src/rp2_common/pico_async_context/include/pico/async_context.h - third_party/github/raspberrypi/pico-sdk - Git at Google

 /*
  * Copyright (c) 2022 Raspberry Pi (Trading) Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 /** \file pico/async_context.h
  *  \defgroup pico_async_context pico_async_context
  *
  * An \ref async_context provides a logically single-threaded context for performing work, and responding
  * to asynchronous events. Thus an async_context instance is suitable for servicing third-party libraries
  * that are not re-entrant.
  *
  * The "context" in async_context refers to the fact that when calling workers or timeouts within the
  * async_context various pre-conditions hold:
  *
  * <ol>
  * <li>That there is a single logical thread of execution; i.e. that the context does not call any worker
  * functions concurrently.
  * <li>That the context always calls workers from the same processor core, as most uses of async_context rely on interaction
  * with IRQs which are themselves core-specific.
  * </ol>
  *
  * THe async_context provides two mechanisms for asynchronous work:
  *
  * * <em>when_pending</em> workers, which are processed whenever they have work pending. See \ref async_context_add_when_pending_worker,
  * \ref async_context_remove_when_pending_worker, and \ref async_context_set_work_pending, the latter of which can be used from an interrupt handler
  * to signal that servicing work is required to be performed by the worker from the regular async_context.
  * * <em>at_time</em> workers, that are executed after at a specific time.
  *
  * Note: "when pending" workers with work pending are executed before "at time" workers.
  *
  * The async_context provides locking mechanisms, see \ref async_context_acquire_lock_blocking,
  * \ref async_context_release_lock and \ref async_context_lock_check which can be used by
  * external code to ensure execution of external code does not happen concurrently with worker code.
  * Locked code runs on the calling core, however \ref async_context_execute_sync is provided to
  * synchronously run a function from the core of the async_context.
  *
  * The SDK ships with the following default async_contexts:
  *
  * async_context_poll - this context is not thread-safe, and the user is responsible for calling
  * \ref async_context_poll() periodically, and can use async_context_wait_for_work_until() to sleep
  * between calls until work is needed if the user has nothing else to do.
  *
  * async_context_threadsafe_background - in order to work in the background, a low priority IRQ is used
  * to handle callbacks. Code is usually invoked from this IRQ context, but may be invoked after any other code
  * that uses the async context in another (non-IRQ) context on the same core. Calling \ref async_context_poll() is
  * not required, and is a no-op. This context implements async_context locking and is thus safe to call
  * from either core, according to the specific notes on each API.
  *
  * async_context_freertos - Work is performed from a separate "async_context" task, however once again, code may
  * also be invoked after a direct use of the async_context on the same core that the async_context belongs to. Calling
  * \ref async_context_poll() is not required, and is a no-op. This context implements async_context locking and is thus
  * safe to call from any task, and from either core, according to the specific notes on each API.
  *
  * Each async_context provides bespoke methods of instantiation which are provided in the corresponding headers (e.g.
  * async_context_poll.h, async_context_threadsafe_background.h, asycn_context_freertos.h).
  * async_contexts are de-initialized by the common async_context_deint() method.
  *
  * Multiple async_context instances can be used by a single application, and they will operate independently.
  */

 #ifndef _PICO_ASYNC_CONTEXT_H
 #define _PICO_ASYNC_CONTEXT_H

 #include "pico.h"
 #include "pico/time.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 enum {
     ASYNC_CONTEXT_POLL = 1,
     ASYNC_CONTEXT_THREADSAFE_BACKGROUND = 2,
     ASYNC_CONTEXT_FREERTOS = 3,
 };

 typedef struct async_context async_context_t;

