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C.3.1 Protected Procedure Handlers

Syntax

1
The form of a pragma Interrupt_Handler is as follows: 
2
  pragma Interrupt_Handler(handler_name);
3
The form of a pragma Attach_Handler is as follows: 
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  pragma Attach_Handler(handler_name, expression);

Name Resolution Rules

5
For the Interrupt_Handler and Attach_Handler pragmas, the handler_name shall resolve to denote a protected procedure with a parameterless profile.
6
For the Attach_Handler pragma, the expected type for the expression is Interrupts.Interrupt_ID (see C.3.2). 

Legality Rules

7/2
The Attach_Handler pragma is only allowed immediately within the protected_definition where the corresponding subprogram is declared. The corresponding protected_type_declaration or single_protected_declaration shall be a library-level declaration. 
8/2
The Interrupt_Handler pragma is only allowed immediately within the protected_definition where the corresponding subprogram is declared. The corresponding protected_type_declaration or single_protected_declaration shall be a library-level declaration. 

Dynamic Semantics

9
If the pragma Interrupt_Handler appears in a protected_definition, then the corresponding procedure can be attached dynamically, as a handler, to interrupts (see C.3.2). Such procedures are allowed to be attached to multiple interrupts.
10
The expression in the Attach_Handler pragma as evaluated at object creation time specifies an interrupt. As part of the initialization of that object, if the Attach_Handler pragma is specified, the handler procedure is attached to the specified interrupt. A check is made that the corresponding interrupt is not reserved. Program_Error is raised if the check fails, and the existing treatment for the interrupt is not affected.
11/2
If the Ceiling_Locking policy (see D.3) is in effect, then upon the initialization of a protected object for which either an Attach_Handler or Interrupt_Handler pragma applies to one of its procedures, a check is made that the ceiling priority defined in the protected_definition is in the range of System.Interrupt_Priority. If the check fails, Program_Error is raised.
12/1
When a protected object is finalized, for any of its procedures that are attached to interrupts, the handler is detached. If the handler was attached by a procedure in the Interrupts package or if no user handler was previously attached to the interrupt, the default treatment is restored. If an Attach_Handler pragma was used and the most recently attached handler for the same interrupt is the same as the one that was attached at the time the protected object was initialized, the previous handler is restored. 
13
When a handler is attached to an interrupt, the interrupt is blocked (subject to the Implementation Permission in C.3) during the execution of every protected action on the protected object containing the handler.

Erroneous Execution

14
If the Ceiling_Locking policy (see D.3) is in effect and an interrupt is delivered to a handler, and the interrupt hardware priority is higher than the ceiling priority of the corresponding protected object, the execution of the program is erroneous.
14.1/1
  If the handlers for a given interrupt attached via pragma Attach_Handler are not attached and detached in a stack-like (LIFO) order, program execution is erroneous. In particular, when a protected object is finalized, the execution is erroneous if any of the procedures of the protected object are attached to interrupts via pragma Attach_Handler and the most recently attached handler for the same interrupt is not the same as the one that was attached at the time the protected object was initialized. 

Metrics

15
The following metric shall be documented by the implementation: 
16/2
The worst-case overhead for an interrupt handler that is a parameterless protected procedure, in clock cycles. This is the execution time not directly attributable to the handler procedure or the interrupted execution. It is estimated as C – (A+B), where A is how long it takes to complete a given sequence of instructions without any interrupt, B is how long it takes to complete a normal call to a given protected procedure, and C is how long it takes to complete the same sequence of instructions when it is interrupted by one execution of the same procedure called via an interrupt. 

Implementation Permissions

17
When the pragmas Attach_Handler or Interrupt_Handler apply to a protected procedure, the implementation is allowed to impose implementation-defined restrictions on the corresponding protected_type_declaration and protected_body.
18
An implementation may use a different mechanism for invoking a protected procedure in response to a hardware interrupt than is used for a call to that protected procedure from a task. 
19
Notwithstanding what this subclause says elsewhere, the Attach_Handler and Interrupt_Handler pragmas are allowed to be used for other, implementation defined, forms of interrupt handlers. 

Implementation Advice

20
Whenever possible, the implementation should allow interrupt handlers to be called directly by the hardware. 
21
Whenever practical, the implementation should detect violations of any implementation-defined restrictions before run time.
NOTES
22
4  The Attach_Handler pragma can provide static attachment of handlers to interrupts if the implementation supports preelaboration of protected objects. (See C.4.)
23/2
5  A protected object that has a (protected) procedure attached to an interrupt should have a ceiling priority at least as high as the highest processor priority at which that interrupt will ever be delivered.
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6  Protected procedures can also be attached dynamically to interrupts via operations declared in the predefined package Interrupts.
25
7  An example of a possible implementation-defined restriction is disallowing the use of the standard storage pools within the body of a protected procedure that is an interrupt handler.

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