bifrost/r32p1/kernel/drivers/gpu/arm/midgard/mali_kbase_reset_gpu.h - manifest_repos/mali-driver - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
 /*
  *
  * (C) COPYRIGHT 2019-2021 ARM Limited. All rights reserved.
  *
  * This program is free software and is provided to you under the terms of the
  * GNU General Public License version 2 as published by the Free Software
  * Foundation, and any use by you of this program is subject to the terms
  * of such GNU license.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, you can access it online at
  * http://www.gnu.org/licenses/gpl-2.0.html.
  *
  */

 #ifndef _KBASE_RESET_GPU_H_
 #define _KBASE_RESET_GPU_H_

 /**
  * kbase_reset_gpu_prevent_and_wait - Prevent GPU resets from starting whilst
  *                                    the current thread is accessing the GPU,
  *                                    and wait for any in-flight reset to
  *                                    finish.
  * @kbdev: Device pointer
  *
  * This should be used when a potential access to the HW is going to be made
  * from a non-atomic context.
  *
  * It will wait for any in-flight reset to finish before returning. Hence,
  * correct lock ordering must be observed with respect to the calling thread
  * and the reset worker thread.
  *
  * This does not synchronize general access to the HW, and so multiple threads
  * can prevent GPU reset concurrently, whilst not being serialized. This is
  * advantageous as the threads can make this call at points where they do not
  * know for sure yet whether they will indeed access the GPU (for example, to
  * respect lock ordering), without unnecessarily blocking others.
  *
  * Threads must still use other synchronization to ensure they access the HW
  * consistently, at a point where they are certain it needs to be accessed.
  *
  * On success, ensure that when access to the GPU by the caller thread has
  * finished, that it calls kbase_reset_gpu_allow() again to allow resets to
  * happen.
  *
  * This may return a failure in cases such as a previous failure to reset the
  * GPU within a reasonable time. If that happens, the GPU might be
  * non-operational and the caller should not attempt any further access.
  *
  * Note:
  * For atomic context, instead check kbase_reset_gpu_is_active().
  *
  * Return: 0 on success, or negative error code on failure.
  */
 int kbase_reset_gpu_prevent_and_wait(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_try_prevent - Attempt to prevent GPU resets from starting
  *                               whilst the current thread is accessing the
  *                               GPU, unless a reset is already in progress.
  * @kbdev: Device pointer
  *
  * Similar to kbase_reset_gpu_prevent_and_wait(), but it does not wait for an
  * existing reset to complete. This can be used on codepaths that the Reset
  * worker waits on, where use of kbase_reset_gpu_prevent_and_wait() would
  * otherwise deadlock.
  *
  * Instead, a reset that is currently happening will cause this function to
  * return an error code indicating that, and further resets will not have been
  * prevented.
  *
  * In such cases, the caller must check for -EAGAIN, and take similar actions
  * as for handling reset in atomic context. That is, they must cancel any
  * actions that depended on reset being prevented, possibly deferring them
  * until after the reset.
  *
  * Otherwise a successful return means that the caller can continue its actions
  * safely in the knowledge that reset is prevented, and the reset worker will
  * correctly wait instead of deadlocking against this thread.
  *
  * On success, ensure that when access to the GPU by the caller thread has
  * finished, that it calls kbase_reset_gpu_allow() again to allow resets to
  * happen.
  *
  * Refer to kbase_reset_gpu_prevent_and_wait() for more information.
  *
  * Return: 0 on success. -EAGAIN if a reset is currently happening. Other
  * negative error codes on failure.
  */
 int kbase_reset_gpu_try_prevent(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_allow - Allow GPU resets to happen again after having been
  *                         previously prevented.
  * @kbdev: Device pointer
  *
  * This should be used when a potential access to the HW has finished from a
  * non-atomic context.
  *
  * It must be used from the same thread that originally made a previously call
  * to kbase_reset_gpu_prevent_and_wait(). It must not be deferred to another
  * thread.
  */
 void kbase_reset_gpu_allow(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_assert_prevented - Make debugging checks that GPU reset is
  *                                    currently prevented by the current
  *                                    thread.
  * @kbdev: Device pointer
  *
  * Make debugging checks that the current thread has made a call to
  * kbase_reset_gpu_prevent_and_wait(), but has yet to make a subsequent call to
  * kbase_reset_gpu_allow().
  *
  * CONFIG_LOCKDEP is required to prove that reset is indeed
  * prevented. Otherwise only limited debugging checks can be made.
  */
 void kbase_reset_gpu_assert_prevented(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_assert_failed_or_prevented - Make debugging checks that
  *                                              either GPU reset previously
  *                                              failed, or is currently
  *                                              prevented.
  *
  * @kbdev: Device pointer
  *
  * As with kbase_reset_gpu_assert_prevented(), but also allow for paths where
  * reset was not prevented due to a failure, yet we still need to execute the
  * cleanup code following.
  *
  * Cleanup code following this call must handle any inconsistent state modified
  * by the failed GPU reset, and must timeout any blocking operations instead of
  * waiting forever.
  */
 void kbase_reset_gpu_assert_failed_or_prevented(struct kbase_device *kbdev);

