430 lines
13 KiB
C
430 lines
13 KiB
C
/*
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* Copyright (c) 2015 Intel corporation
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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/**
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* @file
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* @brief Public interface for configuring interrupts
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*/
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#ifndef ZEPHYR_INCLUDE_IRQ_H_
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#define ZEPHYR_INCLUDE_IRQ_H_
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/* Pull in the arch-specific implementations */
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#include <arch/cpu.h>
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#ifndef _ASMLANGUAGE
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#include <toolchain.h>
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#include <zephyr/types.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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/**
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* @defgroup isr_apis Interrupt Service Routine APIs
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* @ingroup kernel_apis
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* @{
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*/
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/**
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* @brief Initialize an interrupt handler.
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*
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* This routine initializes an interrupt handler for an IRQ. The IRQ must be
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* subsequently enabled before the interrupt handler begins servicing
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* interrupts.
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*
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* @warning
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* Although this routine is invoked at run-time, all of its arguments must be
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* computable by the compiler at build time.
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*
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* @param irq_p IRQ line number.
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* @param priority_p Interrupt priority.
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* @param isr_p Address of interrupt service routine.
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* @param isr_param_p Parameter passed to interrupt service routine.
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* @param flags_p Architecture-specific IRQ configuration flags..
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*/
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#define IRQ_CONNECT(irq_p, priority_p, isr_p, isr_param_p, flags_p) \
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ARCH_IRQ_CONNECT(irq_p, priority_p, isr_p, isr_param_p, flags_p)
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/**
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* Configure a dynamic interrupt.
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*
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* Use this instead of IRQ_CONNECT() if arguments cannot be known at build time.
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*
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* @param irq IRQ line number
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* @param priority Interrupt priority
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* @param routine Interrupt service routine
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* @param parameter ISR parameter
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* @param flags Arch-specific IRQ configuration flags
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*
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* @return The vector assigned to this interrupt
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*/
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static inline int
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irq_connect_dynamic(unsigned int irq, unsigned int priority,
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void (*routine)(const void *parameter),
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const void *parameter, uint32_t flags)
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{
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return arch_irq_connect_dynamic(irq, priority, routine, parameter,
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flags);
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}
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/**
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* @brief Initialize a 'direct' interrupt handler.
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*
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* This routine initializes an interrupt handler for an IRQ. The IRQ must be
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* subsequently enabled via irq_enable() before the interrupt handler begins
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* servicing interrupts.
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*
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* These ISRs are designed for performance-critical interrupt handling and do
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* not go through common interrupt handling code. They must be implemented in
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* such a way that it is safe to put them directly in the vector table. For
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* ISRs written in C, The ISR_DIRECT_DECLARE() macro will do this
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* automatically. For ISRs written in assembly it is entirely up to the
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* developer to ensure that the right steps are taken.
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*
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* This type of interrupt currently has a few limitations compared to normal
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* Zephyr interrupts:
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* - No parameters are passed to the ISR.
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* - No stack switch is done, the ISR will run on the interrupted context's
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* stack, unless the architecture automatically does the stack switch in HW.
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* - Interrupt locking state is unchanged from how the HW sets it when the ISR
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* runs. On arches that enter ISRs with interrupts locked, they will remain
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* locked.
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* - Scheduling decisions are now optional, controlled by the return value of
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* ISRs implemented with the ISR_DIRECT_DECLARE() macro
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* - The call into the OS to exit power management idle state is now optional.
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* Normal interrupts always do this before the ISR is run, but when it runs
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* is now controlled by the placement of a ISR_DIRECT_PM() macro, or omitted
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* entirely.
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*
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* @warning
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* Although this routine is invoked at run-time, all of its arguments must be
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* computable by the compiler at build time.
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*
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* @param irq_p IRQ line number.
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* @param priority_p Interrupt priority.
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* @param isr_p Address of interrupt service routine.
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* @param flags_p Architecture-specific IRQ configuration flags.
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*/
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#define IRQ_DIRECT_CONNECT(irq_p, priority_p, isr_p, flags_p) \
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ARCH_IRQ_DIRECT_CONNECT(irq_p, priority_p, isr_p, flags_p)
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/**
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* @brief Common tasks before executing the body of an ISR
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*
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* This macro must be at the beginning of all direct interrupts and performs
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* minimal architecture-specific tasks before the ISR itself can run. It takes
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* no arguments and has no return value.
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*/
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#define ISR_DIRECT_HEADER() ARCH_ISR_DIRECT_HEADER()
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/**
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* @brief Common tasks before exiting the body of an ISR
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*
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* This macro must be at the end of all direct interrupts and performs
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* minimal architecture-specific tasks like EOI. It has no return value.
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*
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* In a normal interrupt, a check is done at end of interrupt to invoke
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* z_swap() logic if the current thread is preemptible and there is another
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* thread ready to run in the kernel's ready queue cache. This is now optional
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* and controlled by the check_reschedule argument. If unsure, set to nonzero.
