2005-12-29 Paul Brook <paul@codesourcery.com>

[official-gcc.git] / gcc / ada / s-tpoben.ads

------------------------------------------------------------------------------
--                                                                          --
--                GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS                  --
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------------------------------------------------------------------------------

--  This package contains all the simple primitives related to
--  Protected_Objects with entries (i.e init, lock, unlock).
--  The handling of protected objects with no entries is done in
--  System.Tasking.Protected_Objects, the complex routines for protected
--  objects with entries in System.Tasking.Protected_Objects.Operations.
--  The split between Entries and Operations is needed to break circular
--  dependencies inside the run time.

--  Note: the compiler generates direct calls to this interface, via Rtsfind.
--  Any changes to this interface may require corresponding compiler changes.

with Ada.Finalization;
--  used for Limited_Controlled

with Unchecked_Conversion;

package System.Tasking.Protected_Objects.Entries is
   pragma Elaborate_Body;

   subtype Positive_Protected_Entry_Index is
     Protected_Entry_Index range  1 .. Protected_Entry_Index'Last;

   type Find_Body_Index_Access is access
     function
       (O : System.Address;
        E : Protected_Entry_Index)
        return Protected_Entry_Index;

   type Protected_Entry_Body_Array is
     array (Positive_Protected_Entry_Index range <>) of Entry_Body;
   --  This is an array of the executable code for all entry bodies of
   --  a protected type.

   type Protected_Entry_Body_Access is access all Protected_Entry_Body_Array;

   type Protected_Entry_Queue_Array is
     array (Protected_Entry_Index range <>) of Entry_Queue;

   --  This type contains the GNARL state of a protected object. The
   --  application-defined portion of the state (i.e. private objects)
   --  is maintained by the compiler-generated code.
   --  note that there is a simplified version of this type declared in
   --  System.Tasking.PO_Simple that handle the simple case (no entries).

   type Protection_Entries (Num_Entries : Protected_Entry_Index) is new
     Ada.Finalization.Limited_Controlled
   with record
      L                 : aliased Task_Primitives.Lock;
      --  The underlying lock associated with a Protection_Entries.
      --  Note that you should never (un)lock Object.L directly, but instead
      --  use Lock_Entries/Unlock_Entries.

      Compiler_Info : System.Address;
      --  Pointer to compiler-generated record representing protected object

      Call_In_Progress : Entry_Call_Link;
      --  Pointer to the entry call being executed (if any)

      Ceiling : System.Any_Priority;
      --  Ceiling priority associated with the protected object

      Owner : Task_Id;
      --  This field contains the protected object's owner. Null_Task
      --  indicates that the protected object is not currently being used.
      --  This information is used for detecting the type of potentially
      --  blocking operations described in the ARM 9.5.1, par. 15 (external
      --  calls on a protected subprogram with the same target object as that
      --  of the protected action).

      Old_Base_Priority : System.Any_Priority;
      --  Task's base priority when the protected operation was called

      Pending_Action  : Boolean;
      --  Flag indicating that priority has been dipped temporarily in order
      --  to avoid violating the priority ceiling of the lock associated with
      --  this protected object, in Lock_Server. The flag tells Unlock_Server
      --  or Unlock_And_Update_Server to restore the old priority to
      --  Old_Base_Priority. This is needed because of situations (bad
      --  language design?) where one needs to lock a PO but to do so would
      --  violate the priority ceiling. For example, this can happen when an
      --  entry call has been requeued to a lower-priority object, and the
      --  caller then tries to cancel the call while its own priority is
      --  higher than the ceiling of the new PO.

      Finalized : Boolean := False;
      --  Set to True by Finalize to make this routine idempotent

      Entry_Bodies : Protected_Entry_Body_Access;
      --  Pointer to an array containing the executable code for all entry
      --  bodies of a protected type.

      --  The following function maps the entry index in a call (which denotes
      --  the queue to the proper entry) into the body of the entry.

      Find_Body_Index : Find_Body_Index_Access;
      Entry_Queues      : Protected_Entry_Queue_Array (1 .. Num_Entries);
   end record;

   --  No default initial values for this type, since call records
   --  will need to be re-initialized before every use.

   type Protection_Entries_Access is access all Protection_Entries'Class;
   --  See comments in s-tassta.adb about the implicit call to Current_Master
   --  generated by this declaration.

   function To_Address is
     new Unchecked_Conversion (Protection_Entries_Access, System.Address);
   function To_Protection is
     new Unchecked_Conversion (System.Address, Protection_Entries_Access);

   function Has_Interrupt_Or_Attach_Handler
     (Object : Protection_Entries_Access) return Boolean;
   --  Returns True if an Interrupt_Handler or Attach_Handler pragma applies
   --  to the protected object. That is to say this primitive returns False for
   --  Protection, but is overriden to return True when interrupt handlers are
   --  declared so the check required by C.3.1(11) can be implemented in
   --  System.Tasking.Protected_Objects.Initialize_Protection.

   procedure Initialize_Protection_Entries
     (Object           : Protection_Entries_Access;
      Ceiling_Priority : Integer;
      Compiler_Info    : System.Address;
      Entry_Bodies     : Protected_Entry_Body_Access;
      Find_Body_Index  : Find_Body_Index_Access);
   --  Initialize the Object parameter so that it can be used by the runtime
   --  to keep track of the runtime state of a protected object.

   procedure Lock_Entries (Object : Protection_Entries_Access);
   --  Lock a protected object for write access. Upon return, the caller owns
   --  the lock to this object, and no other call to Lock or Lock_Read_Only
   --  with the same argument will return until the corresponding call to
   --  Unlock has been made by the caller. Program_Error is raised in case of
   --  ceiling violation.

   procedure Lock_Entries
     (Object : Protection_Entries_Access; Ceiling_Violation : out Boolean);
   --  Same as above, but return the ceiling violation status instead of
   --  raising Program_Error.

   procedure Lock_Read_Only_Entries (Object : Protection_Entries_Access);
   --  Lock a protected object for read access. Upon return, the caller owns
   --  the lock for read access, and no other calls to Lock with the same
   --  argument will return until the corresponding call to Unlock has been
   --  made by the caller. Other calls to Lock_Read_Only may (but need not)
   --  return before the call to Unlock, and the corresponding callers will
   --  also own the lock for read access.
   --
   --  Note: we are not currently using this interface, it is provided for
   --  possible future use. At the current time, everyone uses Lock for both
   --  read and write locks.

   procedure Unlock_Entries (Object : Protection_Entries_Access);
   --  Relinquish ownership of the lock for the object represented by the
   --  Object parameter. If this ownership was for write access, or if it was
   --  for read access where there are no other read access locks outstanding,
   --  one (or more, in the case of Lock_Read_Only) of the tasks waiting on
   --  this lock (if any) will be given the lock and allowed to return from
   --  the Lock or Lock_Read_Only call.

private

   procedure Finalize (Object : in out Protection_Entries);
   --  Clean up a Protection object; in particular, finalize the associated
   --  Lock object.

end System.Tasking.Protected_Objects.Entries;