 /*! \brief A "timeout" instance used by an async_context
  *  \ingroup pico_async_context
  *
  *  A "timeout" represents some future action that must be taken at a specific time.
  *  It's methods are called from the async_context under lock at the given time
  *
  * \see async_context_add_worker_at
  * \see async_context_add_worker_in_ms
  */
 typedef struct async_work_on_timeout {
     /*!
      * private link list pointer
      */
     struct async_work_on_timeout *next;
     /*!
      * Method called when the timeout is reached; may not be NULL
      *
      * Note, that when this method is called, the timeout has been removed from the async_context, so
      * if you want the timeout to repeat, you should re-add it during this callback
      * @param context
      * @param timeout
      */
     void (*do_work)(async_context_t *context, struct async_work_on_timeout *timeout);
     /*!
      * The next timeout time; this should only be modified during the above methods
      * or via async_context methods
      */
     absolute_time_t next_time;
     /*!
      * User data associated with the timeout instance
      */
     void *user_data;
 } async_at_time_worker_t;

 /*! \brief A "worker" instance used by an async_context
  *  \ingroup pico_async_context
  *
  *  A "worker" represents some external entity that must do work in response
  *  to some external stimulus (usually an IRQ).
  *  It's methods are called from the async_context under lock at the given time
  *
  * \see async_context_add_worker_at
  * \see async_context_add_worker_in_ms
  */
 typedef struct async_when_pending_worker {
     /*!
      * private link list pointer
      */
     struct async_when_pending_worker *next;
     /*!
      * Called by the async_context when the worker has been marked as having "work pending"
      *
      * @param context the async_context
      * @param worker the function to be called when work is pending
      */
     void (*do_work)(async_context_t *context, struct async_when_pending_worker *worker);
     /**
      * True if the worker need do_work called
      */
     bool work_pending;
 } async_when_pending_worker_t;

 #define ASYNC_CONTEXT_FLAG_CALLBACK_FROM_NON_IRQ 0x1
 #define ASYNC_CONTEXT_FLAG_CALLBACK_FROM_IRQ 0x2
 #define ASYNC_CONTEXT_FLAG_POLLED 0x4

 /*!
  * \brief Implementation of an async_context type, providing methods common to that type
  * \ingroup pico_async_context
  */
 typedef struct async_context_type {
     uint16_t type;
     // see wrapper functions for documentation
     void (*acquire_lock_blocking)(async_context_t *self);
     void (*release_lock)(async_context_t *self);
     void (*lock_check)(async_context_t *self);
     uint32_t (*execute_sync)(async_context_t *context, uint32_t (*func)(void *param), void *param);
     bool (*add_at_time_worker)(async_context_t *self, async_at_time_worker_t *worker);
     bool (*remove_at_time_worker)(async_context_t *self, async_at_time_worker_t *worker);
     bool (*add_when_pending_worker)(async_context_t *self, async_when_pending_worker_t *worker);
     bool (*remove_when_pending_worker)(async_context_t *self, async_when_pending_worker_t *worker);
     void (*set_work_pending)(async_context_t *self, async_when_pending_worker_t *worker);
     void (*poll)(async_context_t *self); // may be NULL
     void (*wait_until)(async_context_t *self, absolute_time_t until);
     void (*wait_for_work_until)(async_context_t *self, absolute_time_t until);
     void (*deinit)(async_context_t *self);
 } async_context_type_t;

 /*!
  * \brief Base structure type of all async_contexts. For details about its use, see \ref pico_async_context.
  * \ingroup pico_async_context
  *
  * Individual async_context_types with additional state, should contain this structure at the start.
  */
 struct async_context {
     const async_context_type_t *type;
     async_when_pending_worker_t *when_pending_list;
     async_at_time_worker_t *at_time_list;
     absolute_time_t next_time;
     uint16_t flags;
     uint8_t  core_num;
 };

 /*!
  * \brief Acquire the async_context lock
  * \ingroup pico_async_context
  *
  * The owner of the async_context lock is the logic owner of the async_context
  * and other work related to this async_context will not happen concurrently.
  *
  * This method may be called in a nested fashion by the the lock owner.
  *
  * \note the async_context lock is nestable by the same caller, so an internal count is maintained
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  *
  * \see async_context_release_lock
  */
 static inline void async_context_acquire_lock_blocking(async_context_t *context) {
     context->type->acquire_lock_blocking(context);
 }

