110cb2424SMark Murray /*- 258900beeSConrad Meyer * Copyright (c) 2017 W. Dean Freeman 3d1b06863SMark Murray * Copyright (c) 2013-2015 Mark R V Murray 410cb2424SMark Murray * All rights reserved. 510cb2424SMark Murray * 610cb2424SMark Murray * Redistribution and use in source and binary forms, with or without 710cb2424SMark Murray * modification, are permitted provided that the following conditions 810cb2424SMark Murray * are met: 910cb2424SMark Murray * 1. Redistributions of source code must retain the above copyright 1010cb2424SMark Murray * notice, this list of conditions and the following disclaimer 1110cb2424SMark Murray * in this position and unchanged. 1210cb2424SMark Murray * 2. Redistributions in binary form must reproduce the above copyright 1310cb2424SMark Murray * notice, this list of conditions and the following disclaimer in the 1410cb2424SMark Murray * documentation and/or other materials provided with the distribution. 1510cb2424SMark Murray * 1610cb2424SMark Murray * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 1710cb2424SMark Murray * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 1810cb2424SMark Murray * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 1910cb2424SMark Murray * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 2010cb2424SMark Murray * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 2110cb2424SMark Murray * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 2210cb2424SMark Murray * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 2310cb2424SMark Murray * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 2410cb2424SMark Murray * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 2510cb2424SMark Murray * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 2610cb2424SMark Murray * 2710cb2424SMark Murray */ 2810cb2424SMark Murray 29d1b06863SMark Murray /* 30d1b06863SMark Murray * This implementation of Fortuna is based on the descriptions found in 31d1b06863SMark Murray * ISBN 978-0-470-47424-2 "Cryptography Engineering" by Ferguson, Schneier 32d1b06863SMark Murray * and Kohno ("FS&K"). 3302cd12d6SDag-Erling Smørgrav */ 3402cd12d6SDag-Erling Smørgrav 35e66ccbeaSConrad Meyer #include <sys/param.h> 36d1b06863SMark Murray #include <sys/limits.h> 3710cb2424SMark Murray 38d1b06863SMark Murray #ifdef _KERNEL 399b8d0fe4SConrad Meyer #include <sys/fail.h> 4010cb2424SMark Murray #include <sys/kernel.h> 4110cb2424SMark Murray #include <sys/lock.h> 4210cb2424SMark Murray #include <sys/malloc.h> 4310cb2424SMark Murray #include <sys/mutex.h> 4410cb2424SMark Murray #include <sys/random.h> 45e866d8f0SMark Murray #include <sys/sdt.h> 4610cb2424SMark Murray #include <sys/sysctl.h> 4710cb2424SMark Murray #include <sys/systm.h> 4810cb2424SMark Murray 4910cb2424SMark Murray #include <machine/cpu.h> 5010cb2424SMark Murray #else /* !_KERNEL */ 5110cb2424SMark Murray #include <inttypes.h> 52646041a8SMark Murray #include <stdbool.h> 5310cb2424SMark Murray #include <stdio.h> 5410cb2424SMark Murray #include <stdlib.h> 5510cb2424SMark Murray #include <string.h> 5610cb2424SMark Murray #include <threads.h> 5710cb2424SMark Murray 5810cb2424SMark Murray #include "unit_test.h" 59e66ccbeaSConrad Meyer #endif /* _KERNEL */ 6010cb2424SMark Murray 61179f6280SConrad Meyer #include <crypto/chacha20/chacha.h> 6210cb2424SMark Murray #include <crypto/rijndael/rijndael-api-fst.h> 637a3f5d11SAllan Jude #include <crypto/sha2/sha256.h> 6410cb2424SMark Murray 6510cb2424SMark Murray #include <dev/random/hash.h> 663aa77530SMark Murray #include <dev/random/randomdev.h> 67e66ccbeaSConrad Meyer #ifdef _KERNEL 68e66ccbeaSConrad Meyer #include <dev/random/random_harvestq.h> 69e66ccbeaSConrad Meyer #endif 7010cb2424SMark Murray #include <dev/random/uint128.h> 7110cb2424SMark Murray #include <dev/random/fortuna.h> 7210cb2424SMark Murray 73d1b06863SMark Murray /* Defined in FS&K */ 74179f6280SConrad Meyer #define RANDOM_FORTUNA_MAX_READ (1 << 20) /* Max bytes from AES before rekeying */ 75179f6280SConrad Meyer #define RANDOM_FORTUNA_BLOCKS_PER_KEY (1 << 16) /* Max blocks from AES before rekeying */ 76179f6280SConrad Meyer CTASSERT(RANDOM_FORTUNA_BLOCKS_PER_KEY * RANDOM_BLOCKSIZE == 77179f6280SConrad Meyer RANDOM_FORTUNA_MAX_READ); 7810cb2424SMark Murray 79d1b06863SMark Murray /* 80d1b06863SMark Murray * The allowable range of RANDOM_FORTUNA_DEFPOOLSIZE. The default value is above. 81d1b06863SMark Murray * Making RANDOM_FORTUNA_DEFPOOLSIZE too large will mean a long time between reseeds, 82d1b06863SMark Murray * and too small may compromise initial security but get faster reseeds. 83d1b06863SMark Murray */ 84d1b06863SMark Murray #define RANDOM_FORTUNA_MINPOOLSIZE 16 8558900beeSConrad Meyer #define RANDOM_FORTUNA_MAXPOOLSIZE INT_MAX 86d1b06863SMark Murray CTASSERT(RANDOM_FORTUNA_MINPOOLSIZE <= RANDOM_FORTUNA_DEFPOOLSIZE); 87d1b06863SMark Murray CTASSERT(RANDOM_FORTUNA_DEFPOOLSIZE <= RANDOM_FORTUNA_MAXPOOLSIZE); 8810cb2424SMark Murray 89d1b06863SMark Murray /* This algorithm (and code) presumes that RANDOM_KEYSIZE is twice as large as RANDOM_BLOCKSIZE */ 90d1b06863SMark Murray CTASSERT(RANDOM_BLOCKSIZE == sizeof(uint128_t)); 91d1b06863SMark Murray CTASSERT(RANDOM_KEYSIZE == 2*RANDOM_BLOCKSIZE); 9210cb2424SMark Murray 93e866d8f0SMark Murray /* Probes for dtrace(1) */ 9419fa89e9SMark Murray #ifdef _KERNEL 95e866d8f0SMark Murray SDT_PROVIDER_DECLARE(random); 96e866d8f0SMark Murray SDT_PROVIDER_DEFINE(random); 97e866d8f0SMark Murray SDT_PROBE_DEFINE2(random, fortuna, event_processor, debug, "u_int", "struct fs_pool *"); 9819fa89e9SMark Murray #endif /* _KERNEL */ 99e866d8f0SMark Murray 100d1b06863SMark Murray /* 101d1b06863SMark Murray * This is the beastie that needs protecting. It contains all of the 102d1b06863SMark Murray * state that we are excited about. Exactly one is instantiated. 