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pqcrypto/3rd/jitterentropy/jitterentropy.h
2023-01-27 22:49:29 +00:00

472 righe
18 KiB
C

/*
* Non-physical true random number generator based on timing jitter.
*
* Copyright Stephan Mueller <smueller@chronox.de>, 2014 - 2022
*
* License
* =======
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, and the entire permission notice in its entirety,
* including the disclaimer of warranties.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote
* products derived from this software without specific prior
* written permission.
*
* ALTERNATIVELY, this product may be distributed under the terms of
* the GNU General Public License, in which case the provisions of the GPL are
* required INSTEAD OF the above restrictions. (This clause is
* necessary due to a potential bad interaction between the GPL and
* the restrictions contained in a BSD-style copyright.)
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ALL OF
* WHICH ARE HEREBY DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
* OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
* USE OF THIS SOFTWARE, EVEN IF NOT ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGE.
*/
#ifndef _JITTERENTROPY_H
#define _JITTERENTROPY_H
#ifdef __cplusplus
extern "C" {
#endif
/***************************************************************************
* Jitter RNG Configuration Section
*
* You may alter the following options
***************************************************************************/
/*
* Enable timer-less timer support with JENT_CONF_ENABLE_INTERNAL_TIMER
*
* In case the hardware is identified to not provide a high-resolution time
* stamp, this option enables a built-in high-resolution time stamp mechanism.
*
* The timer-less noise source is based on threads. This noise source requires
* the linking with the POSIX threads library. I.e. the executing environment
* must offer POSIX threads. If this option is disabled, no linking
* with the POSIX threads library is needed.
*/
/*
* Disable the loop shuffle operation
*
* The shuffle operation enlarges the timing of the conditioning function
* by a variable length defined by the LSB of a time stamp. Some mathematicians
* are concerned that this pseudo-random selection of the loop iteration count
* may create some form of dependency between the different loop counts
* and the associated time duration of the conditioning function. It
* also complicates entropy assessment because it effectively combines a bunch
* of shifted/scaled copies the same distribution and masks failures from the
* health testing.
*
* By enabling this flag, the loop shuffle operation is disabled and
* the entropy collection operates in a way that honor the concerns.
*
* By enabling this flag, the time of collecting entropy may be enlarged.
*/
#define JENT_CONF_DISABLE_LOOP_SHUFFLE
/*
* Shall the LAG predictor health test be enabled?
*/
#define JENT_HEALTH_LAG_PREDICTOR
/*
* Shall the jent_memaccess use a (statistically) random selection for the
* memory to update?
*/
#define JENT_RANDOM_MEMACCESS
/***************************************************************************
* Jitter RNG State Definition Section
***************************************************************************/
#if defined(_MSC_VER)
#include "arch/jitterentropy-base-windows.h"
#else
#include "jitterentropy-base-user.h"
#endif
#define SHA3_256_SIZE_DIGEST_BITS 256
#define SHA3_256_SIZE_DIGEST (SHA3_256_SIZE_DIGEST_BITS >> 3)
/*
* The output 256 bits can receive more than 256 bits of min entropy,
* of course, but the 256-bit output of SHA3-256(M) can only asymptotically
* approach 256 bits of min entropy, not attain that bound. Random maps will
* tend to have output collisions, which reduces the creditable output entropy
* (that is what SP 800-90B Section 3.1.5.1.2 attempts to bound).
*
* The value "64" is justified in Appendix A.4 of the current 90C draft,
* and aligns with NIST's in "epsilon" definition in this document, which is
* that a string can be considered "full entropy" if you can bound the min
* entropy in each bit of output to at least 1-epsilon, where epsilon is
* required to be <= 2^(-32).
*/
#define ENTROPY_SAFETY_FACTOR 64
/**
* Function pointer data structure to register an external thread handler
* used for the timer-less mode of the Jitter RNG.
*
* The external caller provides these function pointers to handle the
* management of the timer thread that is spawned by the Jitter RNG.
*
* @var jent_notime_init This function is intended to initialze the threading
* support. All data that is required by the threading code must be
* held in the data structure @param ctx. The Jitter RNG maintains the
* data structure and uses it for every invocation of the following calls.
*
* @var jent_notime_fini This function shall terminate the threading support.
* The function must dispose of all memory and resources used for the
* threading operation. It must also dispose of the @param ctx memory.
*
* @var jent_notime_start This function is called when the Jitter RNG wants
* to start a thread. Besides providing a pointer to the @param ctx
* allocated during initialization time, the Jitter RNG provides a
* pointer to the function the thread shall execute and the argument
* the function shall be invoked with. These two parameters have the
* same purpose as the trailing two parameters of pthread_create(3).