 /*!
  * \brief Release the async_context lock
  * \ingroup pico_async_context
  *
  * \note the async_context lock may be called in a nested fashion, so an internal count is maintained. On the outermost
  * release, When the outermost lock is released, a check is made for work which might have been skipped while the lock was held,
  * and any such work may be performed during this call IF the call is made from the same core that the async_context belongs to.
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  *
  * \see async_context_acquire_lock_blocking
  */
 static inline void async_context_release_lock(async_context_t *context) {
     context->type->release_lock(context);
 }

 /*!
  * \brief Assert if the caller does not own the lock for the async_context
  * \ingroup pico_async_context
  * \note this method is thread-safe
  *
  * \param context the async_context
  */
 static inline void async_context_lock_check(async_context_t *context) {
     context->type->lock_check(context);
 }

 /*!
  * \brief Execute work synchronously on the core the async_context belongs to.
  * \ingroup pico_async_context
  *
  * This method is intended for code external to the async_context (e.g. another thread/task) to
  * execute a function with the same guarantees (single core, logical thread of execution) that
  * async_context workers are called with.
  *
  * \note you should NOT call this method while holding the async_context's lock
  *
  * \param context the async_context
  * \param func the function to call
  * \param param the paramter to pass to the function
  * \return the return value from func
  */
 static inline uint32_t async_context_execute_sync(async_context_t *context, uint32_t (*func)(void *param), void *param) {
     return context->type->execute_sync(context, func, param);
 }

 /*!
  * \brief Add an "at time" worker to a context
  * \ingroup pico_async_context
  *
  * An "at time" worker will run at or after a specific point in time, and is automatically when (just before) it runs.
  *
  * The time to fire is specified in the next_time field of the worker.
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  * \param worker the "at time" worker to add
  * \return true if the worker was added, false if the worker was already present.
  */
 static inline bool async_context_add_at_time_worker(async_context_t *context, async_at_time_worker_t *worker) {
     return context->type->add_at_time_worker(context, worker);
 }

 /*!
  * \brief Add an "at time" worker to a context
  * \ingroup pico_async_context
  *
  * An "at time" worker will run at or after a specific point in time, and is automatically when (just before) it runs.
  *
  * The time to fire is specified by the at parameter.
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  * \param worker the "at time" worker to add
  * \param at the time to fire at
  * \return true if the worker was added, false if the worker was already present.
  */
 static inline bool async_context_add_at_time_worker_at(async_context_t *context, async_at_time_worker_t *worker, absolute_time_t at) {
     worker->next_time = at;
     return context->type->add_at_time_worker(context, worker);
 }

 /*!
  * \brief Add an "at time" worker to a context
  * \ingroup pico_async_context
  *
  * An "at time" worker will run at or after a specific point in time, and is automatically when (just before) it runs.
  *
  * The time to fire is specified by a delay via the ms parameter
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  * \param worker the "at time" worker to add
  * \param ms the number of milliseconds from now to fire after
  * \return true if the worker was added, false if the worker was already present.
  */
 static inline bool async_context_add_at_time_worker_in_ms(async_context_t *context, async_at_time_worker_t *worker, uint32_t ms) {
     worker->next_time = make_timeout_time_ms(ms);
     return context->type->add_at_time_worker(context, worker);
 }

 /*!
  * \brief Remove an "at time" worker from a context
  * \ingroup pico_async_context
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  * \param worker the "at time" worker to remove
  * \return true if the worker was removed, false if the instance not present.
  */
 static inline bool async_context_remove_at_time_worker(async_context_t *context, async_at_time_worker_t *worker) {
     return context->type->remove_at_time_worker(context, worker);
 }

