14db9ae91SMark Murray /*- 2095db7e6SConrad Meyer * Copyright (c) 2017 Oliver Pinter 3d1b06863SMark Murray * Copyright (c) 2000-2015 Mark R V Murray 44db9ae91SMark Murray * All rights reserved. 54db9ae91SMark Murray * 64db9ae91SMark Murray * Redistribution and use in source and binary forms, with or without 74db9ae91SMark Murray * modification, are permitted provided that the following conditions 84db9ae91SMark Murray * are met: 94db9ae91SMark Murray * 1. Redistributions of source code must retain the above copyright 104db9ae91SMark Murray * notice, this list of conditions and the following disclaimer 114db9ae91SMark Murray * in this position and unchanged. 124db9ae91SMark Murray * 2. Redistributions in binary form must reproduce the above copyright 134db9ae91SMark Murray * notice, this list of conditions and the following disclaimer in the 144db9ae91SMark Murray * documentation and/or other materials provided with the distribution. 154db9ae91SMark Murray * 164db9ae91SMark Murray * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 174db9ae91SMark Murray * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 184db9ae91SMark Murray * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 194db9ae91SMark Murray * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 204db9ae91SMark Murray * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 214db9ae91SMark Murray * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 224db9ae91SMark Murray * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 234db9ae91SMark Murray * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 244db9ae91SMark Murray * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 254db9ae91SMark Murray * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 264db9ae91SMark Murray * 274db9ae91SMark Murray */ 284db9ae91SMark Murray 294db9ae91SMark Murray #include <sys/param.h> 304db9ae91SMark Murray #include <sys/systm.h> 31fb919e4dSMark Murray #include <sys/bus.h> 324db9ae91SMark Murray #include <sys/conf.h> 334db9ae91SMark Murray #include <sys/fcntl.h> 34fb919e4dSMark Murray #include <sys/filio.h> 354db9ae91SMark Murray #include <sys/kernel.h> 3602c986abSMark Murray #include <sys/kthread.h> 37fb919e4dSMark Murray #include <sys/lock.h> 3841ee9f1cSPoul-Henning Kamp #include <sys/module.h> 3910cb2424SMark Murray #include <sys/malloc.h> 40d1b06863SMark Murray #include <sys/poll.h> 41b40ce416SJulian Elischer #include <sys/proc.h> 42f02e47dcSMark Murray #include <sys/random.h> 43d1b06863SMark Murray #include <sys/sbuf.h> 44d1b06863SMark Murray #include <sys/selinfo.h> 4510cb2424SMark Murray #include <sys/sysctl.h> 4610cb2424SMark Murray #include <sys/systm.h> 47fb919e4dSMark Murray #include <sys/uio.h> 4802c986abSMark Murray #include <sys/unistd.h> 494db9ae91SMark Murray 50d1b06863SMark Murray #include <crypto/rijndael/rijndael-api-fst.h> 517a3f5d11SAllan Jude #include <crypto/sha2/sha256.h> 52d1b06863SMark Murray 53d1b06863SMark Murray #include <dev/random/hash.h> 5402c986abSMark Murray #include <dev/random/randomdev.h> 55095ed2c9SMark Murray #include <dev/random/random_harvestq.h> 564db9ae91SMark Murray 573aa77530SMark