 /**
  * Flags for kbase_prepare_to_reset_gpu
  */
 #define RESET_FLAGS_NONE ((unsigned int)0)
 /* This reset should be treated as an unrecoverable error by HW counter logic */
 #define RESET_FLAGS_HWC_UNRECOVERABLE_ERROR ((unsigned int)(1 << 0))

 /**
  * kbase_prepare_to_reset_gpu_locked - Prepare for resetting the GPU.
  * @kbdev: Device pointer
  * @flags: Bitfield indicating impact of reset (see flag defines)
  *
  * Caller is expected to hold the kbdev->hwaccess_lock.
  *
  * Return: a boolean which should be interpreted as follows:
  * - true  - Prepared for reset, kbase_reset_gpu should be called.
  * - false - Another thread is performing a reset, kbase_reset_gpu should
  *           not be called.
  */
 bool kbase_prepare_to_reset_gpu_locked(struct kbase_device *kbdev,
 				       unsigned int flags);

 /**
  * kbase_prepare_to_reset_gpu - Prepare for resetting the GPU.
  * @kbdev: Device pointer
  * @flags: Bitfield indicating impact of reset (see flag defines)

  * Return: a boolean which should be interpreted as follows:
  * - true  - Prepared for reset, kbase_reset_gpu should be called.
  * - false - Another thread is performing a reset, kbase_reset_gpu should
  *           not be called.
  */
 bool kbase_prepare_to_reset_gpu(struct kbase_device *kbdev, unsigned int flags);

 /**
  * kbase_reset_gpu - Reset the GPU
  * @kbdev: Device pointer
  *
  * This function should be called after kbase_prepare_to_reset_gpu if it returns
  * true. It should never be called without a corresponding call to
  * kbase_prepare_to_reset_gpu (only on Job Manager GPUs).
  *
  * After this function is called the caller should call kbase_reset_gpu_wait()
  * to know when the reset has completed.
  */
 void kbase_reset_gpu(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_locked - Reset the GPU
  * @kbdev: Device pointer
  *
  * This function should be called after kbase_prepare_to_reset_gpu_locked if it
  * returns true. It should never be called without a corresponding call to
  * kbase_prepare_to_reset_gpu (only on Job Manager GPUs).
  * Caller is expected to hold the kbdev->hwaccess_lock.
  *
  * After this function is called, the caller should call kbase_reset_gpu_wait()
  * to know when the reset has completed.
  */
 void kbase_reset_gpu_locked(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_silent - Reset the GPU silently
  * @kbdev: Device pointer
  *
  * Reset the GPU without trying to cancel jobs (applicable to Job Manager GPUs)
  * and don't emit messages into the kernel log while doing the reset.
  *
  * This function should be used in cases where we are doing a controlled reset
  * of the GPU as part of normal processing (e.g. exiting protected mode) where
  * the driver will have ensured the scheduler has been idled and all other
  * users of the GPU (e.g. instrumentation) have been suspended.
  *
  * Return: 0 if the reset was started successfully
  *         -EAGAIN if another reset is currently in progress
  */
 int kbase_reset_gpu_silent(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_is_active - Reports if the GPU is being reset
  * @kbdev: Device pointer
  *
  * Any changes made to the HW when this returns true may be lost, overwritten
  * or corrupted.
  *
  * Note that unless appropriate locks are held when using this function, the
  * state could change immediately afterwards.
  *
  * Return: True if the GPU is in the process of being reset.
  */
 bool kbase_reset_gpu_is_active(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_wait - Wait for a GPU reset to complete
  * @kbdev: Device pointer
  *
  * This function may wait indefinitely.
  *
  * Return: 0 if successful or a negative error code on failure.
  */
 int kbase_reset_gpu_wait(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_init - Initialize the GPU reset handling mechanism.
  *
  * @kbdev: Device pointer
  *
  * Return: 0 if successful or a negative error code on failure.
  */
 int kbase_reset_gpu_init(struct kbase_device *kbdev);

 /**
  * kbase_reset_gpu_term - Terminate the GPU reset handling mechanism.
  *
  * @kbdev: Device pointer
  */
 void kbase_reset_gpu_term(struct kbase_device *kbdev);

