177de2c3fSMark Murray /*-
2095db7e6SConrad Meyer * Copyright (c) 2017 Oliver Pinter
3095db7e6SConrad Meyer * Copyright (c) 2017 W. Dean Freeman
4d1b06863SMark Murray * Copyright (c) 2000-2015 Mark R V Murray
577de2c3fSMark Murray * Copyright (c) 2013 Arthur Mesh
677de2c3fSMark Murray * Copyright (c) 2004 Robert N. M. Watson
777de2c3fSMark Murray * All rights reserved.
877de2c3fSMark Murray *
977de2c3fSMark Murray * Redistribution and use in source and binary forms, with or without
1077de2c3fSMark Murray * modification, are permitted provided that the following conditions
1177de2c3fSMark Murray * are met:
1277de2c3fSMark Murray * 1. Redistributions of source code must retain the above copyright
1377de2c3fSMark Murray * notice, this list of conditions and the following disclaimer
1477de2c3fSMark Murray * in this position and unchanged.
1577de2c3fSMark Murray * 2. Redistributions in binary form must reproduce the above copyright
1677de2c3fSMark Murray * notice, this list of conditions and the following disclaimer in the
1777de2c3fSMark Murray * documentation and/or other materials provided with the distribution.
1877de2c3fSMark Murray *
1977de2c3fSMark Murray * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
2077de2c3fSMark Murray * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
2177de2c3fSMark Murray * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
2277de2c3fSMark Murray * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
2377de2c3fSMark Murray * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
2477de2c3fSMark Murray * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
2577de2c3fSMark Murray * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
2677de2c3fSMark Murray * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
2777de2c3fSMark Murray * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
2877de2c3fSMark Murray * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
2977de2c3fSMark Murray *
3077de2c3fSMark Murray */
3177de2c3fSMark Murray
3277de2c3fSMark Murray #include <sys/param.h>
3377de2c3fSMark Murray #include <sys/systm.h>
34374c9991SConrad Meyer #include <sys/ck.h>
35d1b06863SMark Murray #include <sys/conf.h>
36374c9991SConrad Meyer #include <sys/epoch.h>
371a3c1f06SMark Murray #include <sys/eventhandler.h>
38d1b06863SMark Murray #include <sys/hash.h>
3977de2c3fSMark Murray #include <sys/kernel.h>
4077de2c3fSMark Murray #include <sys/kthread.h>
411a3c1f06SMark Murray #include <sys/linker.h>
4277de2c3fSMark Murray #include <sys/lock.h>
4377de2c3fSMark Murray #include <sys/malloc.h>
44d1b06863SMark Murray #include <sys/module.h>
4577de2c3fSMark Murray #include <sys/mutex.h>
4677de2c3fSMark Murray #include <sys/random.h>
4710cb2424SMark Murray #include <sys/sbuf.h>
4877de2c3fSMark Murray #include <sys/sysctl.h>
4977de2c3fSMark Murray #include <sys/unistd.h>
5077de2c3fSMark Murray
51646041a8SMark Murray #include <machine/atomic.h>
521a3c1f06SMark Murray #include <machine/cpu.h>
531a3c1f06SMark Murray
5429f9b2a9SMark Murray #include <crypto/rijndael/rijndael-api-fst.h>
5529f9b2a9SMark Murray #include <crypto/sha2/sha256.h>
5629f9b2a9SMark Murray
5732fce092SColin Percival #include <dev/random/fortuna.h>
5829f9b2a9SMark Murray #include <dev/random/hash.h>
59095ed2c9SMark Murray #include <dev/random/randomdev.h>
60095ed2c9SMark Murray #include <dev/random/random_harvestq.h>
61d1b06863SMark Murray
6237136b84SConrad Meyer #if defined(RANDOM_ENABLE_ETHER)
6337136b84SConrad Meyer #define _RANDOM_HARVEST_ETHER_OFF 0
6437136b84SConrad Meyer #else
6537136b84SConrad Meyer #define _RANDOM_HARVEST_ETHER_OFF (1u << RANDOM_NET_ETHER)
6637136b84SConrad Meyer #endif
6737136b84SConrad Meyer #if defined(RANDOM_ENABLE_UMA)
6837136b84SConrad Meyer #define _RANDOM_HARVEST_UMA_OFF 0
6937136b84SConrad Meyer #else
7037136b84SConrad Meyer #define _RANDOM_HARVEST_UMA_OFF (1u << RANDOM_UMA)
7137136b84SConrad Meyer #endif
7237136b84SConrad Meyer
735e79bba5SKyle Evans /*
745e79bba5SKyle Evans * Note that random_sources_feed() will also use this to try and split up
755e79bba5SKyle Evans * entropy into a subset of pools per iteration with the goal of feeding
765e79bba5SKyle Evans * HARVESTSIZE into every pool at least once per second.
775e79bba5SKyle Evans */
785e79bba5SKyle Evans #define RANDOM_KTHREAD_HZ 10
795e79bba5SKyle Evans
80d1b06863SMark Murray static void random_kthread(void);
81646041a8SMark Murray static void random_sources_feed(void);
82646041a8SMark Murray
8377de2c3fSMark Murray /*
84374c9991SConrad Meyer * Random must initialize much earlier than epoch, but we can initialize the
85374c9991SConrad Meyer * epoch code before SMP starts. Prior to SMP, we can safely bypass
86374c9991SConrad Meyer * concurrency primitives.
87374c9991SConrad Meyer */
88374c9991SConrad Meyer static __read_mostly bool epoch_inited;
89374c9991SConrad Meyer static __read_mostly epoch_t rs_epoch;
90374c9991SConrad Meyer
91374c9991SConrad Meyer /*
9210cb2424SMark Murray * How many events to queue up. We create this many items in
9310cb2424SMark Murray * an 'empty' queue, then transfer them to the 'harvest' queue with
9410cb2424SMark Murray * supplied junk. When used, they are transferred back to the
9510cb2424SMark Murray * 'empty' queue.
