bifrost/r44p0/kernel/drivers/gpu/arm/midgard/mali_kbase_hwaccess_time.h - manifest_repos/mali-driver - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
 /*
  *
  * (C) COPYRIGHT 2014, 2018-2021, 2023 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_BACKEND_TIME_H_
 #define _KBASE_BACKEND_TIME_H_

 /**
  * struct kbase_backend_time - System timestamp attributes.
  *
  * @multiplier:		Numerator of the converter's fraction.
  * @divisor:		Denominator of the converter's fraction.
  * @offset:		Converter's offset term.
  * @device_scaled_timeouts: Timeouts in milliseconds that were scaled to be
  *                          consistent with the minimum MCU frequency. This
  *                          array caches the results of all of the conversions
  *                          for ease of use later on.
  *
  * According to Generic timer spec, system timer:
  * - Increments at a fixed frequency
  * - Starts operating from zero
  *
  * Hence CPU time is a linear function of System Time.
  *
  * CPU_ts = alpha * SYS_ts + beta
  *
  * Where
  * - alpha = 10^9/SYS_ts_freq
  * - beta is calculated by two timer samples taken at the same time:
  *   beta = CPU_ts_s - SYS_ts_s * alpha
  *
  * Since alpha is a rational number, we minimizing possible
  * rounding error by simplifying the ratio. Thus alpha is stored
  * as a simple `multiplier / divisor` ratio.
  *
  */
 struct kbase_backend_time {
 #if MALI_USE_CSF
 	u64 multiplier;
 	u64 divisor;
 	s64 offset;
 #endif
 	unsigned int device_scaled_timeouts[KBASE_TIMEOUT_SELECTOR_COUNT];
 };

 #if MALI_USE_CSF
 /**
  * kbase_backend_time_convert_gpu_to_cpu() - Convert GPU timestamp to CPU timestamp.
  *
  * @kbdev:	Kbase device pointer
  * @gpu_ts:	System timestamp value to converter.
  *
  * Return: The CPU timestamp.
  */
 u64 __maybe_unused kbase_backend_time_convert_gpu_to_cpu(struct kbase_device *kbdev, u64 gpu_ts);
 #endif

 /**
  * kbase_backend_get_gpu_time() - Get current GPU time
  * @kbdev:              Device pointer
  * @cycle_counter:      Pointer to u64 to store cycle counter in.
  * @system_time:        Pointer to u64 to store system time in
  * @ts:                 Pointer to struct timespec to store current monotonic
  *			time in
  */
 void kbase_backend_get_gpu_time(struct kbase_device *kbdev, u64 *cycle_counter,
 				u64 *system_time, struct timespec64 *ts);

 /**
  * kbase_backend_get_gpu_time_norequest() - Get current GPU time without
  *                                          request/release cycle counter
  * @kbdev:		Device pointer
  * @cycle_counter:	Pointer to u64 to store cycle counter in
  * @system_time:	Pointer to u64 to store system time in
  * @ts:			Pointer to struct timespec to store current monotonic
  *			time in
  */
 void kbase_backend_get_gpu_time_norequest(struct kbase_device *kbdev,
 					  u64 *cycle_counter,
 					  u64 *system_time,
 					  struct timespec64 *ts);

 /**
  * kbase_device_set_timeout_ms - Set an unscaled device timeout in milliseconds,
  *                               subject to the maximum timeout constraint.
  *
  * @kbdev:            KBase device pointer.
  * @selector:         The specific timeout that should be scaled.
  * @timeout_ms:    The timeout in cycles which should be scaled.
  *
  * This function writes the absolute timeout in milliseconds to the table of
  * precomputed device timeouts, while estabilishing an upped bound on the individual
  * timeout of UINT_MAX milliseconds.
  */
 void kbase_device_set_timeout_ms(struct kbase_device *kbdev, enum kbase_timeout_selector selector,
 				 unsigned int timeout_ms);

 /**
  * kbase_device_set_timeout - Calculate the given timeout using the provided
  *                            timeout cycles and multiplier.
  *
  * @kbdev:            KBase device pointer.
  * @selector:         The specific timeout that should be scaled.
  * @timeout_cycles:    The timeout in cycles which should be scaled.
  * @cycle_multiplier: A multiplier applied to the number of cycles, allowing
  *                    the callsite to scale the minimum timeout based on the
  *                    host device.
  *
  * This function writes the scaled timeout to the per-device table to avoid
  * having to recompute the timeouts every single time that the related methods
  * are called.
  */
 void kbase_device_set_timeout(struct kbase_device *kbdev, enum kbase_timeout_selector selector,
 			      u64 timeout_cycles, u32 cycle_multiplier);

 /**
  * kbase_get_timeout_ms - Choose a timeout value to get a timeout scaled
  *                        GPU frequency, using a choice from
  *                        kbase_timeout_selector.
  *
  * @kbdev:	KBase device pointer.
  * @selector:	Value from kbase_scaled_timeout_selector enum.
  *
  * Return:	Timeout in milliseconds, as an unsigned integer.
  */
 unsigned int kbase_get_timeout_ms(struct kbase_device *kbdev,
 				  enum kbase_timeout_selector selector);

 /**
  * kbase_backend_get_cycle_cnt - Reads the GPU cycle counter
  *
  * @kbdev: Instance of a GPU platform device that implements a CSF interface.
  *
  * Return: Snapshot of the GPU cycle count register.
  */
 u64 kbase_backend_get_cycle_cnt(struct kbase_device *kbdev);

 /**
  * kbase_backend_time_init() - Initialize system timestamp converter.
  *
  * @kbdev:	Kbase device pointer
  *
  * This function should only be called after GPU is powered-up and
  * L2 cached power-up has been initiated.
  *
  * Return: Zero on success, error code otherwise.
  */
 int kbase_backend_time_init(struct kbase_device *kbdev);