 /*!
  * \brief Add a "when pending" worker to a context
  * \ingroup pico_async_context
  *
  * An "when pending" worker will run when it is pending (can be set via \ref async_context_set_work_pending), and
  * is NOT automatically removed when it runs.
  *
  * The time to fire is specified by a delay via the ms parameter
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  * \param worker the "when pending" worker to add
  * \return true if the worker was added, false if the worker was already present.
  */
 static inline bool async_context_add_when_pending_worker(async_context_t *context, async_when_pending_worker_t *worker) {
     return context->type->add_when_pending_worker(context, worker);
 }

 /*!
  * \brief Remove a "when pending" worker from a context
  * \ingroup pico_async_context
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  * \param worker the "when pending" worker to remove
  * \return true if the worker was removed, false if the instance not present.
  */
 static inline bool async_context_remove_when_pending_worker(async_context_t *context, async_when_pending_worker_t *worker) {
     return context->type->remove_when_pending_worker(context, worker);
 }

 /*!
  * \brief Mark a "when pending" worker as having work pending
  * \ingroup pico_async_context
  *
  * The worker will be run from the async_context at a later time.
  *
  * \note this method may be called from any context including IRQs
  *
  * \param context the async_context
  * \param worker the "when pending" worker to mark as pending.
  */
 static inline void async_context_set_work_pending(async_context_t *context, async_when_pending_worker_t *worker) {
     context->type->set_work_pending(context, worker);
 }

 /*!
  * \brief Perform any pending work for polling style async_context
  * \ingroup pico_async_context
  *
  * For a polled async_context (e.g. \ref async_context_poll) the user is responsible for calling this method
  * periodically to perform any required work.
  *
  * This method may immediately perform outstanding work on other context types, but is not required to.
  *
  * \param context the async_context
  */
 static inline void async_context_poll(async_context_t *context) {
     if (context->type->poll) context->type->poll(context);
 }

 /*!
  * \brief sleep until the specified time in an async_context callback safe way
  * \ingroup pico_async_context
  *
  * \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
  * worker method called by the async_context or from any other non-IRQ context.
  *
  * \param context the async_context
  * \param until the time to sleep until
  */
 static inline void async_context_wait_until(async_context_t *context, absolute_time_t until) {
     context->type->wait_until(context, until);
 }

 /*!
  * \brief Block until work needs to be done or the specified time has been reached
  * \ingroup pico_async_context
  *
  * \note this method should not be called from a worker callback
  *
  * \param context the async_context
  * \param until the time to return at if no work is required
  */
 static inline void async_context_wait_for_work_until(async_context_t *context, absolute_time_t until) {
     context->type->wait_for_work_until(context, until);
 }

 /*!
  * \brief Block until work needs to be done or the specified number of milliseconds have passed
  * \ingroup pico_async_context
  *
  * \note this method should not be called from a worker callback
  *
  * \param context the async_context
  * \param ms the number of milliseconds to return after if no work is required
  */
 static inline void async_context_wait_for_work_ms(async_context_t *context, uint32_t ms) {
     async_context_wait_for_work_until(context, make_timeout_time_ms(ms));
 }

 /*!
  * \brief Return the processor core this async_context belongs to
  * \ingroup pico_async_context
  *
  * \param context the async_context
  * \return the physical core number
  */
 static inline uint async_context_core_num(const async_context_t *context) {
     return context->core_num;
 }

 /*!
  * \brief End async_context processing, and free any resources
  * \ingroup pico_async_context
  *
  * Note the user should clean up any resources associated with workers
  * in the async_context themselves.
  *
  * Asynchronous (non-polled) async_contexts guarantee that no
  * callback is being called once this method returns.
  *
  * \param context the async_context
  */
 static inline void async_context_deinit(async_context_t *context) {
     context->type->deinit(context);
 }

