sw/device/lib/dif/dif_clkmgr.h - 3p/lowrisc/opentitan - Git at Google

 // Copyright lowRISC contributors.
 // Licensed under the Apache License, Version 2.0, see LICENSE for details.
 // SPDX-License-Identifier: Apache-2.0

 #ifndef OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CLKMGR_H_
 #define OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CLKMGR_H_

 /**
  * @file
  * @brief <a href="/hw/ip/clkmgr/doc/">Clock Manager</a> Device Interface
  * Functions
  */

 #include <stdint.h>

 #include "sw/device/lib/base/macros.h"
 #include "sw/device/lib/base/mmio.h"
 #include "sw/device/lib/dif/dif_base.h"

 #include "sw/device/lib/dif/autogen/dif_clkmgr_autogen.h"

 #ifdef __cplusplus
 extern "C" {
 #endif  // __cplusplus

 /**
  * An Index of a "Gateable" Clock.
  *
  * "Gateable" clocks are under full software control: they can be enabled and
  * disabled by software, which directly starts and stops the identified clock.
  */
 typedef uint32_t dif_clkmgr_gateable_clock_t;

 /**
  * An Index of a "Hintable" Clock.
  *
  * "Hintable" clocks are under partial software control: software can suggest
  * they are stopped, but the clock manager may delay stopping the peripheral, or
  * may ignore the request altogether.
  */
 typedef uint32_t dif_clkmgr_hintable_clock_t;

 typedef enum dif_clkmgr_measure_clock {
   /**
    * The Io clock.
    */
   kDifClkmgrMeasureClockIo,
   /**
    * The Io_div2 clock.
    */
   kDifClkmgrMeasureClockIoDiv2,
   /**
    * The Io div4 clock.
    */
   kDifClkmgrMeasureClockIoDiv4,
   /**
    * The Main clock.
    */
   kDifClkmgrMeasureClockMain,
   /**
    * The Usb clock.
    */
   kDifClkmgrMeasureClockUsb,
 } dif_clkmgr_measure_clock_t;

 typedef enum dif_clkmgr_recov_err_type {
   /**
    * A recoverable update error for one of the clocks.
    */
   kDifClkmgrRecovErrTypeShadowUpdate = 1u << 0,
   /**
    * A recoverable measurement error for IO clock.
    */
   kDifClkmgrRecovErrTypeIoMeas = 1u << 1,
   /**
    * A recoverable measurement error for IO_DIV2 clock.
    */
   kDifClkmgrRecovErrTypeIoDiv2Meas = 1u << 2,
   /**
    * A recoverable measurement error for IO_DIV4 clock.
    */
   kDifClkmgrRecovErrTypeIoDiv4Meas = 1u << 3,
   /**
    * A recoverable measurement error for MAIN clock.
    */
   kDifClkmgrRecovErrTypeMainMeas = 1u << 4,
   /**
    * A recoverable measurement error for USB clock.
    */
   kDifClkmgrRecovErrTypeUsbMeas = 1u << 5,
   /**
    * A recoverable timeout error for IO clock.
    */
   kDifClkmgrRecovErrTypeIoTimeout = 1u << 6,
   /**
    * A recoverable timeout error for IO_DIV2 clock.
    */
   kDifClkmgrRecovErrTypeIoDiv2Timeout = 1u << 7,
   /**
    * A recoverable timeout error for IO_DIV4 clock.
    */
   kDifClkmgrRecovErrTypeIoDiv4Timeout = 1u << 8,
   /**
    * A recoverable timeout error for MAIN clock.
    */
   kDifClkmgrRecovErrTypeMainTimeout = 1u << 9,
   /**
    * A recoverable timeout error for USB clock.
    */
   kDifClkmgrRecovErrTypeUsbTimeout = 1u << 10,
 } dif_clkmgr_recov_err_type_t;

 /**
  * A set of recoverable errors.
  *
  * This type is used to clear and read the recoverable error codes.
  */
 typedef uint32_t dif_clkmgr_recov_err_codes_t;

 typedef enum dif_clkmgr_fatal_err_type {
   /**
    * A fatal error for regfile integrity.
    */
   kDifClkmgrFatalErrTypeRegfileIntegrity = 1u << 0,
   /**
    * A fatal error for a duplicate idle counter.
    */
   kDifClkmgrFatalErrTypeIdleCount = 1u << 1,
   /**
    * A fatal error for a shadow register storage.
    */
   kDifClkmgrFatalErrTypeShadowStorage = 1u << 2,
 } dif_clkmgr_fatal_err_type_t;