9610cb2424SMark Murray */
97d1b06863SMark Murray #define RANDOM_RING_MAX 1024
98d1b06863SMark Murray #define RANDOM_ACCUM_MAX 8
99d1b06863SMark Murray
100646041a8SMark Murray /* 1 to let the kernel thread run, 0 to terminate, -1 to mark completion */
101d1b06863SMark Murray volatile int random_kthread_control;
10210cb2424SMark Murray
103a6bc59f2SMatt Macy
104a6bc59f2SMatt Macy /* Allow the sysadmin to select the broad category of
105a6bc59f2SMatt Macy * entropy types to harvest.
106a6bc59f2SMatt Macy */
107a6bc59f2SMatt Macy __read_frequently u_int hc_source_mask;
108a6bc59f2SMatt Macy
109b6db1cc7SConrad Meyer struct random_sources {
110374c9991SConrad Meyer CK_LIST_ENTRY(random_sources) rrs_entries;
111b6db1cc7SConrad Meyer struct random_source *rrs_source;
112b6db1cc7SConrad Meyer };
113b6db1cc7SConrad Meyer
114374c9991SConrad Meyer static CK_LIST_HEAD(sources_head, random_sources) source_list =
115374c9991SConrad Meyer CK_LIST_HEAD_INITIALIZER(source_list);
116b6db1cc7SConrad Meyer
1174312ebfeSPawel Biernacki SYSCTL_NODE(_kern_random, OID_AUTO, harvest, CTLFLAG_RW | CTLFLAG_MPSAFE, 0,
118d7a23f9fSConrad Meyer "Entropy Device Parameters");
119d7a23f9fSConrad Meyer
12010cb2424SMark Murray /*
121d1b06863SMark Murray * Put all the harvest queue context stuff in one place.
122d1b06863SMark Murray * this make is a bit easier to lock and protect.
123d1b06863SMark Murray */
124d1b06863SMark Murray static struct harvest_context {
1253aa77530SMark Murray /* The harvest mutex protects all of harvest_context and
1263aa77530SMark Murray * the related data.
12777de2c3fSMark Murray */
128d1b06863SMark Murray struct mtx hc_mtx;
12910cb2424SMark Murray /* Round-robin destination cache. */
130d1b06863SMark Murray u_int hc_destination[ENTROPYSOURCE];
131d1b06863SMark Murray /* The context of the kernel thread processing harvested entropy */
132d1b06863SMark Murray struct proc *hc_kthread_proc;
133d1b06863SMark Murray /*
134*9940c974SMark Johnston * A pair of buffers for queued events. New events are added to the
135*9940c974SMark Johnston * active queue while the kthread processes the other one in parallel.
13610cb2424SMark Murray */
137*9940c974SMark Johnston struct entropy_buffer {
138d1b06863SMark Murray struct harvest_event ring[RANDOM_RING_MAX];
139*9940c974SMark Johnston u_int pos;
140*9940c974SMark Johnston } hc_entropy_buf[2];
141*9940c974SMark Johnston u_int hc_active_buf;
142d1b06863SMark Murray struct fast_entropy_accumulator {
143d1b06863SMark Murray volatile u_int pos;
1443aa77530SMark Murray uint32_t buf[RANDOM_ACCUM_MAX];
145d1b06863SMark Murray } hc_entropy_fast_accumulator;
146d1b06863SMark Murray } harvest_context;
14777de2c3fSMark Murray
1484b8b872aSMark Johnston #define RANDOM_HARVEST_INIT_LOCK() mtx_init(&harvest_context.hc_mtx, \
1494b8b872aSMark Johnston "entropy harvest mutex", NULL, MTX_SPIN)
1504b8b872aSMark Johnston #define RANDOM_HARVEST_LOCK() mtx_lock_spin(&harvest_context.hc_mtx)
1514b8b872aSMark Johnston #define RANDOM_HARVEST_UNLOCK() mtx_unlock_spin(&harvest_context.hc_mtx)
1524b8b872aSMark Johnston
153d1b06863SMark Murray static struct kproc_desc random_proc_kp = {
154d1b06863SMark Murray "rand_harvestq",
155d1b06863SMark Murray random_kthread,
156d1b06863SMark Murray &harvest_context.hc_kthread_proc,
157d1b06863SMark Murray };
15877de2c3fSMark Murray
15919fa89e9SMark Murray /* Pass the given event straight through to Fortuna/Whatever. */
160d1b06863SMark Murray static __inline void
random_harvestq_fast_process_event(struct harvest_event * event)161d1b06863SMark Murray random_harvestq_fast_process_event(struct harvest_event *event)
162d1b06863SMark Murray {
163646041a8SMark Murray p_random_alg_context->ra_event_processor(event);
16400e0e488SConrad Meyer explicit_bzero(event, sizeof(*event));
165d1b06863SMark Murray }
16677de2c3fSMark Murray
1671a3c1f06SMark Murray static void
random_kthread(void)168d1b06863SMark Murray random_kthread(void)
1691a3c1f06SMark Murray {
170*9940c974SMark Johnston struct harvest_context *hc;
17177de2c3fSMark Murray
172*9940c974SMark Johnston hc = &harvest_context;
173d1b06863SMark Murray for (random_kthread_control = 1; random_kthread_control;) {
174*9940c974SMark Johnston struct entropy_buffer *buf;
175*9940c974SMark Johnston u_int entries;
176*9940c974SMark Johnston
177*9940c974SMark Johnston /* Deal with queued events. */
178*9940c974SMark Johnston RANDOM_HARVEST_LOCK();
179*9940c974SMark Johnston buf = &hc->hc_entropy_buf[hc->hc_active_buf];
180*9940c974SMark Johnston entries = buf->pos;
181*9940c974SMark Johnston buf->pos = 0;
182*9940c974SMark Johnston hc->hc_active_buf = (hc->hc_active_buf + 1) %
183*9940c974SMark Johnston nitems(hc->hc_entropy_buf);
184*9940c974SMark Johnston RANDOM_HARVEST_UNLOCK();
185*9940c974SMark Johnston for (u_int i = 0; i < entries; i++)
186*9940c974SMark Johnston random_harvestq_fast_process_event(&buf->ring[i]);
