16810ad6fSSam Leffler /*- 26810ad6fSSam Leffler * Copyright (c) 2002-2006 Sam Leffler. All rights reserved. 36810ad6fSSam Leffler * 46810ad6fSSam Leffler * Redistribution and use in source and binary forms, with or without 56810ad6fSSam Leffler * modification, are permitted provided that the following conditions 66810ad6fSSam Leffler * are met: 76810ad6fSSam Leffler * 1. Redistributions of source code must retain the above copyright 86810ad6fSSam Leffler * notice, this list of conditions and the following disclaimer. 96810ad6fSSam Leffler * 2. Redistributions in binary form must reproduce the above copyright 106810ad6fSSam Leffler * notice, this list of conditions and the following disclaimer in the 116810ad6fSSam Leffler * documentation and/or other materials provided with the distribution. 126810ad6fSSam Leffler * 136810ad6fSSam Leffler * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 146810ad6fSSam Leffler * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 156810ad6fSSam Leffler * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 166810ad6fSSam Leffler * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 176810ad6fSSam Leffler * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 186810ad6fSSam Leffler * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 196810ad6fSSam Leffler * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 206810ad6fSSam Leffler * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 216810ad6fSSam Leffler * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 226810ad6fSSam Leffler * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 236810ad6fSSam Leffler */ 246810ad6fSSam Leffler 256810ad6fSSam Leffler #include <sys/cdefs.h> 266810ad6fSSam Leffler __FBSDID("$FreeBSD$"); 276810ad6fSSam Leffler 286810ad6fSSam Leffler /* 296810ad6fSSam Leffler * Cryptographic Subsystem. 306810ad6fSSam Leffler * 316810ad6fSSam Leffler * This code is derived from the Openbsd Cryptographic Framework (OCF) 326810ad6fSSam Leffler * that has the copyright shown below. Very little of the original 336810ad6fSSam Leffler * code remains. 346810ad6fSSam Leffler */ 356810ad6fSSam Leffler 3660727d8bSWarner Losh /*- 37091d81d1SSam Leffler * The author of this code is Angelos D. Keromytis (angelos@cis.upenn.edu) 38091d81d1SSam Leffler * 39091d81d1SSam Leffler * This code was written by Angelos D. Keromytis in Athens, Greece, in 40091d81d1SSam Leffler * February 2000. Network Security Technologies Inc. (NSTI) kindly 41091d81d1SSam Leffler * supported the development of this code. 42091d81d1SSam Leffler * 43091d81d1SSam Leffler * Copyright (c) 2000, 2001 Angelos D. Keromytis 44091d81d1SSam Leffler * 45091d81d1SSam Leffler * Permission to use, copy, and modify this software with or without fee 46091d81d1SSam Leffler * is hereby granted, provided that this entire notice is included in 47091d81d1SSam Leffler * all source code copies of any software which is or includes a copy or 48091d81d1SSam Leffler * modification of this software. 49091d81d1SSam Leffler * 50091d81d1SSam Leffler * THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR 51091d81d1SSam Leffler * IMPLIED WARRANTY. IN PARTICULAR, NONE OF THE AUTHORS MAKES ANY 52091d81d1SSam Leffler * REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE 53091d81d1SSam Leffler * MERCHANTABILITY OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR 54091d81d1SSam Leffler * PURPOSE. 55091d81d1SSam Leffler */ 562c446514SDavid E. O'Brien 577d1853eeSSam Leffler #define CRYPTO_TIMING /* enable timing support */ 58091d81d1SSam Leffler 59c0341432SJohn Baldwin #include "opt_compat.h" 606810ad6fSSam Leffler #include "opt_ddb.h" 616810ad6fSSam Leffler 62091d81d1SSam Leffler #include <sys/param.h> 63091d81d1SSam Leffler #include <sys/systm.h> 64091d81d1SSam Leffler #include <sys/eventhandler.h> 65091d81d1SSam Leffler #include <sys/kernel.h> 66091d81d1SSam Leffler #include <sys/kthread.h> 67ec5c0e5bSAllan Jude #include <sys/linker.h> 68091d81d1SSam Leffler #include <sys/lock.h> 695dba30f1SPoul-Henning Kamp #include <sys/module.h> 70091d81d1SSam Leffler #include <sys/mutex.h> 71091d81d1SSam Leffler #include <sys/malloc.h> 72091d81d1SSam Leffler #include <sys/proc.h> 73c0341432SJohn Baldwin #include <sys/refcount.h> 74df21ad6eSBjoern A. Zeeb #include <sys/sdt.h> 7539bbca6fSFabien Thomas #include <sys/smp.h> 76091d81d1SSam Leffler #include <sys/sysctl.h> 7739bbca6fSFabien Thomas #include <sys/taskqueue.h> 78091d81d1SSam Leffler 796810ad6fSSam Leffler #include <ddb/ddb.h> 806810ad6fSSam Leffler 81091d81d1SSam Leffler #include <vm/uma.h> 82ec5c0e5bSAllan Jude #include <crypto/intake.h> 83091d81d1SSam Leffler #include <opencrypto/cryptodev.h> 84c0341432SJohn Baldwin #include <opencrypto/xform_auth.h> 85c0341432SJohn Baldwin #include <opencrypto/xform_enc.h> 86091d81d1SSam Leffler 876810ad6fSSam Leffler #include <sys/kobj.h> 886810ad6fSSam Leffler #include <sys/bus.h> 896810ad6fSSam Leffler #include "cryptodev_if.h" 906810ad6fSSam Leffler 916ed982a2SAndrew Turner #if defined(__i386__) || defined(__amd64__) || defined(__aarch64__) 9204c49e68SKonstantin Belousov #include <machine/pcb.h> 9304c49e68SKonstantin Belousov #endif 9404c49e68SKonstantin Belousov 95df21ad6eSBjoern A. Zeeb SDT_PROVIDER_DEFINE(opencrypto); 96df21ad6eSBjoern A. Zeeb 97091d81d1SSam Leffler /* 98091d81d1SSam Leffler * Crypto drivers register themselves by allocating a slot in the 99091d81d1SSam Leffler * crypto_drivers table with crypto_get_driverid() and then registering 100c0341432SJohn Baldwin * each asym algorithm they support with crypto_kregister(). 