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------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . I N T E R R U P T S -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2005, Free Software Foundation, Inc. -- -- -- -- GNARL is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 2, or (at your option) any later ver- -- -- sion. GNARL is distributed in the hope that it will be useful, but WITH- -- -- OUT 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 GNARL; see file COPYING. If not, write -- -- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, -- -- Boston, MA 02110-1301, 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. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- ------------------------------------------------------------------------------ -- This is an OpenVMS/Alpha version of this package -- Invariants: -- Once we associate a Server_Task with an interrupt, the task never -- goes away, and we never remove the association. -- There is no more than one interrupt per Server_Task and no more than -- one Server_Task per interrupt. -- Within this package, the lock L is used to protect the various status -- tables. If there is a Server_Task associated with an interrupt, we use -- the per-task lock of the Server_Task instead so that we protect the -- status between Interrupt_Manager and Server_Task. Protection among -- service requests are done using User Request to Interrupt_Manager -- rendezvous. with Ada.Task_Identification; -- used for Task_Id type with Ada.Exceptions; -- used for Raise_Exception with System.Task_Primitives; -- used for RTS_Lock -- Self with System.Interrupt_Management; -- used for Reserve -- Interrupt_ID -- Interrupt_Mask -- Abort_Task_Interrupt with System.Interrupt_Management.Operations; -- used for Thread_Block_Interrupt -- Thread_Unblock_Interrupt -- Install_Default_Action -- Install_Ignore_Action -- Copy_Interrupt_Mask -- Set_Interrupt_Mask -- Empty_Interrupt_Mask -- Fill_Interrupt_Mask -- Add_To_Interrupt_Mask -- Delete_From_Interrupt_Mask -- Interrupt_Wait -- Interrupt_Self_Process -- Get_Interrupt_Mask -- Set_Interrupt_Mask -- IS_Member -- Environment_Mask pragma Elaborate_All (System.Interrupt_Management.Operations); with System.Task_Primitives.Operations; -- used for Write_Lock -- Unlock -- Abort -- Wakeup_Task -- Sleep -- Initialize_Lock with System.Task_Primitives.Interrupt_Operations; -- used for Set_Interrupt_ID with System.Storage_Elements; -- used for To_Address -- To_Integer -- Integer_Address with System.Tasking; -- used for Task_Id -- Task_Entry_Index -- Null_Task -- Self -- Interrupt_Manager_ID with System.Tasking.Utilities; -- used for Make_Independent with System.Tasking.Rendezvous; -- used for Call_Simple pragma Elaborate_All (System.Tasking.Rendezvous); with System.Tasking.Initialization; -- used for Defer_Abort -- Undefer_Abort with System.Parameters; -- used for Single_Lock with Unchecked_Conversion; package body System.Interrupts is use Tasking; use System.Parameters; use Ada.Exceptions; package POP renames System.Task_Primitives.Operations; package PIO renames System.Task_Primitives.Interrupt_Operations; package IMNG renames System.Interrupt_Management; package IMOP renames System.Interrupt_Management.Operations; function To_System is new Unchecked_Conversion (Ada.Task_Identification.Task_Id, Task_Id); ----------------- -- Local Tasks -- ----------------- -- WARNING: System.Tasking.Stages performs calls to this task with -- low-level constructs. Do not change this spec without synchronizing it. task Interrupt_Manager is entry Detach_Interrupt_Entries (T : Task_Id); entry Initialize (Mask : IMNG.Interrupt_Mask); entry Attach_Handler (New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean; Restoration : Boolean := False); entry Exchange_Handler (Old_Handler : out Parameterless_Handler; New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean); entry Detach_Handler (Interrupt : Interrupt_ID; Static : Boolean); entry Bind_Interrupt_To_Entry (T : Task_Id; E : Task_Entry_Index; Interrupt : Interrupt_ID); entry Block_Interrupt (Interrupt : Interrupt_ID); entry Unblock_Interrupt (Interrupt : Interrupt_ID); entry Ignore_Interrupt (Interrupt : Interrupt_ID); entry Unignore_Interrupt (Interrupt : Interrupt_ID); pragma Interrupt_Priority (System.Interrupt_Priority'Last); end Interrupt_Manager; task type Server_Task (Interrupt : Interrupt_ID) is pragma Priority (System.Interrupt_Priority'Last); -- Note: the above pragma Priority is strictly speaking improper since -- it is outside the range of allowed priorities, but the compiler -- treats system units specially and does not apply this range checking -- rule to system units. end Server_Task; type Server_Task_Access is access Server_Task; ------------------------------- -- Local Types and Variables -- ------------------------------- type Entry_Assoc is record T : Task_Id; E : Task_Entry_Index; end record; type Handler_Assoc is record H : Parameterless_Handler; Static : Boolean; -- Indicates static binding; end record; User_Handler : array (Interrupt_ID'Range) of Handler_Assoc := (others => (null, Static => False)); pragma Volatile_Components (User_Handler); -- Holds the protected procedure handler (if any) and its Static -- information for each interrupt. A handler is a Static one if it is -- specified through the pragma Attach_Handler. Attach_Handler. Otherwise, -- not static) User_Entry : array (Interrupt_ID'Range) of Entry_Assoc := (others => (T => Null_Task, E => Null_Task_Entry)); pragma Volatile_Components (User_Entry); -- Holds the task and entry index (if any) for each interrupt Blocked : constant array (Interrupt_ID'Range) of Boolean := (others => False); -- ??? pragma Volatile_Components (Blocked); -- True iff the corresponding interrupt is blocked in the process level Ignored : array (Interrupt_ID'Range) of Boolean := (others => False); pragma Volatile_Components (Ignored); -- True iff the corresponding interrupt is blocked in the process level Last_Unblocker : constant array (Interrupt_ID'Range) of Task_Id := (others => Null_Task); -- ??? pragma Volatile_Components (Last_Unblocker); -- Holds the ID of the last Task which Unblocked this Interrupt. -- It contains Null_Task if no tasks have ever requested the -- Unblocking operation or the Interrupt is currently Blocked. Server_ID : array (Interrupt_ID'Range) of Task_Id := (others => Null_Task); pragma Atomic_Components (Server_ID); -- Holds the Task_Id of the Server_Task for each interrupt. Task_Id is -- needed to accomplish locking per Interrupt base. Also is needed to -- decide whether to create a new Server_Task. -- Type and Head, Tail of the list containing Registered Interrupt -- Handlers. These definitions are used to register the handlers specified -- by the pragma Interrupt_Handler. type Registered_Handler; type R_Link is access all Registered_Handler; type Registered_Handler is record H : System.Address := System.Null_Address; Next : R_Link := null; end record; Registered_Handler_Head : R_Link := null; Registered_Handler_Tail : R_Link := null; Access_Hold : Server_Task_Access; -- variable used to allocate Server_Task using "new". ----------------------- -- Local Subprograms -- ----------------------- function Is_Registered (Handler : Parameterless_Handler) return Boolean; -- See if the Handler has been "pragma"ed using Interrupt_Handler. -- Always consider a null handler as registered. -------------------------------- -- Register_Interrupt_Handler -- -------------------------------- procedure Register_Interrupt_Handler (Handler_Addr : System.Address) is New_Node_Ptr : R_Link; begin -- This routine registers the Handler as usable for Dynamic -- Interrupt Handler. Routines attaching and detaching Handler -- dynamically should first consult if the Handler is rgistered. -- A Program Error should be raised if it is not registered. -- The pragma Interrupt_Handler can only appear in the library -- level PO definition and instantiation. Therefore, we do not need -- to implement Unregistering operation. Neither we need to -- protect the queue structure using a Lock. pragma Assert (Handler_Addr /= System.Null_Address); New_Node_Ptr := new Registered_Handler; New_Node_Ptr.H := Handler_Addr; if Registered_Handler_Head = null then Registered_Handler_Head := New_Node_Ptr; Registered_Handler_Tail := New_Node_Ptr; else Registered_Handler_Tail.Next := New_Node_Ptr; Registered_Handler_Tail := New_Node_Ptr; end if; end