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dif_entropy_src.h
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dif_entropy_src.h
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// Copyright lowRISC contributors (OpenTitan project).
// 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_ENTROPY_SRC_H_
#define OPENTITAN_SW_DEVICE_LIB_DIF_DIF_ENTROPY_SRC_H_
/**
* @file
* @brief <a href="/hw/ip/entropy_src/doc/">Entropy Source</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_entropy_src_autogen.h"
#ifdef __cplusplus
extern "C" {
#endif // __cplusplus
/**
* A single-bit RNG mode, where only one bit is sampled.
*/
typedef enum dif_entropy_src_single_bit_mode {
/**
* Single-bit-mode, sampling the zeroth bit.
*/
kDifEntropySrcSingleBitMode0 = 0,
/**
* Single-bit-mode, sampling the first bit.
*/
kDifEntropySrcSingleBitMode1 = 1,
/**
* Single-bit-mode, sampling the second bit.
*/
kDifEntropySrcSingleBitMode2 = 2,
/**
* Single-bit-mode, sampling the third bit.
*/
kDifEntropySrcSingleBitMode3 = 3,
/**
* Indicates that single-bit-mode is disabled.
*/
kDifEntropySrcSingleBitModeDisabled = 4,
} dif_entropy_src_single_bit_mode_t;
/**
* Main FSM state.
*/
typedef enum dif_entropy_src_main_fsm {
kDifEntropySrcMainFsmStateIdle = 0x0f5,
kDifEntropySrcMainFsmStateBootHTRunning = 0x1d2,
kDifEntropySrcMainFsmStateBootPostHTChk = 0x16e,
kDifEntropySrcMainFsmStateBootPhaseDone = 0x08e,
kDifEntropySrcMainFsmStateStartupHTStart = 0x02c,
kDifEntropySrcMainFsmStateStartupPhase1 = 0x101,
kDifEntropySrcMainFsmStateStartupPass1 = 0x1a5,
kDifEntropySrcMainFsmStateStartupFail1 = 0x017,
kDifEntropySrcMainFsmStateContHTStart = 0x040,
kDifEntropySrcMainFsmStateContHTRunning = 0x1a2,
kDifEntropySrcMainFsmStateFWInsertStart = 0x0c3,
kDifEntropySrcMainFsmStateFWInsertMsg = 0x059,
kDifEntropySrcMainFsmStateSha3MsgDone = 0x10f,
kDifEntropySrcMainFsmStateSha3Process = 0x0f8,
kDifEntropySrcMainFsmStateSha3Valid = 0x0bf,
kDifEntropySrcMainFsmStateSha3Done = 0x198,
kDifEntropySrcMainFsmStateAlertState = 0x1cd,
kDifEntropySrcMainFsmStateAlertHang = 0x1fb,
kDifEntropySrcMainFsmStateError = 0x73
} dif_entropy_src_main_fsm_t;
/**
* Firmware override parameters for an entropy source.
*/
typedef struct dif_entropy_src_fw_override_config {
/**
* Enables firmware to insert entropy bits back into the pre-conditioner FIFO
* via `dif_entropy_src_fw_ov_data_write()` calls. This feature is useful when
* the firmware is required to implement additional health checks, and to
* perform known answer tests of the conditioner.
*
* To take effect, this requires the firmware override feature to be enabled.
*/
bool entropy_insert_enable;
/**
* This field sets the depth of the observe FIFO hardware buffer used when
* the firmware override feature is enabled.
*/
uint8_t buffer_threshold;
} dif_entropy_src_fw_override_config_t;
/**
* Runtime configuration for an entropy source.
*
* This struct describes runtime information for one-time configuration of the
* hardware.
*/
typedef struct dif_entropy_src_config {
/**
* If set, FIPS compliant entropy will be generated by this module after being
* processed by an SP 800-90B compliant conditioning function.
*
* Software may opt for implementing FIPS mode of operation without hardware
* support by setting this field to false. In such case, software is
* responsible for implementing the conditioning function.
*/
bool fips_enable;
/**
* If set, the produced output entropy is marked as FIPS compliant
* through the FIPS bit being set to high.
*/
bool fips_flag;
/**
* If set, the noise source is instructed to produce high quality entropy.
*/
bool rng_fips;
/**
* If set, entropy will be routed to a firmware-visible register instead of
* being distributed to other hardware IPs.