101091d81d1SSam Leffler */ 102091d81d1SSam Leffler static struct mtx crypto_drivers_mtx; /* lock on driver table */ 103091d81d1SSam Leffler #define CRYPTO_DRIVER_LOCK() mtx_lock(&crypto_drivers_mtx) 104091d81d1SSam Leffler #define CRYPTO_DRIVER_UNLOCK() mtx_unlock(&crypto_drivers_mtx) 1056810ad6fSSam Leffler #define CRYPTO_DRIVER_ASSERT() mtx_assert(&crypto_drivers_mtx, MA_OWNED) 1066810ad6fSSam Leffler 1076810ad6fSSam Leffler /* 1086810ad6fSSam Leffler * Crypto device/driver capabilities structure. 1096810ad6fSSam Leffler * 1106810ad6fSSam Leffler * Synchronization: 1116810ad6fSSam Leffler * (d) - protected by CRYPTO_DRIVER_LOCK() 1126810ad6fSSam Leffler * (q) - protected by CRYPTO_Q_LOCK() 1136810ad6fSSam Leffler * Not tagged fields are read-only. 1146810ad6fSSam Leffler */ 1156810ad6fSSam Leffler struct cryptocap { 116c0341432SJohn Baldwin device_t cc_dev; 117c0341432SJohn Baldwin uint32_t cc_hid; 1186810ad6fSSam Leffler u_int32_t cc_sessions; /* (d) # of sessions */ 1196810ad6fSSam Leffler u_int32_t cc_koperations; /* (d) # os asym operations */ 1206810ad6fSSam Leffler u_int8_t cc_kalg[CRK_ALGORITHM_MAX + 1]; 1216810ad6fSSam Leffler 1226810ad6fSSam Leffler int cc_flags; /* (d) flags */ 1236810ad6fSSam Leffler #define CRYPTOCAP_F_CLEANUP 0x80000000 /* needs resource cleanup */ 1246810ad6fSSam Leffler int cc_qblocked; /* (q) symmetric q blocked */ 1256810ad6fSSam Leffler int cc_kqblocked; /* (q) asymmetric q blocked */ 1261b0909d5SConrad Meyer size_t cc_session_size; 127c0341432SJohn Baldwin volatile int cc_refs; 1286810ad6fSSam Leffler }; 129c0341432SJohn Baldwin 130c0341432SJohn Baldwin static struct cryptocap **crypto_drivers = NULL; 131c0341432SJohn Baldwin static int crypto_drivers_size = 0; 132c0341432SJohn Baldwin 133c0341432SJohn Baldwin struct crypto_session { 134c0341432SJohn Baldwin struct cryptocap *cap; 135c0341432SJohn Baldwin void *softc; 136c0341432SJohn Baldwin struct crypto_session_params csp; 137c0341432SJohn Baldwin }; 138091d81d1SSam Leffler 139091d81d1SSam Leffler /* 140091d81d1SSam Leffler * There are two queues for crypto requests; one for symmetric (e.g. 141091d81d1SSam Leffler * cipher) operations and one for asymmetric (e.g. MOD)operations. 142091d81d1SSam Leffler * A single mutex is used to lock access to both queues. We could 143091d81d1SSam Leffler * have one per-queue but having one simplifies handling of block/unblock 144091d81d1SSam Leffler * operations. 145091d81d1SSam Leffler */ 1463a865c82SPawel Jakub Dawidek static int crp_sleep = 0; 14739bbca6fSFabien Thomas static TAILQ_HEAD(cryptop_q ,cryptop) crp_q; /* request queues */ 148091d81d1SSam Leffler static TAILQ_HEAD(,cryptkop) crp_kq; 149091d81d1SSam Leffler static struct mtx crypto_q_mtx; 150091d81d1SSam Leffler #define CRYPTO_Q_LOCK() mtx_lock(&crypto_q_mtx) 151091d81d1SSam Leffler #define CRYPTO_Q_UNLOCK() mtx_unlock(&crypto_q_mtx) 152091d81d1SSam Leffler 153c0341432SJohn Baldwin static SYSCTL_NODE(_kern, OID_AUTO, crypto, CTLFLAG_RW, 0, 154c0341432SJohn Baldwin "In-kernel cryptography"); 155c0341432SJohn Baldwin 156091d81d1SSam Leffler /* 15739bbca6fSFabien Thomas * Taskqueue used to dispatch the crypto requests 15839bbca6fSFabien Thomas * that have the CRYPTO_F_ASYNC flag 159091d81d1SSam Leffler */ 16039bbca6fSFabien Thomas static struct taskqueue *crypto_tq; 16139bbca6fSFabien Thomas 16239bbca6fSFabien Thomas /* 16339bbca6fSFabien Thomas * Crypto seq numbers are operated on with modular arithmetic 16439bbca6fSFabien Thomas */ 16539bbca6fSFabien Thomas #define CRYPTO_SEQ_GT(a,b) ((int)((a)-(b)) > 0) 16639bbca6fSFabien Thomas 16739bbca6fSFabien Thomas struct crypto_ret_worker { 16839bbca6fSFabien Thomas struct mtx crypto_ret_mtx; 16939bbca6fSFabien Thomas 17039bbca6fSFabien Thomas TAILQ_HEAD(,cryptop) crp_ordered_ret_q; /* ordered callback queue for symetric jobs */ 17139bbca6fSFabien Thomas TAILQ_HEAD(,cryptop) crp_ret_q; /* callback queue for symetric jobs */ 17239bbca6fSFabien Thomas TAILQ_HEAD(,cryptkop) crp_ret_kq; /* callback queue for asym jobs */ 17339bbca6fSFabien Thomas 17439bbca6fSFabien Thomas u_int32_t reorder_ops; /* total ordered sym jobs received */ 17539bbca6fSFabien Thomas u_int32_t reorder_cur_seq; /* current sym job dispatched */ 17639bbca6fSFabien Thomas 17739bbca6fSFabien Thomas struct proc *cryptoretproc; 17839bbca6fSFabien Thomas }; 17939bbca6fSFabien Thomas static struct crypto_ret_worker *crypto_ret_workers = NULL; 18039bbca6fSFabien Thomas 