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-- C954012.A
--
-- Grant of Unlimited Rights
--
-- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
-- F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
-- unlimited rights in the software and documentation contained herein.
-- Unlimited rights are defined in DFAR 252.227-7013(a)(19). By making
-- this public release, the Government intends to confer upon all
-- recipients unlimited rights equal to those held by the Government.
-- These rights include rights to use, duplicate, release or disclose the
-- released technical data and computer software in whole or in part, in
-- any manner and for any purpose whatsoever, and to have or permit others
-- to do so.
--
-- DISCLAIMER
--
-- ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
-- DISCLOSED ARE AS IS. THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
-- WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
-- SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
-- OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
-- PARTICULAR PURPOSE OF SAID MATERIAL.
--*
--
-- OBJECTIVE:
-- Check a requeue within an accept body to another entry in the same task
-- Specifically, check a call with parameters and a requeue with abort.
--
-- TEST DESCRIPTION:
-- One transaction is sent through to check the paths. After
-- processing this the Credit task sets the "overloaded" indicator. Once
-- this indicator is set the Distributor queues low priority transactions
-- on a Wait_for_Underload queue in the same task using a requeue. The
-- Distributor still delivers high priority transactions. After two high
-- priority transactions have been processed by the Credit task it clears
-- the overload condition. The low priority transactions should now be
-- delivered.
--
-- This series of tests uses a simulation of a transaction driven
-- processing system. Line Drivers accept input from an external source
-- and build them into transaction records. These records are then
-- encapsulated in message tasks which remain extant for the life of the
-- transaction in the system. The message tasks put themselves on the
-- input queue of a Distributor which, from information in the
-- transaction and/or system load conditions forwards them to other
-- operating tasks. These in turn might forward the transactions to yet
-- other tasks for further action. The routing is, in real life, dynamic
-- and unpredictable at the time of message generation. All rerouting in
-- this model is done by means of requeues.
--
--
-- CHANGE HISTORY:
-- 06 Dec 94 SAIC ACVC 2.0
-- 25 Nov 95 SAIC Fixed shared global variable problem for
-- ACVC 2.0.1
-- 14 Mar 03 RLB Fixed a race condition and an incorrect termination
-- condition in the test.
--!
with Report;
with ImpDef;
with Ada.Calendar;
procedure C954012 is
function "=" (X,Y: Ada.Calendar.Time) return Boolean
renames Ada.Calendar."=";
-- Arbitrary test values
Credit_Return : constant := 1;
Debit_Return : constant := 2;
-- This is used as an "initializing" time for the messages as they are
-- created. As they pass through the Distributor they get a time_stamp
-- of the current time. An arbitrary base time is chosen.
-- TC: this fact is used, incidentally, to check that the messages have,
-- indeed, passed through the Distributor as expected.
--
Base_Time : Ada.Calendar.Time := Ada.Calendar.Time_of(1959,3,9);
-- Mechanism to count the number of Credit Message tasks completed
protected TC_Tasks_Completed is
procedure Increment;
function Count return integer;
private
Number_Complete : integer := 0;
end TC_Tasks_Completed;
protected type Shared_Boolean (Initial_Value : Boolean := False) is
procedure Set_True;
procedure Set_False;
function Value return Boolean;
private
Current_Value : Boolean := Initial_Value;
end Shared_Boolean;
protected body Shared_Boolean is
procedure Set_True is
begin
Current_Value := True;
end Set_True;
procedure Set_False is
begin
Current_Value := False;
end Set_False;
function Value return Boolean is
begin
return Current_Value;
end Value;
end Shared_Boolean;
TC_Debit_Message_Complete : Shared_Boolean (False);
-- Handshaking mechanism between the Line Driver and the Credit task
TC_First_Message_Has_Arrived : Shared_Boolean (False);
Credit_Overloaded : Shared_Boolean (False);
TC_Credit_Messages_Expected : constant integer := 5;
type Transaction_Code is (Credit, Debit);
type Transaction_Priority is (High, Low);
type Transaction_Record;
type acc_Transaction_Record is access Transaction_Record;
type Transaction_Record is
record
ID : integer := 0;
Code : Transaction_Code := Debit;
Priority : Transaction_Priority := High;
Account_Number : integer := 0;
Stock_Number : integer := 0;
Quantity : integer := 0;
Return_Value : integer := 0;
Message_Count : integer := 0; -- for test
Time_Stamp : Ada.Calendar.Time := Base_Time;
end record;
task type Message_Task is
entry Accept_Transaction (In_Transaction : acc_Transaction_Record);
end Message_Task;
type acc_Message_Task is access Message_Task;
task Line_Driver is
entry Start;
end Line_Driver;
task Distributor is
entry Input (Transaction : acc_Transaction_Record);
entry Wait_for_Underload (Transaction : acc_Transaction_Record);
entry TC_Credit_OK;
end Distributor;
task Credit_Computation is
entry Input(Transaction : acc_Transaction_Record);
end Credit_Computation;
task Debit_Computation is
entry Input(Transaction : acc_Transaction_Record);
end Debit_Computation;
-- Mechanism to count the number of Message tasks completed (Credit)
protected body TC_Tasks_Completed is
procedure Increment is
begin
Number_Complete := Number_Complete + 1;
end Increment;
function Count return integer is
begin
return Number_Complete;
end Count;
end TC_Tasks_Completed;
-- Assemble messages received from an external source
-- Creates a message task for each. The message tasks remain extant
-- for the life of the messages in the system.