187*9940c974SMark Johnston
188*9940c974SMark Johnston /* Poll sources of noise. */
189d1b06863SMark Murray random_sources_feed();
190*9940c974SMark Johnston
1913aa77530SMark Murray /* XXX: FIX!! Increase the high-performance data rate? Need some measurements first. */
192*9940c974SMark Johnston for (u_int i = 0; i < RANDOM_ACCUM_MAX; i++) {
193*9940c974SMark Johnston if (hc->hc_entropy_fast_accumulator.buf[i]) {
194*9940c974SMark Johnston random_harvest_direct(&hc->hc_entropy_fast_accumulator.buf[i],
195*9940c974SMark Johnston sizeof(hc->hc_entropy_fast_accumulator.buf[0]), RANDOM_UMA);
196*9940c974SMark Johnston hc->hc_entropy_fast_accumulator.buf[i] = 0;
19777de2c3fSMark Murray }
198d1b06863SMark Murray }
199d1b06863SMark Murray /* XXX: FIX!! This is a *great* place to pass hardware/live entropy to random(9) */
200*9940c974SMark Johnston tsleep_sbt(&hc->hc_kthread_proc, 0, "-",
2015e79bba5SKyle Evans SBT_1S/RANDOM_KTHREAD_HZ, 0, C_PREL(1));
202d1b06863SMark Murray }
203646041a8SMark Murray random_kthread_control = -1;
204*9940c974SMark Johnston wakeup(&hc->hc_kthread_proc);
205d1b06863SMark Murray kproc_exit(0);
20677de2c3fSMark Murray /* NOTREACHED */
20777de2c3fSMark Murray }
208dd523908SJohn Baldwin SYSINIT(random_device_h_proc, SI_SUB_KICK_SCHEDULER, SI_ORDER_ANY, kproc_start,
209dd523908SJohn Baldwin &random_proc_kp);
2106ccf1801SMark Johnston _Static_assert(SI_SUB_KICK_SCHEDULER > SI_SUB_RANDOM,
2116ccf1801SMark Johnston "random kthread starting before subsystem initialization");
212095ed2c9SMark Murray
213374c9991SConrad Meyer static void
rs_epoch_init(void * dummy __unused)214374c9991SConrad Meyer rs_epoch_init(void *dummy __unused)
215374c9991SConrad Meyer {
216374c9991SConrad Meyer rs_epoch = epoch_alloc("Random Sources", EPOCH_PREEMPT);
217374c9991SConrad Meyer epoch_inited = true;
218374c9991SConrad Meyer }
219374c9991SConrad Meyer SYSINIT(rs_epoch_init, SI_SUB_EPOCH, SI_ORDER_ANY, rs_epoch_init, NULL);
220374c9991SConrad Meyer
221646041a8SMark Murray /*
222646041a8SMark Murray * Run through all fast sources reading entropy for the given
223646041a8SMark Murray * number of rounds, which should be a multiple of the number
22419fa89e9SMark Murray * of entropy accumulation pools in use; it is 32 for Fortuna.
225646041a8SMark Murray */
226646041a8SMark Murray static void
random_sources_feed(void)227646041a8SMark Murray random_sources_feed(void)
228646041a8SMark Murray {
229646041a8SMark Murray uint32_t entropy[HARVESTSIZE];
230374c9991SConrad Meyer struct epoch_tracker et;
231646041a8SMark Murray struct random_sources *rrs;
2325e79bba5SKyle Evans u_int i, n, npools;
233374c9991SConrad Meyer bool rse_warm;
234374c9991SConrad Meyer
235374c9991SConrad Meyer rse_warm = epoch_inited;
236646041a8SMark Murray
237646041a8SMark Murray /*
2385e79bba5SKyle Evans * Evenly-ish distribute pool population across the second based on how
2395e79bba5SKyle Evans * frequently random_kthread iterates.
2405e79bba5SKyle Evans *
2415e79bba5SKyle Evans * For Fortuna, the math currently works out as such:
2425e79bba5SKyle Evans *
2435e79bba5SKyle Evans * 64 bits * 4 pools = 256 bits per iteration
2445e79bba5SKyle Evans * 256 bits * 10 Hz = 2560 bits per second, 320 B/s
2455e79bba5SKyle Evans *
2465e79bba5SKyle Evans */
2475e79bba5SKyle Evans npools = howmany(p_random_alg_context->ra_poolcount, RANDOM_KTHREAD_HZ);
2485e79bba5SKyle Evans
2490811ce57SColin Percival /*-
2500811ce57SColin Percival * If we're not seeded yet, attempt to perform a "full seed", filling
2510811ce57SColin Percival * all of the PRNG's pools with entropy; if there is enough entropy
2520811ce57SColin Percival * available from "fast" entropy sources this will allow us to finish
2530811ce57SColin Percival * seeding and unblock the boot process immediately rather than being
2540811ce57SColin Percival * stuck for a few seconds with random_kthread gradually collecting a
2550811ce57SColin Percival * small chunk of entropy every 1 / RANDOM_KTHREAD_HZ seconds.
2560811ce57SColin Percival *
25732fce092SColin Percival * We collect RANDOM_FORTUNA_DEFPOOLSIZE bytes per pool, i.e. enough
25832fce092SColin Percival * to fill Fortuna's pools in the default configuration. With another
2590811ce57SColin Percival * PRNG or smaller pools for Fortuna, we might collect more entropy
2600811ce57SColin Percival * than needed to fill the pools, but this is harmless; alternatively,
2610811ce57SColin Percival * a different PRNG, larger pools, or fast entropy sources which are
2620811ce57SColin Percival * not able to provide as much entropy as we request may result in the
2630811ce57SColin Percival * not being fully seeded (and thus remaining blocked) but in that
2640811ce57SColin Percival * case we will return here after 1 / RANDOM_KTHREAD_HZ seconds and
2650811ce57SColin Percival * try again for a large amount of entropy.