 #ifdef __cplusplus
 }
 #endif

 #endif
	/*
	* Copyright (c) 2022 Raspberry Pi (Trading) Ltd.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	/** \file pico/async_context.h
	* \defgroup pico_async_context pico_async_context
	*
	* An \ref async_context provides a logically single-threaded context for performing work, and responding
	* to asynchronous events. Thus an async_context instance is suitable for servicing third-party libraries
	* that are not re-entrant.
	*
	* The "context" in async_context refers to the fact that when calling workers or timeouts within the
	* async_context various pre-conditions hold:
	*
	* <ol>
	* <li>That there is a single logical thread of execution; i.e. that the context does not call any worker
	* functions concurrently.
	* <li>That the context always calls workers from the same processor core, as most uses of async_context rely on interaction
	* with IRQs which are themselves core-specific.
	* </ol>
	*
	* THe async_context provides two mechanisms for asynchronous work:
	*
	* * <em>when_pending</em> workers, which are processed whenever they have work pending. See \ref async_context_add_when_pending_worker,
	* \ref async_context_remove_when_pending_worker, and \ref async_context_set_work_pending, the latter of which can be used from an interrupt handler
	* to signal that servicing work is required to be performed by the worker from the regular async_context.
	* * <em>at_time</em> workers, that are executed after at a specific time.
	*
	* Note: "when pending" workers with work pending are executed before "at time" workers.
	*
	* The async_context provides locking mechanisms, see \ref async_context_acquire_lock_blocking,
	* \ref async_context_release_lock and \ref async_context_lock_check which can be used by
	* external code to ensure execution of external code does not happen concurrently with worker code.
	* Locked code runs on the calling core, however \ref async_context_execute_sync is provided to
	* synchronously run a function from the core of the async_context.
	*
	* The SDK ships with the following default async_contexts:
	*
	* async_context_poll - this context is not thread-safe, and the user is responsible for calling
	* \ref async_context_poll() periodically, and can use async_context_wait_for_work_until() to sleep
	* between calls until work is needed if the user has nothing else to do.
	*
	* async_context_threadsafe_background - in order to work in the background, a low priority IRQ is used
	* to handle callbacks. Code is usually invoked from this IRQ context, but may be invoked after any other code
	* that uses the async context in another (non-IRQ) context on the same core. Calling \ref async_context_poll() is
	* not required, and is a no-op. This context implements async_context locking and is thus safe to call
	* from either core, according to the specific notes on each API.
	*
	* async_context_freertos - Work is performed from a separate "async_context" task, however once again, code may
	* also be invoked after a direct use of the async_context on the same core that the async_context belongs to. Calling
	* \ref async_context_poll() is not required, and is a no-op. This context implements async_context locking and is thus
	* safe to call from any task, and from either core, according to the specific notes on each API.
	*
	* Each async_context provides bespoke methods of instantiation which are provided in the corresponding headers (e.g.
	* async_context_poll.h, async_context_threadsafe_background.h, asycn_context_freertos.h).
	* async_contexts are de-initialized by the common async_context_deint() method.
	*
	* Multiple async_context instances can be used by a single application, and they will operate independently.
	*/

	#ifndef _PICO_ASYNC_CONTEXT_H
	#define _PICO_ASYNC_CONTEXT_H

	#include "pico.h"
	#include "pico/time.h"

	#ifdef __cplusplus
	extern "C" {
	#endif

	enum {
	ASYNC_CONTEXT_POLL = 1,
	ASYNC_CONTEXT_THREADSAFE_BACKGROUND = 2,
	ASYNC_CONTEXT_FREERTOS = 3,
	};

	typedef struct async_context async_context_t;