 /**
  * A set of fatal errors.
  *
  * This type is used to read the fatal error codes.
  */
 typedef uint32_t dif_clkmgr_fatal_err_codes_t;

 /**
  * Check if jitter is Enabled.
  * @param clkmgr Clock Manager Handle.
  * @param[out] is_enabled whether jitter is enabled or not.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_jitter_get_enabled(const dif_clkmgr_t *clkmgr,
                                            dif_toggle_t *state);

 /**
  * Enable of Disable jitter.
  * @param clkmgr Clock Manager Handle.
  * @param new_state whether to enable or disable jitter.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_jitter_set_enabled(const dif_clkmgr_t *clkmgr,
                                            dif_toggle_t new_state);

 /**
  * Check if a Gateable Clock is Enabled or Disabled.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock Gateable Clock ID.
  * @param[out] is_enabled whether the clock is enabled or not.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_gateable_clock_get_enabled(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_gateable_clock_t clock,
     dif_toggle_t *state);

 /**
  * Enable or Disable a Gateable Clock.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock Gateable Clock ID.
  * @param new_state whether to enable or disable the clock.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_gateable_clock_set_enabled(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_gateable_clock_t clock,
     dif_toggle_t new_state);

 /**
  * Check if a Hintable Clock is Enabled or Disabled.
  *
  * Hintable clocks are not under full software control, but this operation
  * accurately reflects the state of the current clock, regardless of any hint
  * requests made by software.
  *
  * To read what hint the software has given the hardware, use
  * #dif_clkmgr_hintable_clock_get_hint.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock Hintable Clock ID.
  * @param[out] is_enabled whether the clock is enabled or not.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_hintable_clock_get_enabled(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_hintable_clock_t clock,
     dif_toggle_t *state);

 /**
  * Enable or Disable a Hintable Clock.
  *
  * This only sets a hint that the clock should be enabled or disabled. The clock
  * manager is in control of whether the clock should actually be enabled or
  * disabled.
  *
  * To read what hint the software has given the hardware, use
  * #dif_clkmgr_hintable_clock_get_hint. To read whether the clock is currently
  * enabled or disabled, use #dif_clkmgr_hintable_clock_get_enabled.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock Hintable Clock ID.
  * @param new_state whether to enable or disable the clock.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_hintable_clock_set_hint(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_hintable_clock_t clock,
     dif_toggle_t new_state);

 /**
  * Read the current Hint for a Hintable Clock.
  *
  * Hintable clocks are not under full software control; this operation
  * accurately reflects the current software hint, not the current state of the
  * clock.
  *
  * To read whether the clock is currently enabled or disabled, use
  * #dif_clkmgr_hintable_clock_get_enabled.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock Hintable Clock ID.
  * @param[out] hinted_is_enabled the current software request (hint) for this
  * clock.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_hintable_clock_get_hint(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_hintable_clock_t clock,
     dif_toggle_t *state);

 /**
  * Enable chip to use the external clock.
  *
  * @param clkmgr Clock Manager Handle.
  * @param is_low_speed External clock is low speed or high speed.
  * @returns The result of the operation.
  * High speed - external clock is close to nominal speeds (e.g. external clock
  * is 96MHz and nominal frequency is 96MHz-100MHz). Low speed - external clock
  * is half of nominal speeds (e.g. external clock is 48MHz and nominal frequency
  * is 96MHz-100MHz).
  *
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_external_clock_set_enabled(const dif_clkmgr_t *clkmgr,
                                                    bool is_low_speed);

 /**
  * Determine if the transition to using external clock is complete.
  *
  * @param clkmgr Clock Manager Handle.
  * @param[out] status Set to true if the transition is complete.
  * @returns The result of the operation once it completes.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_external_clock_is_settled(const dif_clkmgr_t *clkmgr,
                                                   bool *status);

 /**
  * Disable measurement control updates.
  *
  * This can only be disabled, and stays disabled until the next POR.
  *
  * @param clkmgr Clock Manager Handle.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_measure_ctrl_disable(const dif_clkmgr_t *clkmgr);

 /**
  * Get measurement control state.
  *
  * @param clkmgr Clock Manager Handle.
  * @param[out] state The state of control enable.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_measure_ctrl_get_enable(const dif_clkmgr_t *clkmgr,
                                                 dif_toggle_t *state);