*/
bool route_to_firmware;
/**
* If set, raw entropy will be sent to CSRNG, bypassing the conditioner block
* and disabling the FIPS flag. Note that the FIPS flag is different from
* running the block in FIPS mode. FIPS mode refers to running the entropy_src
* in continuous mode. Also note that if `fips_enable` is set to `True`, then
* at most one of either `route_to_firmware` or `bypass_conditioner` may be
* set, but will result in disabling the FIPS mode of operation from a
* hardware perspective.
*/
bool bypass_conditioner;
/**
* Specifies which single-bit-mode to use, if any at all. FIPS mode of
* operation is disabled in single-bit-mode of operation is selected.
*/
dif_entropy_src_single_bit_mode_t single_bit_mode;
/**
* Controls the scope (either by-line or by-sum) of the health tests.
*
* If true, the Adaptive Proportion and Markov Tests will accumulate all RNG
* input lines into a single score, and thresholds will be applied to the sum
* of all the entropy input lines.
*
* If false, the RNG input lines are all scored individually. A statistical
* deviation in any one input line, be it due to coincidence or failure, will
* force rejection of the sample, and count toward the total alert count.
*/
bool health_test_threshold_scope;
/**
* The size of the window used for health tests.
*
* Units: bits
*/
uint16_t health_test_window_size;
/**
* The number of health test failures that must occur before an alert is
* triggered. When set to 0, alerts are disabled.
*/
uint16_t alert_threshold;
} dif_entropy_src_config_t;
/**
* A statistical test on the bits emitted by an entropy source.
*/
typedef enum dif_entropy_src_test {
/**
* An SP 800-90B repetition count test.
*
* This test screens for stuck bits, or a total failure of the noise source.
* This test fails if any sequence of bits repeats too many times in a row
* for too many samples.
*/
kDifEntropySrcTestRepetitionCount = 0,
/**
* An SP 800-90B symbol repetition count test.
*
* This is similar to the above, test but is performed on a symbol, instead of
* bit, basis.
*/
kDifEntropySrcTestRepetitionCountSymbol = 1,
/**
* An SP 800-90B adaptive proportion test.
*
* This test screens for statistical bias in the number of ones or zeros
* output by the noise source.
*/
kDifEntropySrcTestAdaptiveProportion = 2,
/**
* A bucket test.
*
* This test looks for correlations between individual noise channels.
*/
kDifEntropySrcTestBucket = 3,
/**
* A "Markov" test.
*
* This test looks for unexpected first-order temporal correlations
* between individual noise channels.
*/
kDifEntropySrcTestMarkov = 4,
/**
* A firmware-driven "mailbox" test.
*
* This test allows firmware to inspect 2kbit blocks of entropy, and signal
* potential concerns to the hardware.
*/
kDifEntropySrcTestMailbox = 5,
/** \internal */
kDifEntropySrcTestNumVariants = 6,
} dif_entropy_src_test_t;
/**
* Criteria used by various entropy source health tests to decide whether the
* test has failed.
*/
typedef struct dif_entropy_src_health_test_config {
/**
* The entropy source health test type to configure.
*/
dif_entropy_src_test_t test_type;
/**
* The high threshold for the health test (contains both FIPS and bypass
* thresholds).
*/
uint32_t high_threshold;
/**
* The low threshold for the health test (contains both FIPS and bypass
* thresholds).
*
* If the corresponding health test has no low threshold, set to 0, otherwise
* `dif_entropy_src_health_test_configure()` will return `kDifBadArg`.
*/
uint32_t low_threshold;
} dif_entropy_src_health_test_config_t;
/**
* Revision information for an entropy source.
*
* The fields of this struct have an implementation-specific interpretation.
*/
typedef struct dif_entropy_src_revision {
uint8_t abi_revision;
uint8_t hw_revision;
uint8_t chip_type;
} dif_entropy_src_revision_t;
/**
* Statistics on entropy source health tests.
*/
typedef struct dif_entropy_src_health_test_stats {
/**
* High watermark indicating the highest value emitted by a particular test.
*/
uint16_t high_watermark[kDifEntropySrcTestNumVariants];
/**
* Low watermark indicating the lowest value emitted by a particular test
* (contains both FIPS and bypass watermarks).
*
* Note, some health tests do not emit a low watermark as there is no low
* threshold. For these tests, this value will always be UINT16_MAX.
*/
uint16_t low_watermark[kDifEntropySrcTestNumVariants];
/**
* The number of times a particular test has failed above the high threshold
* (contains both FIPS and bypass watermarks).
