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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) 1998-2009, 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 3, or (at your option) any later ver- -- -- sion. GNAT 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. -- -- -- -- As a special exception under Section 7 of GPL version 3, you are granted -- -- additional permissions described in the GCC Runtime Library Exception, -- -- version 3.1, as published by the Free Software Foundation. -- -- -- -- You should have received a copy of the GNU General Public License and -- -- a copy of the GCC Runtime Library Exception along with this program; -- -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- -- <http://www.gnu.org/licenses/>. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- ------------------------------------------------------------------------------ -- This is the IRIX & NT version of this package with Ada.Task_Identification; with Ada.Unchecked_Conversion; with Interfaces.C; with System.Storage_Elements; with System.Task_Primitives.Operations; with System.Tasking.Utilities; with System.Tasking.Rendezvous; with System.Tasking.Initialization; with System.Interrupt_Management; with System.Parameters; package body System.Interrupts is use Parameters; use Tasking; use System.OS_Interface; use Interfaces.C; package STPO renames System.Task_Primitives.Operations; package IMNG renames System.Interrupt_Management; subtype int is Interfaces.C.int; function To_System is new Ada.Unchecked_Conversion (Ada.Task_Identification.Task_Id, Task_Id); type Handler_Kind is (Unknown, Task_Entry, Protected_Procedure); type Handler_Desc is record Kind : Handler_Kind := Unknown; T : Task_Id; E : Task_Entry_Index; H : Parameterless_Handler; Static : Boolean := False; end record; task type Server_Task (Interrupt : Interrupt_ID) is pragma Interrupt_Priority (System.Interrupt_Priority'Last); end Server_Task; type Server_Task_Access is access Server_Task; Handlers : array (Interrupt_ID) of Task_Id; Descriptors : array (Interrupt_ID) of Handler_Desc; Interrupt_Count : array (Interrupt_ID) of Integer := (others => 0); pragma Volatile_Components (Interrupt_Count); procedure Attach_Handler (New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean; Restoration : Boolean); -- This internal procedure is needed to finalize protected objects -- that contain interrupt handlers. procedure Signal_Handler (Sig : Interrupt_ID); pragma Convention (C, Signal_Handler); -- This procedure is used to handle all the signals -- 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. -------------------------- -- Handler Registration -- -------------------------- 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_Handlers : R_Link := null; 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. type Handler_Ptr is access procedure (Sig : Interrupt_ID); pragma Convention (C, Handler_Ptr); function TISR is new Ada.Unchecked_Conversion (Handler_Ptr, isr_address); -------------------- -- Signal_Handler -- -------------------- procedure Signal_Handler (Sig : Interrupt_ID) is Handler : Task_Id renames Handlers (Sig); begin if Intr_Attach_Reset and then intr_attach (int (Sig), TISR (Signal_Handler'Access)) = FUNC_ERR then raise Program_Error; end if; if Handler /= null then Interrupt_Count (Sig) := Interrupt_Count (Sig) + 1; STPO.Wakeup (Handler, Interrupt_Server_Idle_Sleep); end if; end Signal_Handler; ----------------- -- 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 Program_Error with "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"; end if; return Descriptors (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 Program_Error with "Interrupt" & Interrupt_ID'Image (Interrupt) & " is reserved"; else return Descriptors (Interrupt).Kind /= Unknown; end if; end Is_Handler_Attached; ---------------- -- Is_Ignored -- ---------------- function Is_Ignored (Interrupt : Interrupt_ID) return Boolean is begin raise Program_Error; return False; end Is_Ignored; ------------------ -- Unblocked_By -- ------------------ function Unblocked_By (Interrupt : Interrupt_ID) return Task_Id is begin raise Program_Error; return Null_Task; end Unblocked_By; ---------------------- -- Ignore_Interrupt -- ---------------------- procedure Ignore_Interrupt (Interrupt : Interrupt_ID) is begin raise Program_Error; end Ignore_Interrupt; ------------------------ -- Unignore_Interrupt -- ------------------------ procedure Unignore_Interrupt (Interrupt : Interrupt_ID) is begin raise Program_Error; end Unignore_Interrupt; ------------------------------------- -- Has_Interrupt_Or_Attach_Handler -- ------------------------------------- function Has_Interrupt_Or_Attach_Handler (Object : access Dynamic_Interrupt_Protection) return Boolean is pragma Unreferenced (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. for N in reverse Object.Previous_Handlers'Range loop 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; 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 Unreferenced (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 := Descriptors (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; --------------------------------- -- Install_Restricted_Handlers -- --------------------------------- procedure Install_Restricted_Handlers (Handlers : New_Handler_Array) is begin for N in Handlers'Range loop Attach_Handler (Handlers (N).Handler, Handlers (N).Interrupt, True); end loop; end Install_Restricted_Handlers; --------------------- -- Current_Handler -- --------------------- function Current_Handler (Interrupt : Interrupt_ID) return Parameterless_Handler is begin if Is_Reserved (Interrupt) then raise Program_Error; end if; if Descriptors (Interrupt).Kind = Protected_Procedure then return Descriptors (Interrupt).H; else return null; end if; end Current_Handler; -------------------- -- Attach_Handler -- -------------------- procedure Attach_Handler (New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean := False) is begin Attach_Handler (New_Handler, Interrupt, Static, False); end Attach_Handler; procedure Attach_Handler (New_Handler : Parameterless_Handler; Interrupt : Interrupt_ID; Static : Boolean; Restoration : Boolean) is New_Task : Server_Task_Access; begin if Is_Reserved (Interrupt) then raise Program_Error; end if; if not Restoration and then not Static -- Tries to overwrite a static Interrupt Handler with dynamic handle and then (Descriptors (Interrupt).Static -- New handler not specified as an Interrupt Handler by a pragma or else not Is_Registered (New_Handler)) then raise Program_Error with "Trying to overwrite a static Interrupt Handler with a " & "dynamic Handler"; end if; if Handlers (Interrupt) = null then New_Task := new Server_Task (Interrupt); Handlers (Interrupt) := To_System (New_Task.all'Identity); end if; if intr_attach (int (Interrupt), TISR (Signal_Handler'Access)) = FUNC_ERR then raise Program_Error; end if; if New_Handler = null then -- The null handler means we are detaching the handler Descriptors (Interrupt) := (Kind => Unknown, T => null, E => 0, H => null, Static => False); else Descriptors (Interrupt).Kind := Protected_Procedure; Descriptors (Interrupt).H := New_Handler; Descriptors (Interrupt).Static := Static; end if; end Attach_Handler; ---------------------- -- Exchange_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 Program_Error; end if; if Descriptors (Interrupt).Kind = Task_Entry then -- In case we have an Interrupt Entry already installed. -- raise a program error. (propagate it to the caller). raise Program_Error with "An interrupt is already installed"; else Old_Handler := Current_Handler (Interrupt); Attach_Handler (New_Handler, Interrupt, Static); end if; end Exchange_Handler; -------------------- -- Detach_Handler -- -------------------- procedure Detach_Handler (Interrupt : Interrupt_ID; Static : Boolean := False) is begin if Is_Reserved (Interrupt) then raise Program_Error; end if; if Descriptors (Interrupt).Kind = Task_Entry then raise Program_Error with "Trying to detach an Interrupt Entry"; end if; if not Static and then Descriptors (Interrupt).Static then raise Program_Error with "Trying to detach a static Interrupt Handler"; end if; Descriptors (Interrupt) := (Kind => Unknown, T => null, E => 0, H => null, Static => False); if intr_attach (int (Interrupt), null) = FUNC_ERR then raise Program_Error; end if; end Detach_Handler; --------------- -- Reference -- --------------- function Reference (Interrupt : Interrupt_ID) return System.Address