10310cb2424SMark Murray */ 10410cb2424SMark Murray static struct fortuna_state { 105d1b06863SMark Murray struct fs_pool { /* P_i */ 106d1b06863SMark Murray u_int fsp_length; /* Only the first one is used by Fortuna */ 107d1b06863SMark Murray struct randomdev_hash fsp_hash; 108d1b06863SMark Murray } fs_pool[RANDOM_FORTUNA_NPOOLS]; 109d1b06863SMark Murray u_int fs_reseedcount; /* ReseedCnt */ 110d1b06863SMark Murray uint128_t fs_counter; /* C */ 111ab69c485SConrad Meyer union randomdev_key fs_key; /* K */ 112d1b06863SMark Murray u_int fs_minpoolsize; /* Extras */ 11310cb2424SMark Murray /* Extras for the OS */ 11410cb2424SMark Murray #ifdef _KERNEL 11510cb2424SMark Murray /* For use when 'pacing' the reseeds */ 116d1b06863SMark Murray sbintime_t fs_lasttime; 11710cb2424SMark Murray #endif 118d1b06863SMark Murray /* Reseed lock */ 119d1b06863SMark Murray mtx_t fs_mtx; 12010cb2424SMark Murray } fortuna_state; 12110cb2424SMark Murray 122179f6280SConrad Meyer /* 123548dca90SConrad Meyer * This knob enables or disables the "Concurrent Reads" Fortuna feature. 124179f6280SConrad Meyer * 125548dca90SConrad Meyer * The benefit of Concurrent Reads is improved concurrency in Fortuna. That is 126548dca90SConrad Meyer * reflected in two related aspects: 127179f6280SConrad Meyer * 128548dca90SConrad Meyer * 1. Concurrent full-rate devrandom readers can achieve similar throughput to 129548dca90SConrad Meyer * a single reader thread (at least up to a modest number of cores; the 130548dca90SConrad Meyer * non-concurrent design falls over at 2 readers). 131179f6280SConrad Meyer * 132179f6280SConrad Meyer * 2. The rand_harvestq process spends much less time spinning when one or more 133179f6280SConrad Meyer * readers is processing a large request. Partially this is due to 134179f6280SConrad Meyer * rand_harvestq / ra_event_processor design, which only passes one event at 135179f6280SConrad Meyer * a time to the underlying algorithm. Each time, Fortuna must take its 136179f6280SConrad Meyer * global state mutex, potentially blocking on a reader. Our adaptive 137179f6280SConrad Meyer * mutexes assume that a lock holder currently on CPU will release the lock 138179f6280SConrad Meyer * quickly, and spin if the owning thread is currently running. 139878a05a4SConrad Meyer * 140548dca90SConrad Meyer * (There is no reason rand_harvestq necessarily has to use the same lock as 141548dca90SConrad Meyer * the generator, or that it must necessarily drop and retake locks 142548dca90SConrad Meyer * repeatedly, but that is the current status quo.) 143548dca90SConrad Meyer * 144878a05a4SConrad Meyer * The concern is that the reduced lock scope might results in a less safe 145878a05a4SConrad Meyer * random(4) design. However, the reduced-lock scope design is still 146878a05a4SConrad Meyer * fundamentally Fortuna. This is discussed below. 147878a05a4SConrad Meyer * 148878a05a4SConrad Meyer * Fortuna Read() only needs mutual exclusion between readers to correctly 149548dca90SConrad Meyer * update the shared read-side state: C, the 128-bit counter; and K, the 150548dca90SConrad Meyer * current cipher/PRF key. 151878a05a4SConrad Meyer * 152878a05a4SConrad Meyer * In the Fortuna design, the global counter C should provide an independent 153548dca90SConrad Meyer * range of values per request. 154878a05a4SConrad Meyer * 155878a05a4SConrad Meyer * Under lock, we can save a copy of C on the stack, and increment the global C 156878a05a4SConrad Meyer * by the number of blocks a Read request will require. 157878a05a4SConrad Meyer * 158878a05a4SConrad Meyer * Still under lock, we can save a copy of the key K on the stack, and then 159878a05a4SConrad Meyer * perform the usual key erasure K' <- Keystream(C, K, ...). This does require 160878a05a4SConrad Meyer * generating 256 bits (32 bytes) of cryptographic keystream output with the 161548dca90SConrad Meyer * global lock held, but that's all; none of the API keystream generation must 162878a05a4SConrad Meyer * be performed under lock. 163878a05a4SConrad Meyer * 164878a05a4SConrad Meyer * At this point, we may unlock. 165878a05a4SConrad Meyer * 166878a05a4SConrad Meyer * Some example timelines below (to oversimplify, all requests are in units of 167878a05a4SConrad Meyer * native blocks, and the keysize happens to be equal or less to the native 168878a05a4SConrad Meyer * blocksize of the underlying cipher, and the same sequence of two requests 169878a05a4SConrad Meyer * arrive in the same order). The possibly expensive consumer keystream 170878a05a4SConrad Meyer * generation portion is marked with '**'. 171878a05a4SConrad Meyer * 172878a05a4SConrad Meyer * Status Quo fortuna_read() Reduced-scope locking 173878a05a4SConrad Meyer * ------------------------- --------------------- 174878a05a4SConrad Meyer * C=C_0, K=K_0 C=C_0, K=K_0 175878a05a4SConrad Meyer * <Thr 1 requests N blocks> <Thr 1 requests N blocks> 176878a05a4SConrad Meyer * 1:Lock() 1:Lock() 177878a05a4SConrad Meyer * <Thr 2 requests M blocks> <Thr 2 requests M blocks> 178878a05a4SConrad Meyer * 1:GenBytes() 1:stack_C := C_0 179878a05a4SConrad Meyer * 1: Keystream(C_0, K_0, N) 1:stack_K := K_0 180878a05a4SConrad Meyer * 1: <N blocks generated>** 1:C' := C_0 + N 181878a05a4SConrad Meyer * 1: C' := C_0 + N 1:K' := Keystream(C', K_0, 1) 182878a05a4SConrad Meyer * 1: <- Keystream 1: <1 block generated> 183878a05a4SConrad Meyer * 1: K' := Keystream(C', K_0, 1) 1: C'' := C' + 1 184878a05a4SConrad Meyer * 1: <1 block generated> 1: <- Keystream 185878a05a4SConrad Meyer * 1: C'' := C' + 1 1:Unlock() 186878a05a4SConrad Meyer * 1: <- Keystream 187878a05a4SConrad Meyer * 1: <- GenBytes() 188878a05a4SConrad Meyer * 1:Unlock() 189878a05a4SConrad Meyer * 190878a05a4SConrad Meyer * Just prior to unlock, shared state is identical: 191878a05a4SConrad Meyer * ------------------------------------------------ 192878a05a4SConrad Meyer * C'' == C_0 + N + 1 C'' == C_0 + N + 1 193878a05a4SConrad Meyer * K' == keystream generated from K' == keystream generated from 194878a05a4SConrad Meyer * C_0 + N, K_0. C_0 + N, K_0. 