2660811ce57SColin Percival */
2670811ce57SColin Percival if (!p_random_alg_context->ra_seeded())
26832fce092SColin Percival npools = howmany(p_random_alg_context->ra_poolcount *
26932fce092SColin Percival RANDOM_FORTUNA_DEFPOOLSIZE, sizeof(entropy));
2700811ce57SColin Percival
2715e79bba5SKyle Evans /*
272646041a8SMark Murray * Step over all of live entropy sources, and feed their output
273646041a8SMark Murray * to the system-wide RNG.
274646041a8SMark Murray */
275374c9991SConrad Meyer if (rse_warm)
276374c9991SConrad Meyer epoch_enter_preempt(rs_epoch, &et);
277374c9991SConrad Meyer CK_LIST_FOREACH(rrs, &source_list, rrs_entries) {
2785e79bba5SKyle Evans for (i = 0; i < npools; i++) {
279646041a8SMark Murray n = rrs->rrs_source->rs_read(entropy, sizeof(entropy));
280dcabe031SMark Murray KASSERT((n <= sizeof(entropy)), ("%s: rs_read returned too much data (%u > %zu)", __func__, n, sizeof(entropy)));
281e01ada5cSConrad Meyer /*
282e01ada5cSConrad Meyer * Sometimes the HW entropy source doesn't have anything
283e01ada5cSConrad Meyer * ready for us. This isn't necessarily untrustworthy.
284e01ada5cSConrad Meyer * We don't perform any other verification of an entropy
285e01ada5cSConrad Meyer * source (i.e., length is allowed to be anywhere from 1
286e01ada5cSConrad Meyer * to sizeof(entropy), quality is unchecked, etc), so
287e01ada5cSConrad Meyer * don't balk verbosely at slow random sources either.
288e01ada5cSConrad Meyer * There are reports that RDSEED on x86 metal falls
289e01ada5cSConrad Meyer * behind the rate at which we query it, for example.
290e01ada5cSConrad Meyer * But it's still a better entropy source than RDRAND.
2910a9565c8SMark Murray */
292e01ada5cSConrad Meyer if (n == 0)
2930a9565c8SMark Murray continue;
29419fa89e9SMark Murray random_harvest_direct(entropy, n, rrs->rrs_source->rs_source);
295646041a8SMark Murray }
296646041a8SMark Murray }
297374c9991SConrad Meyer if (rse_warm)
298374c9991SConrad Meyer epoch_exit_preempt(rs_epoch, &et);
299646041a8SMark Murray explicit_bzero(entropy, sizeof(entropy));
300646041a8SMark Murray }
301646041a8SMark Murray
302095db7e6SConrad Meyer static int
random_check_uint_harvestmask(SYSCTL_HANDLER_ARGS)303095db7e6SConrad Meyer random_check_uint_harvestmask(SYSCTL_HANDLER_ARGS)
304095db7e6SConrad Meyer {
30537136b84SConrad Meyer static const u_int user_immutable_mask =
30637136b84SConrad Meyer (((1 << ENTROPYSOURCE) - 1) & (-1UL << RANDOM_PURE_START)) |
30737136b84SConrad Meyer _RANDOM_HARVEST_ETHER_OFF | _RANDOM_HARVEST_UMA_OFF;
30837136b84SConrad Meyer
309095db7e6SConrad Meyer int error;
310095db7e6SConrad Meyer u_int value, orig_value;
311095db7e6SConrad Meyer
312a6bc59f2SMatt Macy orig_value = value = hc_source_mask;
313095db7e6SConrad Meyer error = sysctl_handle_int(oidp, &value, 0, req);
314095db7e6SConrad Meyer if (error != 0 || req->newptr == NULL)
315095db7e6SConrad Meyer return (error);
316095db7e6SConrad Meyer
317095db7e6SConrad Meyer if (flsl(value) > ENTROPYSOURCE)
318095db7e6SConrad Meyer return (EINVAL);
319095db7e6SConrad Meyer
320095db7e6SConrad Meyer /*
321095db7e6SConrad Meyer * Disallow userspace modification of pure entropy sources.
322095db7e6SConrad Meyer */
32337136b84SConrad Meyer hc_source_mask = (value & ~user_immutable_mask) |
32437136b84SConrad Meyer (orig_value & user_immutable_mask);
325095db7e6SConrad Meyer return (0);
326095db7e6SConrad Meyer }
3274312ebfeSPawel Biernacki SYSCTL_PROC(_kern_random_harvest, OID_AUTO, mask,
3284312ebfeSPawel Biernacki CTLTYPE_UINT | CTLFLAG_RW | CTLFLAG_NEEDGIANT, NULL, 0,
3294312ebfeSPawel Biernacki random_check_uint_harvestmask, "IU",
3304312ebfeSPawel Biernacki "Entropy harvesting mask");
33177de2c3fSMark Murray
33210cb2424SMark Murray static int
random_print_harvestmask(SYSCTL_HANDLER_ARGS)33310cb2424SMark Murray random_print_harvestmask(SYSCTL_HANDLER_ARGS)
33410cb2424SMark Murray {
33510cb2424SMark Murray struct sbuf sbuf;
33610cb2424SMark Murray int error, i;
33710cb2424SMark Murray
33810cb2424SMark Murray error = sysctl_wire_old_buffer(req, 0);
33910cb2424SMark Murray if (error == 0) {
34010cb2424SMark Murray sbuf_new_for_sysctl(&sbuf, NULL, 128, req);
341095db7e6SConrad Meyer for (i = ENTROPYSOURCE - 1; i >= 0; i--)
342a6bc59f2SMatt Macy sbuf_cat(&sbuf, (hc_source_mask & (1 << i)) ? "1" : "0");
34310cb2424SMark Murray error = sbuf_finish(&sbuf);
34410cb2424SMark Murray sbuf_delete(&sbuf);
34510cb2424SMark Murray }
34610cb2424SMark Murray return (error);
34710cb2424SMark Murray }
348d7a23f9fSConrad Meyer SYSCTL_PROC(_kern_random_harvest, OID_AUTO, mask_bin,
3494312ebfeSPawel Biernacki CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, NULL, 0,