	/*! \brief A "timeout" instance used by an async_context
	* \ingroup pico_async_context
	*
	* A "timeout" represents some future action that must be taken at a specific time.
	* It's methods are called from the async_context under lock at the given time
	*
	* \see async_context_add_worker_at
	* \see async_context_add_worker_in_ms
	*/
	typedef struct async_work_on_timeout {
	/*!
	* private link list pointer
	*/
	struct async_work_on_timeout *next;
	/*!
	* Method called when the timeout is reached; may not be NULL
	*
	* Note, that when this method is called, the timeout has been removed from the async_context, so
	* if you want the timeout to repeat, you should re-add it during this callback
	* @param context
	* @param timeout
	*/
	void (do_work)(async_context_t context, struct async_work_on_timeout *timeout);
	/*!
	* The next timeout time; this should only be modified during the above methods
	* or via async_context methods
	*/
	absolute_time_t next_time;
	/*!
	* User data associated with the timeout instance
	*/
	void *user_data;
	} async_at_time_worker_t;

	/*! \brief A "worker" instance used by an async_context
	* \ingroup pico_async_context
	*
	* A "worker" represents some external entity that must do work in response
	* to some external stimulus (usually an IRQ).
	* It's methods are called from the async_context under lock at the given time
	*
	* \see async_context_add_worker_at
	* \see async_context_add_worker_in_ms
	*/
	typedef struct async_when_pending_worker {
	/*!
	* private link list pointer
	*/
	struct async_when_pending_worker *next;
	/*!
	* Called by the async_context when the worker has been marked as having "work pending"
	*
	* @param context the async_context
	* @param worker the function to be called when work is pending
	*/
	void (do_work)(async_context_t context, struct async_when_pending_worker *worker);
	/**
	* True if the worker need do_work called
	*/
	bool work_pending;
	} async_when_pending_worker_t;

	#define ASYNC_CONTEXT_FLAG_CALLBACK_FROM_NON_IRQ 0x1
	#define ASYNC_CONTEXT_FLAG_CALLBACK_FROM_IRQ 0x2
	#define ASYNC_CONTEXT_FLAG_POLLED 0x4

	/*!
	* \brief Implementation of an async_context type, providing methods common to that type
	* \ingroup pico_async_context
	*/
	typedef struct async_context_type {
	uint16_t type;
	// see wrapper functions for documentation
	void (acquire_lock_blocking)(async_context_t self);
	void (release_lock)(async_context_t self);
	void (lock_check)(async_context_t self);
	uint32_t (execute_sync)(async_context_t context, uint32_t (func)(void param), void *param);
	bool (add_at_time_worker)(async_context_t self, async_at_time_worker_t *worker);
	bool (remove_at_time_worker)(async_context_t self, async_at_time_worker_t *worker);
	bool (add_when_pending_worker)(async_context_t self, async_when_pending_worker_t *worker);
	bool (remove_when_pending_worker)(async_context_t self, async_when_pending_worker_t *worker);
	void (set_work_pending)(async_context_t self, async_when_pending_worker_t *worker);
	void (poll)(async_context_t self); // may be NULL
	void (wait_until)(async_context_t self, absolute_time_t until);
	void (wait_for_work_until)(async_context_t self, absolute_time_t until);
	void (deinit)(async_context_t self);
	} async_context_type_t;

	/*!
	* \brief Base structure type of all async_contexts. For details about its use, see \ref pico_async_context.
	* \ingroup pico_async_context
	*
	* Individual async_context_types with additional state, should contain this structure at the start.
	*/
	struct async_context {
	const async_context_type_t *type;
	async_when_pending_worker_t *when_pending_list;
	async_at_time_worker_t *at_time_list;
	absolute_time_t next_time;
	uint16_t flags;
	uint8_t core_num;
	};

	/*!
	* \brief Acquire the async_context lock
	* \ingroup pico_async_context
	*
	* The owner of the async_context lock is the logic owner of the async_context
	* and other work related to this async_context will not happen concurrently.
	*
	* This method may be called in a nested fashion by the the lock owner.
	*
	* \note the async_context lock is nestable by the same caller, so an internal count is maintained
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	*
	* \see async_context_release_lock
	*/
	static inline void async_context_acquire_lock_blocking(async_context_t *context) {
	context->type->acquire_lock_blocking(context);
	}