195878a05a4SConrad Meyer * K_0 has been erased. K_0 has been erased. 196878a05a4SConrad Meyer * 197878a05a4SConrad Meyer * After both designs unlock, the 2nd reader is unblocked. 198878a05a4SConrad Meyer * 199878a05a4SConrad Meyer * 2:Lock() 2:Lock() 200878a05a4SConrad Meyer * 2:GenBytes() 2:stack_C' := C'' 201878a05a4SConrad Meyer * 2: Keystream(C'', K', M) 2:stack_K' := K' 202878a05a4SConrad Meyer * 2: <M blocks generated>** 2:C''' := C'' + M 203878a05a4SConrad Meyer * 2: C''' := C'' + M 2:K'' := Keystream(C''', K', 1) 204878a05a4SConrad Meyer * 2: <- Keystream 2: <1 block generated> 205878a05a4SConrad Meyer * 2: K'' := Keystream(C''', K', 1) 2: C'''' := C''' + 1 206878a05a4SConrad Meyer * 2: <1 block generated> 2: <- Keystream 207878a05a4SConrad Meyer * 2: C'''' := C''' + 1 2:Unlock() 208878a05a4SConrad Meyer * 2: <- Keystream 209878a05a4SConrad Meyer * 2: <- GenBytes() 210878a05a4SConrad Meyer * 2:Unlock() 211878a05a4SConrad Meyer * 212548dca90SConrad Meyer * Just prior to unlock, global state is identical: 213878a05a4SConrad Meyer * ------------------------------------------------------ 214878a05a4SConrad Meyer * 215878a05a4SConrad Meyer * C'''' == (C_0 + N + 1) + M + 1 C'''' == (C_0 + N + 1) + M + 1 216878a05a4SConrad Meyer * K'' == keystream generated from K'' == keystream generated from 217878a05a4SConrad Meyer * C_0 + N + 1 + M, K'. C_0 + N + 1 + M, K'. 218878a05a4SConrad Meyer * K' has been erased. K' has been erased. 219878a05a4SConrad Meyer * 220878a05a4SConrad Meyer * Finally, in the new design, the two consumer threads can finish the 221878a05a4SConrad Meyer * remainder of the generation at any time (including simultaneously): 222878a05a4SConrad Meyer * 223878a05a4SConrad Meyer * 1: GenBytes() 224878a05a4SConrad Meyer * 1: Keystream(stack_C, stack_K, N) 225878a05a4SConrad Meyer * 1: <N blocks generated>** 226878a05a4SConrad Meyer * 1: <- Keystream 227878a05a4SConrad Meyer * 1: <- GenBytes 228878a05a4SConrad Meyer * 1:ExplicitBzero(stack_C, stack_K) 229878a05a4SConrad Meyer * 230878a05a4SConrad Meyer * 2: GenBytes() 231878a05a4SConrad Meyer * 2: Keystream(stack_C', stack_K', M) 232878a05a4SConrad Meyer * 2: <M blocks generated>** 233878a05a4SConrad Meyer * 2: <- Keystream 234878a05a4SConrad Meyer * 2: <- GenBytes 235878a05a4SConrad Meyer * 2:ExplicitBzero(stack_C', stack_K') 236878a05a4SConrad Meyer * 237878a05a4SConrad Meyer * The generated user keystream for both threads is identical between the two 238878a05a4SConrad Meyer * implementations: 239878a05a4SConrad Meyer * 240878a05a4SConrad Meyer * 1: Keystream(C_0, K_0, N) 1: Keystream(stack_C, stack_K, N) 241878a05a4SConrad Meyer * 2: Keystream(C'', K', M) 2: Keystream(stack_C', stack_K', M) 242878a05a4SConrad Meyer * 243878a05a4SConrad Meyer * (stack_C == C_0; stack_K == K_0; stack_C' == C''; stack_K' == K'.) 244179f6280SConrad Meyer */ 245548dca90SConrad Meyer static bool fortuna_concurrent_read __read_frequently = true; 246179f6280SConrad Meyer 24710cb2424SMark Murray #ifdef _KERNEL 24810cb2424SMark Murray static struct sysctl_ctx_list random_clist; 249d1b06863SMark Murray RANDOM_CHECK_UINT(fs_minpoolsize, RANDOM_FORTUNA_MINPOOLSIZE, RANDOM_FORTUNA_MAXPOOLSIZE); 250d1b06863SMark Murray #else 251d1b06863SMark Murray static uint8_t zero_region[RANDOM_ZERO_BLOCKSIZE]; 25210cb2424SMark Murray #endif 25310cb2424SMark Murray 254d1b06863SMark Murray static void random_fortuna_pre_read(void); 255d0d71d81SConrad Meyer static void random_fortuna_read(uint8_t *, size_t); 256646041a8SMark Murray static bool random_fortuna_seeded(void); 257e8e1f0b4SConrad Meyer static bool random_fortuna_seeded_internal(void); 258d1b06863SMark Murray static void random_fortuna_process_event(struct harvest_event *); 259d1b06863SMark Murray 2603aa77530SMark Murray static void random_fortuna_reseed_internal(uint32_t *entropy_data, u_int blockcount); 2613aa77530SMark Murray 2623ee1d5bbSConrad Meyer #ifdef RANDOM_LOADABLE 2633ee1d5bbSConrad Meyer static 2643ee1d5bbSConrad Meyer #endif 2653ee1d5bbSConrad Meyer const struct random_algorithm random_alg_context = { 266d1b06863SMark Murray .ra_ident = "Fortuna", 267d1b06863SMark Murray .ra_pre_read = random_fortuna_pre_read, 268d1b06863SMark Murray .ra_read = random_fortuna_read, 269d1b06863SMark Murray .ra_seeded = random_fortuna_seeded, 270d1b06863SMark Murray .ra_event_processor = random_fortuna_process_event, 271d1b06863SMark Murray .ra_poolcount = RANDOM_FORTUNA_NPOOLS, 272d1b06863SMark Murray }; 273d1b06863SMark Murray 274d1b06863SMark Murray /* ARGSUSED */ 275d1b06863SMark Murray static void 276d1b06863SMark Murray random_fortuna_init_alg(void *unused __unused) 27710cb2424SMark Murray { 27810cb2424SMark Murray int i; 27910cb2424SMark Murray #ifdef _KERNEL 28010cb2424SMark Murray struct sysctl_oid *random_fortuna_o; 28110cb2424SMark Murray #endif 28210cb2424SMark Murray 2833ee1d5bbSConrad Meyer #ifdef RANDOM_LOADABLE 2843ee1d5bbSConrad Meyer p_random_alg_context = &random_alg_context; 2853ee1d5bbSConrad Meyer #endif 2863ee1d5bbSConrad Meyer 287d1b06863SMark Murray