sw/device/lib/dif/dif_csrng.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_CSRNG_H_
 #define OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CSRNG_H_

 /**
  * @file
  * @brief <a href="/hw/ip/csrng/doc/">CSRNG</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_csrng_autogen.h"

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

 /**
  * This API implements an interface for the CSRNG hardware.
  *
  * The API follows the naming conventions used in NIST SP 800-90Ar1:
  *
  * - Instantiate.
  * - Update
  * - Reseed
  * - Generate
  * - Uninstantiate
  *
  * The seed used for instantiation can either be provided directly in
  * hardware by an entropy source module; or directly by software. See
  * `dif_csrng_instantiate()` and `dif_csrng_entropy_src` for
  * more details.
  *
  * The following sequence of operations are required to initialize
  * and generate cryptographic entropy from the CSRNG module:
  *
  * - `dif_csrng_init()`
  * - `dif_csrng_configure()`
  * - `dif_csrng_instantiate()`
  * - `dif_csrng_generate_start()`
  * - `dif_csrng_uninstantiate()`
  *
  * The following functions can be used for reseed and update operations:
  *
  * - `dif_csrng_reseed()`
  * - `dif_csrng_update()`
  *
  * The following utility functions are available to poll the state of
  * the hardware:
  *
  * - `dif_csrng_get_cmd_interface_status()`
  * - `dif_csrng_get_output_status()`
  *
  * Please see the following documentation for more information:
  * https://docs.opentitan.org/hw/ip/csrng/doc/
  *
  * Remaining work:
  *
  * - Add error status interface.
  * - Add internal state control and debug interface.
  */

 /**
  * Enumeration of CSRNG command interface states.
  */
 typedef enum dif_csrng_cmd_status {
   /**
    * The command interface is ready to accept commands.
    */
   kDifCsrngCmdStatusReady,
   /**
    * The command interface is processing a command.
    */
   kDifCsrngCmdStatusBusy,
   /**
    * The command interface completed with an error.
    */
   // TODO: How does the command interface recover from an error.
   // TODO: Add support for decoding ERR_CODE using, probably using
   // a separate interface.
   kDifCsrngCmdStatusError,
 } dif_csrng_cmd_status_t;

 /**
  * CSRNG consume seed from entropy source enable.
  */
 typedef enum dif_csrng_entropy_src_toggle {
   /**
    * Seed material used as the only seed material.
    *
    * This configuration option will toggle the hardware state of the
    * CSRNG to non-FIPS compliant until it is re-instantiated.
    *
    * Note: Software may opt to XOR the seed material with a seed to implement
    * a software assisted FIPS mode of operation.
    */
   kDifCsrngEntropySrcToggleDisable = 1,
   /**
    * Entropy source XOR'ed with the provided seed material.
    */
   kDifCsrngEntropySrcToggleEnable = 0,
 } dif_csrng_entropy_src_toggle_t;

 /**
  * CSRNG common transaction parameters.
  */
 typedef struct dif_csrng_seed_material {
   /**
    * Number of uint32_t words in `seed_material`. Up to 12 words can be
    * set to initialize the CSRNG. CSRNG will extend the `seed_material`
    * to zeros if the provided value is less that 12.
    */
   size_t seed_material_len;
   /**
    * Seed material used in CSRNG
    */
   uint32_t seed_material[12];
 } dif_csrng_seed_material_t;

 /**
  * Generated output state.
  */
 typedef struct dif_csrng_output_status {
   /**
    * Set to true when there is cryptographic entropy data available to
    * read using `dif_csrng_generate_end()`.
    */
   bool valid_data;
   /**
    * Set to true when the cryptographic entropy data available to read
    * is FIPS/CC compliant at the hardware level.
    */
   bool fips_mode;
 } dif_csrng_output_status_t;

 /**
  * CSRNG internal state selector ID.
  */
 typedef enum dif_csrng_internal_state_id {
   /**
    * CSRNG instance assigned to Entropy Distribution Network (EDN) 0.
    */
   kCsrngInternalStateIdEdn0 = 0,
   /**
    * CSRNG instance assigned to Entropy Distribution Network (EDN) 1.
    */
   kCsrngInternalStateIdEdn1 = 1,
   /**
    * CSRNG instance assigned to software interface.
    */
   kCsrngInternalStateIdSw = 2,
 } dif_csrng_internal_state_id_t;

