drivers/md/dm-vdo/completion.c - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0-only
 /*
  * Copyright 2023 Red Hat
  */

 #include "completion.h"

 #include <linux/kernel.h>

 #include "logger.h"
 #include "permassert.h"

 #include "status-codes.h"
 #include "types.h"
 #include "vio.h"
 #include "vdo.h"

 /**
  * DOC: vdo completions.
  *
  * Most of vdo's data structures are lock free, each either belonging to a single "zone," or
  * divided into a number of zones whose accesses to the structure do not overlap. During normal
  * operation, at most one thread will be operating in any given zone. Each zone has a
  * vdo_work_queue which holds vdo_completions that are to be run in that zone. A completion may
  * only be enqueued on one queue or operating in a single zone at a time.
  *
  * At each step of a multi-threaded operation, the completion performing the operation is given a
  * callback, error handler, and thread id for the next step. A completion is "run" when it is
  * operating on the correct thread (as specified by its callback_thread_id). If the value of its
  * "result" field is an error (i.e. not VDO_SUCCESS), the function in its "error_handler" will be
  * invoked. If the error_handler is NULL, or there is no error, the function set as its "callback"
  * will be invoked. Generally, a completion will not be run directly, but rather will be
  * "launched." In this case, it will check whether it is operating on the correct thread. If it is,
  * it will run immediately. Otherwise, it will be enqueue on the vdo_work_queue associated with the
  * completion's "callback_thread_id". When it is dequeued, it will be on the correct thread, and
  * will get run. In some cases, the completion should get queued instead of running immediately,
  * even if it is being launched from the correct thread. This is usually in cases where there is a
  * long chain of callbacks, all on the same thread, which could overflow the stack. In such cases,
  * the completion's "requeue" field should be set to true. Doing so will skip the current thread
  * check and simply enqueue the completion.
  *
  * A completion may be "finished," in which case its "complete" field will be set to true before it
  * is next run. It is a bug to attempt to set the result or re-finish a finished completion.
  * Because a completion's fields are not safe to examine from any thread other than the one on
  * which the completion is currently operating, this field is used only to aid in detecting
  * programming errors. It can not be used for cross-thread checking on the status of an operation.
  * A completion must be "reset" before it can be reused after it has been finished. Resetting will
  * also clear any error from the result field.
  **/

 void vdo_initialize_completion(struct vdo_completion *completion,
 			       struct vdo *vdo,
 			       enum vdo_completion_type type)
 {
 	memset(completion, 0, sizeof(*completion));
 	completion->vdo = vdo;
 	completion->type = type;
 	vdo_reset_completion(completion);
 }

 static inline void assert_incomplete(struct vdo_completion *completion)
 {
 	VDO_ASSERT_LOG_ONLY(!completion->complete, "completion is not complete");
 }

 /**
  * vdo_set_completion_result() - Set the result of a completion.
  *
  * Older errors will not be masked.
  */
 void vdo_set_completion_result(struct vdo_completion *completion, int result)
 {
 	assert_incomplete(completion);
 	if (completion->result == VDO_SUCCESS)
 		completion->result = result;
 }

 /**
  * vdo_launch_completion_with_priority() - Run or enqueue a completion.
  * @priority: The priority at which to enqueue the completion.
  *
  * If called on the correct thread (i.e. the one specified in the completion's callback_thread_id
  * field) and not marked for requeue, the completion will be run immediately. Otherwise, the
  * completion will be enqueued on the specified thread.
  */
 void vdo_launch_completion_with_priority(struct vdo_completion *completion,
 					 enum vdo_completion_priority priority)
 {
 	thread_id_t callback_thread = completion->callback_thread_id;

 	if (completion->requeue || (callback_thread != vdo_get_callback_thread_id())) {
 		vdo_enqueue_completion(completion, priority);
 		return;
 	}

 	vdo_run_completion(completion);
 }

 /** vdo_finish_completion() - Mark a completion as complete and then launch it. */
 void vdo_finish_completion(struct vdo_completion *completion)
 {
 	assert_incomplete(completion);
 	completion->complete = true;
 	if (completion->callback != NULL)
 		vdo_launch_completion(completion);
 }

 void vdo_enqueue_completion(struct vdo_completion *completion,
 			    enum vdo_completion_priority priority)
 {
 	struct vdo *vdo = completion->vdo;
 	thread_id_t thread_id = completion->callback_thread_id;

 	if (VDO_ASSERT(thread_id < vdo->thread_config.thread_count,
 		       "thread_id %u (completion type %d) is less than thread count %u",
 		       thread_id, completion->type,
 		       vdo->thread_config.thread_count) != VDO_SUCCESS)
 		BUG();

 	completion->requeue = false;
 	completion->priority = priority;
 	completion->my_queue = NULL;
 	vdo_enqueue_work_queue(vdo->threads[thread_id].queue, completion);
 }

 /**
  * vdo_requeue_completion_if_needed() - Requeue a completion if not called on the specified thread.
  *
  * Return: True if the completion was requeued; callers may not access the completion in this case.
  */
 bool vdo_requeue_completion_if_needed(struct vdo_completion *completion,
 				      thread_id_t callback_thread_id)
 {
 	if (vdo_get_callback_thread_id() == callback_thread_id)
 		return false;

 	completion->callback_thread_id = callback_thread_id;
 	vdo_enqueue_completion(completion, VDO_WORK_Q_DEFAULT_PRIORITY);
 	return true;
 }
	// SPDX-License-Identifier: GPL-2.0-only
	/*
	* Copyright 2023 Red Hat
	*/