RANDOM_RESEED_INIT_LOCK(); 288d1b06863SMark Murray /* 289d1b06863SMark Murray * Fortuna parameters. Do not adjust these unless you have 29010cb2424SMark Murray * have a very good clue about what they do! 29110cb2424SMark Murray */ 292d1b06863SMark Murray fortuna_state.fs_minpoolsize = RANDOM_FORTUNA_DEFPOOLSIZE; 293d1b06863SMark Murray #ifdef _KERNEL 294d1b06863SMark Murray fortuna_state.fs_lasttime = 0; 29510cb2424SMark Murray random_fortuna_o = SYSCTL_ADD_NODE(&random_clist, 29610cb2424SMark Murray SYSCTL_STATIC_CHILDREN(_kern_random), 297*4312ebfeSPawel Biernacki OID_AUTO, "fortuna", CTLFLAG_RW | CTLFLAG_MPSAFE, 0, 29810cb2424SMark Murray "Fortuna Parameters"); 29910cb2424SMark Murray SYSCTL_ADD_PROC(&random_clist, 300*4312ebfeSPawel Biernacki SYSCTL_CHILDREN(random_fortuna_o), OID_AUTO, "minpoolsize", 301*4312ebfeSPawel Biernacki CTLTYPE_UINT | CTLFLAG_RWTUN | CTLFLAG_MPSAFE, 302d1b06863SMark Murray &fortuna_state.fs_minpoolsize, RANDOM_FORTUNA_DEFPOOLSIZE, 303d1b06863SMark Murray random_check_uint_fs_minpoolsize, "IU", 304d1b06863SMark Murray "Minimum pool size necessary to cause a reseed"); 305d1b06863SMark Murray KASSERT(fortuna_state.fs_minpoolsize > 0, ("random: Fortuna threshold must be > 0 at startup")); 306179f6280SConrad Meyer 307179f6280SConrad Meyer SYSCTL_ADD_BOOL(&random_clist, SYSCTL_CHILDREN(random_fortuna_o), 308179f6280SConrad Meyer OID_AUTO, "concurrent_read", CTLFLAG_RDTUN, 309878a05a4SConrad Meyer &fortuna_concurrent_read, 0, "If non-zero, enable " 310179f6280SConrad Meyer "feature to improve concurrent Fortuna performance."); 31110cb2424SMark Murray #endif 31210cb2424SMark Murray 313d1b06863SMark Murray /*- 314d1b06863SMark Murray * FS&K - InitializePRNG() 315d1b06863SMark Murray * - P_i = \epsilon 316d1b06863SMark Murray * - ReseedCNT = 0 317d1b06863SMark Murray */ 318d1b06863SMark Murray for (i = 0; i < RANDOM_FORTUNA_NPOOLS; i++) { 319d1b06863SMark Murray randomdev_hash_init(&fortuna_state.fs_pool[i].fsp_hash); 320d1b06863SMark Murray fortuna_state.fs_pool[i].fsp_length = 0; 32110cb2424SMark Murray } 322d1b06863SMark Murray fortuna_state.fs_reseedcount = 0; 323d1b06863SMark Murray /*- 324d1b06863SMark Murray * FS&K - InitializeGenerator() 325d1b06863SMark Murray * - C = 0 326d1b06863SMark Murray * - K = 0 327d1b06863SMark Murray */ 328d1b06863SMark Murray fortuna_state.fs_counter = UINT128_ZERO; 329d1b06863SMark Murray explicit_bzero(&fortuna_state.fs_key, sizeof(fortuna_state.fs_key)); 33010cb2424SMark Murray } 3313ee1d5bbSConrad Meyer SYSINIT(random_alg, SI_SUB_RANDOM, SI_ORDER_SECOND, random_fortuna_init_alg, 3323ee1d5bbSConrad Meyer NULL); 33310cb2424SMark Murray 334d1b06863SMark Murray /*- 335d1b06863SMark Murray * FS&K - AddRandomEvent() 336d1b06863SMark Murray * Process a single stochastic event off the harvest queue 337d1b06863SMark Murray */ 3383aa77530SMark Murray static void 33910cb2424SMark Murray random_fortuna_process_event(struct harvest_event *event) 34010cb2424SMark Murray { 34110cb2424SMark Murray u_int pl; 34210cb2424SMark Murray 343d1b06863SMark Murray RANDOM_RESEED_LOCK(); 344d1b06863SMark Murray /*- 345d1b06863SMark Murray * FS&K - P_i = P_i|<harvested stuff> 346d1b06863SMark Murray * Accumulate the event into the appropriate pool 347d1b06863SMark Murray * where each event carries the destination information. 348d1b06863SMark Murray * 349d1b06863SMark Murray * The hash_init() and hash_finish() calls are done in 350d1b06863SMark Murray * random_fortuna_pre_read(). 351d1b06863SMark Murray * 352d1b06863SMark Murray * We must be locked against pool state modification which can happen 353d1b06863SMark Murray * during accumulation/reseeding and reading/regating. 35410cb2424SMark Murray */ 355d1b06863SMark Murray pl = event->he_destination % RANDOM_FORTUNA_NPOOLS; 35658900beeSConrad Meyer /* 357767991d2SConrad Meyer * If a VM generation ID changes (clone and play or VM rewind), we want 358767991d2SConrad Meyer * to incorporate that as soon as possible. Override destingation pool 359767991d2SConrad Meyer * for immediate next use. 360767991d2SConrad Meyer */ 361767991d2SConrad Meyer if (event->he_source == RANDOM_PURE_VMGENID) 362767991d2SConrad Meyer pl = 0; 363767991d2SConrad Meyer /* 36458900beeSConrad Meyer * We ignore low entropy static/counter fields towards the end of the 36558900beeSConrad Meyer * he_event structure in order to increase measurable entropy when 36658900beeSConrad Meyer * conducting SP800-90B entropy analysis measurements of seed material 36758900beeSConrad Meyer * fed into PRNG. 36858900beeSConrad Meyer * -- wdf 36958900beeSConrad Meyer */ 37058900beeSConrad Meyer KASSERT(event->he_size <= sizeof(event->he_entropy), 37158900beeSConrad Meyer ("%s: event->he_size: %hhu > sizeof(event->he_entropy): %zu\n", 37258900beeSConrad Meyer __func__, event->he_size, sizeof(event->he_entropy))); 37358900beeSConrad Meyer randomdev_hash_iterate(&fortuna_state.fs_pool[pl].fsp_hash, 37458900beeSConrad Meyer &event->he_somecounter, sizeof(event->he_somecounter)); 37558900beeSConrad Meyer randomdev_hash_iterate(&fortuna_state.fs_pool[pl].fsp_hash, 37658900beeSConrad Meyer event->he_entropy, event->he_size); 37758900beeSConrad Meyer 378d1b06863SMark Murray /*- 37958900beeSConrad Meyer * Don't wrap the length. This is a "saturating" add. 380d1b06863SMark Murray * XXX: FIX!!: We don't actually need lengths for anything but fs_pool[0], 381d1b06863SMark Murray * but it's been useful debugging to see them all. 382d1b06863SMark Murray */ 38358900beeSConrad Meyer fortuna_state.fs_pool[pl].fsp_length = MIN(RANDOM_FORTUNA_MAXPOOLSIZE, 38458900beeSConrad Meyer fortuna_state.fs_pool[pl].fsp_length + 38558900beeSConrad Meyer sizeof(event->he_somecounter) + event->he_size); 386d1b06863SMark Murray RANDOM_RESEED_UNLOCK(); 38710cb2424SMark Murray } 38810cb2424SMark Murray 389d1b06863SMark Murray /*- 390d1b06863SMark Murray * FS&K - Reseed() 391d1b06863SMark Murray * This introduces new key material into the output generator. 