*/
uint32_t high_fails[kDifEntropySrcTestNumVariants];
/**
* The number of times a particular test has failed below the low threshold.
*
* Note, some health tests do not have a low threshold. For these tests, this
* value will always be 0.
*/
uint32_t low_fails[kDifEntropySrcTestNumVariants];
} dif_entropy_src_health_test_stats_t;
/**
* Statistics on entropy source health tests failures that triggered alerts.
*/
typedef struct dif_entropy_src_alert_fail_counts {
/**
* The total number of test failures, across all test types, that contributed
* to the alerts fired.
*/
uint16_t total_fails;
/**
* The number of test failures, due to the specific test execeeding the high
* threshold, that cause alerts to be fired.
*/
uint8_t high_fails[kDifEntropySrcTestNumVariants];
/**
* The number of test failures, due to the specific test execeeding the low
* threshold, that cause alerts to be fired.
*
* Note, some health tests do not have a low threshold. For these tests, this
* value will always be 0.
*/
uint8_t low_fails[kDifEntropySrcTestNumVariants];
} dif_entropy_src_alert_fail_counts_t;
/**
* SHA3 state machine states.
*
* See `hw/ip/kmac/rtl/sha3_pkg.sv` for more details.
*/
typedef enum dif_entropy_src_sha3_state {
kDifEntropySrcSha3StateIdle = 0,
kDifEntropySrcSha3StateAbsorb = 1,
kDifEntropySrcSha3StateSqueeze = 2,
kDifEntropySrcSha3StateManualRun = 3,
kDifEntropySrcSha3StateFlush = 4,
kDifEntropySrcSha3StateError = 5,
} dif_entropy_src_sha3_state_t;
/**
* Debug status information.
*/
typedef struct dif_entropy_src_debug_state {
/**
* Depth of the entropy source FIFO.
*
* Valid range: [0, 7]
*/
uint8_t entropy_fifo_depth;
/**
* The current state of the SHA3 preconditioner state machine.
*
* See `dif_entropy_src_sha3_state_t` for more details.
*/
dif_entropy_src_sha3_state_t sha3_fsm_state;
/**
* Whether the SHA3 preconditioner has completed processing the current block.
*/
bool sha3_block_processed;
/**
* Whether the SHA3 preconditioner is in the squeezing state.
*/
bool sha3_squeezing;
/**
* Whether the SHA3 preconditioner is in the absorbed state.
*/
bool sha3_absorbed;
/**
* Whether the SHA3 preconditioner has is in an error state.
*/
bool sha3_error;
/**
* Whether the main FSM is in the idle state.
*/
bool main_fsm_is_idle;
/**
* Whether the main FSM is in the boot done state.
*/
bool main_fsm_boot_done;
} dif_entropy_src_debug_state_t;
/**
* Recoverable alerts.
*/
typedef enum dif_entropy_src_alert_cause {
/**
* Triggered when the FIPS_ENABLE field in the CONF register is set to an
* unsupported value.
*/
kDifEntropySrcAlertFipsEnableField = 1U << 0,
/**
* Triggered when the ENTROPY_DATA_REG_ENABLE field in the CONF register is
* set to an unsupported value.
*/
kDifEntropySrcAlertEntropyDataRegEnField = 1U << 1,
/**
* Triggered when the MODULE_ENABLE field in the MODULE_ENABLE register is set
* to an unsupported value.
*/
kDifEntropySrcAlertModuleEnableField = 1U << 2,
/**
* Triggered when the THRESHOLD_SCOPE field in the CONF register is set to an
* unsupported value.
*/
kDifEntropySrcAlertThresholdScopeField = 1U << 3,
/**
* Triggered when the RNG_BIT_ENABLE field in the CONF register is set to an
* unsupported value.
*/
kDifEntropySrcAlertRngBitEnableField = 1U << 5,
/**
* Triggered when the FW_OV_SHA3_START field in the FW_OV_SHA3_START register
* is set to an unsupported value.
*/
kDifEntropySrcAlertFwOvSha3StartField = 1U << 7,
/**
* Triggered when the FW_OV_MODE field in the FW_OV_CONTROL register is set to
* an unsupported value.
*/
kDifEntropySrcAlertFwOvModeField = 1U << 8,
/**
* Triggered when the FW_OV_ENTROPY_INSERT field in the FW_OV_CONTROL register
* is set to an unsupported value.