Register_Interrupt_Handler; ------------------- -- Is_Registered -- ------------------- function Is_Registered (Handler : Parameterless_Handler) return Boolean is type Fat_Ptr is record Object_Addr : System.Address; Handler_Addr : System.Address; end record; function To_Fat_Ptr is new Unchecked_Conversion (Parameterless_Handler, Fat_Ptr); Ptr : R_Link; Fat : Fat_Ptr; begin if Handler = null then return True; end if; Fat := To_Fat_Ptr (Handler); Ptr := Registered_Handler_Head; while Ptr /= null loop if Ptr.H = Fat.Handler_Addr then return True; end if; Ptr := Ptr.Next; end loop; return False; end Is_Registered; ----------------- -- Is_Reserved -- ----------------- function Is_Reserved (Interrupt : Interrupt_ID) return Boolean is begin return IMNG.Reserve (IMNG.Interrupt_ID (Interrupt)); end Is_Reserved; ----------------------- -- Is_Entry_Attached -- ----------------------- function Is_Entry_Attached (Interrupt : Interrupt_ID) return Boolean is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; return User_Entry (Interrupt).T /= Null_Task; end Is_Entry_Attached; ------------------------- -- Is_Handler_Attached -- ------------------------- function Is_Handler_Attached (Interrupt : Interrupt_ID) return Boolean is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; return User_Handler (Interrupt).H /= null; end Is_Handler_Attached; ---------------- -- Is_Blocked -- ---------------- function Is_Blocked (Interrupt : Interrupt_ID) return Boolean is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; return Blocked (Interrupt); end Is_Blocked; ---------------- -- Is_Ignored -- ---------------- function Is_Ignored (Interrupt : Interrupt_ID) return Boolean is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; return Ignored (Interrupt); end Is_Ignored; --------------------- -- Current_Handler -- --------------------- function Current_Handler (Interrupt : Interrupt_ID) return Parameterless_Handler is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; -- ??? Since Parameterless_Handler is not Atomic, the current -- implementation is wrong. We need a new service in Interrupt_Manager -- to ensure atomicity. return User_Handler (Interrupt).H; end Current_Handler; -------------------- -- Attach_Handler -- -------------------- -- Calling this procedure with New_Handler = null and Static = True -- means we want to detach the current handler regardless of the -- previous handler's binding status (ie. do not care if it is a -- dynamic or static handler). -- This option is needed so that during the finalization of a PO, we -- can detach handlers attached through pragma Attach_Handler. procedure Attach_Handler (New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean := False) is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; Interrupt_Manager.Attach_Handler (New_Handler, Interrupt, Static); end Attach_Handler; ---------------------- -- Exchange_Handler -- ---------------------- -- Calling this procedure with New_Handler = null and Static = True means -- we want to detach the current handler regardless of the previous -- handler's binding status (ie. do not care if it is dynamic or static -- handler). -- This option is needed so that during the finalization of a PO, we can -- detach handlers attached through pragma Attach_Handler. procedure Exchange_Handler (Old_Handler : out Parameterless_Handler; New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean := False) is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; Interrupt_Manager.Exchange_Handler (Old_Handler, New_Handler, Interrupt, Static); end Exchange_Handler; -------------------- -- Detach_Handler -- -------------------- -- Calling this procedure with Static = True means we want to Detach the -- current handler regardless of the previous handler's binding status -- (i.e. do not care if it is a dynamic or static handler). -- This option is needed so that during the finalization of a PO, we can -- detach handlers attached through pragma Attach_Handler. procedure Detach_Handler (Interrupt : Interrupt_ID; Static : Boolean := False) is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; Interrupt_Manager.Detach_Handler (Interrupt, Static); end Detach_Handler; --------------- -- Reference -- --------------- function Reference (Interrupt : Interrupt_ID) return System.Address is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; return Storage_Elements.To_Address (Storage_Elements.Integer_Address (Interrupt)); end Reference; ----------------------------- -- Bind_Interrupt_To_Entry -- ----------------------------- -- This procedure raises a Program_Error if it tries to -- bind an interrupt to which an Entry or a Procedure is -- already bound. procedure Bind_Interrupt_To_Entry (T : Task_Id; E : Task_Entry_Index; Int_Ref : System.Address) is Interrupt : constant Interrupt_ID := Interrupt_ID (Storage_Elements.To_Integer (Int_Ref)); begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; Interrupt_Manager.Bind_Interrupt_To_Entry (T, E, Interrupt); end Bind_Interrupt_To_Entry; ------------------------------ -- Detach_Interrupt_Entries -- ------------------------------ procedure Detach_Interrupt_Entries (T : Task_Id) is begin Interrupt_Manager.Detach_Interrupt_Entries (T); end Detach_Interrupt_Entries; --------------------- -- Block_Interrupt -- --------------------- procedure Block_Interrupt (Interrupt : Interrupt_ID) is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; Interrupt_Manager.Block_Interrupt (Interrupt); end Block_Interrupt; ----------------------- -- Unblock_Interrupt -- ----------------------- procedure Unblock_Interrupt (Interrupt : Interrupt_ID) is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; Interrupt_Manager.Unblock_Interrupt (Interrupt); end Unblock_Interrupt; ------------------ -- Unblocked_By -- ------------------ function Unblocked_By (Interrupt : Interrupt_ID) return System.Tasking.Task_Id is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; return Last_Unblocker (Interrupt); end Unblocked_By; ---------------------- -- Ignore_Interrupt -- ---------------------- procedure Ignore_Interrupt (Interrupt : Interrupt_ID) is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; Interrupt_Manager.Ignore_Interrupt (Interrupt); end Ignore_Interrupt; ------------------------ -- Unignore_Interrupt -- ------------------------ procedure Unignore_Interrupt (Interrupt : Interrupt_ID) is begin if Is_Reserved (Interrupt) then Raise_Exception (Program_Error'Identity, "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"); end if; Interrupt_Manager.Unignore_Interrupt (Interrupt); end Unignore_Interrupt; ----------------------- -- Interrupt_Manager -- ----------------------- task body Interrupt_Manager is -------------------- -- Local Routines -- -------------------- procedure Unprotected_Exchange_Handler (Old_Handler : out Parameterless_Handler; New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean; Restoration : Boolean := False); procedure Unprotected_Detach_Handler (Interrupt : Interrupt_ID; Static : Boolean); ---------------------------------- -- Unprotected_Exchange_Handler -- ---------------------------------- procedure Unprotected_Exchange_Handler (Old_Handler : out Parameterless_Handler; New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean; Restoration : Boolean := False) is begin if User_Entry (Interrupt).T /= Null_Task then -- In case we have an Interrupt Entry already installed. -- raise a program error. (propagate it to the caller). Raise_Exception (Program_Error'Identity, "An interrupt is already installed"); end if; -- Note : A null handler with Static = True will -- pass the following check. That is the case when we want to -- Detach a handler regardless of the Static status -- of the current_Handler. -- We don't check anything if Restoration is True, since we -- may be detaching a static handler to restore a dynamic one. if not Restoration and then not Static -- Tries to overwrite a static Interrupt Handler with a -- dynamic Handler and then (User_Handler (Interrupt).Static -- The new handler is not specified as an -- Interrupt Handler by a pragma. or else not Is_Registered (New_Handler)) then Raise_Exception (Program_Error'Identity, "Trying to overwrite a static Interrupt Handler with a " & "dynamic Handler"); end if; -- The interrupt should no longer be ingnored if -- it was ever ignored. Ignored (Interrupt) := False; -- Save the old handler Old_Handler := User_Handler (Interrupt).H; -- The new handler User_Handler (Interrupt).H := New_Handler; if