 /**
  * CSRNG internal state.
  */
 typedef struct dif_csrng_internal_state {
   /**
    * Indicates the number of requests for pseudorandom bits since instantiation
    * or reseeding.
    */
   uint32_t reseed_counter;
   /**
    * Internal V working state with a 128bit block size.
    */
   uint32_t v[4];
   /**
    * Internal key used to configure the internal CSRNG cipher.
    */
   uint32_t key[8];
   /**
    * Set to true when the CSRNG instance has been instantiated.
    */
   bool instantiated;
   /**
    * Set to true when FIPS compliant entropy was provided directly by the
    * entropy source to instantiate or reseed the CSRNG instance.
    */
   bool fips_compliance;
 } dif_csrng_internal_state_t;

 /**
  * Creates a new handle for CSRNG.
  *
  * This function does not actuate the hardware.
  *
  * @param base_addr Hardware instantiation base address.
  * @param[out] csrng Out param for the initialized handle.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_init(mmio_region_t base_addr, dif_csrng_t *csrng);

 /**
  * Configures CSRNG.
  *
  * This function should need to be called once for the lifetime of `csrng`.
  *
  * @param csrng A CSRNG handle.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_configure(const dif_csrng_t *csrng);

 /**
  * Initializes CSRNG instance with a new seed value.
  *
  * `seed_material` is used as specified in NIST SP 800-90Ar1 section
  * 10.2.1.3.1. See `dif_csrng_entropy_src` for details on how this value
  * is mixed with the CSRNG seed.
  *
  * `seed_material` can be NULL, in which case CSRNG will use a zero
  * vector instead.
  *
  * @param csrng A CSRNG handle.
  * @param entropy_src_enable Entropy source input enable.
  * @param seed_material Seed initialization parameters.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_instantiate(
     const dif_csrng_t *csrng, dif_csrng_entropy_src_toggle_t entropy_src_enable,
     const dif_csrng_seed_material_t *seed_material);

 /**
  * Reseeds CSRNG instance.
  *
  * When `seed_material.seed_material_len` is set to 0, only the entropy source
  * seed is used to reseed the instance, otherwise it will be XOR'ed with the
  * entropy source.
  *
  * @param csrng A CSRNG handle.
  * @param seed_material Reseed parameters.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_reseed(const dif_csrng_t *csrng,
                               const dif_csrng_seed_material_t *seed_material);

 /**
  * Updates CSRNG state.
  *
  * This function is similar to `dif_csrng_reseed()`, except:
  *
  * - Only `seed_material.seed_material` is used in the update operation.
  * - The update operation does not reset the internal CSRNG reseed
  *   counter.
  *
  * @param csrng A CSRNG handle.
  * @param seed_material Update parameters.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_update(const dif_csrng_t *csrng,
                               const dif_csrng_seed_material_t *seed_material);

 /**
  * Requests cryptographic entropy bits from the CSRNG.
  *
  * The prediction resistance flag as specified in SP 800-90Ar1 section
  * 10.2.1.1 is not directily supported by the hardware. It is the
  * responsibility of the caller to reseed as needed before calling
  * this function.
  *
  * The CSRNG accepts generation requests with 128-bit granularity, with
  * a minimum 128-bit request size. This function will increase the size
  * of the request to align it to the nearest 128-bit boundary.
  *
  * @param csrng A CSRNG handle.
  * @param len Number of uint32_t words to generate.
  *
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_generate_start(const dif_csrng_t *csrng, size_t len);

 /**
  * Reads the output of the last CSRNG generate call.
  *
  * This function blocks until all data is read from the CSRNG. The caller is
  * responsible for making sure that the `len` parameter matches the length set
  * in the `dif_csrng_generate_start()` call.
  *
  * `dif_csrng_get_output_status()` can be called before this function to ensure
  * there is data availble in the CSRNG output buffer.
  *
  * @param csrng A CSRNG handle.
  * @param[out] buf A buffer to fill with words from the pipeline.
  * @param len The number of words to read into `buf`.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_generate_end(const dif_csrng_t *csrng, uint32_t *buf,
                                     size_t len);

 /**
  * Uninstantiates CSRNG
  *
  * Resets the CSRNG instance. Values in the CSRNG are zeroed out. This
  * command effectively resets the CSRNG, clearing any errors that it
  * may have encountered due to processing or entropy source errors.
  *
  * @param csrng An CSRNG handle.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_uninstantiate(const dif_csrng_t *csrng);