-- The Line Driver task would normally be designed to loop continuously
-- creating the messages as input is received. Simulate this
-- but limit it to the required number of dummy messages needed for
-- this test and allow it to terminate at that point. Artificially
-- alternate High and Low priority Credit transactions for this test.
--
task body Line_Driver is
Current_ID : integer := 1;
Current_Priority : Transaction_Priority := High;
-- Artificial: number of messages required for this test
type TC_Trans_Range is range 1..6;
procedure Build_Credit_Record
( Next_Transaction : acc_Transaction_Record ) is
Dummy_Account : constant integer := 100;
begin
Next_Transaction.ID := Current_ID;
Next_Transaction.Code := Credit;
Next_Transaction.Priority := Current_Priority;
Next_Transaction.Account_Number := Dummy_Account;
Current_ID := Current_ID + 1;
end Build_Credit_Record;
procedure Build_Debit_Record
( Next_Transaction : acc_Transaction_Record ) is
Dummy_Account : constant integer := 200;
begin
Next_Transaction.ID := Current_ID;
Next_Transaction.Code := Debit;
Next_Transaction.Account_Number := Dummy_Account;
Current_ID := Current_ID + 1;
end Build_Debit_Record;
begin
accept Start; -- Wait for trigger from Main
for Transaction_Numb in TC_Trans_Range loop -- TC: limit the loop
declare
-- Create a task for the next message
Next_Message_Task : acc_Message_Task := new Message_Task;
-- Create a record for it
Next_Transaction : acc_Transaction_Record
:= new Transaction_Record;
begin
if Transaction_Numb = TC_Trans_Range'first then
-- Send the first Credit message
Build_Credit_Record ( Next_Transaction );
Next_Message_Task.Accept_Transaction ( Next_Transaction );
-- TC: Wait until the first message has been received by the
-- Credit task and it has set the Overload indicator for the
-- Distributor
while not TC_First_Message_Has_Arrived.Value loop
delay ImpDef.Minimum_Task_Switch;
end loop;
elsif Transaction_Numb = TC_Trans_Range'last then
-- For this test send the last transaction to the Debit task
-- to improve the mix
Build_Debit_Record( Next_Transaction );
Next_Message_Task.Accept_Transaction ( Next_Transaction );
else
-- TC: Alternate high and low priority transactions
if Current_Priority = High then
Current_Priority := Low;
else
Current_Priority := High;
end if;
Build_Credit_Record( Next_Transaction );
Next_Message_Task.Accept_Transaction ( Next_Transaction );
end if;
end; -- declare
end loop;
-- TC: Wait for Credit_Overloaded to be cleared, then insure that the
-- Distributor has evalated all tasks. Otherwise, some tasks may never
-- be evaluated.