3504312ebfeSPawel Biernacki random_print_harvestmask, "A",
351d7a23f9fSConrad Meyer "Entropy harvesting mask (printable)");
35210cb2424SMark Murray
353f04c11c3SConrad Meyer static const char *random_source_descr[ENTROPYSOURCE] = {
354f04c11c3SConrad Meyer [RANDOM_CACHED] = "CACHED",
355f04c11c3SConrad Meyer [RANDOM_ATTACH] = "ATTACH",
356f04c11c3SConrad Meyer [RANDOM_KEYBOARD] = "KEYBOARD",
357f04c11c3SConrad Meyer [RANDOM_MOUSE] = "MOUSE",
358f04c11c3SConrad Meyer [RANDOM_NET_TUN] = "NET_TUN",
359f04c11c3SConrad Meyer [RANDOM_NET_ETHER] = "NET_ETHER",
360f04c11c3SConrad Meyer [RANDOM_NET_NG] = "NET_NG",
361f04c11c3SConrad Meyer [RANDOM_INTERRUPT] = "INTERRUPT",
362f04c11c3SConrad Meyer [RANDOM_SWI] = "SWI",
363f04c11c3SConrad Meyer [RANDOM_FS_ATIME] = "FS_ATIME",
364642701abSKyle Evans [RANDOM_UMA] = "UMA",
365642701abSKyle Evans [RANDOM_CALLOUT] = "CALLOUT", /* ENVIRONMENTAL_END */
366095db7e6SConrad Meyer [RANDOM_PURE_OCTEON] = "PURE_OCTEON", /* PURE_START */
367f04c11c3SConrad Meyer [RANDOM_PURE_SAFE] = "PURE_SAFE",
368f04c11c3SConrad Meyer [RANDOM_PURE_GLXSB] = "PURE_GLXSB",
369f04c11c3SConrad Meyer [RANDOM_PURE_HIFN] = "PURE_HIFN",
370f04c11c3SConrad Meyer [RANDOM_PURE_RDRAND] = "PURE_RDRAND",
371f04c11c3SConrad Meyer [RANDOM_PURE_NEHEMIAH] = "PURE_NEHEMIAH",
372f04c11c3SConrad Meyer [RANDOM_PURE_RNDTEST] = "PURE_RNDTEST",
373f04c11c3SConrad Meyer [RANDOM_PURE_VIRTIO] = "PURE_VIRTIO",
374f04c11c3SConrad Meyer [RANDOM_PURE_BROADCOM] = "PURE_BROADCOM",
375e1700905SConrad Meyer [RANDOM_PURE_CCP] = "PURE_CCP",
376b14959daSJustin Hibbits [RANDOM_PURE_DARN] = "PURE_DARN",
3774ee7d3b0SMarcin Wojtas [RANDOM_PURE_TPM] = "PURE_TPM",
3780b040a48SAndrew Turner [RANDOM_PURE_VMGENID] = "PURE_VMGENID",
3790b040a48SAndrew Turner [RANDOM_PURE_QUALCOMM] = "PURE_QUALCOMM",
3809eecef05SAndrew Turner [RANDOM_PURE_ARMV8] = "PURE_ARMV8",
381b2f8b2dcSAndrew Turner [RANDOM_PURE_ARM_TRNG] = "PURE_ARM_TRNG",
38210cb2424SMark Murray /* "ENTROPYSOURCE" */
38310cb2424SMark Murray };
38410cb2424SMark Murray
38510cb2424SMark Murray static int
random_print_harvestmask_symbolic(SYSCTL_HANDLER_ARGS)38610cb2424SMark Murray random_print_harvestmask_symbolic(SYSCTL_HANDLER_ARGS)
38710cb2424SMark Murray {
38810cb2424SMark Murray struct sbuf sbuf;
38910cb2424SMark Murray int error, i;
390095db7e6SConrad Meyer bool first;
39110cb2424SMark Murray
392095db7e6SConrad Meyer first = true;
39310cb2424SMark Murray error = sysctl_wire_old_buffer(req, 0);
39410cb2424SMark Murray if (error == 0) {
39510cb2424SMark Murray sbuf_new_for_sysctl(&sbuf, NULL, 128, req);
396095db7e6SConrad Meyer for (i = ENTROPYSOURCE - 1; i >= 0; i--) {
397095db7e6SConrad Meyer if (i >= RANDOM_PURE_START &&
398a6bc59f2SMatt Macy (hc_source_mask & (1 << i)) == 0)
399095db7e6SConrad Meyer continue;
400095db7e6SConrad Meyer if (!first)
401095db7e6SConrad Meyer sbuf_cat(&sbuf, ",");
402a6bc59f2SMatt Macy sbuf_cat(&sbuf, !(hc_source_mask & (1 << i)) ? "[" : "");
403d1b06863SMark Murray sbuf_cat(&sbuf, random_source_descr[i]);
404a6bc59f2SMatt Macy sbuf_cat(&sbuf, !(hc_source_mask & (1 << i)) ? "]" : "");
405095db7e6SConrad Meyer first = false;
40610cb2424SMark Murray }
40710cb2424SMark Murray error = sbuf_finish(&sbuf);
40810cb2424SMark Murray sbuf_delete(&sbuf);
40910cb2424SMark Murray }
41010cb2424SMark Murray return (error);
41110cb2424SMark Murray }
412d7a23f9fSConrad Meyer SYSCTL_PROC(_kern_random_harvest, OID_AUTO, mask_symbolic,
4134312ebfeSPawel Biernacki CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, NULL, 0,
4144312ebfeSPawel Biernacki random_print_harvestmask_symbolic, "A",
4154312ebfeSPawel Biernacki "Entropy harvesting mask (symbolic)");
41610cb2424SMark Murray
417d1b06863SMark Murray static void
random_harvestq_init(void * unused __unused)418d1b06863SMark Murray random_harvestq_init(void *unused __unused)
41910cb2424SMark Murray {
42037136b84SConrad Meyer static const u_int almost_everything_mask =
42137136b84SConrad Meyer (((1 << (RANDOM_ENVIRONMENTAL_END + 1)) - 1) &
42237136b84SConrad Meyer ~_RANDOM_HARVEST_ETHER_OFF & ~_RANDOM_HARVEST_UMA_OFF);
42337136b84SConrad Meyer
42437136b84SConrad Meyer hc_source_mask = almost_everything_mask;
425d1b06863SMark Murray RANDOM_HARVEST_INIT_LOCK();
426*9940c974SMark Johnston harvest_context.hc_active_buf = 0;
427d1b06863SMark Murray }
4283ee1d5bbSConrad Meyer SYSINIT(random_device_h_init, SI_SUB_RANDOM, SI_ORDER_THIRD, random_harvestq_init, NULL);
42910cb2424SMark Murray
430d1b06863SMark Murray /*
431f19de0a9SConrad Meyer * Subroutine to slice up a contiguous chunk of 'entropy' and feed it into the
432f19de0a9SConrad Meyer * underlying algorithm. Returns number of bytes actually fed into underlying
433f19de0a9SConrad Meyer * algorithm.