*
* @var jent_notime_stop This function is invoked by the Jitter RNG when the
* thread should be stopped. Note, the Jitter RNG intends to start/stop
* the thread frequently.
*
* An example implementation is found in the Jitter RNG itself with its
* default thread handler of jent_notime_thread_builtin.
*
* If the caller wants to register its own thread handler, it must be done
* with the API call jent_entropy_switch_notime_impl as the first
* call to interact with the Jitter RNG, even before jent_entropy_init.
* After jent_entropy_init is called, changing of the threading implementation
* is not allowed.
*/
struct jent_notime_thread {
int (*jent_notime_init)(void **ctx);
void (*jent_notime_fini)(void *ctx);
int (*jent_notime_start)(void *ctx,
void *(*start_routine) (void *), void *arg);
void (*jent_notime_stop)(void *ctx);
};
/* The entropy pool */
struct rand_data
{
/* all data values that are vital to maintain the security
* of the RNG are marked as SENSITIVE. A user must not
* access that information while the RNG executes its loops to
* calculate the next random value. */
void *hash_state; /* SENSITIVE hash state entropy pool */
uint64_t prev_time; /* SENSITIVE Previous time stamp */
#define DATA_SIZE_BITS (SHA3_256_SIZE_DIGEST_BITS)
#ifndef JENT_HEALTH_LAG_PREDICTOR
uint64_t last_delta; /* SENSITIVE stuck test */
uint64_t last_delta2; /* SENSITIVE stuck test */
#endif /* JENT_HEALTH_LAG_PREDICTOR */
unsigned int flags; /* Flags used to initialize */
unsigned int osr; /* Oversampling rate */
#ifdef JENT_RANDOM_MEMACCESS
/* The step size should be larger than the cacheline size. */
# ifndef JENT_MEMORY_BITS
# define JENT_MEMORY_BITS 17
# endif
# ifndef JENT_MEMORY_SIZE
# define JENT_MEMORY_SIZE (UINT32_C(1)<<JENT_MEMORY_BITS)
# endif
#else /* JENT_RANDOM_MEMACCESS */
# ifndef JENT_MEMORY_BLOCKS
# define JENT_MEMORY_BLOCKS 512
# endif
# ifndef JENT_MEMORY_BLOCKSIZE
# define JENT_MEMORY_BLOCKSIZE 128
# endif
# ifndef JENT_MEMORY_SIZE
# define JENT_MEMORY_SIZE (JENT_MEMORY_BLOCKS*JENT_MEMORY_BLOCKSIZE)
# endif
#endif /* JENT_RANDOM_MEMACCESS */
#define JENT_MEMORY_ACCESSLOOPS 128
unsigned char *mem; /* Memory access location with size of
* JENT_MEMORY_SIZE or memsize */
#ifdef JENT_RANDOM_MEMACCESS
uint32_t memmask; /* Memory mask (size of memory - 1) */
#else
unsigned int memlocation; /* Pointer to byte in *mem */
unsigned int memblocks; /* Number of memory blocks in *mem */
unsigned int memblocksize; /* Size of one memory block in bytes */
#endif
unsigned int memaccessloops; /* Number of memory accesses per random
* bit generation */
/* Repetition Count Test */
int rct_count; /* Number of stuck values */
/* Adaptive Proportion Test for a significance level of 2^-30 */
unsigned int apt_cutoff; /* Calculated using a corrected version
* of the SP800-90B sec 4.4.2 formula */
#define JENT_APT_WINDOW_SIZE 512 /* Data window size */
unsigned int apt_observations; /* Number of collected observations in
* current window. */
unsigned int apt_count; /* The number of times the reference
* symbol been encountered in the
* window. */
uint64_t apt_base; /* APT base reference */
unsigned int health_failure; /* Permanent health failure */
unsigned int apt_base_set:1; /* APT base reference set? */
unsigned int fips_enabled:1;
unsigned int enable_notime:1; /* Use internal high-res timer */
unsigned int max_mem_set:1; /* Maximum memory configured by user */
#ifdef JENT_CONF_ENABLE_INTERNAL_TIMER
volatile uint8_t notime_interrupt; /* indicator to interrupt ctr */
volatile uint64_t notime_timer; /* high-res timer mock-up */
uint64_t notime_prev_timer; /* previous timer value */
void *notime_thread_ctx; /* register thread data */
#endif /* JENT_CONF_ENABLE_INTERNAL_TIMER */
uint64_t jent_common_timer_gcd; /* Common divisor for all time deltas */
#ifdef JENT_HEALTH_LAG_PREDICTOR
/* Lag predictor test to look for re-occurring patterns. */
/* The lag global cutoff selected based on the selection of osr. */
unsigned int lag_global_cutoff;
/* The lag local cutoff selected based on the selection of osr. */
unsigned int lag_local_cutoff;
/*
* The number of times the lag predictor was correct. Compared to the
* global cutoff.