18139bbca6fSFabien Thomas #define CRYPTO_RETW(i) (&crypto_ret_workers[i]) 18239bbca6fSFabien Thomas #define CRYPTO_RETW_ID(w) ((w) - crypto_ret_workers) 18339bbca6fSFabien Thomas #define FOREACH_CRYPTO_RETW(w) \ 18439bbca6fSFabien Thomas for (w = crypto_ret_workers; w < crypto_ret_workers + crypto_workers_num; ++w) 18539bbca6fSFabien Thomas 18639bbca6fSFabien Thomas #define CRYPTO_RETW_LOCK(w) mtx_lock(&w->crypto_ret_mtx) 18739bbca6fSFabien Thomas #define CRYPTO_RETW_UNLOCK(w) mtx_unlock(&w->crypto_ret_mtx) 18839bbca6fSFabien Thomas #define CRYPTO_RETW_EMPTY(w) \ 18939bbca6fSFabien Thomas (TAILQ_EMPTY(&w->crp_ret_q) && TAILQ_EMPTY(&w->crp_ret_kq) && TAILQ_EMPTY(&w->crp_ordered_ret_q)) 19039bbca6fSFabien Thomas 19139bbca6fSFabien Thomas static int crypto_workers_num = 0; 192c0341432SJohn Baldwin SYSCTL_INT(_kern_crypto, OID_AUTO, num_workers, CTLFLAG_RDTUN, 193c0341432SJohn Baldwin &crypto_workers_num, 0, 194c0341432SJohn Baldwin "Number of crypto workers used to dispatch crypto jobs"); 195c0341432SJohn Baldwin #ifdef COMPAT_FREEBSD12 19639bbca6fSFabien Thomas SYSCTL_INT(_kern, OID_AUTO, crypto_workers_num, CTLFLAG_RDTUN, 19739bbca6fSFabien Thomas &crypto_workers_num, 0, 19839bbca6fSFabien Thomas "Number of crypto workers used to dispatch crypto jobs"); 199c0341432SJohn Baldwin #endif 200091d81d1SSam Leffler 201091d81d1SSam Leffler static uma_zone_t cryptop_zone; 2021b0909d5SConrad Meyer static uma_zone_t cryptoses_zone; 203091d81d1SSam Leffler 204c0341432SJohn Baldwin int crypto_userasymcrypto = 1; 205c0341432SJohn Baldwin SYSCTL_INT(_kern_crypto, OID_AUTO, asym_enable, CTLFLAG_RW, 206c0341432SJohn Baldwin &crypto_userasymcrypto, 0, 207c0341432SJohn Baldwin "Enable user-mode access to asymmetric crypto support"); 208c0341432SJohn Baldwin #ifdef COMPAT_FREEBSD12 209091d81d1SSam Leffler SYSCTL_INT(_kern, OID_AUTO, userasymcrypto, CTLFLAG_RW, 210091d81d1SSam Leffler &crypto_userasymcrypto, 0, 211091d81d1SSam Leffler "Enable/disable user-mode access to asymmetric crypto support"); 212c0341432SJohn Baldwin #endif 213c0341432SJohn Baldwin 214c0341432SJohn Baldwin int crypto_devallowsoft = 0; 215c0341432SJohn Baldwin SYSCTL_INT(_kern_crypto, OID_AUTO, allow_soft, CTLFLAG_RW, 216c0341432SJohn Baldwin &crypto_devallowsoft, 0, 217c0341432SJohn Baldwin "Enable use of software crypto by /dev/crypto"); 218c0341432SJohn Baldwin #ifdef COMPAT_FREEBSD12 219091d81d1SSam Leffler SYSCTL_INT(_kern, OID_AUTO, cryptodevallowsoft, CTLFLAG_RW, 220091d81d1SSam Leffler &crypto_devallowsoft, 0, 2216c20d7a3SJohn-Mark Gurney "Enable/disable use of software crypto by /dev/crypto"); 222c0341432SJohn Baldwin #endif 223091d81d1SSam Leffler 224091d81d1SSam Leffler MALLOC_DEFINE(M_CRYPTO_DATA, "crypto", "crypto session records"); 225091d81d1SSam Leffler 22651e45326SSam Leffler static void crypto_proc(void); 22751e45326SSam Leffler static struct proc *cryptoproc; 22839bbca6fSFabien Thomas static void crypto_ret_proc(struct crypto_ret_worker *ret_worker); 22951e45326SSam Leffler static void crypto_destroy(void); 2304acae0acSPawel Jakub Dawidek static int crypto_invoke(struct cryptocap *cap, struct cryptop *crp, int hint); 231c0341432SJohn Baldwin static int crypto_kinvoke(struct cryptkop *krp); 23239bbca6fSFabien Thomas static void crypto_task_invoke(void *ctx, int pending); 23339bbca6fSFabien Thomas static void crypto_batch_enqueue(struct cryptop *crp); 23451e45326SSam Leffler 2357d1853eeSSam Leffler static struct cryptostats cryptostats; 236c0341432SJohn Baldwin SYSCTL_STRUCT(_kern_crypto, OID_AUTO, stats, CTLFLAG_RW, &cryptostats, 2377d1853eeSSam Leffler cryptostats, "Crypto system statistics"); 2387d1853eeSSam Leffler 2397d1853eeSSam Leffler #ifdef CRYPTO_TIMING 2407d1853eeSSam Leffler static int crypto_timing = 0; 2417d1853eeSSam Leffler SYSCTL_INT(_debug, OID_AUTO, crypto_timing, CTLFLAG_RW, 2427d1853eeSSam Leffler &crypto_timing, 0, "Enable/disable crypto timing support"); 2437d1853eeSSam Leffler #endif 2447d1853eeSSam Leffler 245ec5c0e5bSAllan Jude /* Try to avoid directly exposing the key buffer as a symbol */ 246ec5c0e5bSAllan Jude static struct keybuf *keybuf; 247ec5c0e5bSAllan Jude 248ec5c0e5bSAllan Jude static struct keybuf empty_keybuf = { 249ec5c0e5bSAllan Jude .kb_nents = 0 250ec5c0e5bSAllan Jude }; 251ec5c0e5bSAllan Jude 252ec5c0e5bSAllan Jude /* Obtain the key buffer from boot metadata */ 253ec5c0e5bSAllan Jude static void 254ec5c0e5bSAllan Jude keybuf_init(void) 255ec5c0e5bSAllan Jude { 256ec5c0e5bSAllan Jude caddr_t kmdp; 257ec5c0e5bSAllan Jude 258ec5c0e5bSAllan Jude kmdp = preload_search_by_type("elf kernel"); 259ec5c0e5bSAllan Jude 260ec5c0e5bSAllan Jude if (kmdp == NULL) 261ec5c0e5bSAllan Jude kmdp = preload_search_by_type("elf64 kernel"); 262ec5c0e5bSAllan Jude 263ec5c0e5bSAllan Jude keybuf = (struct keybuf *)preload_search_info(kmdp, 264ec5c0e5bSAllan Jude MODINFO_METADATA | MODINFOMD_KEYBUF); 265ec5c0e5bSAllan Jude 266ec5c0e5bSAllan Jude if (keybuf == NULL) 267ec5c0e5bSAllan Jude keybuf = &empty_keybuf; 268ec5c0e5bSAllan