CORE/HDD/inc/wlan_hdd_request_manager.h - platform/vendor/qcom-opensource/wlan/prima - Gitiles

 /*
  * Copyright (c) 2017-2018 The Linux Foundation. All rights reserved.
  *
  * Permission to use, copy, modify, and/or distribute this software for
  * any purpose with or without fee is hereby granted, provided that the
  * above copyright notice and this permission notice appear in all
  * copies.
  *
  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
  * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
  * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
  * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
  * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
  * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
  * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
  * PERFORMANCE OF THIS SOFTWARE.
  */

 #ifndef __WLAN_HDD_REQUEST_MANAGER_H__
 #define __WLAN_HDD_REQUEST_MANAGER_H__

 /**
  * DOC: WLAN HDD REQUEST MANAGER
  *
  * Many operations within the wlan driver occur in an asynchronous
  * manner. Requests are received by HDD via one of the kernel
  * interfaces (ioctl, nl80211, virtual file system, etc.). The
  * requests are translated to an internal format and are then passed
  * to lower layers, usually via SME, for processing. For requests
  * which require a response, that response comes up from the lower
  * layers in a separate thread of execution, ultimately resulting in a
  * call to a callback function that was provided by HDD as part of the
  * initial request. So a mechanism is needed to synchronize the
  * request and response. This framework provides that mechanism.
  *
  * Once the framework has been initialized, the typical sequence of
  * events is as follows:
  *
  * Request Thread:
  * 1. Create a &struct hdd_request_params which describes the request.
  * 2. Call hdd_request_alloc() to allocate a &struct hdd_request.
  * 3. Call hdd_request_priv() to get a pointer to the private data.
  * 4. Place any information which must be shared with the Response
  *    Callback in the private data area.
  * 5. Call hdd_request_cookie() to get the unique cookie assigned
  *    to the request.
  * 6. Call the underlying request handling API, passing the cookie
  *    as the callback's private context.
  * 7. Call hdd_request_wait_for_response() to wait for the response
  *    (or for the request to time out).
  * 8. Use the return status to see if the request was successful. If
  *    it was, retrieve any response information from the private
  *    structure and prepare a response for userspace.
  * 9. Call hdd_request_put() to relinquish access to the request.
  * 10. Return status to the caller.
  *
  * Response Callback:
  * 1. Call hdd_request_get() with the provided cookie to see if the
  *    request structure is still valid.  If it returns %NULL then
  *    return since this means the request thread has already timed
  *    out.
  * 2. Call hdd_request_priv() to get access to the private data area.
  * 3. Write response data into the private data area.
  * 4. Call hdd_request_complete() to indicate that the response is
  *    ready to be processed by the request thread.
  * 5. Call hdd_request_put() to relinquish the callback function's
  *    reference to the request.
  */

 /* this is opaque to clients */
 struct hdd_request;

 /**
  * typedef hdd_request_dealloc - Private data deallocation function
  */
 typedef void (*hdd_request_dealloc)(void *priv);

 /**
  * struct hdd_request_params - HDD request parameters
  * @priv_size: Size of the private data area required to pass
  *      information between the request thread and the response callback.
  * @timeout_ms: The amount of time to wait for a response in milliseconds.
  * @dealloc: Function to be called when the request is destroyed to
  *      deallocate any allocations made in the private area of the
  *      request struct. Can be %NULL if no private allocations are
  *      made.
  */
 struct hdd_request_params {
 	uint32_t priv_size;
 	uint32_t timeout_ms;
 	hdd_request_dealloc dealloc;
 };

 /**
  * hdd_request_alloc() - Allocate a request struct
  * @params: parameter block that specifies the attributes of the
  *      request
  *
  * This function will attempt to allocate a &struct hdd_request with
  * the specified @params. If successful, the caller can then use
  * request struct to make an asynchronous request. Once the request is
  * no longer needed, the reference should be relinquished via a call
  * to hdd_request_put().
  *
  * Return: A pointer to an allocated &struct hdd_request (which also
  * contains room for the private buffer) if the allocation is
  * successful, %NULL if the allocation fails.
  */
 struct hdd_request *hdd_request_alloc(const struct hdd_request_params *params);

 /**
  * hdd_request_priv() - Get pointer to request private data
  * @request: The request struct that contains the private data
  *
  * This function will return a pointer to the private data area that
  * is part of the request struct. The caller must already have a valid
  * reference to @request from either hdd_request_alloc() or
  * hdd_request_get().
  *
  * Returns: pointer to the private data area. Note that this pointer
  * will always be an offset from the input @request pointer and hence
  * this function will never return %NULL.
  */
 void *hdd_request_priv(struct hdd_request *request);

 /**
  * hdd_request_cookie() - Get cookie of a request
  * @request: The request struct associated with the request
  *
  * This function will return the unique cookie that has been assigned
  * to the request. This cookie can subsequently be passed to
  * hdd_request_get() to retrieve the request.
  *
  * Note that the cookie is defined as a void pointer as it is intended
  * to be passed as an opaque context pointer from HDD to underlying
  * layers when making a request, and subsequently passed back to HDD
  * as an opaque pointer in an asynchronous callback.
  *
  * Returns: The cookie assigned to the request.
  */
 void *hdd_request_cookie(struct hdd_request *request);