434f19de0a9SConrad Meyer */
435f19de0a9SConrad Meyer static size_t
random_early_prime(char * entropy,size_t len)436f19de0a9SConrad Meyer random_early_prime(char *entropy, size_t len)
437f19de0a9SConrad Meyer {
438f19de0a9SConrad Meyer struct harvest_event event;
439f19de0a9SConrad Meyer size_t i;
440f19de0a9SConrad Meyer
441f19de0a9SConrad Meyer len = rounddown(len, sizeof(event.he_entropy));
442f19de0a9SConrad Meyer if (len == 0)
443f19de0a9SConrad Meyer return (0);
444f19de0a9SConrad Meyer
445f19de0a9SConrad Meyer for (i = 0; i < len; i += sizeof(event.he_entropy)) {
446e2a96b83SMark Johnston event.he_somecounter = random_get_cyclecount();
447f19de0a9SConrad Meyer event.he_size = sizeof(event.he_entropy);
448f19de0a9SConrad Meyer event.he_source = RANDOM_CACHED;
449f19de0a9SConrad Meyer event.he_destination =
450f19de0a9SConrad Meyer harvest_context.hc_destination[RANDOM_CACHED]++;
451f19de0a9SConrad Meyer memcpy(event.he_entropy, entropy + i, sizeof(event.he_entropy));
452f19de0a9SConrad Meyer random_harvestq_fast_process_event(&event);
453f19de0a9SConrad Meyer }
454f19de0a9SConrad Meyer explicit_bzero(entropy, len);
455f19de0a9SConrad Meyer return (len);
456f19de0a9SConrad Meyer }
457f19de0a9SConrad Meyer
458f19de0a9SConrad Meyer /*
459f19de0a9SConrad Meyer * Subroutine to search for known loader-loaded files in memory and feed them
460f19de0a9SConrad Meyer * into the underlying algorithm early in boot. Returns the number of bytes
461f19de0a9SConrad Meyer * loaded (zero if none were loaded).
462f19de0a9SConrad Meyer */
463f19de0a9SConrad Meyer static size_t
random_prime_loader_file(const char * type)464f19de0a9SConrad Meyer random_prime_loader_file(const char *type)
465f19de0a9SConrad Meyer {
466f19de0a9SConrad Meyer uint8_t *keyfile, *data;
467f19de0a9SConrad Meyer size_t size;
468f19de0a9SConrad Meyer
469f19de0a9SConrad Meyer keyfile = preload_search_by_type(type);
470f19de0a9SConrad Meyer if (keyfile == NULL)
471f19de0a9SConrad Meyer return (0);
472f19de0a9SConrad Meyer
473f19de0a9SConrad Meyer data = preload_fetch_addr(keyfile);
474f19de0a9SConrad Meyer size = preload_fetch_size(keyfile);
475f19de0a9SConrad Meyer if (data == NULL)
476f19de0a9SConrad Meyer return (0);
477f19de0a9SConrad Meyer
478f19de0a9SConrad Meyer return (random_early_prime(data, size));
479f19de0a9SConrad Meyer }
480f19de0a9SConrad Meyer
481f19de0a9SConrad Meyer /*
482d1b06863SMark Murray * This is used to prime the RNG by grabbing any early random stuff
483d1b06863SMark Murray * known to the kernel, and inserting it directly into the hashing
48419fa89e9SMark Murray * module, currently Fortuna.
485d1b06863SMark Murray */
486d1b06863SMark Murray static void
random_harvestq_prime(void * unused __unused)487d1b06863SMark Murray random_harvestq_prime(void *unused __unused)
488d1b06863SMark Murray {
489f19de0a9SConrad Meyer size_t size;
49010cb2424SMark Murray
491d1b06863SMark Murray /*
492d1b06863SMark Murray * Get entropy that may have been preloaded by loader(8)
49310cb2424SMark Murray * and use it to pre-charge the entropy harvest queue.
49410cb2424SMark Murray */
495f19de0a9SConrad Meyer size = random_prime_loader_file(RANDOM_CACHED_BOOT_ENTROPY_MODULE);
496f19de0a9SConrad Meyer if (bootverbose) {
497f19de0a9SConrad Meyer if (size > 0)
498f19de0a9SConrad Meyer printf("random: read %zu bytes from preloaded cache\n",
499f19de0a9SConrad Meyer size);
500f19de0a9SConrad Meyer else
50110cb2424SMark Murray printf("random: no preloaded entropy cache\n");
50210cb2424SMark Murray }
5035c73b3e0SColin Percival size = random_prime_loader_file(RANDOM_PLATFORM_BOOT_ENTROPY_MODULE);
5045c73b3e0SColin Percival if (bootverbose) {
5055c73b3e0SColin Percival if (size > 0)
5065c73b3e0SColin Percival printf("random: read %zu bytes from platform bootloader\n",
5075c73b3e0SColin Percival size);
5085c73b3e0SColin Percival else
5095c73b3e0SColin Percival printf("random: no platform bootloader entropy\n");
5105c73b3e0SColin Percival }
51177de2c3fSMark Murray }
5127384206aSConrad Meyer SYSINIT(random_device_prime, SI_SUB_RANDOM, SI_ORDER_MIDDLE, random_harvestq_prime, NULL);
51377de2c3fSMark Murray
514d1b06863SMark Murray static void
random_harvestq_deinit(void * unused __unused)515d1b06863SMark Murray random_harvestq_deinit(void *unused __unused)
51677de2c3fSMark Murray {
51777de2c3fSMark Murray
518d1b06863SMark Murray /* Command the hash/reseed thread to end and wait for it to finish */
519d1b06863SMark Murray random_kthread_control = 0;
520646041a8SMark Murray while (random_kthread_control >= 0)
521646041a8SMark Murray tsleep(&harvest_context.hc_kthread_proc, 0, "harvqterm", hz/5);
52277de2c3fSMark Murray }
5233ee1d5bbSConrad Meyer SYSUNINIT(random_device_h_init, SI_SUB_RANDOM, SI_ORDER_THIRD, random_harvestq_deinit, NULL);
52477de2c3fSMark Murray
525d1b06863SMark Murray /*-
526d1b06863SMark Murray * Entropy harvesting queue routine.