Jude } 269ec5c0e5bSAllan Jude 270ec5c0e5bSAllan Jude /* It'd be nice if we could store these in some kind of secure memory... */ 271ec5c0e5bSAllan Jude struct keybuf * get_keybuf(void) { 272ec5c0e5bSAllan Jude 273ec5c0e5bSAllan Jude return (keybuf); 274ec5c0e5bSAllan Jude } 275ec5c0e5bSAllan Jude 276c0341432SJohn Baldwin static struct cryptocap * 277c0341432SJohn Baldwin cap_ref(struct cryptocap *cap) 278c0341432SJohn Baldwin { 279c0341432SJohn Baldwin 280c0341432SJohn Baldwin refcount_acquire(&cap->cc_refs); 281c0341432SJohn Baldwin return (cap); 282c0341432SJohn Baldwin } 283c0341432SJohn Baldwin 284c0341432SJohn Baldwin static void 285c0341432SJohn Baldwin cap_rele(struct cryptocap *cap) 286c0341432SJohn Baldwin { 287c0341432SJohn Baldwin 288c0341432SJohn Baldwin if (refcount_release(&cap->cc_refs) == 0) 289c0341432SJohn Baldwin return; 290c0341432SJohn Baldwin 291c0341432SJohn Baldwin KASSERT(cap->cc_sessions == 0, 292c0341432SJohn Baldwin ("freeing crypto driver with active sessions")); 293c0341432SJohn Baldwin KASSERT(cap->cc_koperations == 0, 294c0341432SJohn Baldwin ("freeing crypto driver with active key operations")); 295c0341432SJohn Baldwin 296c0341432SJohn Baldwin free(cap, M_CRYPTO_DATA); 297c0341432SJohn Baldwin } 298c0341432SJohn Baldwin 29951e45326SSam Leffler static int 300091d81d1SSam Leffler crypto_init(void) 301091d81d1SSam Leffler { 30239bbca6fSFabien Thomas struct crypto_ret_worker *ret_worker; 30351e45326SSam Leffler int error; 304091d81d1SSam Leffler 3053569ae7fSSam Leffler mtx_init(&crypto_drivers_mtx, "crypto", "crypto driver table", 3063569ae7fSSam Leffler MTX_DEF|MTX_QUIET); 307091d81d1SSam Leffler 308091d81d1SSam Leffler TAILQ_INIT(&crp_q); 309091d81d1SSam Leffler TAILQ_INIT(&crp_kq); 3103569ae7fSSam Leffler mtx_init(&crypto_q_mtx, "crypto", "crypto op queues", MTX_DEF); 311091d81d1SSam Leffler 31251e45326SSam Leffler cryptop_zone = uma_zcreate("cryptop", sizeof (struct cryptop), 31351e45326SSam Leffler 0, 0, 0, 0, 31451e45326SSam Leffler UMA_ALIGN_PTR, UMA_ZONE_ZINIT); 3151b0909d5SConrad Meyer cryptoses_zone = uma_zcreate("crypto_session", 3161b0909d5SConrad Meyer sizeof(struct crypto_session), NULL, NULL, NULL, NULL, 3171b0909d5SConrad Meyer UMA_ALIGN_PTR, UMA_ZONE_ZINIT); 3181b0909d5SConrad Meyer 319c0341432SJohn Baldwin if (cryptop_zone == NULL || cryptoses_zone == NULL) { 32051e45326SSam Leffler printf("crypto_init: cannot setup crypto zones\n"); 32151e45326SSam Leffler error = ENOMEM; 32251e45326SSam Leffler goto bad; 32351e45326SSam Leffler } 32451e45326SSam Leffler 325c0341432SJohn Baldwin crypto_drivers_size = CRYPTO_DRIVERS_INITIAL; 326c0341432SJohn Baldwin crypto_drivers = malloc(crypto_drivers_size * 32751e45326SSam Leffler sizeof(struct cryptocap), M_CRYPTO_DATA, M_NOWAIT | M_ZERO); 32851e45326SSam Leffler if (crypto_drivers == NULL) { 32951e45326SSam Leffler printf("crypto_init: cannot setup crypto drivers\n"); 33051e45326SSam Leffler error = ENOMEM; 33151e45326SSam Leffler goto bad; 33251e45326SSam Leffler } 33351e45326SSam Leffler 33439bbca6fSFabien Thomas if (crypto_workers_num < 1 || crypto_workers_num > mp_ncpus) 33539bbca6fSFabien Thomas crypto_workers_num = mp_ncpus; 33639bbca6fSFabien Thomas 33739bbca6fSFabien Thomas crypto_tq = taskqueue_create("crypto", M_WAITOK|M_ZERO, 33839bbca6fSFabien Thomas taskqueue_thread_enqueue, &crypto_tq); 33939bbca6fSFabien Thomas if (crypto_tq == NULL) { 34039bbca6fSFabien Thomas printf("crypto init: cannot setup crypto taskqueue\n"); 34139bbca6fSFabien Thomas error = ENOMEM; 34239bbca6fSFabien Thomas goto bad; 34339bbca6fSFabien Thomas } 34439bbca6fSFabien Thomas 34539bbca6fSFabien Thomas taskqueue_start_threads(&crypto_tq, crypto_workers_num, PRI_MIN_KERN, 34639bbca6fSFabien Thomas "crypto"); 34739bbca6fSFabien Thomas 3483745c395SJulian Elischer error = kproc_create((void (*)(void *)) crypto_proc, NULL, 34951e45326SSam Leffler &cryptoproc, 0, 0, "crypto"); 35051e45326SSam Leffler if (error) { 35151e45326SSam Leffler printf("crypto_init: cannot start crypto thread; error %d", 35251e45326SSam Leffler error); 35351e45326SSam Leffler goto bad; 35451e45326SSam Leffler } 35551e45326SSam Leffler 35639bbca6fSFabien Thomas crypto_ret_workers = malloc(crypto_workers_num * sizeof(struct crypto_ret_worker), 35739bbca6fSFabien Thomas M_CRYPTO_DATA, M_NOWAIT|M_ZERO); 35839bbca6fSFabien Thomas if (crypto_ret_workers == NULL) { 35939bbca6fSFabien Thomas error = ENOMEM; 36039bbca6fSFabien Thomas printf("crypto_init: cannot allocate ret workers\n"); 36139bbca6fSFabien Thomas goto bad; 36239bbca6fSFabien Thomas } 36339bbca6fSFabien Thomas 36439bbca6fSFabien Thomas 36539bbca6fSFabien Thomas FOREACH_CRYPTO_RETW(ret_worker) { 36639bbca6fSFabien Thomas TAILQ_INIT(&ret_worker->crp_ordered_ret_q); 36739bbca6fSFabien Thomas TAILQ_INIT(&ret_worker->crp_ret_q); 36839bbca6fSFabien Thomas TAILQ_INIT(&ret_worker->crp_ret_kq); 36939bbca6fSFabien Thomas 37039bbca6fSFabien Thomas ret_worker->reorder_ops = 0; 37139bbca6fSFabien Thomas ret_worker->reorder_cur_seq = 0; 37239bbca6fSFabien Thomas 37339bbca6fSFabien Thomas mtx_init(&ret_worker->crypto_ret_mtx, "crypto", "crypto return queues", MTX_DEF); 37439bbca6fSFabien Thomas 37539bbca6fSFabien Thomas error = kproc_create((void (*)(void *)) crypto_ret_proc, ret_worker, 37639bbca6fSFabien Thomas &ret_worker->cryptoretproc, 0, 0, "crypto returns %td", CRYPTO_RETW_ID(ret_worker)); 37751e45326SSam Leffler if (error) { 37851e45326SSam Leffler printf("crypto_init: cannot start cryptoret thread; error %d", 37951e45326SSam Leffler error); 38051e45326SSam Leffler goto bad; 38151e45326SSam Leffler } 38239bbca6fSFabien Thomas } 383ec5c0e5bSAllan Jude 384ec5c0e5bSAllan Jude keybuf_init(); 385ec5c0e5bSAllan Jude 38651e45326SSam Leffler return 0; 38751e45326SSam Leffler bad: 38851e45326SSam Leffler crypto_destroy(); 38951e45326SSam Leffler return error; 39051e45326SSam Leffler } 39151e45326SSam Leffler 39251e45326SSam Leffler /* 39351e45326SSam Leffler * Signal a crypto thread to terminate. We use the driver 39451e45326SSam Leffler * table lock to synchronize the sleep/wakeups so that we 39551e45326SSam Leffler * are sure the threads have terminated before we release 39651e45326SSam Leffler * the data structures they use. See crypto_finis below 39751e45326SSam Leffler * for the other half of this song-and-dance. 39851e45326SSam Leffler */ 39951e45326SSam Leffler static void 40051e45326SSam Leffler crypto_terminate(struct proc **pp, void *q) 40151e45326SSam Leffler { 40251e45326SSam Leffler struct proc *p; 40351e45326SSam Leffler 40451e45326SSam Leffler mtx_assert(&crypto_drivers_mtx, MA_OWNED); 40551e45326SSam Leffler p = *pp; 40651e45326SSam Leffler *pp = NULL; 40751e45326SSam Leffler if (p) { 40851e45326SSam Leffler wakeup_one(q); 40951e45326SSam Leffler PROC_LOCK(p); /* NB: insure we don't miss wakeup */ 41051e45326SSam Leffler CRYPTO_DRIVER_UNLOCK(); /* let crypto_finis progress */ 41151e45326SSam Leffler msleep(p, &p->p_mtx, PWAIT, "crypto_destroy", 0); 41251e45326SSam Leffler PROC_UNLOCK(p); 41351e45326SSam Leffler CRYPTO_DRIVER_LOCK(); 41451e45326SSam Leffler } 41551e45326SSam Leffler } 41651e45326SSam Leffler 41751e45326SSam Leffler static void 418c0341432SJohn Baldwin hmac_init_pad(struct auth_hash *axf, const char *key, int klen, void *auth_ctx, 419c0341432SJohn Baldwin uint8_t padval) 420c0341432SJohn Baldwin { 421c0341432SJohn Baldwin uint8_t hmac_key[HMAC_MAX_BLOCK_LEN]; 422c0341432SJohn Baldwin u_int i; 423c0341432SJohn Baldwin 424c0341432SJohn Baldwin KASSERT(axf->blocksize <= sizeof(hmac_key), 425c0341432SJohn Baldwin ("Invalid HMAC block size %d", axf->blocksize)); 426c0341432SJohn Baldwin 427c0341432SJohn Baldwin /* 428c0341432SJohn Baldwin * If the key is larger than the block size, use the digest of 429c0341432SJohn Baldwin * the key as the key instead. 430c0341432SJohn Baldwin */ 431c0341432SJohn Baldwin memset(hmac_key, 0, sizeof(hmac_key)); 432c0341432SJohn Baldwin if (klen > axf->blocksize) { 433c0341432SJohn Baldwin axf->Init(auth_ctx); 434c0341432SJohn Baldwin axf->Update(auth_ctx, key, klen); 435c0341432SJohn Baldwin axf->Final(hmac_key, auth_ctx); 436c0341432SJohn Baldwin klen = axf->hashsize; 437c0341432SJohn Baldwin } else 438c0341432SJohn Baldwin memcpy(hmac_key, key, klen); 439c0341432SJohn Baldwin 440c0341432SJohn Baldwin for (i = 0; i < axf->blocksize; i++) 441c0341432SJohn Baldwin hmac_key[i] ^= padval; 442c0341432SJohn Baldwin 443c0341432SJohn Baldwin axf->Init(auth_ctx); 444c0341432SJohn Baldwin axf->Update(auth_ctx, hmac_key, axf->blocksize); 445c0341432SJohn Baldwin } 446c0341432SJohn Baldwin 447c0341432SJohn Baldwin void 448c0341432SJohn Baldwin hmac_init_ipad(struct auth_hash *axf, const char *key, int klen, 449c0341432SJohn Baldwin void *auth_ctx) 450c0341432SJohn Baldwin { 451c0341432SJohn Baldwin 452c0341432SJohn Baldwin hmac_init_pad(axf, key, klen, auth_ctx, HMAC_IPAD_VAL); 453c0341432SJohn Baldwin } 454c0341432SJohn Baldwin 455c0341432SJohn Baldwin void 456c0341432SJohn Baldwin hmac_init_opad(struct auth_hash *axf, const char *key, int klen, 457c0341432SJohn Baldwin void *auth_ctx) 458c0341432SJohn Baldwin { 459c0341432SJohn Baldwin 460c0341432SJohn Baldwin hmac_init_pad(axf, key, klen, auth_ctx, HMAC_OPAD_VAL); 461c0341432SJohn Baldwin } 462c0341432SJohn Baldwin 463c0341432SJohn Baldwin static void 46451e45326SSam Leffler crypto_destroy(void) 46551e45326SSam Leffler { 46639bbca6fSFabien Thomas struct crypto_ret_worker *ret_worker; 467c0341432SJohn Baldwin int i; 46839bbca6fSFabien Thomas 46951e45326SSam Leffler /* 47051e45326SSam Leffler * Terminate any crypto threads. 47151e45326SSam Leffler */ 47239bbca6fSFabien Thomas if (crypto_tq != NULL) 47339bbca6fSFabien Thomas taskqueue_drain_all(crypto_tq); 47451e45326SSam Leffler CRYPTO_DRIVER_LOCK(); 47551e45326SSam Leffler crypto_terminate(&cryptoproc, &crp_q); 47639bbca6fSFabien Thomas FOREACH_CRYPTO_RETW(ret_worker) 47739bbca6fSFabien Thomas crypto_terminate(&ret_worker->cryptoretproc, &ret_worker->crp_ret_q); 47851e45326SSam Leffler CRYPTO_DRIVER_UNLOCK(); 47951e45326SSam Leffler 48051e45326SSam Leffler /* XXX flush queues??? */ 48151e45326SSam Leffler 48251e45326SSam Leffler /* 48351e45326SSam Leffler * Reclaim dynamically allocated resources. 