is Signal : constant System.Address := System.Storage_Elements.To_Address (System.Storage_Elements.Integer_Address (Interrupt)); begin if Is_Reserved (Interrupt) then -- Only usable Interrupts can be used for binding it to an Entry raise Program_Error; end if; return Signal; end Reference; -------------------------------- -- Register_Interrupt_Handler -- -------------------------------- procedure Register_Interrupt_Handler (Handler_Addr : System.Address) is begin Registered_Handlers := new Registered_Handler'(H => Handler_Addr, Next => Registered_Handlers); end Register_Interrupt_Handler; ------------------- -- Is_Registered -- ------------------- -- See if the Handler has been "pragma"ed using Interrupt_Handler. -- Always consider a null handler as registered. function Is_Registered (Handler : Parameterless_Handler) return Boolean is Ptr : R_Link := Registered_Handlers; type Fat_Ptr is record Object_Addr : System.Address; Handler_Addr : System.Address; end record; function To_Fat_Ptr is new Ada.Unchecked_Conversion (Parameterless_Handler, Fat_Ptr); Fat : Fat_Ptr; begin if Handler = null then return True; end if; Fat := To_Fat_Ptr (Handler); 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; ----------------------------- -- Bind_Interrupt_To_Entry -- ----------------------------- 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)); New_Task : Server_Task_Access; begin if Is_Reserved (Interrupt) then raise Program_Error; end if; if Descriptors (Interrupt).Kind /= Unknown then raise Program_Error with "A binding for this interrupt is already present"; end if; if Handlers (Interrupt) = null then New_Task := new Server_Task (Interrupt); Handlers (Interrupt) := To_System (New_Task.all'Identity); end if; if intr_attach (int (Interrupt), TISR (Signal_Handler'Access)) = FUNC_ERR then raise Program_Error; end if; Descriptors (Interrupt).Kind := Task_Entry; Descriptors (Interrupt).T := T; Descriptors (Interrupt).E := E; -- Indicate the attachment of Interrupt Entry in ATCB. This is needed so -- that when an Interrupt Entry task terminates the binding can be -- cleaned up. The call to unbinding must be make by the task before it -- terminates. T.Interrupt_Entry := True; end Bind_Interrupt_To_Entry; ------------------------------ -- Detach_Interrupt_Entries -- ------------------------------ procedure Detach_Interrupt_Entries (T : Task_Id) is begin for J in Interrupt_ID loop if not Is_Reserved (J) then if Descriptors (J).Kind = Task_Entry and then Descriptors (J).T = T then Descriptors (J).Kind := Unknown; if intr_attach (int (J), null) = FUNC_ERR then raise Program_Error; end if; end if; end if; end loop; -- Indicate in ATCB that no Interrupt Entries are attached T.Interrupt_Entry := True; end Detach_Interrupt_Entries; --------------------- -- Block_Interrupt -- --------------------- procedure Block_Interrupt (Interrupt : Interrupt_ID) is begin raise Program_Error; end Block_Interrupt; ----------------------- -- Unblock_Interrupt -- ----------------------- procedure Unblock_Interrupt (Interrupt : Interrupt_ID) is begin raise Program_Error; end Unblock_Interrupt; ---------------- -- Is_Blocked -- ---------------- function Is_Blocked (Interrupt : Interrupt_ID) return Boolean is begin raise Program_Error; return False; end Is_Blocked; task body Server_Task is Desc : Handler_Desc renames Descriptors (Interrupt); Self_Id : constant Task_Id := STPO.Self; Temp : Parameterless_Handler; begin Utilities.Make_Independent; loop while Interrupt_Count (Interrupt) > 0 loop Interrupt_Count (Interrupt) := Interrupt_Count (Interrupt) - 1; begin case Desc.Kind is when Unknown => null; when Task_Entry => Rendezvous.Call_Simple (Desc.T, Desc.E, Null_Address); when Protected_Procedure => Temp := Desc.H; Temp.all; end case; exception when others => null; end; end loop; Initialization.Defer_Abort (Self_Id); if Single_Lock then STPO.Lock_RTS; end if; STPO.Write_Lock (Self_Id); Self_Id.Common.State := Interrupt_Server_Idle_Sleep; STPO.Sleep (Self_Id, Interrupt_Server_Idle_Sleep); Self_Id.Common.State := Runnable; STPO.Unlock (Self_Id); if Single_Lock then STPO.Unlock_RTS; end if; 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; end System.Interrupts;
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