	/*!
	* \brief Release the async_context lock
	* \ingroup pico_async_context
	*
	* \note the async_context lock may be called in a nested fashion, so an internal count is maintained. On the outermost
	* release, When the outermost lock is released, a check is made for work which might have been skipped while the lock was held,
	* and any such work may be performed during this call IF the call is made from the same core that the async_context belongs to.
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	*
	* \see async_context_acquire_lock_blocking
	*/
	static inline void async_context_release_lock(async_context_t *context) {
	context->type->release_lock(context);
	}

	/*!
	* \brief Assert if the caller does not own the lock for the async_context
	* \ingroup pico_async_context
	* \note this method is thread-safe
	*
	* \param context the async_context
	*/
	static inline void async_context_lock_check(async_context_t *context) {
	context->type->lock_check(context);
	}

	/*!
	* \brief Execute work synchronously on the core the async_context belongs to.
	* \ingroup pico_async_context
	*
	* This method is intended for code external to the async_context (e.g. another thread/task) to
	* execute a function with the same guarantees (single core, logical thread of execution) that
	* async_context workers are called with.
	*
	* \note you should NOT call this method while holding the async_context's lock
	*
	* \param context the async_context
	* \param func the function to call
	* \param param the paramter to pass to the function
	* \return the return value from func
	*/
	static inline uint32_t async_context_execute_sync(async_context_t context, uint32_t (func)(void param), void param) {
	return context->type->execute_sync(context, func, param);
	}

	/*!
	* \brief Add an "at time" worker to a context
	* \ingroup pico_async_context
	*
	* An "at time" worker will run at or after a specific point in time, and is automatically when (just before) it runs.
	*
	* The time to fire is specified in the next_time field of the worker.
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	* \param worker the "at time" worker to add
	* \return true if the worker was added, false if the worker was already present.
	*/
	static inline bool async_context_add_at_time_worker(async_context_t context, async_at_time_worker_t worker) {
	return context->type->add_at_time_worker(context, worker);
	}

	/*!
	* \brief Add an "at time" worker to a context
	* \ingroup pico_async_context
	*
	* An "at time" worker will run at or after a specific point in time, and is automatically when (just before) it runs.
	*
	* The time to fire is specified by the at parameter.
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	* \param worker the "at time" worker to add
	* \param at the time to fire at
	* \return true if the worker was added, false if the worker was already present.
	*/
	static inline bool async_context_add_at_time_worker_at(async_context_t context, async_at_time_worker_t worker, absolute_time_t at) {
	worker->next_time = at;
	return context->type->add_at_time_worker(context, worker);
	}

	/*!
	* \brief Add an "at time" worker to a context
	* \ingroup pico_async_context
	*
	* An "at time" worker will run at or after a specific point in time, and is automatically when (just before) it runs.
	*
	* The time to fire is specified by a delay via the ms parameter
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	* \param worker the "at time" worker to add
	* \param ms the number of milliseconds from now to fire after
	* \return true if the worker was added, false if the worker was already present.
	*/
	static inline bool async_context_add_at_time_worker_in_ms(async_context_t context, async_at_time_worker_t worker, uint32_t ms) {
	worker->next_time = make_timeout_time_ms(ms);
	return context->type->add_at_time_worker(context, worker);
	}

	/*!
	* \brief Remove an "at time" worker from a context
	* \ingroup pico_async_context
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	* \param worker the "at time" worker to remove
	* \return true if the worker was removed, false if the instance not present.
	*/
	static inline bool async_context_remove_at_time_worker(async_context_t context, async_at_time_worker_t worker) {
	return context->type->remove_at_time_worker(context, worker);
	}