Murray #define RANDOM_UNIT 0 58e7806b4cSMark Murray 593ee1d5bbSConrad Meyer /* 603ee1d5bbSConrad Meyer * In loadable random, the core randomdev.c / random(9) routines have static 613ee1d5bbSConrad Meyer * visibility and an alternative name to avoid conflicting with the function 623ee1d5bbSConrad Meyer * pointers of the real names in the core kernel. random_alg_context_init 633ee1d5bbSConrad Meyer * installs pointers to the loadable static names into the core kernel's 643ee1d5bbSConrad Meyer * function pointers at SI_SUB_RANDOM:SI_ORDER_SECOND. 653ee1d5bbSConrad Meyer */ 66646041a8SMark Murray #if defined(RANDOM_LOADABLE) 673ee1d5bbSConrad Meyer static int (read_random_uio)(struct uio *, bool); 683ee1d5bbSConrad Meyer static void (read_random)(void *, u_int); 693ee1d5bbSConrad Meyer static bool (is_random_seeded)(void); 70646041a8SMark Murray #endif 71646041a8SMark Murray 72d1b06863SMark Murray static d_read_t randomdev_read; 73d1b06863SMark Murray static d_write_t randomdev_write; 74d1b06863SMark Murray static d_poll_t randomdev_poll; 7510cb2424SMark Murray static d_ioctl_t randomdev_ioctl; 764db9ae91SMark Murray 774db9ae91SMark Murray static struct cdevsw random_cdevsw = { 787ac40f5fSPoul-Henning Kamp .d_name = "random", 7910cb2424SMark Murray .d_version = D_VERSION, 80d1b06863SMark Murray .d_read = randomdev_read, 81d1b06863SMark Murray .d_write = randomdev_write, 82d1b06863SMark Murray .d_poll = randomdev_poll, 8310cb2424SMark Murray .d_ioctl = randomdev_ioctl, 844db9ae91SMark Murray }; 854db9ae91SMark Murray 864db9ae91SMark Murray /* For use with make_dev(9)/destroy_dev(9). */ 8789c9c53dSPoul-Henning Kamp static struct cdev *random_dev; 884db9ae91SMark Murray 89646041a8SMark Murray #if defined(RANDOM_LOADABLE) 903aa77530SMark Murray static void 913ee1d5bbSConrad Meyer random_alg_context_init(void *dummy __unused) 923aa77530SMark Murray { 933ee1d5bbSConrad Meyer _read_random_uio = (read_random_uio); 943ee1d5bbSConrad Meyer _read_random = (read_random); 953ee1d5bbSConrad Meyer _is_random_seeded = (is_random_seeded); 963aa77530SMark Murray } 973ee1d5bbSConrad Meyer SYSINIT(random_device, SI_SUB_RANDOM, SI_ORDER_SECOND, random_alg_context_init, 983ee1d5bbSConrad Meyer NULL); 993ee1d5bbSConrad Meyer #endif 1003aa77530SMark Murray 101d1b06863SMark Murray static struct selinfo rsel; 102d1b06863SMark Murray 103d1b06863SMark Murray /* 104d1b06863SMark Murray * This is the read uio(9) interface for random(4). 105d1b06863SMark Murray */ 106d1b06863SMark Murray /* ARGSUSED */ 107d1b06863SMark Murray static int 108d1b06863SMark Murray randomdev_read(struct cdev *dev __unused, struct uio *uio, int flags) 109d1b06863SMark Murray { 110707d98feSEd Schouten 1113ee1d5bbSConrad Meyer return ((read_random_uio)(uio, (flags & O_NONBLOCK) != 0)); 112707d98feSEd Schouten } 113707d98feSEd Schouten 11413774e82SConrad Meyer /* 11513774e82SConrad Meyer * If the random device is not seeded, blocks until it is seeded. 11613774e82SConrad Meyer * 11713774e82SConrad Meyer * Returns zero when the random device is seeded. 