201 lines
6.8 KiB
ReStructuredText
201 lines
6.8 KiB
ReStructuredText
.. _api_terms:
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API Terminology
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###############
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The following terms may be used as shorthand API tags to indicate the
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allowed calling context (thread, ISR, pre-kernel), the effect of a call
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on the current thread state, and other behavioral characteristics.
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:ref:`api_term_reschedule`
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if executing the function reaches a reschedule point
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:ref:`api_term_sleep`
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if executing the function can cause the invoking thread to sleep
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:ref:`api_term_no-wait`
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if a parameter to the function can prevent the invoking thread from
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trying to sleep
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:ref:`api_term_isr-ok`
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if the function can be safely called and will have its specified
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effect whether invoked from interrupt or thread context
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:ref:`api_term_pre-kernel-ok`
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if the function can be safely called before the kernel has been fully
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initialized and will have its specified effect when invoked from that
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context.
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:ref:`api_term_async`
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if the function may return before the operation it initializes is
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complete (i.e. function return and operation completion are
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asynchronous)
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:ref:`api_term_supervisor`
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if the calling thread must have supervisor privileges to execute the
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function
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Details on the behavioral impact of each attribute are in the following
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sections.
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.. _api_term_reschedule:
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reschedule
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==========
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The reschedule attribute is used on a function that can reach a
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:ref:`reschedule point <scheduling_v2>` within its execution.
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Details
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-------
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The significance of this attribute is that when a rescheduling function
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is invoked by a thread it is possible for that thread to be suspended as
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a consequence of a higher-priority thread being made ready. Whether the
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suspension actually occurs depends on the operation associated with the
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reschedule point and the relative priorities of the invoking thread and
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the head of the ready queue.
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Note that in the case of timeslicing, or reschedule points executed from
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interrupts, any thread may be suspended in any function.
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Functions that are not **reschedule** may be invoked from either thread
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or interrupt context.
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Functions that are **reschedule** may be invoked from thread context.
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Functions that are **reschedule** but not **sleep** may be invoked from
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interrupt context.
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.. _api_term_sleep:
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sleep
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=====
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The sleep attribute is used on a function that can cause the invoking
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thread to :ref:`sleep <scheduling_v2>`.
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Explanation
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-----------
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This attribute is of relevance specifically when considering
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applications that use only non-preemptible threads, because the kernel
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will not replace a running cooperative-only thread at a reschedule point
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unless that thread has explicitly invoked an operation that caused it to
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sleep.
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This attribute does not imply the function will sleep unconditionally,
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but that the operation may require an invoking thread that would have to
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suspend, wait, or invoke :c:func:`k_yield` before it can complete
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its operation. This behavior may be mediated by **no-wait**.
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Functions that are **sleep** are implicitly **reschedule**.
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Functions that are **sleep** may be invoked from thread context.
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Functions that are **sleep** may be invoked from interrupt and
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pre-kernel contexts if and only if invoked in **no-wait** mode.
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.. _api_term_no-wait:
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no-wait
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=======
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The no-wait attribute is used on a function that is also **sleep** to
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indicate that a parameter to the function can force an execution path
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that will not cause the invoking thread to sleep.
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Explanation
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-----------
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The paradigmatic case of a no-wait function is a function that takes a
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timeout, to which :c:macro:`K_NO_WAIT` can be passed. The semantics of
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this special timeout value are to execute the function's operation as
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long as it can be completed immediately, and to return an error code
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rather than sleep if it cannot.
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It is use of the no-wait feature that allows functions like
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:c:func:`k_sem_take` to be invoked from ISRs, since it is not
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permitted to sleep in interrupt context.
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A function with a no-wait path does not imply that taking that path
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guarantees the function is synchronous.
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Functions with this attribute may be invoked from interrupt and
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pre-kernel contexts only when the parameter selects the no-wait path.
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.. _api_term_isr-ok:
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isr-ok
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======
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The isr-ok attribute is used on a function to indicate that it works
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whether it is being invoked from interrupt or thread context.
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Explanation
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-----------
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Any function that is not **sleep** is inherently **isr-ok**. Functions
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that are **sleep** are **isr-ok** if the implementation ensures that the
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documented behavior is implemented even if called from an interrupt
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context. This may be achieved by having the implementation detect the
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calling context and transfer the operation that would sleep to a thread,
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or by documenting that when invoked from a non-thread context the
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function will return a specific error (generally ``-EWOULDBLOCK``).
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Note that a function that is **no-wait** is safe to call from interrupt
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context only when the no-wait path is selected. **isr-ok** functions
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need not provide a no-wait path.
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.. _api_term_pre-kernel-ok:
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pre-kernel-ok
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=============
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The pre-kernel-ok attribute is used on a function to indicate that it
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works as documented even when invoked before the kernel main thread has
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been started.
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Explanation
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-----------
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This attribute is similar to **isr-ok** in function, but is intended for
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use by any API that is expected to be called in :c:macro:`DEVICE_DEFINE()`
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or :c:macro:`SYS_INIT()` calls that may be invoked with ``PRE_KERNEL_1``
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or ``PRE_KERNEL_2`` initialization levels.
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Generally a function that is **pre-kernel-ok** checks
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:c:func:`k_is_pre_kernel` when determining whether it can fulfill its
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required behavior. In many cases it would also check
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:c:func:`k_is_in_isr` so it can be **isr-ok** as well.
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.. _api_term_async:
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async
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=====
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A function is **async** (i.e. asynchronous) if it may return before the
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operation it initiates has completed. An asynchronous function will
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generally provide a mechanism by which operation completion is reported,
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e.g. a callback or event.
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A function that is not asynchronous is synchronous, i.e. the operation
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will always be complete when the function returns. As most functions
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are synchronous this behavior does not have a distinct attribute to
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identify it.
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Explanation
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-----------
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Be aware that **async** is orthogonal to context-switching. Some APIs
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may provide completion information through a callback, but may suspend
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while waiting for the resource necessary to initiate the operation; an
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example is :c:func:`spi_transceive_signal`.
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If a function is both **no-wait** and **async** then selecting the
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no-wait path only guarantees that the function will not sleep. It does
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not affect whether the operation will be completed before the function
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returns.
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.. _api_term_supervisor:
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supervisor
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==========
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The supervisor attribute is relevant only in user-mode applications, and
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indicates that the function cannot be invoked from user mode.
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