 #endif
	/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
	/*
	*
	* (C) COPYRIGHT 2019-2021 ARM Limited. All rights reserved.
	*
	* This program is free software and is provided to you under the terms of the
	* GNU General Public License version 2 as published by the Free Software
	* Foundation, and any use by you of this program is subject to the terms
	* of such GNU license.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, you can access it online at
	* http://www.gnu.org/licenses/gpl-2.0.html.
	*
	*/

	#ifndef _KBASE_RESET_GPU_H_
	#define _KBASE_RESET_GPU_H_

	/**
	* kbase_reset_gpu_prevent_and_wait - Prevent GPU resets from starting whilst
	* the current thread is accessing the GPU,
	* and wait for any in-flight reset to
	* finish.
	* @kbdev: Device pointer
	*
	* This should be used when a potential access to the HW is going to be made
	* from a non-atomic context.
	*
	* It will wait for any in-flight reset to finish before returning. Hence,
	* correct lock ordering must be observed with respect to the calling thread
	* and the reset worker thread.
	*
	* This does not synchronize general access to the HW, and so multiple threads
	* can prevent GPU reset concurrently, whilst not being serialized. This is
	* advantageous as the threads can make this call at points where they do not
	* know for sure yet whether they will indeed access the GPU (for example, to
	* respect lock ordering), without unnecessarily blocking others.
	*
	* Threads must still use other synchronization to ensure they access the HW
	* consistently, at a point where they are certain it needs to be accessed.
	*
	* On success, ensure that when access to the GPU by the caller thread has
	* finished, that it calls kbase_reset_gpu_allow() again to allow resets to
	* happen.
	*
	* This may return a failure in cases such as a previous failure to reset the
	* GPU within a reasonable time. If that happens, the GPU might be
	* non-operational and the caller should not attempt any further access.
	*
	* Note:
	* For atomic context, instead check kbase_reset_gpu_is_active().
	*
	* Return: 0 on success, or negative error code on failure.
	*/
	int kbase_reset_gpu_prevent_and_wait(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_try_prevent - Attempt to prevent GPU resets from starting
	* whilst the current thread is accessing the
	* GPU, unless a reset is already in progress.
	* @kbdev: Device pointer
	*
	* Similar to kbase_reset_gpu_prevent_and_wait(), but it does not wait for an
	* existing reset to complete. This can be used on codepaths that the Reset
	* worker waits on, where use of kbase_reset_gpu_prevent_and_wait() would
	* otherwise deadlock.
	*
	* Instead, a reset that is currently happening will cause this function to
	* return an error code indicating that, and further resets will not have been
	* prevented.
	*
	* In such cases, the caller must check for -EAGAIN, and take similar actions
	* as for handling reset in atomic context. That is, they must cancel any
	* actions that depended on reset being prevented, possibly deferring them
	* until after the reset.
	*
	* Otherwise a successful return means that the caller can continue its actions
	* safely in the knowledge that reset is prevented, and the reset worker will
	* correctly wait instead of deadlocking against this thread.
	*
	* On success, ensure that when access to the GPU by the caller thread has
	* finished, that it calls kbase_reset_gpu_allow() again to allow resets to
	* happen.
	*
	* Refer to kbase_reset_gpu_prevent_and_wait() for more information.
	*
	* Return: 0 on success. -EAGAIN if a reset is currently happening. Other
	* negative error codes on failure.
	*/
	int kbase_reset_gpu_try_prevent(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_allow - Allow GPU resets to happen again after having been
	* previously prevented.
	* @kbdev: Device pointer
	*
	* This should be used when a potential access to the HW has finished from a
	* non-atomic context.
	*
	* It must be used from the same thread that originally made a previously call
	* to kbase_reset_gpu_prevent_and_wait(). It must not be deferred to another
	* thread.
	*/
	void kbase_reset_gpu_allow(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_assert_prevented - Make debugging checks that GPU reset is
	* currently prevented by the current
	* thread.
	* @kbdev: Device pointer
	*
	* Make debugging checks that the current thread has made a call to
	* kbase_reset_gpu_prevent_and_wait(), but has yet to make a subsequent call to
	* kbase_reset_gpu_allow().
	*
	* CONFIG_LOCKDEP is required to prove that reset is indeed
	* prevented. Otherwise only limited debugging checks can be made.
	*/
	void kbase_reset_gpu_assert_prevented(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_assert_failed_or_prevented - Make debugging checks that
	* either GPU reset previously
	* failed, or is currently
	* prevented.
	*
	* @kbdev: Device pointer
	*
	* As with kbase_reset_gpu_assert_prevented(), but also allow for paths where
	* reset was not prevented due to a failure, yet we still need to execute the
	* cleanup code following.
	*
	* Cleanup code following this call must handle any inconsistent state modified
	* by the failed GPU reset, and must timeout any blocking operations instead of
	* waiting forever.
	*/
	void kbase_reset_gpu_assert_failed_or_prevented(struct kbase_device *kbdev);