11813774e82SConrad Meyer * 11913774e82SConrad Meyer * If the 'interruptible' parameter is true, and the device is unseeded, this 12013774e82SConrad Meyer * routine may be interrupted. If interrupted, it will return either ERESTART 12113774e82SConrad Meyer * or EINTR. 12213774e82SConrad Meyer */ 12313774e82SConrad Meyer #define SEEDWAIT_INTERRUPTIBLE true 12413774e82SConrad Meyer #define SEEDWAIT_UNINTERRUPTIBLE false 12513774e82SConrad Meyer static int 12613774e82SConrad Meyer randomdev_wait_until_seeded(bool interruptible) 12713774e82SConrad Meyer { 12813774e82SConrad Meyer int error, spamcount, slpflags; 12913774e82SConrad Meyer 13013774e82SConrad Meyer slpflags = interruptible ? PCATCH : 0; 13113774e82SConrad Meyer 13213774e82SConrad Meyer error = 0; 13313774e82SConrad Meyer spamcount = 0; 13413774e82SConrad Meyer while (!p_random_alg_context->ra_seeded()) { 13513774e82SConrad Meyer /* keep tapping away at the pre-read until we seed/unblock. */ 13613774e82SConrad Meyer p_random_alg_context->ra_pre_read(); 13713774e82SConrad Meyer /* Only bother the console every 10 seconds or so */ 13813774e82SConrad Meyer if (spamcount == 0) 13913774e82SConrad Meyer printf("random: %s unblock wait\n", __func__); 14013774e82SConrad Meyer spamcount = (spamcount + 1) % 100; 1413ee1d5bbSConrad Meyer error = tsleep(p_random_alg_context, slpflags, "randseed", 14213774e82SConrad Meyer hz / 10); 14313774e82SConrad Meyer if (error == ERESTART || error == EINTR) { 14413774e82SConrad Meyer KASSERT(interruptible, 14513774e82SConrad Meyer ("unexpected wake of non-interruptible sleep")); 14613774e82SConrad Meyer break; 14713774e82SConrad Meyer } 14813774e82SConrad Meyer /* Squash tsleep timeout condition */ 14913774e82SConrad Meyer if (error == EWOULDBLOCK) 15013774e82SConrad Meyer error = 0; 15113774e82SConrad Meyer KASSERT(error == 0, ("unexpected tsleep error %d", error)); 15213774e82SConrad Meyer } 15313774e82SConrad Meyer return (error); 15413774e82SConrad Meyer } 15513774e82SConrad Meyer 156707d98feSEd Schouten int 1573ee1d5bbSConrad Meyer (read_random_uio)(struct uio *uio, bool nonblock) 158707d98feSEd Schouten { 159db488e4fSConrad Meyer /* 16 MiB takes about 0.08 s CPU time on my 2017 AMD Zen CPU */ 160db488e4fSConrad Meyer #define SIGCHK_PERIOD (16 * 1024 * 1024) 161db488e4fSConrad Meyer const size_t sigchk_period = SIGCHK_PERIOD; 162db488e4fSConrad Meyer CTASSERT(SIGCHK_PERIOD % PAGE_SIZE == 0); 163db488e4fSConrad Meyer #undef SIGCHK_PERIOD 164d1b06863SMark Murray 165d0d71d81SConrad Meyer uint8_t *random_buf; 166d0d71d81SConrad Meyer size_t total_read, read_len; 167d0d71d81SConrad Meyer ssize_t bufsize; 168d0d71d81SConrad Meyer int error; 169d0d71d81SConrad Meyer 170d0d71d81SConrad Meyer 171d0d71d81SConrad Meyer KASSERT(uio->uio_rw == UIO_READ, ("%s: bogus write", __func__)); 172d0d71d81SConrad Meyer KASSERT(uio->uio_resid >= 0, ("%s: bogus negative resid", __func__)); 173d0d71d81SConrad Meyer 174646041a8SMark Murray p_random_alg_context->ra_pre_read(); 175d1b06863SMark Murray error = 0; 176dbefaadcSMark Murray /* (Un)Blocking logic */ 17713774e82SConrad Meyer if (!p_random_alg_context->ra_seeded()) { 17813774e82SConrad Meyer if (nonblock) 179d1b06863SMark Murray error = EWOULDBLOCK; 