*/
unsigned int lag_prediction_success_count;
/*
* The size of the current run of successes. Compared to the local
* cutoff.
*/
unsigned int lag_prediction_success_run;
/*
* The total number of collected observations since the health test was
* last reset.
*/
unsigned int lag_best_predictor;
/*
* The total number of collected observations since the health test was
* last reset.
*/
unsigned int lag_observations;
/*
* This is the size of the window used by the predictor. The predictor
* is reset between windows.
*/
#define JENT_LAG_WINDOW_SIZE (1U<<17)
/*
* The amount of history to base predictions on. This must be a power
* of 2. Must be 4 or greater.
*/
#define JENT_LAG_HISTORY_SIZE 8
#define JENT_LAG_MASK (JENT_LAG_HISTORY_SIZE - 1)
/* The delta history for the lag predictor. */
uint64_t lag_delta_history[JENT_LAG_HISTORY_SIZE];
/* The scoreboard that tracks how successful each predictor lag is. */
unsigned int lag_scoreboard[JENT_LAG_HISTORY_SIZE];
#endif /* JENT_HEALTH_LAG_PREDICTOR */
};
/* Flags that can be used to initialize the RNG */
#define JENT_DISABLE_STIR (1<<0) /* UNUSED */
#define JENT_DISABLE_UNBIAS (1<<1) /* UNUSED */
#define JENT_DISABLE_MEMORY_ACCESS (1<<2) /* Disable memory access for more
entropy, saves MEMORY_SIZE RAM for
entropy collector */
#define JENT_FORCE_INTERNAL_TIMER (1<<3) /* Force the use of the internal
timer */
#define JENT_DISABLE_INTERNAL_TIMER (1<<4) /* Disable the potential use of
the internal timer. */
#define JENT_FORCE_FIPS (1<<5) /* Force FIPS compliant mode
including full SP800-90B
compliance. */
/* Flags field limiting the amount of memory to be used for memory access */
#define JENT_FLAGS_TO_MEMSIZE_SHIFT 28
#define JENT_FLAGS_TO_MAX_MEMSIZE(val) (val >> JENT_FLAGS_TO_MEMSIZE_SHIFT)
#define JENT_MAX_MEMSIZE_TO_FLAGS(val) (val << JENT_FLAGS_TO_MEMSIZE_SHIFT)
#define JENT_MAX_MEMSIZE_32kB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 1))
#define JENT_MAX_MEMSIZE_64kB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 2))
#define JENT_MAX_MEMSIZE_128kB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 3))
#define JENT_MAX_MEMSIZE_256kB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 4))
#define JENT_MAX_MEMSIZE_512kB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 5))
#define JENT_MAX_MEMSIZE_1MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 6))
#define JENT_MAX_MEMSIZE_2MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 7))
#define JENT_MAX_MEMSIZE_4MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 8))
#define JENT_MAX_MEMSIZE_8MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C( 9))
#define JENT_MAX_MEMSIZE_16MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C(10))
#define JENT_MAX_MEMSIZE_32MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C(11))
#define JENT_MAX_MEMSIZE_64MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C(12))
#define JENT_MAX_MEMSIZE_128MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C(13))
#define JENT_MAX_MEMSIZE_256MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C(14))
#define JENT_MAX_MEMSIZE_512MB JENT_MAX_MEMSIZE_TO_FLAGS(UINT32_C(15))
#define JENT_MAX_MEMSIZE_MAX JENT_MAX_MEMSIZE_512MB
#define JENT_MAX_MEMSIZE_MASK JENT_MAX_MEMSIZE_MAX
/* We start at 32kB -> offset is log2(32768) */
#define JENT_MAX_MEMSIZE_OFFSET 14
#ifdef JENT_CONF_DISABLE_LOOP_SHUFFLE
# define JENT_MIN_OSR 3
#else
# define JENT_MIN_OSR 1
#endif
#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
/* -- BEGIN Main interface functions -- */
#ifndef JENT_STUCK_INIT_THRES
/*
* Per default, not more than 90% of all measurements during initialization
* are allowed to be stuck.
*
* It is allowed to change this value as required for the intended environment.