48451e45326SSam Leffler */ 485c0341432SJohn Baldwin for (i = 0; i < crypto_drivers_size; i++) { 486c0341432SJohn Baldwin if (crypto_drivers[i] != NULL) 487c0341432SJohn Baldwin cap_rele(crypto_drivers[i]); 488c0341432SJohn Baldwin } 48951e45326SSam Leffler free(crypto_drivers, M_CRYPTO_DATA); 49051e45326SSam Leffler 4911b0909d5SConrad Meyer if (cryptoses_zone != NULL) 4921b0909d5SConrad Meyer uma_zdestroy(cryptoses_zone); 49351e45326SSam Leffler if (cryptop_zone != NULL) 49451e45326SSam Leffler uma_zdestroy(cryptop_zone); 49551e45326SSam Leffler mtx_destroy(&crypto_q_mtx); 49639bbca6fSFabien Thomas FOREACH_CRYPTO_RETW(ret_worker) 49739bbca6fSFabien Thomas mtx_destroy(&ret_worker->crypto_ret_mtx); 49839bbca6fSFabien Thomas free(crypto_ret_workers, M_CRYPTO_DATA); 49939bbca6fSFabien Thomas if (crypto_tq != NULL) 50039bbca6fSFabien Thomas taskqueue_free(crypto_tq); 50151e45326SSam Leffler mtx_destroy(&crypto_drivers_mtx); 502091d81d1SSam Leffler } 503f544a528SMark Murray 5041b0909d5SConrad Meyer uint32_t 5051b0909d5SConrad Meyer crypto_ses2hid(crypto_session_t crypto_session) 5061b0909d5SConrad Meyer { 507c0341432SJohn Baldwin return (crypto_session->cap->cc_hid); 5081b0909d5SConrad Meyer } 5091b0909d5SConrad Meyer 5101b0909d5SConrad Meyer uint32_t 5111b0909d5SConrad Meyer crypto_ses2caps(crypto_session_t crypto_session) 5121b0909d5SConrad Meyer { 513c0341432SJohn Baldwin return (crypto_session->cap->cc_flags & 0xff000000); 5141b0909d5SConrad Meyer } 5151b0909d5SConrad Meyer 5161b0909d5SConrad Meyer void * 5171b0909d5SConrad Meyer crypto_get_driver_session(crypto_session_t crypto_session) 5181b0909d5SConrad Meyer { 5191b0909d5SConrad Meyer return (crypto_session->softc); 5201b0909d5SConrad Meyer } 5211b0909d5SConrad Meyer 522c0341432SJohn Baldwin const struct crypto_session_params * 523c0341432SJohn Baldwin crypto_get_params(crypto_session_t crypto_session) 524c0341432SJohn Baldwin { 525c0341432SJohn Baldwin return (&crypto_session->csp); 526c0341432SJohn Baldwin } 527c0341432SJohn Baldwin 528c0341432SJohn Baldwin struct auth_hash * 529c0341432SJohn Baldwin crypto_auth_hash(const struct crypto_session_params *csp) 530c0341432SJohn Baldwin { 531c0341432SJohn Baldwin 532c0341432SJohn Baldwin switch (csp->csp_auth_alg) { 533c0341432SJohn Baldwin case CRYPTO_MD5_HMAC: 534c0341432SJohn Baldwin return (&auth_hash_hmac_md5); 535c0341432SJohn Baldwin case CRYPTO_SHA1_HMAC: 536c0341432SJohn Baldwin return (&auth_hash_hmac_sha1); 537c0341432SJohn Baldwin case CRYPTO_SHA2_224_HMAC: 538c0341432SJohn Baldwin return (&auth_hash_hmac_sha2_224); 539c0341432SJohn Baldwin case CRYPTO_SHA2_256_HMAC: 540c0341432SJohn Baldwin return (&auth_hash_hmac_sha2_256); 541c0341432SJohn Baldwin case CRYPTO_SHA2_384_HMAC: 542c0341432SJohn Baldwin return (&auth_hash_hmac_sha2_384); 543c0341432SJohn Baldwin case CRYPTO_SHA2_512_HMAC: 544c0341432SJohn Baldwin return (&auth_hash_hmac_sha2_512); 545c0341432SJohn Baldwin case CRYPTO_NULL_HMAC: 546c0341432SJohn Baldwin return (&auth_hash_null); 547c0341432SJohn Baldwin case CRYPTO_RIPEMD160_HMAC: 548c0341432SJohn Baldwin return (&auth_hash_hmac_ripemd_160); 549c0341432SJohn Baldwin case CRYPTO_MD5_KPDK: 550c0341432SJohn Baldwin return (&auth_hash_key_md5); 551c0341432SJohn Baldwin case CRYPTO_SHA1_KPDK: 552c0341432SJohn Baldwin return (&auth_hash_key_sha1); 553c0341432SJohn Baldwin #ifdef notyet 554c0341432SJohn Baldwin case CRYPTO_MD5: 555c0341432SJohn Baldwin return (&auth_hash_md5); 556c0341432SJohn Baldwin #endif 557c0341432SJohn Baldwin case CRYPTO_SHA1: 558c0341432SJohn Baldwin return (&auth_hash_sha1); 559c0341432SJohn Baldwin case CRYPTO_SHA2_224: 560c0341432SJohn Baldwin return (&auth_hash_sha2_224); 561c0341432SJohn Baldwin case CRYPTO_SHA2_256: 562c0341432SJohn Baldwin return (&auth_hash_sha2_256); 563c0341432SJohn Baldwin case CRYPTO_SHA2_384: 564c0341432SJohn Baldwin return (&auth_hash_sha2_384); 565c0341432SJohn Baldwin case CRYPTO_SHA2_512: 566c0341432SJohn Baldwin return (&auth_hash_sha2_512); 567c0341432SJohn Baldwin case CRYPTO_AES_NIST_GMAC: 568c0341432SJohn Baldwin switch (csp->csp_auth_klen) { 569c0341432SJohn Baldwin case 128 / 8: 570c0341432SJohn Baldwin return (&auth_hash_nist_gmac_aes_128); 571c0341432SJohn Baldwin case 192 / 8: 572c0341432SJohn Baldwin return (&auth_hash_nist_gmac_aes_192); 573c0341432SJohn Baldwin case 256 / 8: 574c0341432SJohn Baldwin return (&auth_hash_nist_gmac_aes_256); 575c0341432SJohn Baldwin default: 576c0341432SJohn Baldwin return (NULL); 577c0341432SJohn Baldwin } 578c0341432SJohn Baldwin case CRYPTO_BLAKE2B: 579c0341432SJohn Baldwin return (&auth_hash_blake2b); 580c0341432SJohn Baldwin case CRYPTO_BLAKE2S: 581c0341432SJohn Baldwin return (&auth_hash_blake2s); 582c0341432SJohn Baldwin case CRYPTO_POLY1305: 583c0341432SJohn Baldwin return (&auth_hash_poly1305); 584c0341432SJohn Baldwin case CRYPTO_AES_CCM_CBC_MAC: 585c0341432SJohn Baldwin switch (csp->csp_auth_klen) { 586c0341432SJohn Baldwin case 128 / 8: 587c0341432SJohn Baldwin return (&auth_hash_ccm_cbc_mac_128); 588c0341432SJohn Baldwin case 192 / 8: 589c0341432SJohn Baldwin return (&auth_hash_ccm_cbc_mac_192); 590c0341432SJohn Baldwin case 256 / 8: 591c0341432SJohn Baldwin return (&auth_hash_ccm_cbc_mac_256); 592c0341432SJohn Baldwin default: 593c0341432SJohn Baldwin return (NULL); 594c0341432SJohn Baldwin } 595c0341432SJohn Baldwin default: 596c0341432SJohn Baldwin return (NULL); 597c0341432SJohn Baldwin } 598c0341432SJohn Baldwin } 599c0341432SJohn Baldwin 600c0341432SJohn Baldwin struct enc_xform * 601c0341432SJohn Baldwin crypto_cipher(const struct crypto_session_params *csp) 602c0341432SJohn Baldwin { 603c0341432SJohn Baldwin 604c0341432SJohn Baldwin switch (csp->csp_cipher_alg) { 605c0341432SJohn Baldwin case CRYPTO_DES_CBC: 606c0341432SJohn Baldwin return (&enc_xform_des); 607c0341432SJohn Baldwin case CRYPTO_3DES_CBC: 608c0341432SJohn Baldwin return (&enc_xform_3des); 609c0341432SJohn Baldwin case CRYPTO_BLF_CBC: 610c0341432SJohn Baldwin return (&enc_xform_blf); 611c0341432SJohn Baldwin case CRYPTO_CAST_CBC: 612c0341432SJohn Baldwin return (&enc_xform_cast5); 613c0341432SJohn Baldwin case CRYPTO_SKIPJACK_CBC: 614c0341432SJohn Baldwin return (&enc_xform_skipjack); 615c0341432SJohn Baldwin case CRYPTO_RIJNDAEL128_CBC: 616c0341432SJohn Baldwin return (&enc_xform_rijndael128); 617c0341432SJohn Baldwin case CRYPTO_AES_XTS: 618c0341432SJohn Baldwin return (&enc_xform_aes_xts); 619c0341432SJohn Baldwin case CRYPTO_AES_ICM: 620c0341432SJohn Baldwin return (&enc_xform_aes_icm); 621c0341432SJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 622c0341432SJohn Baldwin return (&enc_xform_aes_nist_gcm); 623c0341432SJohn Baldwin case CRYPTO_CAMELLIA_CBC: 624c0341432SJohn Baldwin return (&enc_xform_camellia); 625c0341432SJohn Baldwin case CRYPTO_NULL_CBC: 626c0341432SJohn Baldwin return (&enc_xform_null); 627c0341432SJohn Baldwin case CRYPTO_CHACHA20: 628c0341432SJohn Baldwin return (&enc_xform_chacha20); 629c0341432SJohn Baldwin case CRYPTO_AES_CCM_16: 630c0341432SJohn Baldwin return (&enc_xform_ccm); 631c0341432SJohn Baldwin default: 632c0341432SJohn Baldwin return (NULL); 633c0341432SJohn Baldwin } 634c0341432SJohn Baldwin } 635c0341432SJohn Baldwin 6366810ad6fSSam Leffler static struct cryptocap * 6376810ad6fSSam Leffler crypto_checkdriver(u_int32_t hid) 6386810ad6fSSam Leffler { 6396810ad6fSSam Leffler 640c0341432SJohn Baldwin return (hid >= crypto_drivers_size ? NULL : crypto_drivers[hid]); 641f544a528SMark Murray } 642f544a528SMark Murray 643091d81d1SSam Leffler /* 6446810ad6fSSam Leffler * Select a driver for a new session that supports the specified 6456810ad6fSSam Leffler * algorithms and, optionally, is constrained according to the flags. 646091d81d1SSam Leffler */ 6476810ad6fSSam Leffler static struct cryptocap * 648c0341432SJohn Baldwin crypto_select_driver(const struct crypto_session_params *csp, int flags) 6496810ad6fSSam Leffler { 6506810ad6fSSam Leffler struct cryptocap *cap, *best; 651c0341432SJohn Baldwin int best_match, error, hid; 6526810ad6fSSam Leffler 6536810ad6fSSam Leffler CRYPTO_DRIVER_ASSERT(); 654091d81d1SSam Leffler 6556810ad6fSSam Leffler best = NULL; 656c0341432SJohn Baldwin for (hid = 0; hid < crypto_drivers_size; hid++) { 657091d81d1SSam Leffler /* 658c0341432SJohn Baldwin * If there is no driver for this slot, or the driver 659c0341432SJohn Baldwin * is not appropriate (hardware or software based on 660c0341432SJohn Baldwin * match), then skip. 661091d81d1SSam Leffler */ 662c0341432SJohn Baldwin cap = crypto_drivers[hid]; 663c0341432SJohn Baldwin if (cap == NULL || 664c0341432SJohn Baldwin (cap->cc_flags & flags) == 0) 665091d81d1SSam Leffler continue; 666091d81d1SSam Leffler 667c0341432SJohn Baldwin error = CRYPTODEV_PROBESESSION(cap->cc_dev, csp); 668c0341432SJohn Baldwin if (error >= 0) 669c0341432SJohn Baldwin continue; 670c0341432SJohn Baldwin 671c0341432SJohn Baldwin /* 672c0341432SJohn Baldwin * Use the driver with the highest probe value. 673c0341432SJohn Baldwin * Hardware drivers use a higher probe value than 674c0341432SJohn Baldwin * software. In case of a tie, prefer the driver with 675c0341432SJohn Baldwin * the fewest active sessions. 