 /**
  * Gets the current command interface status.
  *
  * This function can be called before or after any of the following functions:
  *
  * - `dif_csrng_instantiate()`
  * - `dif_csrng_reseed()`
  * - `dif_csrng_update()`
  * - `dif_csrng_generate_start()`
  * - `dif_csrng_uninstantiate()`
  *
  * @param csrng An CSRNG handle
  * @param[out] status Command interface status.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_get_cmd_interface_status(const dif_csrng_t *csrng,
                                                 dif_csrng_cmd_status_t *status);

 /**
  * Gets the current cryptographic entropy output data status.
  *
  * This function can be used before calling `dif_csrng_generate_end()` to
  * check if there is data available to read.
  *
  * @param csrng A CSRNG handle.
  * @param[out] status CSRNG output status.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_get_output_status(const dif_csrng_t *csrng,
                                          dif_csrng_output_status_t *status);

 /**
  * Gets the working state of a CSRNG instance.
  *
  * @param csrng A CSRNG handle
  * @param instance_id CSRNG instance ID.
  * @param[out] state The working state of a CSRNG instance.
  * @return The result of the operation.
  *
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_get_internal_state(
     const dif_csrng_t *csrng, dif_csrng_internal_state_id_t instance_id,
     dif_csrng_internal_state_t *state);

 /**
  * Locks out CSRNG functionality.
  *
  * This function is reentrant: calling it while functionality is locked will
  * have no effect and return `kDifCsrngOk`.
  *
  * @param csrng A CSRNG handle.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_lock(const dif_csrng_t *csrng);

 /**
  * Checks whether this CSRNG is locked.
  *
  * @param csrng A CSRNG handle.
  * @param[out] is_locked Out-param for the locked state.
  * @return The result of the operation.
  */
 OT_WARN_UNUSED_RESULT
 dif_result_t dif_csrng_is_locked(const dif_csrng_t *csrng, bool *is_locked);

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

 #endif  // OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CSRNG_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_CSRNG_H_
	#define OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CSRNG_H_

	/**
	* @file
	* @brief <a href="/hw/ip/csrng/doc/">CSRNG</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_csrng_autogen.h"

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

	/**
	* This API implements an interface for the CSRNG hardware.
	*
	* The API follows the naming conventions used in NIST SP 800-90Ar1:
	*
	* - Instantiate.
	* - Update
	* - Reseed
	* - Generate
	* - Uninstantiate
	*
	* The seed used for instantiation can either be provided directly in
	* hardware by an entropy source module; or directly by software. See
	* `dif_csrng_instantiate()` and `dif_csrng_entropy_src` for
	* more details.
	*
	* The following sequence of operations are required to initialize
	* and generate cryptographic entropy from the CSRNG module:
	*
	* - `dif_csrng_init()`
	* - `dif_csrng_configure()`
	* - `dif_csrng_instantiate()`
	* - `dif_csrng_generate_start()`
	* - `dif_csrng_uninstantiate()`
	*
	* The following functions can be used for reseed and update operations:
	*
	* - `dif_csrng_reseed()`
	* - `dif_csrng_update()`
	*
	* The following utility functions are available to poll the state of
	* the hardware:
	*
	* - `dif_csrng_get_cmd_interface_status()`
	* - `dif_csrng_get_output_status()`
	*
	* Please see the following documentation for more information:
	* https://docs.opentitan.org/hw/ip/csrng/doc/
	*
	* Remaining work:
	*
	* - Add error status interface.
	* - Add internal state control and debug interface.
	*/

	/**
	* Enumeration of CSRNG command interface states.
	*/
	typedef enum dif_csrng_cmd_status {
	/**
	* The command interface is ready to accept commands.
	*/
	kDifCsrngCmdStatusReady,
	/**
	* The command interface is processing a command.
	*/
	kDifCsrngCmdStatusBusy,
	/**
	* The command interface completed with an error.
	*/
	// TODO: How does the command interface recover from an error.
	// TODO: Add support for decoding ERR_CODE using, probably using
	// a separate interface.
	kDifCsrngCmdStatusError,
	} dif_csrng_cmd_status_t;