*/
kDifEntropySrcAlertFwOvEntropyInsertField = 1U << 9,
/**
* Triggered when the ES_ROUTE field in the ENTROPY_CONTROL register is set to
* an unsupported value.
*/
kDifEntropySrcAlertEsRouteField = 1U << 10,
/**
* Triggered when the ES_TYPE field in the ENTROPY_CONTROL register is set to
* an unsupported value.
*/
kDifEntropySrcAlertEsTypeField = 1U << 11,
/**
* Triggered when the main state machine detects a threshold failure state.
*/
kDifEntropySrcAlertMainStateMachine = 1U << 12,
/**
* Triggered when the internal entropy bus value is equal to the prior valid
* value on the bus, indicating a possible attack.
*/
kDifEntropySrcAlertDuplicateValue = 1U << 13,
/**
* Triggered when the ALERT_THRESHOLD register is not configured properly,
* i.e., the upper field must be the exact inverse of the lower field.
*/
kDifEntropySrcAlertThresholdConfig = 1U << 14,
/**
* Triggered when the packer FIFO has been written but was full at the time
* and we are in FW_OV_MODE and FW_OV_ENTROPY_INSERT modes.
*/
kDifEntropySrcAlertFirmwareOverrideWrite = 1U << 15,
/**
* Triggered when FW_OV_SHA3_START has been set to kMultiBitBool4False,
* without waiting for the bypass packer FIFO to clear.
*/
kDifEntropySrcAlertFirmwareOverrideDisable = 1U << 16,
/**
* Triggered when the FIPS_FLAG field in the CONF register is set to an
* unsupported value.
*/
kDifEntropySrcAlertFipsFlagField = 1U << 17,
/**
* Triggered when the RNG_FIPS field in the CONF register is set to an
* unsupported value.
*/
kDifEntropySrcAlertRngFipsField = 1U << 18,
/**
* All alert reasons.
*
* This is useful when clearing all recoverable alerts at once.
*/
kDifEntropySrcAlertAllAlerts = (1U << 19) - 1,
} dif_entropy_src_alert_cause_t;
/**
* Error codes (non-recoverable).
*/
typedef enum dif_entropy_src_error {
/**
* Triggered when a write error has been detected for the esrng FIFO.
*/
kDifEntropySrcErrorRngFifoWrite = 1U << 0,
/**
* Triggered when a read error has been detected for the esrng FIFO.
*/
kDifEntropySrcErrorRngFifoRead = 1U << 1,
/**
* Triggered when a state error has been detected for the esrng FIFO.
*/
kDifEntropySrcErrorRngFifoState = 1U << 2,
/**
* Triggered when a write error has been detected for the observe FIFO.
*/
kDifEntropySrcErrorObserveFifoWrite = 1U << 3,
/**
* Triggered when a read error has been detected for the observe FIFO.
*/
kDifEntropySrcErrorObserveFifoRead = 1U << 4,
/**
* Triggered when a state error has been detected for the observe FIFO.
*/
kDifEntropySrcErrorObserveFifoState = 1U << 5,
/**
* Triggered when a write error has been detected for the esfinal FIFO.
*/
kDifEntropySrcErrorFinalFifoWrite = 1U << 6,
/**
* Triggered when a read error has been detected for the esfinal FIFO.
*/
kDifEntropySrcErrorFinalFifoRead = 1U << 7,
/**
* Triggered when a state error has been detected for the esfinal FIFO.
*/
kDifEntropySrcErrorFinalFifoState = 1U << 8,
/**
* Triggered when an error has been detected for the acknowledgment stage
* state machine.
*/
kDifEntropySrcErrorAckStateMachine = 1U << 9,
/**
* Triggered when an error has been detected for the main state machine.
*/
kDifEntropySrcErrorMainStateMachine = 1U << 10,
/**
* Triggered when an error has been detected for a hardened counter.
*/
kDifEntropySrcErrorHardenedCounter = 1U << 11,
} dif_entropy_src_error_t;
/**
* Stops the current mode of operation and disables the entropy_src module
*
* @param entropy_src An entropy source handle.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_stop(const dif_entropy_src_t *entropy_src);
/**
* Configures entropy source with runtime information.
*
* This function should only need to be called once for the lifetime of the
* `entropy` handle.
*
* @param entropy_src An entropy source handle.
* @param config Runtime configuration parameters.
* @param enabled The enablement state of the entropy source.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_configure(const dif_entropy_src_t *entropy_src,
dif_entropy_src_config_t config,
dif_toggle_t enabled);
/**
* Configures entropy source firmware override feature with runtime information.