 /**
  * Configure count measurements.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock A clock to be measured.
  * @param min_threshold The smallest permissible cycle count.
  * @param max_threshold The largest permissible cycle count.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_enable_measure_counts(const dif_clkmgr_t *clkmgr,
                                               dif_clkmgr_measure_clock_t clock,
                                               uint32_t min_threshold,
                                               uint32_t max_threshold);

 /**
  * Disable count measurements.
  *
  * Does not modify the thresholds.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock A clock to be measured.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_disable_measure_counts(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_measure_clock_t clock);

 /**
  * Get the count measurement enable.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock A clock to be measured.
  * @param[out] state The state of control enable.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_measure_counts_get_enable(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_measure_clock_t clock,
     dif_toggle_t *state);

 /**
  * Get the count measurement thresholds.
  *
  * @param clkmgr Clock Manager Handle.
  * @param clock A clock to be measured.
  * @param[out] min_threshold The minumum threshold.
  * @param[out] max_threshold The maximum threshold.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_measure_counts_get_thresholds(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_measure_clock_t clock,
     uint32_t *min_threshold, uint32_t *max_threshold);

 /**
  * Read the recoverable error codes.
  *
  * @param clkmgr Clock Manager Handle.
  * @param[out] codes The recoverable error codes.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_recov_err_code_get_codes(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_recov_err_codes_t *codes);

 /**
  * Clear selected recoverable error codes.
  *
  * @param clkmgr Clock Manager Handle.
  * @param codes The recoverable error codes to be cleared.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_recov_err_code_clear_codes(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_recov_err_codes_t codes);

 /**
  * Read the fatal error codes.
  *
  * @param clkmgr Clock Manager Handle.
  * @param[out] codes The fatal error codes.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_fatal_err_code_get_codes(
     const dif_clkmgr_t *clkmgr, dif_clkmgr_fatal_err_codes_t *codes);

 /**
  * Wait for external clock switch to finish.
  *
  * @param clkmgr Clock Manager Handle.
  * @returns The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_clkmgr_wait_for_ext_clk_switch(const dif_clkmgr_t *clkmgr);
 #ifdef __cplusplus
 }  // extern "C"
 #endif  // __cplusplus

 #endif  // OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CLKMGR_H_
	// Copyright lowRISC contributors.
	// Licensed under the Apache License, Version 2.0, see LICENSE for details.
	// SPDX-License-Identifier: Apache-2.0

	#ifndef OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CLKMGR_H_
	#define OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CLKMGR_H_

	/**
	* @file
	* @brief <a href="/hw/ip/clkmgr/doc/">Clock Manager</a> Device Interface
	* Functions
	*/

	#include <stdint.h>

	#include "sw/device/lib/base/macros.h"
	#include "sw/device/lib/base/mmio.h"
	#include "sw/device/lib/dif/dif_base.h"

	#include "sw/device/lib/dif/autogen/dif_clkmgr_autogen.h"

	#ifdef __cplusplus
	extern "C" {
	#endif // __cplusplus

	/**
	* An Index of a "Gateable" Clock.
	*
	* "Gateable" clocks are under full software control: they can be enabled and
	* disabled by software, which directly starts and stops the identified clock.
	*/
	typedef uint32_t dif_clkmgr_gateable_clock_t;

	/**
	* An Index of a "Hintable" Clock.
	*
	* "Hintable" clocks are under partial software control: software can suggest
	* they are stopped, but the clock manager may delay stopping the peripheral, or
	* may ignore the request altogether.
	*/
	typedef uint32_t dif_clkmgr_hintable_clock_t;

	typedef enum dif_clkmgr_measure_clock {
	/**
	* The Io clock.
	*/
	kDifClkmgrMeasureClockIo,
	/**
	* The Io_div2 clock.
	*/
	kDifClkmgrMeasureClockIoDiv2,
	/**
	* The Io div4 clock.
	*/
	kDifClkmgrMeasureClockIoDiv4,
	/**
	* The Main clock.
	*/
	kDifClkmgrMeasureClockMain,
	/**
	* The Usb clock.
	*/
	kDifClkmgrMeasureClockUsb,
	} dif_clkmgr_measure_clock_t;