	/**
	* CSRNG consume seed from entropy source enable.
	*/
	typedef enum dif_csrng_entropy_src_toggle {
	/**
	* Seed material used as the only seed material.
	*
	* This configuration option will toggle the hardware state of the
	* CSRNG to non-FIPS compliant until it is re-instantiated.
	*
	* Note: Software may opt to XOR the seed material with a seed to implement
	* a software assisted FIPS mode of operation.
	*/
	kDifCsrngEntropySrcToggleDisable = 1,
	/**
	* Entropy source XOR'ed with the provided seed material.
	*/
	kDifCsrngEntropySrcToggleEnable = 0,
	} dif_csrng_entropy_src_toggle_t;

	/**
	* CSRNG common transaction parameters.
	*/
	typedef struct dif_csrng_seed_material {
	/**
	* Number of uint32_t words in `seed_material`. Up to 12 words can be
	* set to initialize the CSRNG. CSRNG will extend the `seed_material`
	* to zeros if the provided value is less that 12.
	*/
	size_t seed_material_len;
	/**
	* Seed material used in CSRNG
	*/
	uint32_t seed_material[12];
	} dif_csrng_seed_material_t;

	/**
	* Generated output state.
	*/
	typedef struct dif_csrng_output_status {
	/**
	* Set to true when there is cryptographic entropy data available to
	* read using `dif_csrng_generate_end()`.
	*/
	bool valid_data;
	/**
	* Set to true when the cryptographic entropy data available to read
	* is FIPS/CC compliant at the hardware level.
	*/
	bool fips_mode;
	} dif_csrng_output_status_t;

	/**
	* CSRNG internal state selector ID.
	*/
	typedef enum dif_csrng_internal_state_id {
	/**
	* CSRNG instance assigned to Entropy Distribution Network (EDN) 0.
	*/
	kCsrngInternalStateIdEdn0 = 0,
	/**
	* CSRNG instance assigned to Entropy Distribution Network (EDN) 1.
	*/
	kCsrngInternalStateIdEdn1 = 1,
	/**
	* CSRNG instance assigned to software interface.
	*/
	kCsrngInternalStateIdSw = 2,
	} dif_csrng_internal_state_id_t;

	/**
	* CSRNG internal state.
	*/
	typedef struct dif_csrng_internal_state {
	/**
	* Indicates the number of requests for pseudorandom bits since instantiation
	* or reseeding.
	*/
	uint32_t reseed_counter;
	/**
	* Internal V working state with a 128bit block size.
	*/
	uint32_t v[4];
	/**
	* Internal key used to configure the internal CSRNG cipher.
	*/
	uint32_t key[8];
	/**
	* Set to true when the CSRNG instance has been instantiated.
	*/
	bool instantiated;
	/**
	* Set to true when FIPS compliant entropy was provided directly by the
	* entropy source to instantiate or reseed the CSRNG instance.
	*/
	bool fips_compliance;
	} dif_csrng_internal_state_t;

	/**
	* Creates a new handle for CSRNG.
	*
	* This function does not actuate the hardware.
	*
	* @param base_addr Hardware instantiation base address.
	* @param[out] csrng Out param for the initialized handle.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_init(mmio_region_t base_addr, dif_csrng_t *csrng);

	/**
	* Configures CSRNG.
	*
	* This function should need to be called once for the lifetime of `csrng`.
	*
	* @param csrng A CSRNG handle.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_configure(const dif_csrng_t *csrng);

	/**
	* Initializes CSRNG instance with a new seed value.
	*
	* `seed_material` is used as specified in NIST SP 800-90Ar1 section
	* 10.2.1.3.1. See `dif_csrng_entropy_src` for details on how this value
	* is mixed with the CSRNG seed.
	*
	* `seed_material` can be NULL, in which case CSRNG will use a zero
	* vector instead.
	*
	* @param csrng A CSRNG handle.
	* @param entropy_src_enable Entropy source input enable.
	* @param seed_material Seed initialization parameters.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_instantiate(
	const dif_csrng_t *csrng, dif_csrng_entropy_src_toggle_t entropy_src_enable,
	const dif_csrng_seed_material_t *seed_material);