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* On systems that do stack switching and nested interrupt tracking in software,
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* z_swap() should only be called if this was a non-nested interrupt.
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*
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* @param check_reschedule If nonzero, additionally invoke scheduling logic
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*/
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#define ISR_DIRECT_FOOTER(check_reschedule) \
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ARCH_ISR_DIRECT_FOOTER(check_reschedule)
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/**
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* @brief Perform power management idle exit logic
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*
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* This macro may optionally be invoked somewhere in between IRQ_DIRECT_HEADER()
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* and IRQ_DIRECT_FOOTER() invocations. It performs tasks necessary to
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* exit power management idle state. It takes no parameters and returns no
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* arguments. It may be omitted, but be careful!
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*/
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#define ISR_DIRECT_PM() ARCH_ISR_DIRECT_PM()
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/**
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* @brief Helper macro to declare a direct interrupt service routine.
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*
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* This will declare the function in a proper way and automatically include
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* the ISR_DIRECT_FOOTER() and ISR_DIRECT_HEADER() macros. The function should
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* return nonzero status if a scheduling decision should potentially be made.
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* See ISR_DIRECT_FOOTER() for more details on the scheduling decision.
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*
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* For architectures that support 'regular' and 'fast' interrupt types, where
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* these interrupt types require different assembly language handling of
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* registers by the ISR, this will always generate code for the 'fast'
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* interrupt type.
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*
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* Example usage:
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*
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* ISR_DIRECT_DECLARE(my_isr)
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* {
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* bool done = do_stuff();
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* ISR_DIRECT_PM(); <-- done after do_stuff() due to latency concerns
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* if (!done) {
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* return 0; <-- Don't bother checking if we have to z_swap()
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* }
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* k_sem_give(some_sem);
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* return 1;
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* }
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*
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* @param name symbol name of the ISR
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*/
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#define ISR_DIRECT_DECLARE(name) ARCH_ISR_DIRECT_DECLARE(name)
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/**
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* @brief Lock interrupts.
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* @def irq_lock()
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*
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* This routine disables all interrupts on the CPU. It returns an unsigned
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* integer "lock-out key", which is an architecture-dependent indicator of
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* whether interrupts were locked prior to the call. The lock-out key must be
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* passed to irq_unlock() to re-enable interrupts.
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*
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* @note
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* This routine must also serve as a memory barrier to ensure the uniprocessor
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* implementation of `k_spinlock_t` is correct.
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*
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* This routine can be called recursively, as long as the caller keeps track
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* of each lock-out key that is generated. Interrupts are re-enabled by
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* passing each of the keys to irq_unlock() in the reverse order they were
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* acquired. (That is, each call to irq_lock() must be balanced by
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* a corresponding call to irq_unlock().)
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*
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* This routine can only be invoked from supervisor mode. Some architectures
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* (for example, ARM) will fail silently if invoked from user mode instead
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* of generating an exception.
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*
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* @note
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* This routine can be called by ISRs or by threads. If it is called by a
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* thread, the interrupt lock is thread-specific; this means that interrupts
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* remain disabled only while the thread is running. If the thread performs an
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* operation that allows another thread to run (for example, giving a semaphore
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* or sleeping for N milliseconds), the interrupt lock no longer applies and
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* interrupts may be re-enabled while other processing occurs. When the thread
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* once again becomes the current thread, the kernel re-establishes its
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* interrupt lock; this ensures the thread won't be interrupted until it has
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* explicitly released the interrupt lock it established.
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*
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* @warning
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* The lock-out key should never be used to manually re-enable interrupts
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* or to inspect or manipulate the contents of the CPU's interrupt bits.
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*
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* @return An architecture-dependent lock-out key representing the
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* "interrupt disable state" prior to the call.
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*/
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#ifdef CONFIG_SMP
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unsigned int z_smp_global_lock(void);
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#define irq_lock() z_smp_global_lock()
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#else
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#define irq_lock() arch_irq_lock()
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#endif
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/**
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* @brief Unlock interrupts.
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* @def irq_unlock()
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*
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* This routine reverses the effect of a previous call to irq_lock() using
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* the associated lock-out key. The caller must call the routine once for
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* each time it called irq_lock(), supplying the keys in the reverse order
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* they were acquired, before interrupts are enabled.
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*
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* @note
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* This routine must also serve as a memory barrier to ensure the uniprocessor
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* implementation of `k_spinlock_t` is correct.
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*
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* This routine can only be invoked from supervisor mode. Some architectures
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* (for example, ARM) will fail silently if invoked from user mode instead
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* of generating an exception.
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*
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* @note Can be called by ISRs.
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*
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* @param key Lock-out key generated by irq_lock().