39232a71a72SPedro F. Giffuni * Additionally it increments the output generator's counter 393d1b06863SMark Murray * variable C. When C > 0, the output generator is seeded and 394d1b06863SMark Murray * will deliver output. 395d1b06863SMark Murray * The entropy_data buffer passed is a very specific size; the 396d1b06863SMark Murray * product of RANDOM_FORTUNA_NPOOLS and RANDOM_KEYSIZE. 397d1b06863SMark Murray */ 398d1b06863SMark Murray static void 399d1b06863SMark Murray random_fortuna_reseed_internal(uint32_t *entropy_data, u_int blockcount) 40010cb2424SMark Murray { 40110cb2424SMark Murray struct randomdev_hash context; 402d1b06863SMark Murray uint8_t hash[RANDOM_KEYSIZE]; 403ab69c485SConrad Meyer const void *keymaterial; 404ab69c485SConrad Meyer size_t keysz; 405ab69c485SConrad Meyer bool seeded; 40610cb2424SMark Murray 407d1b06863SMark Murray RANDOM_RESEED_ASSERT_LOCK_OWNED(); 408ab69c485SConrad Meyer 409e8e1f0b4SConrad Meyer seeded = random_fortuna_seeded_internal(); 410ab69c485SConrad Meyer if (seeded) { 411ab69c485SConrad Meyer randomdev_getkey(&fortuna_state.fs_key, &keymaterial, &keysz); 412ab69c485SConrad Meyer KASSERT(keysz == RANDOM_KEYSIZE, ("%s: key size %zu not %u", 413ab69c485SConrad Meyer __func__, keysz, (unsigned)RANDOM_KEYSIZE)); 414ab69c485SConrad Meyer } 415ab69c485SConrad Meyer 416d1b06863SMark Murray /*- 417d1b06863SMark Murray * FS&K - K = Hd(K|s) where Hd(m) is H(H(0^512|m)) 418d1b06863SMark Murray * - C = C + 1 419d1b06863SMark Murray */ 42010cb2424SMark Murray randomdev_hash_init(&context); 421d1b06863SMark Murray randomdev_hash_iterate(&context, zero_region, RANDOM_ZERO_BLOCKSIZE); 422ab69c485SConrad Meyer if (seeded) 423ab69c485SConrad Meyer randomdev_hash_iterate(&context, keymaterial, keysz); 424d1b06863SMark Murray randomdev_hash_iterate(&context, entropy_data, RANDOM_KEYSIZE*blockcount); 42510cb2424SMark Murray randomdev_hash_finish(&context, hash); 42602cd12d6SDag-Erling Smørgrav randomdev_hash_init(&context); 427d1b06863SMark Murray randomdev_hash_iterate(&context, hash, RANDOM_KEYSIZE); 42802cd12d6SDag-Erling Smørgrav randomdev_hash_finish(&context, hash); 429d1b06863SMark Murray randomdev_encrypt_init(&fortuna_state.fs_key, hash); 430d1b06863SMark Murray explicit_bzero(hash, sizeof(hash)); 431d1b06863SMark Murray /* Unblock the device if this is the first time we are reseeding. */ 432d1b06863SMark Murray if (uint128_is_zero(fortuna_state.fs_counter)) 433d1b06863SMark Murray randomdev_unblock(); 434d1b06863SMark Murray uint128_increment(&fortuna_state.fs_counter); 43510cb2424SMark Murray } 43610cb2424SMark Murray 437d1b06863SMark Murray /*- 4383aa77530SMark Murray * FS&K - RandomData() (Part 1) 4393aa77530SMark Murray * Used to return processed entropy from the PRNG. There is a pre_read 4403aa77530SMark Murray * required to be present (but it can be a stub) in order to allow 4413aa77530SMark Murray * specific actions at the begin of the read. 442d1b06863SMark Murray */ 44310cb2424SMark Murray void 444d1b06863SMark Murray random_fortuna_pre_read(void) 44510cb2424SMark Murray { 44610cb2424SMark Murray #ifdef _KERNEL 447d1b06863SMark Murray sbintime_t now; 44810cb2424SMark Murray #endif 44910cb2424SMark Murray struct randomdev_hash context; 450d1b06863SMark Murray uint32_t s[RANDOM_FORTUNA_NPOOLS*RANDOM_KEYSIZE_WORDS]; 451d1b06863SMark Murray uint8_t temp[RANDOM_KEYSIZE]; 452d1b06863SMark Murray u_int i; 45310cb2424SMark Murray 454d1b06863SMark Murray KASSERT(fortuna_state.fs_minpoolsize > 0, ("random: Fortuna threshold must be > 0")); 4555528565aSConrad Meyer RANDOM_RESEED_LOCK(); 45610cb2424SMark Murray #ifdef _KERNEL 457d1b06863SMark Murray /* FS&K - Use 'getsbinuptime()' to prevent reseed-spamming. */ 458d1b06863SMark Murray now = getsbinuptime(); 459d1b06863SMark Murray #endif 460d1b06863SMark Murray 4617be4093aSConrad Meyer if (fortuna_state.fs_pool[0].fsp_length < fortuna_state.fs_minpoolsize 462d1b06863SMark Murray #ifdef _KERNEL 463e8e1f0b4SConrad Meyer /* 464e8e1f0b4SConrad Meyer * FS&K - Use 'getsbinuptime()' to prevent reseed-spamming, but do 465e8e1f0b4SConrad Meyer * not block initial seeding (fs_lasttime == 0). 466e8e1f0b4SConrad Meyer */ 467e8e1f0b4SConrad Meyer || (__predict_true(fortuna_state.fs_lasttime != 0) && 468e8e1f0b4SConrad Meyer now - fortuna_state.fs_lasttime <= SBT_1S/10) 46910cb2424SMark Murray #endif 47010cb2424SMark Murray ) { 4717be4093aSConrad Meyer RANDOM_RESEED_UNLOCK(); 4727be4093aSConrad Meyer return; 4737be4093aSConrad Meyer } 4747be4093aSConrad Meyer 47510cb2424SMark Murray #ifdef _KERNEL 4769b8d0fe4SConrad Meyer /* 4779b8d0fe4SConrad Meyer * When set, pretend we do not have enough entropy to reseed yet. 4789b8d0fe4SConrad Meyer */ 4799b8d0fe4SConrad Meyer KFAIL_POINT_CODE(DEBUG_FP, random_fortuna_pre_read, { 4809b8d0fe4SConrad Meyer if (RETURN_VALUE != 0) { 4819b8d0fe4SConrad Meyer RANDOM_RESEED_UNLOCK(); 4829b8d0fe4SConrad Meyer return; 4839b8d0fe4SConrad Meyer } 4849b8d0fe4SConrad Meyer }); 4859b8d0fe4SConrad Meyer #endif 4869b8d0fe4SConrad Meyer 4879b8d0fe4SConrad Meyer #ifdef _KERNEL 488d1b06863SMark Murray fortuna_state.fs_lasttime = now; 48910cb2424SMark Murray #endif 49010cb2424SMark Murray 491d1b06863SMark Murray /* FS&K - ReseedCNT = ReseedCNT + 1 */ 492d1b06863SMark Murray fortuna_state.fs_reseedcount++; 493d1b06863SMark Murray /* s = \epsilon at start */ 494d1b06863SMark Murray for (i = 0; i < RANDOM_FORTUNA_NPOOLS; i++) { 495d1b06863SMark Murray /* FS&K - if Divides(ReseedCnt, 2^i) ... */ 496d1b06863SMark Murray if ((fortuna_state.fs_reseedcount % (1 << i)) == 0) { 497d1b06863SMark Murray /*- 498d1b06863SMark Murray * FS&K - temp = (P_i) 499d1b06863SMark Murray * - P_i = \epsilon 500d1b06863SMark Murray * - s = s|H(temp) 501d1b06863SMark Murray */ 502d1b06863SMark Murray randomdev_hash_finish(&fortuna_state.fs_pool[i].fsp_hash, temp); 503d1b06863SMark Murray randomdev_hash_init(&fortuna_state.fs_pool[i].fsp_hash); 504d1b06863SMark Murray fortuna_state.fs_pool[i].fsp_length = 0; 50510cb2424SMark Murray randomdev_hash_init(&context); 506d1b06863SMark Murray randomdev_hash_iterate(&context, temp, RANDOM_KEYSIZE); 507d1b06863SMark Murray randomdev_hash_finish(&context, s + i*RANDOM_KEYSIZE_WORDS); 508d1b06863SMark Murray } else 50910cb2424SMark Murray break; 51010cb2424SMark Murray } 51119fa89e9SMark Murray #ifdef _KERNEL 512e866d8f0SMark Murray SDT_PROBE2(random, fortuna, event_processor, debug, fortuna_state.fs_reseedcount, fortuna_state.fs_pool); 51319fa89e9SMark Murray #endif 514d1b06863SMark Murray /* FS&K */ 5159a884798SConrad Meyer random_fortuna_reseed_internal(s, i); 5167be4093aSConrad Meyer RANDOM_RESEED_UNLOCK(); 5177be4093aSConrad Meyer 518d1b06863SMark Murray /* Clean up and secure */ 519d1b06863SMark Murray explicit_bzero(s, sizeof(s)); 520d1b06863SMark Murray explicit_bzero(temp, sizeof(temp)); 521d1b06863SMark Murray } 52210cb2424SMark Murray 523179f6280SConrad Meyer /* 524179f6280SConrad Meyer * This is basically GenerateBlocks() from FS&K. 525179f6280SConrad Meyer * 526179f6280SConrad Meyer * It differs in two ways: 527179f6280SConrad Meyer * 528179f6280SConrad Meyer * 1. Chacha20 is tolerant of non-block-multiple request sizes, so we do not 529179f6280SConrad Meyer * need to handle any remainder bytes specially and can just pass the length 530179f6280SConrad Meyer * directly to the PRF construction; and 531179f6280SConrad Meyer * 532179f6280SConrad Meyer * 2. Chacha20 is a 512-bit block size cipher (whereas AES has 128-bit block 533179f6280SConrad Meyer * size, regardless of key size). This means Chacha does not require re-keying 534179f6280SConrad Meyer * every 1MiB. This is implied by the math in FS&K 9.4 and mentioned 535179f6280SConrad Meyer * explicitly in the conclusion, "If we had a block cipher with a 256-bit [or 536179f6280SConrad Meyer * greater] block size, then the collisions would not have been an issue at 537179f6280SConrad Meyer * all" (p. 144). 538179f6280SConrad Meyer * 539179f6280SConrad Meyer * 3. In conventional ("locked") mode, we produce a maximum of PAGE_SIZE output 540179f6280SConrad Meyer * at a time before dropping the lock, to not bully the lock especially. This 541179f6280SConrad Meyer * has been the status quo since 2015 (r284959). 542179f6280SConrad Meyer * 543179f6280SConrad Meyer * The upstream caller random_fortuna_read is responsible for zeroing out 544179f6280SConrad Meyer * sensitive buffers provided as parameters to this routine. 545179f6280SConrad Meyer */ 546179f6280SConrad Meyer enum { 547179f6280SConrad Meyer FORTUNA_UNLOCKED = false, 548179f6280SConrad Meyer FORTUNA_LOCKED = true 549179f6280SConrad Meyer }; 550179f6280SConrad Meyer static void 551179f6280SConrad Meyer random_fortuna_genbytes(uint8_t *buf, size_t bytecount, 552179f6280SConrad Meyer uint8_t newkey[static RANDOM_KEYSIZE], uint128_t *p_counter, 553179f6280SConrad Meyer union randomdev_key *p_key, bool locked) 554179f6280SConrad Meyer { 555179f6280SConrad Meyer uint8_t remainder_buf[RANDOM_BLOCKSIZE]; 556179f6280SConrad Meyer size_t chunk_size; 557179f6280SConrad Meyer 558179f6280SConrad Meyer if (locked) 559179f6280SConrad Meyer RANDOM_RESEED_ASSERT_LOCK_OWNED(); 560179f6280SConrad Meyer else 561179f6280SConrad Meyer RANDOM_RESEED_ASSERT_LOCK_NOT_OWNED(); 562179f6280SConrad Meyer 563179f6280SConrad Meyer /* 564179f6280SConrad Meyer * Easy case: don't have to worry about bullying the global mutex, 565179f6280SConrad Meyer * don't have to worry about rekeying Chacha; API is byte-oriented. 566179f6280SConrad Meyer */ 567179f6280SConrad Meyer if (!locked && random_chachamode) { 568179f6280SConrad Meyer randomdev_keystream(p_key, p_counter, buf, bytecount); 569179f6280SConrad Meyer return; 570179f6280SConrad Meyer } 571179f6280SConrad Meyer 572179f6280SConrad Meyer if (locked) { 573179f6280SConrad Meyer /* 574179f6280SConrad Meyer * While holding the global lock, limit PRF generation to 575179f6280SConrad Meyer * mitigate, but not eliminate, bullying symptoms. 576179f6280SConrad Meyer */ 577179f6280SConrad Meyer chunk_size = PAGE_SIZE; 578179f6280SConrad Meyer } else { 579179f6280SConrad Meyer /* 580179f6280SConrad Meyer * 128-bit block ciphers like AES must be re-keyed at 1MB 581179f6280SConrad Meyer * intervals to avoid unacceptable statistical differentiation 582179f6280SConrad Meyer * from true random data (FS&K 9.4, p. 143-144). 