527095ed2c9SMark Murray *
528d1b06863SMark Murray * This is supposed to be fast; do not do anything slow in here!
529095ed2c9SMark Murray * It is also illegal (and morally reprehensible) to insert any
530d1b06863SMark Murray * high-rate data here. "High-rate" is defined as a data source
531*9940c974SMark Johnston * that is likely to fill up the buffer in much less than 100ms.
532*9940c974SMark Johnston * This includes the "always-on" sources like the Intel "rdrand"
533*9940c974SMark Johnston * or the VIA Nehamiah "xstore" sources.
53477de2c3fSMark Murray */
53510cb2424SMark Murray /* XXXRW: get_cyclecount() is cheap on most modern hardware, where cycle
53610cb2424SMark Murray * counters are built in, but on older hardware it will do a real time clock
53710cb2424SMark Murray * read which can be quite expensive.
53810cb2424SMark Murray */
53977de2c3fSMark Murray void
random_harvest_queue_(const void * entropy,u_int size,enum random_entropy_source origin)54019fa89e9SMark Murray random_harvest_queue_(const void *entropy, u_int size, enum random_entropy_source origin)
54177de2c3fSMark Murray {
542*9940c974SMark Johnston struct harvest_context *hc;
543*9940c974SMark Johnston struct entropy_buffer *buf;
54410cb2424SMark Murray struct harvest_event *event;
54577de2c3fSMark Murray
546*9940c974SMark Johnston KASSERT(origin >= RANDOM_START && origin < ENTROPYSOURCE,
547*9940c974SMark Johnston ("%s: origin %d invalid", __func__, origin));
548*9940c974SMark Johnston
549*9940c974SMark Johnston hc = &harvest_context;
550d1b06863SMark Murray RANDOM_HARVEST_LOCK();
551*9940c974SMark Johnston buf = &hc->hc_entropy_buf[hc->hc_active_buf];
552*9940c974SMark Johnston if (buf->pos < RANDOM_RING_MAX) {
553*9940c974SMark Johnston event = &buf->ring[buf->pos++];
554e2a96b83SMark Johnston event->he_somecounter = random_get_cyclecount();
55510cb2424SMark Murray event->he_source = origin;
556*9940c974SMark Johnston event->he_destination = hc->hc_destination[origin]++;
5573aa77530SMark Murray if (size <= sizeof(event->he_entropy)) {
5583aa77530SMark Murray event->he_size = size;
5593aa77530SMark Murray memcpy(event->he_entropy, entropy, size);
560*9940c974SMark Johnston } else {
561d1b06863SMark Murray /* Big event, so squash it */
562d1b06863SMark Murray event->he_size = sizeof(event->he_entropy[0]);
5633aa77530SMark Murray event->he_entropy[0] = jenkins_hash(entropy, size, (uint32_t)(uintptr_t)event);
564d1b06863SMark Murray }
565d1b06863SMark Murray }
566d1b06863SMark Murray RANDOM_HARVEST_UNLOCK();
567d1b06863SMark Murray }
568d1b06863SMark Murray
569d1b06863SMark Murray /*-
570d1b06863SMark Murray * Entropy harvesting fast routine.
571d1b06863SMark Murray *
572d1b06863SMark Murray * This is supposed to be very fast; do not do anything slow in here!
573d1b06863SMark Murray * This is the right place for high-rate harvested data.
574d1b06863SMark Murray */
575d1b06863SMark Murray void
random_harvest_fast_(const void * entropy,u_int size)57619fa89e9SMark Murray random_harvest_fast_(const void *entropy, u_int size)
577d1b06863SMark Murray {
578d1b06863SMark Murray u_int pos;
579d1b06863SMark Murray
580d1b06863SMark Murray pos = harvest_context.hc_entropy_fast_accumulator.pos;
581e2a96b83SMark Johnston harvest_context.hc_entropy_fast_accumulator.buf[pos] ^=
582e2a96b83SMark Johnston jenkins_hash(entropy, size, random_get_cyclecount());
583d1b06863SMark Murray harvest_context.hc_entropy_fast_accumulator.pos = (pos + 1)%RANDOM_ACCUM_MAX;
584d1b06863SMark Murray }
585d1b06863SMark Murray
586d1b06863SMark Murray /*-
587d1b06863SMark Murray * Entropy harvesting direct routine.
588d1b06863SMark Murray *
589d1b06863SMark Murray * This is not supposed to be fast, but will only be used during
590d1b06863SMark Murray * (e.g.) booting when initial entropy is being gathered.