18013774e82SConrad Meyer else 18113774e82SConrad Meyer error = randomdev_wait_until_seeded( 18213774e82SConrad Meyer SEEDWAIT_INTERRUPTIBLE); 183d1b06863SMark Murray } 184d0d71d81SConrad Meyer if (error != 0) 185d0d71d81SConrad Meyer return (error); 186d0d71d81SConrad Meyer 187b712101cSMark Murray total_read = 0; 188d0d71d81SConrad Meyer 189d0d71d81SConrad Meyer /* Easy to deal with the trivial 0 byte case. */ 190d0d71d81SConrad Meyer if (__predict_false(uio->uio_resid == 0)) 191d0d71d81SConrad Meyer return (0); 192d0d71d81SConrad Meyer 193b712101cSMark Murray /* 194d0d71d81SConrad Meyer * If memory is plentiful, use maximally sized requests to avoid 195d0d71d81SConrad Meyer * per-call algorithm overhead. But fall back to a single page 196d0d71d81SConrad Meyer * allocation if the full request isn't immediately available. 197b712101cSMark Murray */ 198d0d71d81SConrad Meyer bufsize = MIN(sigchk_period, (size_t)uio->uio_resid); 199d0d71d81SConrad Meyer random_buf = malloc(bufsize, M_ENTROPY, M_NOWAIT); 200d0d71d81SConrad Meyer if (random_buf == NULL) { 201d0d71d81SConrad Meyer bufsize = PAGE_SIZE; 202d0d71d81SConrad Meyer random_buf = malloc(bufsize, M_ENTROPY, M_WAITOK); 203d0d71d81SConrad Meyer } 204d0d71d81SConrad Meyer 205d0d71d81SConrad Meyer error = 0; 206d0d71d81SConrad Meyer while (uio->uio_resid > 0 && error == 0) { 207d0d71d81SConrad Meyer read_len = MIN((size_t)uio->uio_resid, bufsize); 208d0d71d81SConrad Meyer 209646041a8SMark Murray p_random_alg_context->ra_read(random_buf, read_len); 210d0d71d81SConrad Meyer 211db488e4fSConrad Meyer /* 212d0d71d81SConrad Meyer * uiomove() may yield the CPU before each 'read_len' bytes (up 213d0d71d81SConrad Meyer * to bufsize) are copied out. 214db488e4fSConrad Meyer */ 215d0d71d81SConrad Meyer error = uiomove(random_buf, read_len, uio); 216d0d71d81SConrad Meyer total_read += read_len; 217d0d71d81SConrad Meyer 218db488e4fSConrad Meyer /* 219db488e4fSConrad Meyer * Poll for signals every few MBs to avoid very long 220db488e4fSConrad Meyer * uninterruptible syscalls. 221db488e4fSConrad Meyer */ 222db488e4fSConrad Meyer if (error == 0 && uio->uio_resid != 0 && 2237a8d2661SXin LI total_read % sigchk_period == 0) { 2243ee1d5bbSConrad Meyer error = tsleep_sbt(p_random_alg_context, PCATCH, 225db488e4fSConrad Meyer "randrd", SBT_1NS, 0, C_HARDCLOCK); 2267a8d2661SXin LI /* Squash tsleep timeout condition */ 2277a8d2661SXin LI if (error == EWOULDBLOCK) 2287a8d2661SXin LI error = 0; 2297a8d2661SXin LI } 230d1b06863SMark Murray } 231d0d71d81SConrad Meyer 232d0d71d81SConrad Meyer /* 233d0d71d81SConrad Meyer * Short reads due to signal interrupt should not indicate error. 234d0d71d81SConrad Meyer * Instead, the uio will reflect that the read was shorter than 235d0d71d81SConrad Meyer * requested. 236d0d71d81SConrad Meyer */ 237db488e4fSConrad Meyer if (error == ERESTART || error == EINTR) 238d1b06863SMark Murray error = 0; 239d0d71d81SConrad Meyer 2404a711b8dSJohn Baldwin zfree(random_buf, M_ENTROPY); 241d1b06863SMark Murray return (error); 242d1b06863SMark Murray } 243d1b06863SMark Murray 244d1b06863SMark Murray /*- 2453782136fSConrad Meyer * Kernel API version of read_random(). This is similar to read_random_uio(), 2463782136fSConrad Meyer * except it doesn't interface with uio(9). It cannot assumed that random_buf 2473782136fSConrad Meyer * is a multiple of RANDOM_BLOCKSIZE bytes. 