 /**
  * hdd_request_get() - Get a reference to a request struct
  * @cookie: The cookie of the request struct that needs to be
  *      referenced
  *
  * This function will use the cookie to determine if the associated
  * request struct is valid, and if so, will increment the reference
  * count of the struct. This means the caller is guaranteed that the
  * request struct is valid and the underlying private data can be
  * dereferenced.
  *
  * Returns: The pointer to the request struct associated with @cookie
  * if the request is still valid, %NULL if the underlying request
  * struct is no longer valid.
  */
 struct hdd_request *hdd_request_get(void *cookie);

 /**
  * hdd_request_put() - Release a reference to a request struct
  * @request: The request struct that no longer needs to be referenced
  *
  * This function will decrement the reference count of the struct, and
  * will clean up the request if this is the last reference. The caller
  * must already have a valid reference to @request, either from
  * hdd_request_alloc() or hdd_request_get().
  *
  * Returns: Nothing
  */
 void hdd_request_put(struct hdd_request *request);

 /**
  * hdd_request_wait_for_response() - Wait for a response
  * @request: The request struct associated with the request
  *
  * This function will wait until either a response is received and
  * communicated via hdd_request_complete(), or until the request
  * timeout period expires.
  *
  * Returns: 0 if a response was received, -ETIMEDOUT if the response
  * timed out.
  */
 int hdd_request_wait_for_response(struct hdd_request *request);

 /**
  * hdd_request_complete() - Complete a request
  * @request: The request struct associated with the request
  *
  * This function is used to indicate that a response has been received
  * and that any information required by the request thread has been
  * copied into the private data area of the request struct. This will
  * unblock any hdd_request_wait_for_response() that is pending on this
  * @request.
  *
  * Returns: Nothing
  */
 void hdd_request_complete(struct hdd_request *request);

 /**
  * hdd_request_manager_init() - Initialize the HDD Request Manager
  *
  * This function must be called during system initialization to
  * initialize the HDD Request Manager.
  *
  * Returns: Nothing
  */
 void hdd_request_manager_init(void);

 /**
  * hdd_request_manager_deinit() - Deinitialize the HDD Request Manager
  *
  * This function must be called during system shutdown to deinitialize
  * the HDD Request Manager.
  *
  * Returns: Nothing
  */
 void hdd_request_manager_deinit(void);

 #endif /* __WLAN_HDD_REQUEST_MANAGER_H__ */
	/*
	* Copyright (c) 2017-2018 The Linux Foundation. All rights reserved.
	*
	* Permission to use, copy, modify, and/or distribute this software for
	* any purpose with or without fee is hereby granted, provided that the
	* above copyright notice and this permission notice appear in all
	* copies.
	*
	* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
	* WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
	* AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
	* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
	* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
	* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
	* PERFORMANCE OF THIS SOFTWARE.
	*/

	#ifndef __WLAN_HDD_REQUEST_MANAGER_H__
	#define __WLAN_HDD_REQUEST_MANAGER_H__

	/**
	* DOC: WLAN HDD REQUEST MANAGER
	*
	* Many operations within the wlan driver occur in an asynchronous
	* manner. Requests are received by HDD via one of the kernel
	* interfaces (ioctl, nl80211, virtual file system, etc.). The
	* requests are translated to an internal format and are then passed
	* to lower layers, usually via SME, for processing. For requests
	* which require a response, that response comes up from the lower
	* layers in a separate thread of execution, ultimately resulting in a
	* call to a callback function that was provided by HDD as part of the
	* initial request. So a mechanism is needed to synchronize the
	* request and response. This framework provides that mechanism.
	*
	* Once the framework has been initialized, the typical sequence of
	* events is as follows:
	*
	* Request Thread:
	* 1. Create a &struct hdd_request_params which describes the request.
	* 2. Call hdd_request_alloc() to allocate a &struct hdd_request.
	* 3. Call hdd_request_priv() to get a pointer to the private data.
	* 4. Place any information which must be shared with the Response
	* Callback in the private data area.
	* 5. Call hdd_request_cookie() to get the unique cookie assigned
	* to the request.
	* 6. Call the underlying request handling API, passing the cookie
	* as the callback's private context.
	* 7. Call hdd_request_wait_for_response() to wait for the response
	* (or for the request to time out).
	* 8. Use the return status to see if the request was successful. If
	* it was, retrieve any response information from the private
	* structure and prepare a response for userspace.
	* 9. Call hdd_request_put() to relinquish access to the request.
	* 10. Return status to the caller.
	*
	* Response Callback:
	* 1. Call hdd_request_get() with the provided cookie to see if the
	* request structure is still valid. If it returns %NULL then
	* return since this means the request thread has already timed
	* out.
	* 2. Call hdd_request_priv() to get access to the private data area.
	* 3. Write response data into the private data area.
	* 4. Call hdd_request_complete() to indicate that the response is
	* ready to be processed by the request thread.
	* 5. Call hdd_request_put() to relinquish the callback function's
	* reference to the request.
	*/