591d1b06863SMark Murray */
592d1b06863SMark Murray void
random_harvest_direct_(const void * entropy,u_int size,enum random_entropy_source origin)59319fa89e9SMark Murray random_harvest_direct_(const void *entropy, u_int size, enum random_entropy_source origin)
594d1b06863SMark Murray {
595d1b06863SMark Murray struct harvest_event event;
596d1b06863SMark Murray
597d1b06863SMark Murray KASSERT(origin >= RANDOM_START && origin < ENTROPYSOURCE, ("%s: origin %d invalid\n", __func__, origin));
5983aa77530SMark Murray size = MIN(size, sizeof(event.he_entropy));
599e2a96b83SMark Johnston event.he_somecounter = random_get_cyclecount();
6003aa77530SMark Murray event.he_size = size;
601d1b06863SMark Murray event.he_source = origin;
602d1b06863SMark Murray event.he_destination = harvest_context.hc_destination[origin]++;
6033aa77530SMark Murray memcpy(event.he_entropy, entropy, size);
604d1b06863SMark Murray random_harvestq_fast_process_event(&event);
60577de2c3fSMark Murray }
606646041a8SMark Murray
607095db7e6SConrad Meyer void
random_harvest_register_source(enum random_entropy_source source)608095db7e6SConrad Meyer random_harvest_register_source(enum random_entropy_source source)
609095db7e6SConrad Meyer {
610095db7e6SConrad Meyer
611a6bc59f2SMatt Macy hc_source_mask |= (1 << source);
612095db7e6SConrad Meyer }
613095db7e6SConrad Meyer
614095db7e6SConrad Meyer void
random_harvest_deregister_source(enum random_entropy_source source)615095db7e6SConrad Meyer random_harvest_deregister_source(enum random_entropy_source source)
616095db7e6SConrad Meyer {
617095db7e6SConrad Meyer
618a6bc59f2SMatt Macy hc_source_mask &= ~(1 << source);
619095db7e6SConrad Meyer }
620095db7e6SConrad Meyer
6217384206aSConrad Meyer void
random_source_register(struct random_source * rsource)6227384206aSConrad Meyer random_source_register(struct random_source *rsource)
6237384206aSConrad Meyer {
6247384206aSConrad Meyer struct random_sources *rrs;
6257384206aSConrad Meyer
6267384206aSConrad Meyer KASSERT(rsource != NULL, ("invalid input to %s", __func__));
6277384206aSConrad Meyer
6287384206aSConrad Meyer rrs = malloc(sizeof(*rrs), M_ENTROPY, M_WAITOK);
6297384206aSConrad Meyer rrs->rrs_source = rsource;
6307384206aSConrad Meyer
6317384206aSConrad Meyer random_harvest_register_source(rsource->rs_source);
6327384206aSConrad Meyer
6337384206aSConrad Meyer printf("random: registering fast source %s\n", rsource->rs_ident);
634374c9991SConrad Meyer
635374c9991SConrad Meyer RANDOM_HARVEST_LOCK();
636374c9991SConrad Meyer CK_LIST_INSERT_HEAD(&source_list, rrs, rrs_entries);
637374c9991SConrad Meyer RANDOM_HARVEST_UNLOCK();
6387384206aSConrad Meyer }
6397384206aSConrad Meyer
6407384206aSConrad Meyer void
random_source_deregister(struct random_source * rsource)6417384206aSConrad Meyer random_source_deregister(struct random_source *rsource)
6427384206aSConrad Meyer {
6437384206aSConrad Meyer struct random_sources *rrs = NULL;
6447384206aSConrad Meyer
6457384206aSConrad Meyer KASSERT(rsource != NULL, ("invalid input to %s", __func__));
6467384206aSConrad Meyer
6477384206aSConrad Meyer random_harvest_deregister_source(rsource->rs_source);
6487384206aSConrad Meyer
649374c9991SConrad Meyer RANDOM_HARVEST_LOCK();
650374c9991SConrad Meyer CK_LIST_FOREACH(rrs, &source_list, rrs_entries)
6517384206aSConrad Meyer if (rrs->rrs_source == rsource) {
652374c9991SConrad Meyer CK_LIST_REMOVE(rrs, rrs_entries);
6537384206aSConrad Meyer break;
6547384206aSConrad Meyer }
655374c9991SConrad Meyer RANDOM_HARVEST_UNLOCK();
656374c9991SConrad Meyer
657374c9991SConrad Meyer if (rrs != NULL && epoch_inited)
658374c9991SConrad Meyer epoch_wait_preempt(rs_epoch);
6597384206aSConrad Meyer free(rrs, M_ENTROPY);
6607384206aSConrad Meyer }
6617384206aSConrad Meyer
6627384206aSConrad Meyer static int
random_source_handler(SYSCTL_HANDLER_ARGS)6637384206aSConrad Meyer random_source_handler(SYSCTL_HANDLER_ARGS)
6647384206aSConrad Meyer {
665374c9991SConrad Meyer struct epoch_tracker et;
6667384206aSConrad Meyer struct random_sources *rrs;
6677384206aSConrad Meyer struct sbuf sbuf;
6687384206aSConrad Meyer int error, count;
6697384206aSConrad Meyer
670374c9991SConrad Meyer error = sysctl_wire_old_buffer(req, 0);
671374c9991SConrad Meyer if (error != 0)
672374c9991SConrad Meyer return (error);
673374c9991SConrad Meyer
6747384206aSConrad Meyer sbuf_new_for_sysctl(&sbuf, NULL, 64, req);
6757384206aSConrad Meyer count = 0;
676374c9991SConrad Meyer epoch_enter_preempt(rs_epoch, &et);
677374c9991SConrad Meyer CK_LIST_FOREACH(rrs, &source_list, rrs_entries) {
6787384206aSConrad Meyer sbuf_cat(&sbuf, (count++ ? ",'" : "'"));
6797384206aSConrad Meyer sbuf_cat(&sbuf, rrs->rrs_source->rs_ident);
6807384206aSConrad Meyer sbuf_cat(&sbuf, "'");
6817384206aSConrad Meyer }
682374c9991SConrad Meyer epoch_exit_preempt(rs_epoch, &et);
6837384206aSConrad Meyer error = sbuf_finish(&sbuf);
6847384206aSConrad Meyer sbuf_delete(&sbuf);
6857384206aSConrad Meyer return (error);
6867384206aSConrad Meyer }
6877384206aSConrad Meyer SYSCTL_PROC(_kern_random, OID_AUTO, random_sources, CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE,
6887384206aSConrad Meyer NULL, 0, random_source_handler, "A",
6897384206aSConrad Meyer "List of active fast entropy sources.");
6907384206aSConrad Meyer
691646041a8SMark Murray MODULE_VERSION(random_harvestq, 1);
692