2483782136fSConrad Meyer * 2493782136fSConrad Meyer * If the tunable 'kern.random.initial_seeding.bypass_before_seeding' is set 2503782136fSConrad Meyer * non-zero, silently fail to emit random data (matching the pre-r346250 2513782136fSConrad Meyer * behavior). If read_random is called prior to seeding and bypassed because 2523782136fSConrad Meyer * of this tunable, the condition is reported in the read-only sysctl 2533782136fSConrad Meyer * 'kern.random.initial_seeding.read_random_bypassed_before_seeding'. 254d1b06863SMark Murray */ 25513774e82SConrad Meyer void 2563ee1d5bbSConrad Meyer (read_random)(void *random_buf, u_int len) 257d1b06863SMark Murray { 258d1b06863SMark Murray 259d1b06863SMark Murray KASSERT(random_buf != NULL, ("No suitable random buffer in %s", __func__)); 260646041a8SMark Murray p_random_alg_context->ra_pre_read(); 2613782136fSConrad Meyer 26213774e82SConrad Meyer if (len == 0) 26313774e82SConrad Meyer return; 2643782136fSConrad Meyer 2653782136fSConrad Meyer /* (Un)Blocking logic */ 2663782136fSConrad Meyer if (__predict_false(!p_random_alg_context->ra_seeded())) { 2673782136fSConrad Meyer if (random_bypass_before_seeding) { 2683782136fSConrad Meyer if (!read_random_bypassed_before_seeding) { 2693782136fSConrad Meyer if (!random_bypass_disable_warnings) 2703782136fSConrad Meyer printf("read_random: WARNING: bypassing" 2713782136fSConrad Meyer " request for random data because " 2723782136fSConrad Meyer "the random device is not yet " 2733782136fSConrad Meyer "seeded and the knob " 2743782136fSConrad Meyer "'bypass_before_seeding' was " 2753782136fSConrad Meyer "enabled.\n"); 2763782136fSConrad Meyer read_random_bypassed_before_seeding = true; 2773782136fSConrad Meyer } 2783782136fSConrad Meyer /* Avoid potentially leaking stack garbage */ 2793782136fSConrad Meyer memset(random_buf, 0, len); 2803782136fSConrad Meyer return; 2813782136fSConrad Meyer } 2823782136fSConrad Meyer 2833782136fSConrad Meyer (void)randomdev_wait_until_seeded(SEEDWAIT_UNINTERRUPTIBLE); 2843782136fSConrad Meyer } 285d0d71d81SConrad Meyer p_random_alg_context->ra_read(random_buf, len); 286d1b06863SMark Murray } 287d1b06863SMark Murray 288f3d2512dSConrad Meyer bool 2893ee1d5bbSConrad Meyer (is_random_seeded)(void) 290f3d2512dSConrad Meyer { 291f3d2512dSConrad Meyer return (p_random_alg_context->ra_seeded()); 292f3d2512dSConrad Meyer } 293f3d2512dSConrad Meyer 294646041a8SMark Murray static __inline void 295646041a8SMark Murray randomdev_accumulate(uint8_t *buf, u_int count) 296646041a8SMark Murray { 297646041a8SMark Murray static u_int destination = 0; 298646041a8SMark Murray static struct harvest_event event; 299646041a8SMark Murray static struct randomdev_hash hash; 300646041a8SMark Murray static uint32_t entropy_data[RANDOM_KEYSIZE_WORDS]; 301646041a8SMark Murray uint32_t timestamp; 302646041a8SMark Murray int i; 303646041a8SMark Murray 