 #endif /* _KBASE_BACKEND_TIME_H_ */
	/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
	/*
	*
	* (C) COPYRIGHT 2014, 2018-2021, 2023 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_BACKEND_TIME_H_
	#define _KBASE_BACKEND_TIME_H_

	/**
	* struct kbase_backend_time - System timestamp attributes.
	*
	* @multiplier: Numerator of the converter's fraction.
	* @divisor: Denominator of the converter's fraction.
	* @offset: Converter's offset term.
	* @device_scaled_timeouts: Timeouts in milliseconds that were scaled to be
	* consistent with the minimum MCU frequency. This
	* array caches the results of all of the conversions
	* for ease of use later on.
	*
	* According to Generic timer spec, system timer:
	* - Increments at a fixed frequency
	* - Starts operating from zero
	*
	* Hence CPU time is a linear function of System Time.
	*
	* CPU_ts = alpha * SYS_ts + beta
	*
	* Where
	* - alpha = 10^9/SYS_ts_freq
	* - beta is calculated by two timer samples taken at the same time:
	* beta = CPU_ts_s - SYS_ts_s * alpha
	*
	* Since alpha is a rational number, we minimizing possible
	* rounding error by simplifying the ratio. Thus alpha is stored
	* as a simple `multiplier / divisor` ratio.
	*
	*/
	struct kbase_backend_time {
	#if MALI_USE_CSF
	u64 multiplier;
	u64 divisor;
	s64 offset;
	#endif
	unsigned int device_scaled_timeouts[KBASE_TIMEOUT_SELECTOR_COUNT];
	};

	#if MALI_USE_CSF
	/**
	* kbase_backend_time_convert_gpu_to_cpu() - Convert GPU timestamp to CPU timestamp.
	*
	* @kbdev: Kbase device pointer
	* @gpu_ts: System timestamp value to converter.
	*
	* Return: The CPU timestamp.
	*/
	u64 __maybe_unused kbase_backend_time_convert_gpu_to_cpu(struct kbase_device *kbdev, u64 gpu_ts);
	#endif

	/**
	* kbase_backend_get_gpu_time() - Get current GPU time
	* @kbdev: Device pointer
	* @cycle_counter: Pointer to u64 to store cycle counter in.
	* @system_time: Pointer to u64 to store system time in
	* @ts: Pointer to struct timespec to store current monotonic
	* time in
	*/
	void kbase_backend_get_gpu_time(struct kbase_device kbdev, u64 cycle_counter,
	u64 system_time, struct timespec64 ts);

	/**
	* kbase_backend_get_gpu_time_norequest() - Get current GPU time without
	* request/release cycle counter
	* @kbdev: Device pointer
	* @cycle_counter: Pointer to u64 to store cycle counter in
	* @system_time: Pointer to u64 to store system time in
	* @ts: Pointer to struct timespec to store current monotonic
	* time in
	*/
	void kbase_backend_get_gpu_time_norequest(struct kbase_device *kbdev,
	u64 *cycle_counter,
	u64 *system_time,
	struct timespec64 *ts);

	/**
	* kbase_device_set_timeout_ms - Set an unscaled device timeout in milliseconds,
	* subject to the maximum timeout constraint.
	*
	* @kbdev: KBase device pointer.
	* @selector: The specific timeout that should be scaled.
	* @timeout_ms: The timeout in cycles which should be scaled.
	*
	* This function writes the absolute timeout in milliseconds to the table of
	* precomputed device timeouts, while estabilishing an upped bound on the individual
	* timeout of UINT_MAX milliseconds.
	*/
	void kbase_device_set_timeout_ms(struct kbase_device *kbdev, enum kbase_timeout_selector selector,
	unsigned int timeout_ms);

	/**
	* kbase_device_set_timeout - Calculate the given timeout using the provided
	* timeout cycles and multiplier.
	*
	* @kbdev: KBase device pointer.
	* @selector: The specific timeout that should be scaled.
	* @timeout_cycles: The timeout in cycles which should be scaled.
	* @cycle_multiplier: A multiplier applied to the number of cycles, allowing
	* the callsite to scale the minimum timeout based on the
	* host device.
	*
	* This function writes the scaled timeout to the per-device table to avoid
	* having to recompute the timeouts every single time that the related methods
	* are called.
	*/
	void kbase_device_set_timeout(struct kbase_device *kbdev, enum kbase_timeout_selector selector,
	u64 timeout_cycles, u32 cycle_multiplier);

	/**
	* kbase_get_timeout_ms - Choose a timeout value to get a timeout scaled
	* GPU frequency, using a choice from
	* kbase_timeout_selector.
	*
	* @kbdev: KBase device pointer.
	* @selector: Value from kbase_scaled_timeout_selector enum.
	*
	* Return: Timeout in milliseconds, as an unsigned integer.
	*/
	unsigned int kbase_get_timeout_ms(struct kbase_device *kbdev,
	enum kbase_timeout_selector selector);

	/**
	* kbase_backend_get_cycle_cnt - Reads the GPU cycle counter
	*
	* @kbdev: Instance of a GPU platform device that implements a CSF interface.
	*
	* Return: Snapshot of the GPU cycle count register.
	*/
	u64 kbase_backend_get_cycle_cnt(struct kbase_device *kbdev);

	/**
	* kbase_backend_time_init() - Initialize system timestamp converter.
	*
	* @kbdev: Kbase device pointer
	*
	* This function should only be called after GPU is powered-up and
	* L2 cached power-up has been initiated.
	*
	* Return: Zero on success, error code otherwise.
	*/
	int kbase_backend_time_init(struct kbase_device *kbdev);

	#endif /* _KBASE_BACKEND_TIME_H_ */