	/* this is opaque to clients */
	struct hdd_request;

	/**
	* typedef hdd_request_dealloc - Private data deallocation function
	*/
	typedef void (hdd_request_dealloc)(void priv);

	/**
	* struct hdd_request_params - HDD request parameters
	* @priv_size: Size of the private data area required to pass
	* information between the request thread and the response callback.
	* @timeout_ms: The amount of time to wait for a response in milliseconds.
	* @dealloc: Function to be called when the request is destroyed to
	* deallocate any allocations made in the private area of the
	* request struct. Can be %NULL if no private allocations are
	* made.
	*/
	struct hdd_request_params {
	uint32_t priv_size;
	uint32_t timeout_ms;
	hdd_request_dealloc dealloc;
	};

	/**
	* hdd_request_alloc() - Allocate a request struct
	* @params: parameter block that specifies the attributes of the
	* request
	*
	* This function will attempt to allocate a &struct hdd_request with
	* the specified @params. If successful, the caller can then use
	* request struct to make an asynchronous request. Once the request is
	* no longer needed, the reference should be relinquished via a call
	* to hdd_request_put().
	*
	* Return: A pointer to an allocated &struct hdd_request (which also
	* contains room for the private buffer) if the allocation is
	* successful, %NULL if the allocation fails.
	*/
	struct hdd_request hdd_request_alloc(const struct hdd_request_params params);

	/**
	* hdd_request_priv() - Get pointer to request private data
	* @request: The request struct that contains the private data
	*
	* This function will return a pointer to the private data area that
	* is part of the request struct. The caller must already have a valid
	* reference to @request from either hdd_request_alloc() or
	* hdd_request_get().
	*
	* Returns: pointer to the private data area. Note that this pointer
	* will always be an offset from the input @request pointer and hence
	* this function will never return %NULL.
	*/
	void hdd_request_priv(struct hdd_request request);

	/**
	* hdd_request_cookie() - Get cookie of a request
	* @request: The request struct associated with the request
	*
	* This function will return the unique cookie that has been assigned
	* to the request. This cookie can subsequently be passed to
	* hdd_request_get() to retrieve the request.
	*
	* Note that the cookie is defined as a void pointer as it is intended
	* to be passed as an opaque context pointer from HDD to underlying
	* layers when making a request, and subsequently passed back to HDD
	* as an opaque pointer in an asynchronous callback.
	*
	* Returns: The cookie assigned to the request.
	*/
	void hdd_request_cookie(struct hdd_request request);

	/**
	* hdd_request_get() - Get a reference to a request struct
	* @cookie: The cookie of the request struct that needs to be
	* referenced
	*
	* This function will use the cookie to determine if the associated
	* request struct is valid, and if so, will increment the reference
	* count of the struct. This means the caller is guaranteed that the
	* request struct is valid and the underlying private data can be
	* dereferenced.
	*
	* Returns: The pointer to the request struct associated with @cookie
	* if the request is still valid, %NULL if the underlying request
	* struct is no longer valid.
	*/
	struct hdd_request hdd_request_get(void cookie);

	/**
	* hdd_request_put() - Release a reference to a request struct
	* @request: The request struct that no longer needs to be referenced
	*
	* This function will decrement the reference count of the struct, and
	* will clean up the request if this is the last reference. The caller
	* must already have a valid reference to @request, either from
	* hdd_request_alloc() or hdd_request_get().
	*
	* Returns: Nothing
	*/
	void hdd_request_put(struct hdd_request *request);

	/**
	* hdd_request_wait_for_response() - Wait for a response
	* @request: The request struct associated with the request
	*
	* This function will wait until either a response is received and
	* communicated via hdd_request_complete(), or until the request
	* timeout period expires.
	*
	* Returns: 0 if a response was received, -ETIMEDOUT if the response
	* timed out.
	*/
	int hdd_request_wait_for_response(struct hdd_request *request);

	/**
	* hdd_request_complete() - Complete a request
	* @request: The request struct associated with the request
	*
	* This function is used to indicate that a response has been received
	* and that any information required by the request thread has been
	* copied into the private data area of the request struct. This will
	* unblock any hdd_request_wait_for_response() that is pending on this
	* @request.
	*
	* Returns: Nothing
	*/
	void hdd_request_complete(struct hdd_request *request);

	/**
	* hdd_request_manager_init() - Initialize the HDD Request Manager
	*
	* This function must be called during system initialization to
	* initialize the HDD Request Manager.
	*
	* Returns: Nothing
	*/
	void hdd_request_manager_init(void);

	/**
	* hdd_request_manager_deinit() - Deinitialize the HDD Request Manager
	*
	* This function must be called during system shutdown to deinitialize
	* the HDD Request Manager.
	*
	* Returns: Nothing
	*/
	void hdd_request_manager_deinit(void);

	#endif /* __WLAN_HDD_REQUEST_MANAGER_H__ */