304646041a8SMark Murray /* Extra timing here is helpful to scrape scheduler jitter entropy */ 305646041a8SMark Murray randomdev_hash_init(&hash); 306646041a8SMark Murray timestamp = (uint32_t)get_cyclecount(); 307646041a8SMark Murray randomdev_hash_iterate(&hash, ×tamp, sizeof(timestamp)); 308646041a8SMark Murray randomdev_hash_iterate(&hash, buf, count); 309646041a8SMark Murray timestamp = (uint32_t)get_cyclecount(); 310646041a8SMark Murray randomdev_hash_iterate(&hash, ×tamp, sizeof(timestamp)); 311646041a8SMark Murray randomdev_hash_finish(&hash, entropy_data); 312646041a8SMark Murray for (i = 0; i < RANDOM_KEYSIZE_WORDS; i += sizeof(event.he_entropy)/sizeof(event.he_entropy[0])) { 313646041a8SMark Murray event.he_somecounter = (uint32_t)get_cyclecount(); 314646041a8SMark Murray event.he_size = sizeof(event.he_entropy); 315646041a8SMark Murray event.he_source = RANDOM_CACHED; 316646041a8SMark Murray event.he_destination = destination++; /* Harmless cheating */ 317646041a8SMark Murray memcpy(event.he_entropy, entropy_data + i, sizeof(event.he_entropy)); 318646041a8SMark Murray p_random_alg_context->ra_event_processor(&event); 319646041a8SMark Murray } 32000e0e488SConrad Meyer explicit_bzero(&event, sizeof(event)); 321646041a8SMark Murray explicit_bzero(entropy_data, sizeof(entropy_data)); 322646041a8SMark Murray } 323646041a8SMark Murray 324d1b06863SMark Murray /* ARGSUSED */ 325d1b06863SMark Murray static int 326d1b06863SMark Murray randomdev_write(struct cdev *dev __unused, struct uio *uio, int flags __unused) 327d1b06863SMark Murray { 328d1b06863SMark Murray uint8_t *random_buf; 329d1b06863SMark Murray int c, error = 0; 330d1b06863SMark Murray ssize_t nbytes; 331d1b06863SMark Murray 332d1b06863SMark Murray random_buf = malloc(PAGE_SIZE, M_ENTROPY, M_WAITOK); 333d1b06863SMark Murray nbytes = uio->uio_resid; 334d1b06863SMark Murray while (uio->uio_resid > 0 && error == 0) { 335d1b06863SMark Murray c = MIN(uio->uio_resid, PAGE_SIZE); 336d1b06863SMark Murray error = uiomove(random_buf, c, uio); 337d1b06863SMark Murray if (error) 338d1b06863SMark Murray break; 339646041a8SMark Murray randomdev_accumulate(random_buf, c); 340d1b06863SMark Murray } 341d1b06863SMark Murray if (nbytes != uio->uio_resid && (error == ERESTART || error == EINTR)) 342d1b06863SMark Murray /* Partial write, not error. */ 343d1b06863SMark Murray error = 0; 344d1b06863SMark Murray free(random_buf, M_ENTROPY); 345d1b06863SMark Murray return (error); 346d1b06863SMark Murray } 347d1b06863SMark Murray 348d1b06863SMark Murray /* ARGSUSED */ 349d1b06863SMark Murray static int 350d1b06863SMark Murray randomdev_poll(struct cdev *dev __unused, int events, struct thread *td __unused) 351d1b06863SMark Murray { 352d1b06863SMark Murray 353d1b06863SMark Murray if (events & (POLLIN | POLLRDNORM)) { 354646041a8SMark Murray if (p_random_alg_context->ra_seeded()) 355d1b06863SMark Murray events &= (POLLIN | POLLRDNORM); 356d1b06863SMark Murray else 357d1b06863SMark Murray selrecord(td, &rsel); 358d1b06863SMark Murray } 359d1b06863SMark Murray return (events); 360d1b06863SMark Murray } 361d1b06863SMark Murray 362d1b06863SMark Murray /* This will be called by the entropy processor when it seeds itself and becomes secure */ 363d1b06863SMark Murray void 364d1b06863SMark Murray randomdev_unblock(void) 365d1b06863SMark Murray { 366d1b06863SMark Murray 367d1b06863SMark Murray selwakeuppri(&rsel, PUSER); 3683ee1d5bbSConrad Meyer wakeup(p_random_alg_context); 369d1b06863SMark Murray printf("random: unblocking device.