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J.7.1 Interrupt Entries
1
[Implementations are permitted to allow the attachment
of task entries to interrupts via the address clause. Such an entry is
referred to as an interrupt entry.
2
The address of the task entry corresponds
to a hardware interrupt in an implementation-defined manner. (See Ada.Interrupts.Reference
in
C.3.2.)]
Static Semantics
3
The following attribute
is defined:
4
For any task entry
X:
5
- {interrupt entry} X'Address
-
For a task entry whose address is specified (an interrupt entry),
the value refers to the corresponding hardware interrupt. For such an
entry, as for any other task entry, the meaning of this value is implementation
defined. The value of this attribute is of the type of the subtype System.Address.
6
- {specifiable (of Address for entries)
[partial]} Address may be specified for single
entries via an attribute_definition_clause.
6.a
Reason: Because of the
equivalence of at_clauses and attribute_definition_clauses,
an interrupt entry may be specified via either notation.
Dynamic Semantics
7
{initialization (of a task object)
[partial]} As part of the initialization of
a task object, the address clause for an interrupt entry is elaborated[,
which evaluates the
expression of
the address clause]. A check is made that the address specified is associated
with some interrupt to which a task entry may be attached.
{Program_Error
(raised by failure of run-time check)} If
this check fails, Program_Error is raised. Otherwise, the interrupt entry
is attached to the interrupt associated with the specified address.
8
{finalization (of a task object)
[partial]} Upon finalization of the task object,
the interrupt entry, if any, is detached from the corresponding interrupt
and the default treatment is restored.
9
While an interrupt entry is attached to
an interrupt, the interrupt is reserved (see
C.3).
10
An interrupt delivered to a task entry acts as
a call to the entry issued by a hardware task whose priority is in the
System.Interrupt_Priority range. It is implementation defined whether
the call is performed as an ordinary entry call, a timed entry call,
or a conditional entry call; which kind of call is performed can depend
on the specific interrupt.
Bounded (Run-Time) Errors
11
{bounded error (cause)
[partial]} It is a bounded error to evaluate E'Caller
(see
C.7.1) in an
accept_statement
for an interrupt entry. The possible effects are the same as for calling Current_Task
from an entry body.
Documentation Requirements
12
The implementation shall document to which interrupts
a task entry may be attached.
13
The implementation shall document whether the
invocation of an interrupt entry has the effect of an ordinary entry
call, conditional call, or a timed call, and whether the effect varies
in the presence of pending interrupts.
Implementation Permissions
14
The support for this subclause is optional.
15
Interrupts to which the implementation allows
a task entry to be attached may be designated as reserved for the entire
duration of program execution[; that is, not just when they have an interrupt
entry attached to them].
16/1
{
8652/0077}
Interrupt entry calls may be implemented by having the hardware execute directly
the appropriate
accept_statementaccept
body. Alternatively, the implementation is allowed to provide an internal
interrupt handler to simulate the effect of a normal task calling the entry.
17
The implementation is allowed to impose restrictions
on the specifications and bodies of tasks that have interrupt entries.
18
It is implementation defined whether direct calls
(from the program) to interrupt entries are allowed.
19
If a
select_statement
contains both a
terminate_alternative and
an
accept_alternative for an interrupt
entry, then an implementation is allowed to impose further requirements for
the selection of the
terminate_alternative
in addition to those given in
9.3.
20/1
1 {8652/0077}
Queued interrupts correspond to ordinary entry calls. Interrupts that are lost
if not immediately processed correspond to conditional entry calls. It is a
consequence of the priority rules that an accept_statementaccept
body executed in response to an interrupt can be executed with the active
priority at which the hardware generates the interrupt, taking precedence over
lower priority tasks, without a scheduling action.
21
2 Control information that
is supplied upon an interrupt can be passed to an associated interrupt
entry as one or more parameters of mode in.
Examples
22
Example of an
interrupt entry:
23
task Interrupt_Handler is
entry Done;
for Done'Address use Ada.Interrupts.Reference(Ada.Interrupts.Names.Device_Done);
end Interrupt_Handler;
Wording Changes from Ada 83
23.a
RM83-13.5.1 did not adequately
address the problems associate with interrupts. This feature is now obsolescent
and is replaced by the Ada 95 interrupt model as specified in the Systems
Programming Annex.
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