*
* This function should only need to be called once for the lifetime of the
* `entropy` handle.
*
* @param entropy_src An entropy source handle.
* @param config Runtime configuration parameters for firmware override.
* @param enabled The enablement state of the firmware override option.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_fw_override_configure(
const dif_entropy_src_t *entropy_src,
dif_entropy_src_fw_override_config_t config, dif_toggle_t enabled);
/**
* Configures whether to start the entropy source's SHA3 process and be ready to
* accept entropy data.
*
* This is used in firmware override mode and should be enabled before writing
* to the override FIFO. Disable this after writing has finished to ensure the
* SHA3 block finishes processing and pushes the results to the `esfinal` FIFO.
*
* @param entropy_src An entropy source handle.
* @param enabled Whether to start the SHA3 process.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_fw_override_sha3_start_insert(
const dif_entropy_src_t *entropy_src, dif_toggle_t enabled);
/**
* Configures an entropy source health test feature with runtime information.
*
* This function should only need to be called once for each health test that
* requires configuration for the lifetime of the `entropy` handle.
*
* @param entropy_src An entropy source handle.
* @param config Runtime configuration parameters for the health test.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_health_test_configure(
const dif_entropy_src_t *entropy_src,
dif_entropy_src_health_test_config_t config);
/**
* Enables/Disables the entropy source.
*
* @param entropy_src An entropy source handle.
* @param enabled The enablement state to configure the entropy source in.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_set_enabled(const dif_entropy_src_t *entropy_src,
dif_toggle_t enabled);
/**
* Locks out entropy source functionality.
*
* This function is reentrant: calling it while functionality is locked will
* have no effect and return `kDifEntropySrcOk`.
*
* @param entropy_src An entropy source handle.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_lock(const dif_entropy_src_t *entropy_src);
/**
* Checks whether this entropy source is locked.
*
* @param entropy_src An entropy source 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_entropy_src_is_locked(const dif_entropy_src_t *entropy_src,
bool *is_locked);
/**
* Queries the entropy_src source IP for its revision information.
*
* @param entropy_src An entropy source handle.
* @param[out] revision Out-param for revision data.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_get_revision(const dif_entropy_src_t *entropy_src,
dif_entropy_src_revision_t *revision);
/**
* Queries the entropy source for health test statistics.
*
* @param entropy_src An entropy source handle.
* @param[out] stats Out-param for stats data.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_get_health_test_stats(
const dif_entropy_src_t *entropy_src,
dif_entropy_src_health_test_stats_t *stats);
/**
* Queries the entropy source for health test failure statistics.
*
* @param entropy_src An entropy source handle.
* @param[out] counts Out-param for test failure data that triggers alerts.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_get_alert_fail_counts(
const dif_entropy_src_t *entropy_src,
dif_entropy_src_alert_fail_counts_t *counts);
/**
* Checks to see if entropy is available for software consumption.
*
* @param entropy_src An entropy source handle.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_is_entropy_available(
const dif_entropy_src_t *entropy_src);
/**
* Reads a word of entropy from the entropy source.
*
* @param entropy_src An entropy source handle.
* @param[out] word Out-param for the entropy word.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_non_blocking_read(
const dif_entropy_src_t *entropy_src, uint32_t *word);
/**
* Performs a blocking read from the entropy pipeline through the observe FIFO,
* which contains post health-test, unconditioned entropy.
*
* The entropy source must be configured with firmware override mode enabled,
* and the `len` parameter must be less than or equal to the FIFO threshold set
* in the firmware override parameters (that is, the threshold that triggers an
* interrupt). Additionally, `buf` may be `NULL`; in this case, reads will be
* discarded.
*
* @param entropy_src An entropy source 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_entropy_src_observe_fifo_blocking_read(
const dif_entropy_src_t *entropy_src, uint32_t *buf, size_t len);
/**
* Performs a nonblocking read from the entropy pipeline through the observe
* FIFO, which contains post health-test, unconditioned entropy.
*
* The entropy source must be configured with firmware override mode enabled.
* This function will read at most `*len` words from the observe FIFO and store
* them in `buf` if it is not `NULL`. If `buf` is `NULL` then the reads will be
* discarded instead. This function never blocks and returns as soon as the FIFO
* is empty. It updates `*len` to store the number of actually read words.
*
* @param entropy_src An entropy source handle.