\n"); 370*10b1a175SConrad Meyer #ifndef RANDOM_FENESTRASX 371d1b06863SMark Murray /* Do random(9) a favour while we are about it. */ 372d1b06863SMark Murray (void)atomic_cmpset_int(&arc4rand_iniseed_state, ARC4_ENTR_NONE, ARC4_ENTR_HAVE); 373*10b1a175SConrad Meyer #endif 374d1b06863SMark Murray } 375d1b06863SMark Murray 376e1199601SMark Murray /* ARGSUSED */ 3774db9ae91SMark Murray static int 37810cb2424SMark Murray randomdev_ioctl(struct cdev *dev __unused, u_long cmd, caddr_t addr __unused, 379e1199601SMark Murray int flags __unused, struct thread *td __unused) 3804d87a031SMark Murray { 381e7806b4cSMark Murray int error = 0; 382e7806b4cSMark Murray 38341bc9751SMark Murray switch (cmd) { 38441bc9751SMark Murray /* Really handled in upper layer */ 38541bc9751SMark Murray case FIOASYNC: 38641bc9751SMark Murray case FIONBIO: 387e7806b4cSMark Murray break; 38841bc9751SMark Murray default: 389e7806b4cSMark Murray error = ENOTTY; 3904d87a031SMark Murray } 39110cb2424SMark Murray 392e7806b4cSMark Murray return (error); 39341bc9751SMark Murray } 3944d87a031SMark Murray 395e1199601SMark Murray /* ARGSUSED */ 396a6278a2aSMark Murray static int 39710cb2424SMark Murray randomdev_modevent(module_t mod __unused, int type, void *data __unused) 3984db9ae91SMark Murray { 399e7806b4cSMark Murray int error = 0; 4004d87a031SMark Murray 4014db9ae91SMark Murray switch (type) { 4024db9ae91SMark Murray case MOD_LOAD: 403d1b06863SMark Murray printf("random: entropy device external interface\n"); 40410cb2424SMark Murray random_dev = make_dev_credf(MAKEDEV_ETERNAL_KLD, &random_cdevsw, 4053aa77530SMark Murray RANDOM_UNIT, NULL, UID_ROOT, GID_WHEEL, 0644, "random"); 40610cb2424SMark Murray make_dev_alias(random_dev, "urandom"); /* compatibility */ 407e7806b4cSMark Murray break; 4084db9ae91SMark Murray case MOD_UNLOAD: 4093ee1d5bbSConrad Meyer error = EBUSY; 410e7806b4cSMark Murray break; 4114db9ae91SMark Murray case MOD_SHUTDOWN: 412e7806b4cSMark Murray break; 4133e019deaSPoul-Henning Kamp default: 4143e019deaSPoul-Henning Kamp error = EOPNOTSUPP; 4153e019deaSPoul-Henning Kamp break; 4164db9ae91SMark Murray } 417e7806b4cSMark Murray return (error); 4184db9ae91SMark Murray } 4194db9ae91SMark Murray 420d1b06863SMark Murray static moduledata_t randomdev_mod = { 421d1b06863SMark Murray "random_device", 422d1b06863SMark Murray randomdev_modevent, 423d1b06863SMark Murray 0 424d1b06863SMark Murray }; 42510cb2424SMark Murray 426d1b06863SMark Murray DECLARE_MODULE(random_device, randomdev_mod, SI_SUB_DRIVERS, SI_ORDER_FIRST); 427d1b06863SMark Murray MODULE_VERSION(random_device, 1); 428646041a8SMark Murray MODULE_DEPEND(random_device, crypto, 1, 1, 1); 429646041a8SMark Murray MODULE_DEPEND(random_device, random_harvestq, 1, 1, 1); 430