	typedef enum dif_clkmgr_recov_err_type {
	/**
	* A recoverable update error for one of the clocks.
	*/
	kDifClkmgrRecovErrTypeShadowUpdate = 1u << 0,
	/**
	* A recoverable measurement error for IO clock.
	*/
	kDifClkmgrRecovErrTypeIoMeas = 1u << 1,
	/**
	* A recoverable measurement error for IO_DIV2 clock.
	*/
	kDifClkmgrRecovErrTypeIoDiv2Meas = 1u << 2,
	/**
	* A recoverable measurement error for IO_DIV4 clock.
	*/
	kDifClkmgrRecovErrTypeIoDiv4Meas = 1u << 3,
	/**
	* A recoverable measurement error for MAIN clock.
	*/
	kDifClkmgrRecovErrTypeMainMeas = 1u << 4,
	/**
	* A recoverable measurement error for USB clock.
	*/
	kDifClkmgrRecovErrTypeUsbMeas = 1u << 5,
	/**
	* A recoverable timeout error for IO clock.
	*/
	kDifClkmgrRecovErrTypeIoTimeout = 1u << 6,
	/**
	* A recoverable timeout error for IO_DIV2 clock.
	*/
	kDifClkmgrRecovErrTypeIoDiv2Timeout = 1u << 7,
	/**
	* A recoverable timeout error for IO_DIV4 clock.
	*/
	kDifClkmgrRecovErrTypeIoDiv4Timeout = 1u << 8,
	/**
	* A recoverable timeout error for MAIN clock.
	*/
	kDifClkmgrRecovErrTypeMainTimeout = 1u << 9,
	/**
	* A recoverable timeout error for USB clock.
	*/
	kDifClkmgrRecovErrTypeUsbTimeout = 1u << 10,
	} dif_clkmgr_recov_err_type_t;

	/**
	* A set of recoverable errors.
	*
	* This type is used to clear and read the recoverable error codes.
	*/
	typedef uint32_t dif_clkmgr_recov_err_codes_t;

	typedef enum dif_clkmgr_fatal_err_type {
	/**
	* A fatal error for regfile integrity.
	*/
	kDifClkmgrFatalErrTypeRegfileIntegrity = 1u << 0,
	/**
	* A fatal error for a duplicate idle counter.
	*/
	kDifClkmgrFatalErrTypeIdleCount = 1u << 1,
	/**
	* A fatal error for a shadow register storage.
	*/
	kDifClkmgrFatalErrTypeShadowStorage = 1u << 2,
	} dif_clkmgr_fatal_err_type_t;

	/**
	* A set of fatal errors.
	*
	* This type is used to read the fatal error codes.
	*/
	typedef uint32_t dif_clkmgr_fatal_err_codes_t;

	/**
	* Check if jitter is Enabled.
	* @param clkmgr Clock Manager Handle.
	* @param[out] is_enabled whether jitter is enabled or not.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_jitter_get_enabled(const dif_clkmgr_t *clkmgr,
	dif_toggle_t *state);

	/**
	* Enable of Disable jitter.
	* @param clkmgr Clock Manager Handle.
	* @param new_state whether to enable or disable jitter.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_jitter_set_enabled(const dif_clkmgr_t *clkmgr,
	dif_toggle_t new_state);

	/**
	* Check if a Gateable Clock is Enabled or Disabled.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock Gateable Clock ID.
	* @param[out] is_enabled whether the clock is enabled or not.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_gateable_clock_get_enabled(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_gateable_clock_t clock,
	dif_toggle_t *state);

	/**
	* Enable or Disable a Gateable Clock.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock Gateable Clock ID.
	* @param new_state whether to enable or disable the clock.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_gateable_clock_set_enabled(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_gateable_clock_t clock,
	dif_toggle_t new_state);

	/**
	* Check if a Hintable Clock is Enabled or Disabled.
	*
	* Hintable clocks are not under full software control, but this operation
	* accurately reflects the state of the current clock, regardless of any hint
	* requests made by software.
	*
	* To read what hint the software has given the hardware, use
	* #dif_clkmgr_hintable_clock_get_hint.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock Hintable Clock ID.
	* @param[out] is_enabled whether the clock is enabled or not.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_hintable_clock_get_enabled(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_hintable_clock_t clock,
	dif_toggle_t *state);

	/**
	* Enable or Disable a Hintable Clock.
	*
	* This only sets a hint that the clock should be enabled or disabled. The clock
	* manager is in control of whether the clock should actually be enabled or
	* disabled.
	*
	* To read what hint the software has given the hardware, use
	* #dif_clkmgr_hintable_clock_get_hint. To read whether the clock is currently
	* enabled or disabled, use #dif_clkmgr_hintable_clock_get_enabled.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock Hintable Clock ID.
	* @param new_state whether to enable or disable the clock.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_hintable_clock_set_hint(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_hintable_clock_t clock,
	dif_toggle_t new_state);