* @param[out] buf A buffer to fill with words from the pipeline.
* @param[inout] len A pointer to the maximum number of words to reads. This
* value is updated to contain the number of words acually read.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_observe_fifo_nonblocking_read(
const dif_entropy_src_t *entropy_src, uint32_t *buf, size_t *len);
/**
* Performs a write to the entropy pipeline through the firmware override FIFO.
*
* Entropy source must be configured with firmware override and insert mode
* enabled, otherwise the function will return `kDifError`.
*
* @param entropy_src An entropy source handle.
* @param buf A buffer to push words from into the pipeline.
* @param len The number of words to write from `buf`.
* @param[out] written The number of words successfully written.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_fw_ov_data_write(
const dif_entropy_src_t *entropy_src, const uint32_t *buf, size_t len,
size_t *written);
/**
* Starts conditioner operation.
*
* Initializes the conditioner. Use the `dif_entropy_src_fw_ov_data_write()`
* function to send data to the conditioner, and
* `dif_entropy_src_conditioner_stop()` once ready to stop the conditioner
* operation.
*
* This function is only available when firmware override mode is enabled. See
* `dif_entropy_src_fw_override_configure()` for more details.
*
* @param entropy_src An entropy source handle.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_conditioner_start(
const dif_entropy_src_t *entropy_src);
/**
* Stops conditioner operation.
*
* The conditioner stops processing input data and deposits the result digest
* in the entropy source output buffer. This operation is only available in
* firmware override mode.
*
* @param entropy_src An entropy source handle.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_conditioner_stop(
const dif_entropy_src_t *entropy_src);
/**
* Checks whether the firmware override write FIFO is full.
*
* @param entropy_src An entropy source handle.
* @param[out] is_full Whether the FIFO is full.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_is_fifo_full(const dif_entropy_src_t *entropy_src,
bool *is_full);
/**
* Checks whether the firmware override read FIFO has overflowed.
*
* @param entropy_src An entropy source handle.
* @param[out] has_overflowed Whether the FIFO has overflowed, and data has been
* lost.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_has_fifo_overflowed(
const dif_entropy_src_t *entropy_src, bool *has_overflowed);
/**
* Read the firmware override FIFO depth.
*
* @param entropy_src An entropy source handle.
* @param[out] fifo_depth The FIFO depth.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_get_fifo_depth(
const dif_entropy_src_t *entropy_src, uint32_t *fifo_depth);
/**
* Reads the debug status register.
*
* @param entropy_src An entropy source handle.
* @param[out] debug_state The current debug state of the IP.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_get_debug_state(
const dif_entropy_src_t *entropy_src,
dif_entropy_src_debug_state_t *debug_state);
/**
* Reads the recoverable alert status register.
*
* @param entropy_src An entropy source handle.
* @param[out] alerts The alerts that were triggered (one or more
* `dif_entropy_src_alert_t`'s ORed together).
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_get_recoverable_alerts(
const dif_entropy_src_t *entropy_src, uint32_t *alerts);
/**
* Clears the alerts that are recoverable.
*
* @param entropy_src An entropy source handle.
* @param alerts The alerts to be cleared (one or more
* `dif_entropy_src_alert_t`'s ORed together).
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_clear_recoverable_alerts(
const dif_entropy_src_t *entropy_src, uint32_t alerts);
/**
* Reads the (nonrecoverable) error code status register.
*
* @param entropy_src An entropy source handle.
* @param[out] errors The errors that were triggered (one or more
* `dif_entropy_src_error_t`'s ORed together).
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_get_errors(const dif_entropy_src_t *entropy_src,
uint32_t *errors);
/**
* Forces the hardware to generate a error for testing purposes.
*
* @param entropy_src An entropy source handle.
* @param error The error to force (for testing purposes).
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_error_force(const dif_entropy_src_t *entropy_src,
dif_entropy_src_error_t error);
/**
* Reads the current main FSM state.
*
* @param entropy_src An entropy source handle.
* @param[out] state The current FSM state.
* @return The result of the operation.
*/
OT_WARN_UNUSED_RESULT
dif_result_t dif_entropy_src_get_main_fsm_state(
const dif_entropy_src_t *entropy_src, dif_entropy_src_main_fsm_t *state);
#ifdef __cplusplus
} // extern "C"
#endif // __cplusplus
#endif // OPENTITAN_SW_DEVICE_LIB_DIF_DIF_ENTROPY_SRC_H_