	/**
	* Flags for kbase_prepare_to_reset_gpu
	*/
	#define RESET_FLAGS_NONE ((unsigned int)0)
	/* This reset should be treated as an unrecoverable error by HW counter logic */
	#define RESET_FLAGS_HWC_UNRECOVERABLE_ERROR ((unsigned int)(1 << 0))

	/**
	* kbase_prepare_to_reset_gpu_locked - Prepare for resetting the GPU.
	* @kbdev: Device pointer
	* @flags: Bitfield indicating impact of reset (see flag defines)
	*
	* Caller is expected to hold the kbdev->hwaccess_lock.
	*
	* Return: a boolean which should be interpreted as follows:
	* - true - Prepared for reset, kbase_reset_gpu should be called.
	* - false - Another thread is performing a reset, kbase_reset_gpu should
	* not be called.
	*/
	bool kbase_prepare_to_reset_gpu_locked(struct kbase_device *kbdev,
	unsigned int flags);

	/**
	* kbase_prepare_to_reset_gpu - Prepare for resetting the GPU.
	* @kbdev: Device pointer
	* @flags: Bitfield indicating impact of reset (see flag defines)

	* Return: a boolean which should be interpreted as follows:
	* - true - Prepared for reset, kbase_reset_gpu should be called.
	* - false - Another thread is performing a reset, kbase_reset_gpu should
	* not be called.
	*/
	bool kbase_prepare_to_reset_gpu(struct kbase_device *kbdev, unsigned int flags);

	/**
	* kbase_reset_gpu - Reset the GPU
	* @kbdev: Device pointer
	*
	* This function should be called after kbase_prepare_to_reset_gpu if it returns
	* true. It should never be called without a corresponding call to
	* kbase_prepare_to_reset_gpu (only on Job Manager GPUs).
	*
	* After this function is called the caller should call kbase_reset_gpu_wait()
	* to know when the reset has completed.
	*/
	void kbase_reset_gpu(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_locked - Reset the GPU
	* @kbdev: Device pointer
	*
	* This function should be called after kbase_prepare_to_reset_gpu_locked if it
	* returns true. It should never be called without a corresponding call to
	* kbase_prepare_to_reset_gpu (only on Job Manager GPUs).
	* Caller is expected to hold the kbdev->hwaccess_lock.
	*
	* After this function is called, the caller should call kbase_reset_gpu_wait()
	* to know when the reset has completed.
	*/
	void kbase_reset_gpu_locked(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_silent - Reset the GPU silently
	* @kbdev: Device pointer
	*
	* Reset the GPU without trying to cancel jobs (applicable to Job Manager GPUs)
	* and don't emit messages into the kernel log while doing the reset.
	*
	* This function should be used in cases where we are doing a controlled reset
	* of the GPU as part of normal processing (e.g. exiting protected mode) where
	* the driver will have ensured the scheduler has been idled and all other
	* users of the GPU (e.g. instrumentation) have been suspended.
	*
	* Return: 0 if the reset was started successfully
	* -EAGAIN if another reset is currently in progress
	*/
	int kbase_reset_gpu_silent(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_is_active - Reports if the GPU is being reset
	* @kbdev: Device pointer
	*
	* Any changes made to the HW when this returns true may be lost, overwritten
	* or corrupted.
	*
	* Note that unless appropriate locks are held when using this function, the
	* state could change immediately afterwards.
	*
	* Return: True if the GPU is in the process of being reset.
	*/
	bool kbase_reset_gpu_is_active(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_wait - Wait for a GPU reset to complete
	* @kbdev: Device pointer
	*
	* This function may wait indefinitely.
	*
	* Return: 0 if successful or a negative error code on failure.
	*/
	int kbase_reset_gpu_wait(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_init - Initialize the GPU reset handling mechanism.
	*
	* @kbdev: Device pointer
	*
	* Return: 0 if successful or a negative error code on failure.
	*/
	int kbase_reset_gpu_init(struct kbase_device *kbdev);

	/**
	* kbase_reset_gpu_term - Terminate the GPU reset handling mechanism.
	*
	* @kbdev: Device pointer
	*/
	void kbase_reset_gpu_term(struct kbase_device *kbdev);

	#endif