	#include "completion.h"

	#include <linux/kernel.h>

	#include "logger.h"
	#include "permassert.h"

	#include "status-codes.h"
	#include "types.h"
	#include "vio.h"
	#include "vdo.h"

	/**
	* DOC: vdo completions.
	*
	* Most of vdo's data structures are lock free, each either belonging to a single "zone," or
	* divided into a number of zones whose accesses to the structure do not overlap. During normal
	* operation, at most one thread will be operating in any given zone. Each zone has a
	* vdo_work_queue which holds vdo_completions that are to be run in that zone. A completion may
	* only be enqueued on one queue or operating in a single zone at a time.
	*
	* At each step of a multi-threaded operation, the completion performing the operation is given a
	* callback, error handler, and thread id for the next step. A completion is "run" when it is
	* operating on the correct thread (as specified by its callback_thread_id). If the value of its
	* "result" field is an error (i.e. not VDO_SUCCESS), the function in its "error_handler" will be
	* invoked. If the error_handler is NULL, or there is no error, the function set as its "callback"
	* will be invoked. Generally, a completion will not be run directly, but rather will be
	* "launched." In this case, it will check whether it is operating on the correct thread. If it is,
	* it will run immediately. Otherwise, it will be enqueue on the vdo_work_queue associated with the
	* completion's "callback_thread_id". When it is dequeued, it will be on the correct thread, and
	* will get run. In some cases, the completion should get queued instead of running immediately,
	* even if it is being launched from the correct thread. This is usually in cases where there is a
	* long chain of callbacks, all on the same thread, which could overflow the stack. In such cases,
	* the completion's "requeue" field should be set to true. Doing so will skip the current thread
	* check and simply enqueue the completion.
	*
	* A completion may be "finished," in which case its "complete" field will be set to true before it
	* is next run. It is a bug to attempt to set the result or re-finish a finished completion.
	* Because a completion's fields are not safe to examine from any thread other than the one on
	* which the completion is currently operating, this field is used only to aid in detecting
	* programming errors. It can not be used for cross-thread checking on the status of an operation.
	* A completion must be "reset" before it can be reused after it has been finished. Resetting will
	* also clear any error from the result field.
	**/

	void vdo_initialize_completion(struct vdo_completion *completion,
	struct vdo *vdo,
	enum vdo_completion_type type)
	{
	memset(completion, 0, sizeof(*completion));
	completion->vdo = vdo;
	completion->type = type;
	vdo_reset_completion(completion);
	}

	static inline void assert_incomplete(struct vdo_completion *completion)
	{
	VDO_ASSERT_LOG_ONLY(!completion->complete, "completion is not complete");
	}

	/**
	* vdo_set_completion_result() - Set the result of a completion.
	*
	* Older errors will not be masked.
	*/
	void vdo_set_completion_result(struct vdo_completion *completion, int result)
	{
	assert_incomplete(completion);
	if (completion->result == VDO_SUCCESS)
	completion->result = result;
	}

	/**
	* vdo_launch_completion_with_priority() - Run or enqueue a completion.
	* @priority: The priority at which to enqueue the completion.
	*
	* If called on the correct thread (i.e. the one specified in the completion's callback_thread_id
	* field) and not marked for requeue, the completion will be run immediately. Otherwise, the
	* completion will be enqueued on the specified thread.
	*/
	void vdo_launch_completion_with_priority(struct vdo_completion *completion,
	enum vdo_completion_priority priority)
	{
	thread_id_t callback_thread = completion->callback_thread_id;

	if (completion->requeue \|\| (callback_thread != vdo_get_callback_thread_id())) {
	vdo_enqueue_completion(completion, priority);
	return;
	}

	vdo_run_completion(completion);
	}

	/** vdo_finish_completion() - Mark a completion as complete and then launch it. */
	void vdo_finish_completion(struct vdo_completion *completion)
	{
	assert_incomplete(completion);
	completion->complete = true;
	if (completion->callback != NULL)
	vdo_launch_completion(completion);
	}

	void vdo_enqueue_completion(struct vdo_completion *completion,
	enum vdo_completion_priority priority)
	{
	struct vdo *vdo = completion->vdo;
	thread_id_t thread_id = completion->callback_thread_id;

	if (VDO_ASSERT(thread_id < vdo->thread_config.thread_count,
	"thread_id %u (completion type %d) is less than thread count %u",
	thread_id, completion->type,
	vdo->thread_config.thread_count) != VDO_SUCCESS)
	BUG();

	completion->requeue = false;
	completion->priority = priority;
	completion->my_queue = NULL;
	vdo_enqueue_work_queue(vdo->threads[thread_id].queue, completion);
	}

	/**
	* vdo_requeue_completion_if_needed() - Requeue a completion if not called on the specified thread.
	*
	* Return: True if the completion was requeued; callers may not access the completion in this case.
	*/
	bool vdo_requeue_completion_if_needed(struct vdo_completion *completion,
	thread_id_t callback_thread_id)
	{
	if (vdo_get_callback_thread_id() == callback_thread_id)
	return false;

	completion->callback_thread_id = callback_thread_id;
	vdo_enqueue_completion(completion, VDO_WORK_Q_DEFAULT_PRIORITY);
	return true;
	}