*/
#define JENT_STUCK_INIT_THRES(x) ((x*9) / 10)
#endif
#ifdef JENT_PRIVATE_COMPILE
# define JENT_PRIVATE_STATIC static
#else /* JENT_PRIVATE_COMPILE */
#if defined(_MSC_VER)
#define JENT_PRIVATE_STATIC __declspec(dllexport)
#else
#define JENT_PRIVATE_STATIC __attribute__((visibility("default")))
#endif
#endif
/* Number of low bits of the time value that we want to consider */
/* get raw entropy */
JENT_PRIVATE_STATIC
ssize_t jent_read_entropy(struct rand_data *ec, char *data, size_t len);
JENT_PRIVATE_STATIC
ssize_t jent_read_entropy_safe(struct rand_data **ec, char *data, size_t len);
/* initialize an instance of the entropy collector */
JENT_PRIVATE_STATIC
struct rand_data *jent_entropy_collector_alloc(unsigned int osr,
unsigned int flags);
/* clearing of entropy collector */
JENT_PRIVATE_STATIC
void jent_entropy_collector_free(struct rand_data *entropy_collector);
/* initialization of entropy collector */
JENT_PRIVATE_STATIC
int jent_entropy_init(void);
JENT_PRIVATE_STATIC
int jent_entropy_init_ex(unsigned int osr, unsigned int flags);
/*
* Set a callback to run on health failure in FIPS mode.
* This function will take an action determined by the caller.
*/
typedef void (*jent_fips_failure_cb)(struct rand_data *ec,
unsigned int health_failure);
JENT_PRIVATE_STATIC
int jent_set_fips_failure_callback(jent_fips_failure_cb cb);
/* return version number of core library */
JENT_PRIVATE_STATIC
unsigned int jent_version(void);
/* Set a different thread handling logic for the notimer support */
JENT_PRIVATE_STATIC
int jent_entropy_switch_notime_impl(struct jent_notime_thread *new_thread);
/* -- END of Main interface functions -- */
/* -- BEGIN timer-less threading support functions to prevent code dupes -- */
#ifdef JENT_CONF_ENABLE_INTERNAL_TIMER
struct jent_notime_ctx {
pthread_attr_t notime_pthread_attr; /* pthreads library */
pthread_t notime_thread_id; /* pthreads thread ID */
};
JENT_PRIVATE_STATIC
int jent_notime_init(void **ctx);
JENT_PRIVATE_STATIC
void jent_notime_fini(void *ctx);
#else
static inline int jent_notime_init(void **ctx) { (void)ctx; return 0; }
static inline void jent_notime_fini(void *ctx) { (void)ctx; }
#endif /* JENT_CONF_ENABLE_INTERNAL_TIMER */
/* -- END timer-less threading support functions to prevent code dupes -- */
/* -- BEGIN error codes for init function -- */
#define ENOTIME 1 /* Timer service not available */
#define ECOARSETIME 2 /* Timer too coarse for RNG */
#define ENOMONOTONIC 3 /* Timer is not monotonic increasing */
#define EMINVARIATION 4 /* Timer variations too small for RNG */
#define EVARVAR 5 /* Timer does not produce variations of variations
(2nd derivation of time is zero) */
#define EMINVARVAR 6 /* Timer variations of variations is too small */
#define EPROGERR 7 /* Programming error */
#define ESTUCK 8 /* Too many stuck results during init. */
#define EHEALTH 9 /* Health test failed during initialization */
#define ERCT 10 /* RCT failed during initialization */
#define EHASH 11 /* Hash self test failed */
#define EMEM 12 /* Can't allocate memory for initialization */
#define EGCD 13 /* GCD self-test failed */
/* -- END error codes for init function -- */
/* -- BEGIN error masks for health tests -- */
#define JENT_RCT_FAILURE 1 /* Failure in RCT health test. */
#define JENT_APT_FAILURE 2 /* Failure in APT health test. */
#define JENT_LAG_FAILURE 4 /* Failure in Lag predictor health test. */
/* -- END error masks for health tests -- */
/* -- BEGIN statistical test functions only complied with CONFIG_CRYPTO_CPU_JITTERENTROPY_STAT -- */
#ifdef CONFIG_CRYPTO_CPU_JITTERENTROPY_STAT
JENT_PRIVATE_STATIC
uint64_t jent_lfsr_var_stat(struct rand_data *ec, unsigned int min);
#endif /* CONFIG_CRYPTO_CPU_JITTERENTROPY_STAT */
/* -- END of statistical test function -- */
#ifdef __cplusplus
}
#endif
#endif /* _JITTERENTROPY_H */