583179f6280SConrad Meyer */ 584179f6280SConrad Meyer MPASS(!random_chachamode); 585179f6280SConrad Meyer chunk_size = RANDOM_FORTUNA_MAX_READ; 586179f6280SConrad Meyer } 587179f6280SConrad Meyer 588179f6280SConrad Meyer chunk_size = MIN(bytecount, chunk_size); 589179f6280SConrad Meyer if (!random_chachamode) 590179f6280SConrad Meyer chunk_size = rounddown(chunk_size, RANDOM_BLOCKSIZE); 591179f6280SConrad Meyer 59222eedc97SConrad Meyer while (bytecount >= chunk_size && chunk_size > 0) { 593179f6280SConrad Meyer randomdev_keystream(p_key, p_counter, buf, chunk_size); 594179f6280SConrad Meyer 595179f6280SConrad Meyer buf += chunk_size; 596179f6280SConrad Meyer bytecount -= chunk_size; 597179f6280SConrad Meyer 598179f6280SConrad Meyer /* We have to rekey if there is any data remaining to be 599179f6280SConrad Meyer * generated, in two scenarios: 600179f6280SConrad Meyer * 601179f6280SConrad Meyer * locked: we need to rekey before we unlock and release the 602179f6280SConrad Meyer * global state to another consumer; or 603179f6280SConrad Meyer * 604179f6280SConrad Meyer * unlocked: we need to rekey because we're in AES mode and are 605179f6280SConrad Meyer * required to rekey at chunk_size==1MB. But we do not need to 606179f6280SConrad Meyer * rekey during the last trailing <1MB chunk. 607179f6280SConrad Meyer */ 608179f6280SConrad Meyer if (bytecount > 0) { 609179f6280SConrad Meyer if (locked || chunk_size == RANDOM_FORTUNA_MAX_READ) { 610179f6280SConrad Meyer randomdev_keystream(p_key, p_counter, newkey, 611179f6280SConrad Meyer RANDOM_KEYSIZE); 612179f6280SConrad Meyer randomdev_encrypt_init(p_key, newkey); 613179f6280SConrad Meyer } 614179f6280SConrad Meyer 615179f6280SConrad Meyer /* 616179f6280SConrad Meyer * If we're holding the global lock, yield it briefly 617179f6280SConrad Meyer * now. 618179f6280SConrad Meyer */ 619179f6280SConrad Meyer if (locked) { 620179f6280SConrad Meyer RANDOM_RESEED_UNLOCK(); 621179f6280SConrad Meyer RANDOM_RESEED_LOCK(); 622179f6280SConrad Meyer } 623179f6280SConrad Meyer 624179f6280SConrad Meyer /* 625179f6280SConrad Meyer * At the trailing end, scale down chunk_size from 1MB or 626179f6280SConrad Meyer * PAGE_SIZE to all remaining full blocks (AES) or all 627179f6280SConrad Meyer * remaining bytes (Chacha). 628179f6280SConrad Meyer */ 629179f6280SConrad Meyer if (bytecount < chunk_size) { 630179f6280SConrad Meyer if (random_chachamode) 631179f6280SConrad Meyer chunk_size = bytecount; 632179f6280SConrad Meyer else if (bytecount >= RANDOM_BLOCKSIZE) 633179f6280SConrad Meyer chunk_size = rounddown(bytecount, 634179f6280SConrad Meyer RANDOM_BLOCKSIZE); 635179f6280SConrad Meyer else 636179f6280SConrad Meyer break; 637179f6280SConrad Meyer } 638179f6280SConrad Meyer } 639179f6280SConrad Meyer } 640179f6280SConrad Meyer 641179f6280SConrad Meyer /* 642179f6280SConrad Meyer * Generate any partial AES block remaining into a temporary buffer and 643179f6280SConrad Meyer * copy the desired substring out. 644179f6280SConrad Meyer */ 645179f6280SConrad Meyer if (bytecount > 0) { 646179f6280SConrad Meyer MPASS(!random_chachamode); 647179f6280SConrad Meyer 648179f6280SConrad Meyer randomdev_keystream(p_key, p_counter, remainder_buf, 649179f6280SConrad Meyer sizeof(remainder_buf)); 650179f6280SConrad Meyer } 651179f6280SConrad Meyer 652179f6280SConrad Meyer /* 653179f6280SConrad Meyer * In locked mode, re-key global K before dropping the lock, which we 654179f6280SConrad Meyer * don't need for memcpy/bzero below. 655179f6280SConrad Meyer */ 656179f6280SConrad Meyer if (locked) { 657179f6280SConrad Meyer randomdev_keystream(p_key, p_counter, newkey, RANDOM_KEYSIZE); 658179f6280SConrad Meyer randomdev_encrypt_init(p_key, newkey); 659179f6280SConrad Meyer RANDOM_RESEED_UNLOCK(); 660179f6280SConrad Meyer } 661179f6280SConrad Meyer 662179f6280SConrad Meyer if (bytecount > 0) { 663179f6280SConrad Meyer memcpy(buf, remainder_buf, bytecount); 664179f6280SConrad Meyer explicit_bzero(remainder_buf, sizeof(remainder_buf)); 665179f6280SConrad Meyer } 666179f6280SConrad Meyer } 667179f6280SConrad Meyer 668179f6280SConrad Meyer 669179f6280SConrad Meyer /* 670179f6280SConrad Meyer * Handle only "concurrency-enabled" Fortuna reads to simplify logic. 671179f6280SConrad Meyer * 672179f6280SConrad Meyer * Caller (random_fortuna_read) is responsible for zeroing out sensitive 673179f6280SConrad Meyer * buffers provided as parameters to this routine. 674179f6280SConrad Meyer */ 675179f6280SConrad Meyer static void 676179f6280SConrad Meyer random_fortuna_read_concurrent(uint8_t *buf, size_t bytecount, 677179f6280SConrad Meyer uint8_t newkey[static RANDOM_KEYSIZE]) 678179f6280SConrad Meyer { 679179f6280SConrad Meyer union randomdev_key key_copy; 680179f6280SConrad Meyer uint128_t counter_copy; 681179f6280SConrad Meyer size_t blockcount; 682179f6280SConrad Meyer 683179f6280SConrad Meyer MPASS(fortuna_concurrent_read); 684179f6280SConrad Meyer 685179f6280SConrad Meyer /* 686179f6280SConrad Meyer * Compute number of blocks required for the PRF request ('delta C'). 687179f6280SConrad Meyer * We will step the global counter 'C' by this number under lock, and 688179f6280SConrad Meyer * then actually consume the counter values outside the lock. 689179f6280SConrad Meyer * 690179f6280SConrad Meyer * This ensures that contemporaneous but independent requests for 691179f6280SConrad Meyer * randomness receive distinct 'C' values and thus independent PRF 692179f6280SConrad Meyer * results. 693179f6280SConrad Meyer */ 694179f6280SConrad Meyer if (random_chachamode) { 695179f6280SConrad Meyer blockcount = howmany(bytecount, CHACHA_BLOCKLEN); 696179f6280SConrad Meyer } else { 697179f6280SConrad Meyer blockcount = howmany(bytecount, RANDOM_BLOCKSIZE); 698179f6280SConrad Meyer 699179f6280SConrad Meyer /* 700179f6280SConrad Meyer * Need to account for the additional blocks generated by 701179f6280SConrad Meyer * rekeying when updating the global fs_counter. 702179f6280SConrad Meyer */ 703179f6280SConrad Meyer blockcount += RANDOM_KEYS_PER_BLOCK * 704179f6280SConrad Meyer (blockcount / RANDOM_FORTUNA_BLOCKS_PER_KEY); 705179f6280SConrad Meyer } 706179f6280SConrad Meyer 707179f6280SConrad Meyer RANDOM_RESEED_LOCK(); 708179f6280SConrad Meyer KASSERT(!uint128_is_zero(fortuna_state.fs_counter), ("FS&K: C != 0")); 709878a05a4SConrad Meyer 710179f6280SConrad Meyer /* 711179f6280SConrad Meyer * Save the original counter and key values that will be used as the 712179f6280SConrad Meyer * PRF for this particular consumer. 