New_Handler = null then -- The null handler means we are detaching the handler. User_Handler (Interrupt).Static := False; else User_Handler (Interrupt).Static := Static; end if; -- Invoke a corresponding Server_Task if not yet created. -- Place Task_Id info in Server_ID array. if Server_ID (Interrupt) = Null_Task then Access_Hold := new Server_Task (Interrupt); Server_ID (Interrupt) := To_System (Access_Hold.all'Identity); else POP.Wakeup (Server_ID (Interrupt), Interrupt_Server_Idle_Sleep); end if; end Unprotected_Exchange_Handler; -------------------------------- -- Unprotected_Detach_Handler -- -------------------------------- procedure Unprotected_Detach_Handler (Interrupt : Interrupt_ID; Static : Boolean) is begin if User_Entry (Interrupt).T /= Null_Task then -- In case we have an Interrupt Entry installed. -- raise a program error. (propagate it to the caller). Raise_Exception (Program_Error'Identity, "An interrupt entry is already installed"); end if; -- Note : Static = True will pass the following check. That is the -- case when we want to detach a handler regardless of the static -- status of the current_Handler. if not Static and then User_Handler (Interrupt).Static then -- Tries to detach a static Interrupt Handler. -- raise a program error. Raise_Exception (Program_Error'Identity, "Trying to detach a static Interrupt Handler"); end if; -- The interrupt should no longer be ignored if -- it was ever ignored. Ignored (Interrupt) := False; -- The new handler User_Handler (Interrupt).H := null; User_Handler (Interrupt).Static := False; IMOP.Interrupt_Self_Process (IMNG.Interrupt_ID (Interrupt)); end Unprotected_Detach_Handler; -- Start of processing for Interrupt_Manager begin -- By making this task independent of master, when the process -- goes away, the Interrupt_Manager will terminate gracefully. System.Tasking.Utilities.Make_Independent; -- Environmen task gets its own interrupt mask, saves it, -- and then masks all interrupts except the Keep_Unmasked set. -- During rendezvous, the Interrupt_Manager receives the old -- interrupt mask of the environment task, and sets its own -- interrupt mask to that value. -- The environment task will call the entry of Interrupt_Manager some -- during elaboration of the body of this package. accept Initialize (Mask : IMNG.Interrupt_Mask) do pragma Warnings (Off, Mask); null; end Initialize; -- Note: All tasks in RTS will have all the Reserve Interrupts -- being masked (except the Interrupt_Manager) and Keep_Unmasked -- unmasked when created. -- Abort_Task_Interrupt is one of the Interrupt unmasked -- in all tasks. We mask the Interrupt in this particular task -- so that "sigwait" is possible to catch an explicitely sent -- Abort_Task_Interrupt from the Server_Tasks. -- This sigwaiting is needed so that we make sure a Server_Task is -- out of its own sigwait state. This extra synchronization is -- necessary to prevent following senarios. -- 1) Interrupt_Manager sends an Abort_Task_Interrupt to the -- Server_Task then changes its own interrupt mask (OS level). -- If an interrupt (corresponding to the Server_Task) arrives -- in the nean time we have the Interrupt_Manager umnasked and -- the Server_Task waiting on sigwait. -- 2) For unbinding handler, we install a default action in the -- Interrupt_Manager. POSIX.1c states that the result of using -- "sigwait" and "sigaction" simaltaneously on the same interrupt -- is undefined. Therefore, we need to be informed from the -- Server_Task of the fact that the Server_Task is out of its -- sigwait stage. loop -- A block is needed to absorb Program_Error exception declare Old_Handler : Parameterless_Handler; begin select accept Attach_Handler (New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean; Restoration : Boolean := False) do Unprotected_Exchange_Handler (Old_Handler, New_Handler, Interrupt, Static, Restoration); end Attach_Handler; or accept Exchange_Handler (Old_Handler : out Parameterless_Handler; New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean) do Unprotected_Exchange_Handler (Old_Handler, New_Handler, Interrupt, Static); end Exchange_Handler; or accept Detach_Handler (Interrupt : Interrupt_ID; Static : Boolean) do Unprotected_Detach_Handler (Interrupt, Static); end Detach_Handler; or accept Bind_Interrupt_To_Entry (T : Task_Id; E : Task_Entry_Index; Interrupt : Interrupt_ID) do -- if there is a binding already (either a procedure or an -- entry), raise Program_Error (propagate it to the caller). if User_Handler (Interrupt).H /= null or else User_Entry (Interrupt).T /= Null_Task then Raise_Exception (Program_Error'Identity, "A binding for this interrupt is already present"); end if; -- The interrupt should no longer be ingnored if -- it was ever ignored. Ignored (Interrupt) := False; User_Entry (Interrupt) := Entry_Assoc'(T => T, E => E); -- Indicate the attachment of Interrupt Entry in ATCB. -- This is need so that when an Interrupt Entry task -- terminates the binding can be cleaned. -- The call to unbinding must be -- make by the task before it terminates. T.Interrupt_Entry := True; -- Invoke a corresponding Server_Task if not yet created. -- Place Task_Id info in Server_ID array. if Server_ID (Interrupt) = Null_Task then Access_Hold := new Server_Task (Interrupt); Server_ID (Interrupt) := To_System (Access_Hold.all'Identity); else POP.Wakeup (Server_ID (Interrupt), Interrupt_Server_Idle_Sleep); end if; end Bind_Interrupt_To_Entry; or accept Detach_Interrupt_Entries (T : Task_Id) do for J in Interrupt_ID'Range loop if not Is_Reserved (J) then if User_Entry (J).T = T then -- The interrupt should no longer be ignored if -- it was ever ignored. Ignored (J) := False; User_Entry (J) := Entry_Assoc'(T => Null_Task, E => Null_Task_Entry); IMOP.Interrupt_Self_Process (IMNG.Interrupt_ID (J)); end if; end if; end loop; -- Indicate in ATCB that no Interrupt Entries are attached. T.Interrupt_Entry := False; end Detach_Interrupt_Entries; or accept Block_Interrupt (Interrupt : Interrupt_ID) do pragma Warnings (Off, Interrupt); raise Program_Error; end Block_Interrupt; or accept Unblock_Interrupt (Interrupt : Interrupt_ID) do pragma Warnings (Off, Interrupt); raise Program_Error; end Unblock_Interrupt; or accept Ignore_Interrupt (Interrupt : Interrupt_ID) do pragma Warnings (Off, Interrupt); raise Program_Error; end Ignore_Interrupt; or accept Unignore_Interrupt (Interrupt : Interrupt_ID) do pragma Warnings (Off, Interrupt); raise Program_Error; end Unignore_Interrupt; end select; exception -- If there is a program error we just want to propagate it -- to the caller and do not want to stop this task. when Program_Error => null; when others => pragma Assert (False); null; end; end loop; end Interrupt_Manager; ----------------- -- Server_Task -- ----------------- task body Server_Task is Self_ID : constant Task_Id := Self; Tmp_Handler : Parameterless_Handler; Tmp_ID : Task_Id; Tmp_Entry_Index : Task_Entry_Index; Intwait_Mask : aliased IMNG.Interrupt_Mask; begin -- By making this task independent of master, when the process -- goes away, the Server_Task will terminate gracefully. System.Tasking.Utilities.Make_Independent; -- Install default action in system level. IMOP.Install_Default_Action (IMNG.Interrupt_ID (Interrupt)); -- Set up the mask (also clears the event flag) IMOP.Empty_Interrupt_Mask (Intwait_Mask'Access); IMOP.Add_To_Interrupt_Mask (Intwait_Mask'Access, IMNG.Interrupt_ID (Interrupt)); -- Remember the Interrupt_ID for Abort_Task. PIO.Set_Interrupt_ID (IMNG.Interrupt_ID (Interrupt), Self_ID); -- Note: All tasks in RTS will have all the Reserve Interrupts -- being masked (except the Interrupt_Manager) and Keep_Unmasked -- unmasked when created. loop System.Tasking.Initialization.Defer_Abort (Self_ID); -- A Handler or an Entry is installed. At this point all tasks -- mask for the Interrupt is masked. Catch the Interrupt using -- sigwait. -- This task may wake up from sigwait by receiving an interrupt -- (Abort_Task_Interrupt) from the Interrupt_Manager for unbinding -- a Procedure Handler or an Entry. Or it could be a wake up -- from status change (Unblocked -> Blocked). If that is not -- the case, we should exceute the attached Procedure or Entry. if Single_Lock then POP.Lock_RTS; end if; POP.Write_Lock (Self_ID); if User_Handler (Interrupt).H = null and then User_Entry (Interrupt).T = Null_Task then -- No Interrupt binding. If there is an interrupt, -- Interrupt_Manager will take default action. Self_ID.Common.State := Interrupt_Server_Idle_Sleep; POP.Sleep (Self_ID, Interrupt_Server_Idle_Sleep); Self_ID.Common.State := Runnable; else Self_ID.Common.State := Interrupt_Server_Blocked_On_Event_Flag; Self_ID.Common.State := Runnable; if not (Self_ID.Deferral_Level = 0 and then Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level) then if User_Handler (Interrupt).H /= null then Tmp_Handler := User_Handler (Interrupt).H; -- RTS calls should not be made with self being locked. POP.Unlock (Self_ID); if Single_Lock then POP.Unlock_RTS; end if; Tmp_Handler.all; if Single_Lock then POP.Lock_RTS; end if; POP.Write_Lock (Self_ID); elsif User_Entry (Interrupt).T /= Null_Task then Tmp_ID := User_Entry (Interrupt).T; Tmp_Entry_Index := User_Entry (Interrupt).E; -- RTS calls should not be made with self being locked. POP.Unlock (Self_ID); if Single_Lock then POP.Unlock_RTS; end if; System.Tasking.Rendezvous.Call_Simple (Tmp_ID, Tmp_Entry_Index, System.Null_Address); if Single_Lock then POP.Lock_RTS; end if; POP.Write_Lock (Self_ID); end if; end if; end if; POP.Unlock (Self_ID); if Single_Lock then POP.Unlock_RTS; end if; System.Tasking.Initialization.Undefer_Abort (Self_ID); -- Undefer abort here to allow a window for this task -- to be aborted at the time of system shutdown. end loop; end Server_Task; ------------------------------------- -- Has_Interrupt_Or_Attach_Handler -- ------------------------------------- function Has_Interrupt_Or_Attach_Handler (Object : access Dynamic_Interrupt_Protection) return Boolean is pragma Warnings (Off, Object); begin return True; end Has_Interrupt_Or_Attach_Handler; -------------- -- Finalize -- -------------- procedure Finalize (Object : in out Static_Interrupt_Protection) is begin -- ??? loop to be executed only when we're not doing library level -- finalization, since in this case all interrupt tasks are gone. if not Interrupt_Manager'Terminated then for N in reverse Object.Previous_Handlers'Range loop Interrupt_Manager.Attach_Handler (New_Handler => Object.Previous_Handlers (N).Handler, Interrupt => Object.Previous_Handlers (N).Interrupt, Static => Object.Previous_Handlers (N).Static, Restoration => True); end loop; end if; Tasking.Protected_Objects.Entries.Finalize (Tasking.Protected_Objects.Entries.Protection_Entries (Object)); end Finalize; ------------------------------------- -- Has_Interrupt_Or_Attach_Handler -- ------------------------------------- function Has_Interrupt_Or_Attach_Handler (Object : access Static_Interrupt_Protection) return Boolean is pragma Warnings (Off, Object); begin return True; end Has_Interrupt_Or_Attach_Handler; ---------------------- -- Install_Handlers -- ---------------------- procedure Install_Handlers (Object : access Static_Interrupt_Protection; New_Handlers : New_Handler_Array) is begin for N in New_Handlers'Range loop -- We need a lock around this ??? Object.Previous_Handlers (N).Interrupt := New_Handlers (N).Interrupt; Object.Previous_Handlers (N).Static := User_Handler (New_Handlers (N).Interrupt).Static; -- We call Exchange_Handler and not directly Interrupt_Manager. -- Exchange_Handler so we get the Is_Reserved check. Exchange_Handler (Old_Handler => Object.Previous_Handlers (N).Handler, New_Handler => New_Handlers (N).Handler, Interrupt => New_Handlers (N).Interrupt, Static => True); end loop; end Install_Handlers; -- Elaboration code for package System.Interrupts begin -- Get Interrupt_Manager's ID so that Abort_Interrupt can be sent. Interrupt_Manager_ID := To_System (Interrupt_Manager'Identity); -- During the elaboration of this package body we want RTS to inherit the -- interrupt mask from the Environment Task. -- The Environment Task should have gotten its mask from the enclosing -- process during the RTS start up. (See in s-inmaop.adb). Pass the -- Interrupt_Mask of the Environment task to the Interrupt_Manager. -- Note : At this point we know that all tasks (including RTS internal -- servers) are masked for non-reserved signals (see s-taprop.adb). Only -- the Interrupt_Manager will have masks set up differently inheriting the -- original Environment Task's mask. Interrupt_Manager.Initialize (IMOP.Environment_Mask); end System.Interrupts;
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