while Credit_Overloaded.Value loop
delay ImpDef.Minimum_Task_Switch;
end loop;
Distributor.TC_Credit_OK;
exception
when others =>
Report.Failed ("Unexpected exception in Line_Driver");
end Line_Driver;
task body Message_Task is
TC_Original_Transaction_Code : Transaction_Code;
This_Transaction : acc_Transaction_Record := new Transaction_Record;
begin
accept Accept_Transaction (In_Transaction : acc_Transaction_Record) do
This_Transaction.all := In_Transaction.all;
end Accept_Transaction;
-- Note the original code to ensure correct return
TC_Original_Transaction_Code := This_Transaction.Code;
-- Queue up on Distributor's Input queue
Distributor.Input ( This_Transaction );
-- This task will now wait for the requeued rendezvous
-- to complete before proceeding
-- After the required computations have been performed
-- return the Transaction_Record appropriately (probably to an output
-- line driver)
null; -- stub
-- For the test check that the return values are as expected
if TC_Original_Transaction_Code /= This_Transaction.Code then
-- Incorrect rendezvous
Report.Failed ("Message Task: Incorrect code returned");
end if;
if This_Transaction.Code = Credit then
if This_Transaction.Return_Value /= Credit_Return or
This_Transaction.Time_Stamp = Base_Time then
Report.Failed ("Expected path not traversed");
end if;
TC_Tasks_Completed.Increment;
else
if This_Transaction.Return_Value /= Debit_Return or
This_Transaction.Message_Count /= 1 or
This_Transaction.Time_Stamp = Base_Time then
Report.Failed ("Expected path not traversed");
end if;
TC_Debit_Message_Complete.Set_True;
end if;
exception
when others =>
Report.Failed ("Unexpected exception in Message_Task");
end Message_Task;
-- Dispose each input Transaction_Record to the appropriate
-- computation tasks
--
task body Distributor is
begin
loop
select
accept Input (Transaction : acc_Transaction_Record) do
-- Time_Stamp the messages with the current time
-- TC: Used, incidentally, by the test to check that the
-- message did pass through the Distributor Task
Transaction.Time_Stamp := Ada.Calendar.Clock;
-- Pass this transaction on to the appropriate computation
-- task but temporarily hold low-priority transactions under
-- overload conditions
case Transaction.Code is
when Credit =>
if Credit_Overloaded.Value and
Transaction.Priority = Low then
requeue Wait_for_Underload with abort;
else
requeue Credit_Computation.Input with abort;
end if;
when Debit =>
requeue Debit_Computation.Input with abort;
end case;
end Input;
or
when not Credit_Overloaded.Value =>
accept Wait_for_Underload (Transaction : acc_Transaction_Record) do
requeue Credit_Computation.Input with abort;
end Wait_for_Underload;
or
accept TC_Credit_OK;
-- We need this to insure that we evaluate the guards at least
-- once when Credit_Overloaded is False. Otherwise, tasks
-- could stay queued on Wait_for_Underload forever (starvation).
or
terminate;
end select;
end loop;
exception
when others =>
Report.Failed ("Unexpected exception in Distributor");
end Distributor;
-- Computation task. After the computation is performed the rendezvous
-- in the original message task is completed.
--
task body Credit_Computation is
Message_Count : integer := 0;
begin
loop
select
accept Input ( Transaction : acc_Transaction_Record) do
if Credit_Overloaded.Value and
Transaction.Priority = Low then
-- We should not be getting any Low Priority messages. They
-- should be waiting on the Distributor's Wait_for_Underload
-- queue
Report.Failed
("Credit Task: Low priority transaction during overload");
end if;
-- Perform the computations required for this transaction
null; -- stub
-- For the test:
if Transaction.Time_Stamp = Base_Time then
Report.Failed
("Credit Task: Wrong queue, Distributor bypassed");
end if;
if Transaction.code /= Credit then
Report.Failed
("Credit Task: Requeue delivered to the wrong queue");
end if;
-- The following is all Test Control code:
Transaction.Return_Value := Credit_Return;
Message_Count := Message_Count + 1;
--
-- Now take special action depending on which Message
if Message_Count = 1 then
-- After the first message :
Credit_Overloaded.Set_True;
-- Now flag the Line_Driver that the second and subsequent
-- messages may now be sent
TC_First_Message_Has_Arrived.Set_True;
end if;
if Message_Count = 3 then
-- The two high priority transactions created subsequent
-- to the overload have now been processed
Credit_Overloaded.Set_False;
end if;
end Input;
or
terminate;
end select;
end loop;
exception
when others =>
Report.Failed ("Unexpected exception in Credit_Computation");
end Credit_Computation;
-- Computation task. After the computation is performed the rendezvous
-- in the original message task is completed.
--
task body Debit_Computation is
Message_Count : integer := 0;
begin
loop
select
accept Input (Transaction : acc_Transaction_Record) do
-- Perform the computations required for this message
null; -- stub
-- For the test:
if Transaction.Time_Stamp = Base_Time then
Report.Failed
("Debit Task: Wrong queue, Distributor bypassed");
end if;
if Transaction.code /= Debit then
Report.Failed
("Debit Task: Requeue delivered to the wrong queue");
end if;
-- for the test plug a known value and count
Transaction.Return_Value := Debit_Return;
-- one, and only one, message should pass through
Message_Count := Message_Count + 1;
Transaction.Message_Count := Message_Count;
end Input;
or
terminate;
end select;
end loop;
exception
when others =>
Report.Failed ("Unexpected exception in Debit_Computation");
end Debit_Computation;
begin -- c954012
Report.Test ("C954012", "Requeue within an accept body" &
" to another entry in the same task");
Line_Driver.Start; -- Start the test
-- Ensure that the message tasks complete before reporting the result
while (TC_Tasks_Completed.Count < TC_Credit_Messages_Expected)
or (not TC_Debit_Message_Complete.Value) loop
delay ImpDef.Minimum_Task_Switch;
end loop;
Report.Result;
end C954012;
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