713179f6280SConrad Meyer */ 714179f6280SConrad Meyer memcpy(&counter_copy, &fortuna_state.fs_counter, sizeof(counter_copy)); 715179f6280SConrad Meyer memcpy(&key_copy, &fortuna_state.fs_key, sizeof(key_copy)); 716179f6280SConrad Meyer 717179f6280SConrad Meyer /* 718179f6280SConrad Meyer * Step the counter as if we had generated 'bytecount' blocks for this 719179f6280SConrad Meyer * consumer. I.e., ensure that the next consumer gets an independent 720179f6280SConrad Meyer * range of counter values once we drop the global lock. 721179f6280SConrad Meyer */ 722179f6280SConrad Meyer uint128_add64(&fortuna_state.fs_counter, blockcount); 723179f6280SConrad Meyer 724179f6280SConrad Meyer /* 725179f6280SConrad Meyer * We still need to Rekey the global 'K' between independent calls; 726179f6280SConrad Meyer * this is no different from conventional Fortuna. Note that 727179f6280SConrad Meyer * 'randomdev_keystream()' will step the fs_counter 'C' appropriately 728179f6280SConrad Meyer * for the blocks needed for the 'newkey'. 729179f6280SConrad Meyer * 730179f6280SConrad Meyer * (This is part of PseudoRandomData() in FS&K, 9.4.4.) 731179f6280SConrad Meyer */ 732179f6280SConrad Meyer randomdev_keystream(&fortuna_state.fs_key, &fortuna_state.fs_counter, 733179f6280SConrad Meyer newkey, RANDOM_KEYSIZE); 734179f6280SConrad Meyer randomdev_encrypt_init(&fortuna_state.fs_key, newkey); 735179f6280SConrad Meyer 736179f6280SConrad Meyer /* 737179f6280SConrad Meyer * We have everything we need to generate a unique PRF for this 738179f6280SConrad Meyer * consumer without touching global state. 739179f6280SConrad Meyer */ 740179f6280SConrad Meyer RANDOM_RESEED_UNLOCK(); 741179f6280SConrad Meyer 742179f6280SConrad Meyer random_fortuna_genbytes(buf, bytecount, newkey, &counter_copy, 743179f6280SConrad Meyer &key_copy, FORTUNA_UNLOCKED); 744179f6280SConrad Meyer RANDOM_RESEED_ASSERT_LOCK_NOT_OWNED(); 745179f6280SConrad Meyer 746179f6280SConrad Meyer explicit_bzero(&counter_copy, sizeof(counter_copy)); 747179f6280SConrad Meyer explicit_bzero(&key_copy, sizeof(key_copy)); 748179f6280SConrad Meyer } 749179f6280SConrad Meyer 750d1b06863SMark Murray /*- 7513aa77530SMark Murray * FS&K - RandomData() (Part 2) 7523aa77530SMark Murray * Main read from Fortuna, continued. May be called multiple times after 7533aa77530SMark Murray * the random_fortuna_pre_read() above. 754d0d71d81SConrad Meyer * 755d0d71d81SConrad Meyer * The supplied buf MAY not be a multiple of RANDOM_BLOCKSIZE in size; it is 756d0d71d81SConrad Meyer * the responsibility of the algorithm to accommodate partial block reads, if a 757d0d71d81SConrad Meyer * block output mode is used. 758d1b06863SMark Murray */ 759d1b06863SMark Murray void 760d0d71d81SConrad Meyer random_fortuna_read(uint8_t *buf, size_t bytecount) 761d1b06863SMark Murray { 762179f6280SConrad Meyer uint8_t newkey[RANDOM_KEYSIZE]; 763d1b06863SMark Murray 764179f6280SConrad Meyer if (fortuna_concurrent_read) { 765179f6280SConrad Meyer random_fortuna_read_concurrent(buf, bytecount, newkey); 766179f6280SConrad Meyer goto out; 767179f6280SConrad Meyer } 768d0d71d81SConrad Meyer 769d1b06863SMark Murray RANDOM_RESEED_LOCK(); 770d0d71d81SConrad Meyer KASSERT(!uint128_is_zero(fortuna_state.fs_counter), ("FS&K: C != 0")); 771d0d71d81SConrad Meyer 772179f6280SConrad Meyer random_fortuna_genbytes(buf, bytecount, newkey, 773179f6280SConrad Meyer &fortuna_state.fs_counter, &fortuna_state.fs_key, FORTUNA_LOCKED); 774179f6280SConrad Meyer /* Returns unlocked */ 775179f6280SConrad Meyer RANDOM_RESEED_ASSERT_LOCK_NOT_OWNED(); 776d0d71d81SConrad Meyer 777179f6280SConrad Meyer out: 778179f6280SConrad Meyer explicit_bzero(newkey, sizeof(newkey)); 77910cb2424SMark Murray } 78010cb2424SMark Murray 78113774e82SConrad Meyer #ifdef _KERNEL 78213774e82SConrad Meyer static bool block_seeded_status = false; 78313774e82SConrad Meyer SYSCTL_BOOL(_kern_random, OID_AUTO, block_seeded_status, CTLFLAG_RWTUN, 78413774e82SConrad Meyer &block_seeded_status, 0, 78513774e82SConrad Meyer "If non-zero, pretend Fortuna is in an unseeded state. By setting " 78613774e82SConrad Meyer "this as a tunable, boot can be tested as if the random device is " 78713774e82SConrad Meyer "unavailable."); 78813774e82SConrad Meyer #endif 78913774e82SConrad Meyer 790e8e1f0b4SConrad Meyer static bool 791e8e1f0b4SConrad Meyer random_fortuna_seeded_internal(void) 792e8e1f0b4SConrad Meyer { 793e8e1f0b4SConrad Meyer return (!uint128_is_zero(fortuna_state.fs_counter)); 794e8e1f0b4SConrad Meyer } 795e8e1f0b4SConrad Meyer 796e8e1f0b4SConrad Meyer static bool 79710cb2424SMark Murray random_fortuna_seeded(void) 79810cb2424SMark Murray { 79910cb2424SMark Murray 8009b8d0fe4SConrad Meyer #ifdef _KERNEL 80113774e82SConrad Meyer if (block_seeded_status) 80213774e82SConrad Meyer return (false); 8039b8d0fe4SConrad Meyer #endif 8049b8d0fe4SConrad Meyer 805e8e1f0b4SConrad Meyer if (__predict_true(random_fortuna_seeded_internal())) 806e8e1f0b4SConrad Meyer return (true); 807e8e1f0b4SConrad Meyer 808e8e1f0b4SConrad Meyer /* 809e8e1f0b4SConrad Meyer * Maybe we have enough entropy in the zeroth pool but just haven't 810e8e1f0b4SConrad Meyer * kicked the initial seed step. Do so now. 811e8e1f0b4SConrad Meyer */ 812e8e1f0b4SConrad Meyer random_fortuna_pre_read(); 813e8e1f0b4SConrad Meyer 814e8e1f0b4SConrad Meyer return (random_fortuna_seeded_internal()); 81510cb2424SMark Murray } 816