	/**
	* Read the current Hint for a Hintable Clock.
	*
	* Hintable clocks are not under full software control; this operation
	* accurately reflects the current software hint, not the current state of the
	* clock.
	*
	* To read whether the clock is currently enabled or disabled, use
	* #dif_clkmgr_hintable_clock_get_enabled.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock Hintable Clock ID.
	* @param[out] hinted_is_enabled the current software request (hint) for this
	* clock.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_hintable_clock_get_hint(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_hintable_clock_t clock,
	dif_toggle_t *state);

	/**
	* Enable chip to use the external clock.
	*
	* @param clkmgr Clock Manager Handle.
	* @param is_low_speed External clock is low speed or high speed.
	* @returns The result of the operation.
	* High speed - external clock is close to nominal speeds (e.g. external clock
	* is 96MHz and nominal frequency is 96MHz-100MHz). Low speed - external clock
	* is half of nominal speeds (e.g. external clock is 48MHz and nominal frequency
	* is 96MHz-100MHz).
	*
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_external_clock_set_enabled(const dif_clkmgr_t *clkmgr,
	bool is_low_speed);

	/**
	* Determine if the transition to using external clock is complete.
	*
	* @param clkmgr Clock Manager Handle.
	* @param[out] status Set to true if the transition is complete.
	* @returns The result of the operation once it completes.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_external_clock_is_settled(const dif_clkmgr_t *clkmgr,
	bool *status);

	/**
	* Disable measurement control updates.
	*
	* This can only be disabled, and stays disabled until the next POR.
	*
	* @param clkmgr Clock Manager Handle.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_measure_ctrl_disable(const dif_clkmgr_t *clkmgr);

	/**
	* Get measurement control state.
	*
	* @param clkmgr Clock Manager Handle.
	* @param[out] state The state of control enable.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_measure_ctrl_get_enable(const dif_clkmgr_t *clkmgr,
	dif_toggle_t *state);

	/**
	* Configure count measurements.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock A clock to be measured.
	* @param min_threshold The smallest permissible cycle count.
	* @param max_threshold The largest permissible cycle count.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_enable_measure_counts(const dif_clkmgr_t *clkmgr,
	dif_clkmgr_measure_clock_t clock,
	uint32_t min_threshold,
	uint32_t max_threshold);

	/**
	* Disable count measurements.
	*
	* Does not modify the thresholds.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock A clock to be measured.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_disable_measure_counts(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_measure_clock_t clock);

	/**
	* Get the count measurement enable.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock A clock to be measured.
	* @param[out] state The state of control enable.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_measure_counts_get_enable(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_measure_clock_t clock,
	dif_toggle_t *state);

	/**
	* Get the count measurement thresholds.
	*
	* @param clkmgr Clock Manager Handle.
	* @param clock A clock to be measured.
	* @param[out] min_threshold The minumum threshold.
	* @param[out] max_threshold The maximum threshold.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_measure_counts_get_thresholds(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_measure_clock_t clock,
	uint32_t min_threshold, uint32_t max_threshold);

	/**
	* Read the recoverable error codes.
	*
	* @param clkmgr Clock Manager Handle.
	* @param[out] codes The recoverable error codes.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_recov_err_code_get_codes(
	const dif_clkmgr_t clkmgr, dif_clkmgr_recov_err_codes_t codes);

	/**
	* Clear selected recoverable error codes.
	*
	* @param clkmgr Clock Manager Handle.
	* @param codes The recoverable error codes to be cleared.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_recov_err_code_clear_codes(
	const dif_clkmgr_t *clkmgr, dif_clkmgr_recov_err_codes_t codes);

	/**
	* Read the fatal error codes.
	*
	* @param clkmgr Clock Manager Handle.
	* @param[out] codes The fatal error codes.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_fatal_err_code_get_codes(
	const dif_clkmgr_t clkmgr, dif_clkmgr_fatal_err_codes_t codes);

	/**
	* Wait for external clock switch to finish.
	*
	* @param clkmgr Clock Manager Handle.
	* @returns The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_clkmgr_wait_for_ext_clk_switch(const dif_clkmgr_t *clkmgr);
	#ifdef __cplusplus
	} // extern "C"
	#endif // __cplusplus

	#endif // OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CLKMGR_H_