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*
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* @return N/A
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*/
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#ifdef CONFIG_SMP
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void z_smp_global_unlock(unsigned int key);
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#define irq_unlock(key) z_smp_global_unlock(key)
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#else
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#define irq_unlock(key) arch_irq_unlock(key)
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#endif
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/**
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* @brief Return IRQ level
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* @def irq_get_level()
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*
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* This routine returns the interrupt level number of the provided interrupt.
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*
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* @param irq IRQ number in its zephyr format
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*
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* @return 1 if IRQ level 1, 2 if IRQ level 2, 3 if IRQ level 3
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*/
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static inline unsigned int irq_get_level(unsigned int irq)
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{
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#if defined(CONFIG_3RD_LEVEL_INTERRUPTS)
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return ((irq >> 16) & 0xFF) != 0 ? 3 :
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(((irq >> 8) & 0xFF) == 0 ? 1 : 2);
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#elif defined(CONFIG_2ND_LEVEL_INTERRUPTS)
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return ((irq >> 8) & 0xFF) == 0 ? 1 : 2;
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#else
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ARG_UNUSED(irq);
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return 1;
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#endif
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}
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#ifdef CONFIG_2ND_LEVEL_INTERRUPTS
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/**
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* @brief Return the 2nd level interrupt number
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* @def irq_from_level_2()
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*
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* This routine returns the second level irq number of the zephyr irq
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* number passed in
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*
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* @param irq IRQ number in its zephyr format
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*
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* @return 2nd level IRQ number
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*/
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static inline unsigned int irq_from_level_2(unsigned int irq)
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{
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#ifdef CONFIG_3RD_LEVEL_INTERRUPTS
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return ((irq >> 8) & 0xFF) - 1;
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#else
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return (irq >> 8) - 1;
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#endif
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}
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/**
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* @brief Converts irq from level 1 to level 2 format
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* @def irq_to_level_2()
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*
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* This routine converts the input into the level 2 irq number format
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*
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* @note Values >= 0xFF are invalid
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*
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* @param irq IRQ number in its zephyr format
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*
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* @return 2nd level IRQ number
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*/
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static inline unsigned int irq_to_level_2(unsigned int irq)
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{
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return (irq + 1) << 8;
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}
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/**
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* @brief Returns the parent IRQ of the level 2 raw IRQ number
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* @def irq_parent_level_2()
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*
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* The parent of a 2nd level interrupt is in the 1st byte
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*
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* @param irq IRQ number in its zephyr format
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*
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* @return 2nd level IRQ parent
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*/
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static inline unsigned int irq_parent_level_2(unsigned int irq)
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{
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return irq & 0xFF;
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}
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#endif
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#ifdef CONFIG_3RD_LEVEL_INTERRUPTS
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/**
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* @brief Return the 3rd level interrupt number
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* @def irq_from_level_3()
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*
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* This routine returns the third level irq number of the zephyr irq
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* number passed in
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*
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* @param irq IRQ number in its zephyr format
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*
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* @return 3rd level IRQ number
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*/
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static inline unsigned int irq_from_level_3(unsigned int irq)
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{
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return (irq >> 16) - 1;
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}
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/**
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* @brief Converts irq from level 1 to level 3 format
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* @def irq_to_level_3()
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*
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* This routine converts the input into the level 3 irq number format
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*
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* @note Values >= 0xFF are invalid
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*
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* @param irq IRQ number in its zephyr format
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*
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* @return 3rd level IRQ number
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*/
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static inline unsigned int irq_to_level_3(unsigned int irq)
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{
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return (irq + 1) << 16;
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}
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/**
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* @brief Returns the parent IRQ of the level 3 raw IRQ number
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* @def irq_parent_level_3()
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*
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* The parent of a 3rd level interrupt is in the 2nd byte
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*
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* @param irq IRQ number in its zephyr format
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*
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* @return 3rd level IRQ parent
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*/
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static inline unsigned int irq_parent_level_3(unsigned int irq)
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{
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return (irq >> 8) & 0xFF;
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}
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#endif
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/**
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* @brief Enable an IRQ.
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*
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* This routine enables interrupts from source @a irq.
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*
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* @param irq IRQ line.
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*
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* @return N/A
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*/
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#define irq_enable(irq) arch_irq_enable(irq)
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/**
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* @brief Disable an IRQ.
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*
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* This routine disables interrupts from source @a irq.
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*
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* @param irq IRQ line.
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*
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* @return N/A
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*/
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#define irq_disable(irq) arch_irq_disable(irq)
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/**
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* @brief Get IRQ enable state.
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*
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* This routine indicates if interrupts from source @a irq are enabled.
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*
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* @param irq IRQ line.
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*
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* @return interrupt enable state, true or false
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*/
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#define irq_is_enabled(irq) arch_irq_is_enabled(irq)
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/**
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* @}
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*/
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#ifdef __cplusplus
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}
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#endif
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#endif /* ASMLANGUAGE */
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#endif /* ZEPHYR_INCLUDE_IRQ_H_ */
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