corresponding_Process := Find_Associated_Process (E);

      if Corresponding_Process /= No_Node then
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         Process_Nb_Threads         := 0;
         Process_Nb_Buffers         := 0;
         Process_Nb_Events          := 0;
         Process_Nb_Lock_Objects    := 0;
         Process_Nb_Blackboards     := 0;
         Process_Blackboards_Size   := 0;
         Process_Buffers_Size       := 0;

         Visit (Corresponding_Process);

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         --
         --  First, we create the description of the partition.
         --
         Partition_Node := Map_Partition (Corresponding_Process,
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                            E,
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                            Partition_Identifier,
                            Process_Nb_Threads,
                            Process_Nb_Buffers,
                            Process_Nb_Events,
                            Process_Nb_Lock_Objects,
                            Process_Nb_Blackboards,
                            Process_Blackboards_Size,
                            Process_Buffers_Size);
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         Append_Node_To_List
            (Partition_Node,
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             XTN.Subitems (Partitions_Node));
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         --
         --  Then, we associate the partition with memory region
         --

         Memory_Regions := Make_XML_Node ("MemoryRegions");

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         Memory_Segment := Find_Associated_Memory_Segment
            (Corresponding_Process);

         if Memory_Segment = No_Node then
            Append_Node_To_List
               (Make_Default_Memory_Region,
               XTN.Subitems (Memory_Regions));
         else
            Append_Node_To_List
               (Make_Memory_Region (Memory_Segment),
               XTN.Subitems (Memory_Regions));
         end if;
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         Append_Node_To_List
            (Memory_Regions,
            XTN.Subitems (Partition_Node));
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         --
         --  Then, we configure the inter-partitions communication
         --  ports (sampling/queueing).
         --

         if not AINU.Is_Empty (Features (Corresponding_Process)) then
            Sampling_Ports := Make_XML_Node ("SamplingPorts");
            F := First_Node (Features (Corresponding_Process));

            while Present (F) loop
               if Kind (F) = K_Port_Spec_Instance
                 and then Get_Connection_Pattern (F) = Inter_Process
               then

                  if Is_Data (F) and then not Is_Event (F)
                     and then not (Is_In (F) and then Is_Out (F))
                  then
                     Append_Node_To_List
                        (Map_Sampling_Port (F),
                        XTN.Subitems (Sampling_Ports));
                  end if;
               end if;
               F := Next_Node (F);
            end loop;
         end if;

         if Sampling_Ports /= No_Node and then
            XTN.Subitems (Sampling_Ports) /= No_List
         then
            Append_Node_To_List
               (Sampling_Ports,
               XTN.Subitems (Partition_Node));
         end if;

         Partition_Identifier := Partition_Identifier + 1;
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      end if;

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      if not AINU.Is_Empty (Subcomponents (E)) then
         S := First_Node (Subcomponents (E));
         while Present (S) loop

            Visit (Corresponding_Instance (S));
            S := Next_Node (S);
         end loop;
      end if;
   end Visit_Virtual_Processor_Instance;

end Ocarina.Backends.Deos_Conf.Partitions;