	/*!
	* \brief Add a "when pending" worker to a context
	* \ingroup pico_async_context
	*
	* An "when pending" worker will run when it is pending (can be set via \ref async_context_set_work_pending), and
	* is NOT automatically removed when it runs.
	*
	* The time to fire is specified by a delay via the ms parameter
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	* \param worker the "when pending" worker to add
	* \return true if the worker was added, false if the worker was already present.
	*/
	static inline bool async_context_add_when_pending_worker(async_context_t context, async_when_pending_worker_t worker) {
	return context->type->add_when_pending_worker(context, worker);
	}

	/*!
	* \brief Remove a "when pending" worker from a context
	* \ingroup pico_async_context
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	* \param worker the "when pending" worker to remove
	* \return true if the worker was removed, false if the instance not present.
	*/
	static inline bool async_context_remove_when_pending_worker(async_context_t context, async_when_pending_worker_t worker) {
	return context->type->remove_when_pending_worker(context, worker);
	}

	/*!
	* \brief Mark a "when pending" worker as having work pending
	* \ingroup pico_async_context
	*
	* The worker will be run from the async_context at a later time.
	*
	* \note this method may be called from any context including IRQs
	*
	* \param context the async_context
	* \param worker the "when pending" worker to mark as pending.
	*/
	static inline void async_context_set_work_pending(async_context_t context, async_when_pending_worker_t worker) {
	context->type->set_work_pending(context, worker);
	}

	/*!
	* \brief Perform any pending work for polling style async_context
	* \ingroup pico_async_context
	*
	* For a polled async_context (e.g. \ref async_context_poll) the user is responsible for calling this method
	* periodically to perform any required work.
	*
	* This method may immediately perform outstanding work on other context types, but is not required to.
	*
	* \param context the async_context
	*/
	static inline void async_context_poll(async_context_t *context) {
	if (context->type->poll) context->type->poll(context);
	}

	/*!
	* \brief sleep until the specified time in an async_context callback safe way
	* \ingroup pico_async_context
	*
	* \note for async_contexts that provide locking (not async_context_poll), this method is threadsafe. and may be called from within any
	* worker method called by the async_context or from any other non-IRQ context.
	*
	* \param context the async_context
	* \param until the time to sleep until
	*/
	static inline void async_context_wait_until(async_context_t *context, absolute_time_t until) {
	context->type->wait_until(context, until);
	}

	/*!
	* \brief Block until work needs to be done or the specified time has been reached
	* \ingroup pico_async_context
	*
	* \note this method should not be called from a worker callback
	*
	* \param context the async_context
	* \param until the time to return at if no work is required
	*/
	static inline void async_context_wait_for_work_until(async_context_t *context, absolute_time_t until) {
	context->type->wait_for_work_until(context, until);
	}

	/*!
	* \brief Block until work needs to be done or the specified number of milliseconds have passed
	* \ingroup pico_async_context
	*
	* \note this method should not be called from a worker callback
	*
	* \param context the async_context
	* \param ms the number of milliseconds to return after if no work is required
	*/
	static inline void async_context_wait_for_work_ms(async_context_t *context, uint32_t ms) {
	async_context_wait_for_work_until(context, make_timeout_time_ms(ms));
	}

	/*!
	* \brief Return the processor core this async_context belongs to
	* \ingroup pico_async_context
	*
	* \param context the async_context
	* \return the physical core number
	*/
	static inline uint async_context_core_num(const async_context_t *context) {
	return context->core_num;
	}

	/*!
	* \brief End async_context processing, and free any resources
	* \ingroup pico_async_context
	*
	* Note the user should clean up any resources associated with workers
	* in the async_context themselves.
	*
	* Asynchronous (non-polled) async_contexts guarantee that no
	* callback is being called once this method returns.
	*
	* \param context the async_context
	*/
	static inline void async_context_deinit(async_context_t *context) {
	context->type->deinit(context);
	}

	#ifdef __cplusplus
	}
	#endif

	#endif