	/**
	* Reseeds CSRNG instance.
	*
	* When `seed_material.seed_material_len` is set to 0, only the entropy source
	* seed is used to reseed the instance, otherwise it will be XOR'ed with the
	* entropy source.
	*
	* @param csrng A CSRNG handle.
	* @param seed_material Reseed parameters.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_reseed(const dif_csrng_t *csrng,
	const dif_csrng_seed_material_t *seed_material);

	/**
	* Updates CSRNG state.
	*
	* This function is similar to `dif_csrng_reseed()`, except:
	*
	* - Only `seed_material.seed_material` is used in the update operation.
	* - The update operation does not reset the internal CSRNG reseed
	* counter.
	*
	* @param csrng A CSRNG handle.
	* @param seed_material Update parameters.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_update(const dif_csrng_t *csrng,
	const dif_csrng_seed_material_t *seed_material);

	/**
	* Requests cryptographic entropy bits from the CSRNG.
	*
	* The prediction resistance flag as specified in SP 800-90Ar1 section
	* 10.2.1.1 is not directily supported by the hardware. It is the
	* responsibility of the caller to reseed as needed before calling
	* this function.
	*
	* The CSRNG accepts generation requests with 128-bit granularity, with
	* a minimum 128-bit request size. This function will increase the size
	* of the request to align it to the nearest 128-bit boundary.
	*
	* @param csrng A CSRNG handle.
	* @param len Number of uint32_t words to generate.
	*
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_generate_start(const dif_csrng_t *csrng, size_t len);

	/**
	* Reads the output of the last CSRNG generate call.
	*
	* This function blocks until all data is read from the CSRNG. The caller is
	* responsible for making sure that the `len` parameter matches the length set
	* in the `dif_csrng_generate_start()` call.
	*
	* `dif_csrng_get_output_status()` can be called before this function to ensure
	* there is data availble in the CSRNG output buffer.
	*
	* @param csrng A CSRNG handle.
	* @param[out] buf A buffer to fill with words from the pipeline.
	* @param len The number of words to read into `buf`.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_generate_end(const dif_csrng_t csrng, uint32_t buf,
	size_t len);

	/**
	* Uninstantiates CSRNG
	*
	* Resets the CSRNG instance. Values in the CSRNG are zeroed out. This
	* command effectively resets the CSRNG, clearing any errors that it
	* may have encountered due to processing or entropy source errors.
	*
	* @param csrng An CSRNG handle.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_uninstantiate(const dif_csrng_t *csrng);

	/**
	* Gets the current command interface status.
	*
	* This function can be called before or after any of the following functions:
	*
	* - `dif_csrng_instantiate()`
	* - `dif_csrng_reseed()`
	* - `dif_csrng_update()`
	* - `dif_csrng_generate_start()`
	* - `dif_csrng_uninstantiate()`
	*
	* @param csrng An CSRNG handle
	* @param[out] status Command interface status.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_get_cmd_interface_status(const dif_csrng_t *csrng,
	dif_csrng_cmd_status_t *status);

	/**
	* Gets the current cryptographic entropy output data status.
	*
	* This function can be used before calling `dif_csrng_generate_end()` to
	* check if there is data available to read.
	*
	* @param csrng A CSRNG handle.
	* @param[out] status CSRNG output status.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_get_output_status(const dif_csrng_t *csrng,
	dif_csrng_output_status_t *status);

	/**
	* Gets the working state of a CSRNG instance.
	*
	* @param csrng A CSRNG handle
	* @param instance_id CSRNG instance ID.
	* @param[out] state The working state of a CSRNG instance.
	* @return The result of the operation.
	*
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_get_internal_state(
	const dif_csrng_t *csrng, dif_csrng_internal_state_id_t instance_id,
	dif_csrng_internal_state_t *state);

	/**
	* Locks out CSRNG functionality.
	*
	* This function is reentrant: calling it while functionality is locked will
	* have no effect and return `kDifCsrngOk`.
	*
	* @param csrng A CSRNG handle.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_lock(const dif_csrng_t *csrng);

	/**
	* Checks whether this CSRNG is locked.
	*
	* @param csrng A CSRNG handle.
	* @param[out] is_locked Out-param for the locked state.
	* @return The result of the operation.
	*/
	OT_WARN_UNUSED_RESULT
	dif_result_t dif_csrng_is_locked(const dif_csrng_t csrng, bool is_locked);

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

	#endif // OPENTITAN_SW_DEVICE_LIB_DIF_DIF_CSRNG_H_