676c0341432SJohn Baldwin */ 677c0341432SJohn Baldwin if (best == NULL || error > best_match || 678c0341432SJohn Baldwin (error == best_match && 679c0341432SJohn Baldwin cap->cc_sessions < best->cc_sessions)) { 6806810ad6fSSam Leffler best = cap; 681c0341432SJohn Baldwin best_match = error; 6826810ad6fSSam Leffler } 6836810ad6fSSam Leffler } 6846810ad6fSSam Leffler return best; 6856810ad6fSSam Leffler } 686091d81d1SSam Leffler 687*ad557055SJohn Baldwin static enum alg_type { 688*ad557055SJohn Baldwin ALG_NONE = 0, 689*ad557055SJohn Baldwin ALG_CIPHER, 690*ad557055SJohn Baldwin ALG_DIGEST, 691*ad557055SJohn Baldwin ALG_KEYED_DIGEST, 692*ad557055SJohn Baldwin ALG_COMPRESSION, 693*ad557055SJohn Baldwin ALG_AEAD 694*ad557055SJohn Baldwin } alg_types[] = { 695*ad557055SJohn Baldwin [CRYPTO_DES_CBC] = ALG_CIPHER, 696*ad557055SJohn Baldwin [CRYPTO_3DES_CBC] = ALG_CIPHER, 697*ad557055SJohn Baldwin [CRYPTO_BLF_CBC] = ALG_CIPHER, 698*ad557055SJohn Baldwin [CRYPTO_CAST_CBC] = ALG_CIPHER, 699*ad557055SJohn Baldwin [CRYPTO_SKIPJACK_CBC] = ALG_CIPHER, 700*ad557055SJohn Baldwin [CRYPTO_MD5_HMAC] = ALG_KEYED_DIGEST, 701*ad557055SJohn Baldwin [CRYPTO_SHA1_HMAC] = ALG_KEYED_DIGEST, 702*ad557055SJohn Baldwin [CRYPTO_RIPEMD160_HMAC] = ALG_KEYED_DIGEST, 703*ad557055SJohn Baldwin [CRYPTO_MD5_KPDK] = ALG_KEYED_DIGEST, 704*ad557055SJohn Baldwin [CRYPTO_SHA1_KPDK] = ALG_KEYED_DIGEST, 705*ad557055SJohn Baldwin [CRYPTO_AES_CBC] = ALG_CIPHER, 706*ad557055SJohn Baldwin [CRYPTO_ARC4] = ALG_CIPHER, 707*ad557055SJohn Baldwin [CRYPTO_MD5] = ALG_DIGEST, 708*ad557055SJohn Baldwin [CRYPTO_SHA1] = ALG_DIGEST, 709*ad557055SJohn Baldwin [CRYPTO_NULL_HMAC] = ALG_DIGEST, 710*ad557055SJohn Baldwin [CRYPTO_NULL_CBC] = ALG_CIPHER, 711*ad557055SJohn Baldwin [CRYPTO_DEFLATE_COMP] = ALG_COMPRESSION, 712*ad557055SJohn Baldwin [CRYPTO_SHA2_256_HMAC] = ALG_KEYED_DIGEST, 713*ad557055SJohn Baldwin [CRYPTO_SHA2_384_HMAC] = ALG_KEYED_DIGEST, 714*ad557055SJohn Baldwin [CRYPTO_SHA2_512_HMAC] = ALG_KEYED_DIGEST, 715*ad557055SJohn Baldwin [CRYPTO_CAMELLIA_CBC] = ALG_CIPHER, 716*ad557055SJohn Baldwin [CRYPTO_AES_XTS] = ALG_CIPHER, 717*ad557055SJohn Baldwin [CRYPTO_AES_ICM] = ALG_CIPHER, 718*ad557055SJohn Baldwin [CRYPTO_AES_NIST_GMAC] = ALG_KEYED_DIGEST, 719*ad557055SJohn Baldwin [CRYPTO_AES_NIST_GCM_16] = ALG_AEAD, 720*ad557055SJohn Baldwin [CRYPTO_BLAKE2B] = ALG_KEYED_DIGEST, 721*ad557055SJohn Baldwin [CRYPTO_BLAKE2S] = ALG_KEYED_DIGEST, 722*ad557055SJohn Baldwin [CRYPTO_CHACHA20] = ALG_CIPHER, 723*ad557055SJohn Baldwin [CRYPTO_SHA2_224_HMAC] = ALG_KEYED_DIGEST, 724*ad557055SJohn Baldwin [CRYPTO_RIPEMD160] = ALG_DIGEST, 725*ad557055SJohn Baldwin [CRYPTO_SHA2_224] = ALG_DIGEST, 726*ad557055SJohn Baldwin [CRYPTO_SHA2_256] = ALG_DIGEST, 727*ad557055SJohn Baldwin [CRYPTO_SHA2_384] = ALG_DIGEST, 728*ad557055SJohn Baldwin [CRYPTO_SHA2_512] = ALG_DIGEST, 729*ad557055SJohn Baldwin [CRYPTO_POLY1305] = ALG_KEYED_DIGEST, 730*ad557055SJohn Baldwin [CRYPTO_AES_CCM_CBC_MAC] = ALG_KEYED_DIGEST, 731*ad557055SJohn Baldwin [CRYPTO_AES_CCM_16] = ALG_AEAD, 732*ad557055SJohn Baldwin }; 733*ad557055SJohn Baldwin 734*ad557055SJohn Baldwin static enum alg_type 735*ad557055SJohn Baldwin alg_type(int alg) 736*ad557055SJohn Baldwin { 737*ad557055SJohn Baldwin 738*ad557055SJohn Baldwin if (alg < nitems(alg_types)) 739*ad557055SJohn Baldwin return (alg_types[alg]); 740*ad557055SJohn Baldwin return (ALG_NONE); 741*ad557055SJohn Baldwin } 742*ad557055SJohn Baldwin 743c0341432SJohn Baldwin static bool 744c0341432SJohn Baldwin alg_is_compression(int alg) 745c0341432SJohn Baldwin { 746c0341432SJohn Baldwin 747*ad557055SJohn Baldwin return (alg_type(alg) == ALG_COMPRESSION); 748c0341432SJohn Baldwin } 749c0341432SJohn Baldwin 750c0341432SJohn Baldwin static bool 751c0341432SJohn Baldwin alg_is_cipher(int alg) 752c0341432SJohn Baldwin { 753c0341432SJohn Baldwin 754*ad557055SJohn Baldwin return (alg_type(alg) == ALG_CIPHER); 755c0341432SJohn Baldwin } 756c0341432SJohn Baldwin 757c0341432SJohn Baldwin static bool 758c0341432SJohn Baldwin alg_is_digest(int alg) 759c0341432SJohn Baldwin { 760c0341432SJohn Baldwin 761*ad557055SJohn Baldwin return (alg_type(alg) == ALG_DIGEST || 762*ad557055SJohn Baldwin alg_type(alg) == ALG_KEYED_DIGEST); 763c0341432SJohn Baldwin } 764c0341432SJohn Baldwin 765c0341432SJohn Baldwin static bool 766c0341432SJohn Baldwin alg_is_keyed_digest(int alg) 767c0341432SJohn Baldwin { 768c0341432SJohn Baldwin 769*ad557055SJohn Baldwin return (alg_type(alg) == ALG_KEYED_DIGEST); 770c0341432SJohn Baldwin } 771c0341432SJohn Baldwin 772c0341432SJohn Baldwin static bool 773c0341432SJohn Baldwin alg_is_aead(int alg) 774c0341432SJohn Baldwin { 775c0341432SJohn Baldwin 776*ad557055SJohn Baldwin return (alg_type(alg) == ALG_AEAD); 777c0341432SJohn Baldwin } 778c0341432SJohn Baldwin 779c0341432SJohn Baldwin /* Various sanity checks on crypto session parameters. */ 780c0341432SJohn Baldwin static bool 781c0341432SJohn Baldwin check_csp(const struct crypto_session_params *csp) 782c0341432SJohn Baldwin { 783c0341432SJohn Baldwin struct auth_hash *axf; 784c0341432SJohn Baldwin 785c0341432SJohn Baldwin /* Mode-independent checks. */ 786c0341432SJohn Baldwin if (csp->csp_flags != 0) 787c0341432SJohn Baldwin return (false); 788c0341432SJohn Baldwin if (csp->csp_ivlen < 0 || csp->csp_cipher_klen < 0 || 789c0341432SJohn Baldwin csp->csp_auth_klen < 0 || csp->csp_auth_mlen < 0) 790c0341432SJohn Baldwin return (false); 791c0341432SJohn Baldwin if (csp->csp_auth_key != NULL && csp->csp_auth_klen == 0) 792c0341432SJohn Baldwin return (false); 793c0341432SJohn Baldwin if (csp->csp_cipher_key != NULL && csp->csp_cipher_klen == 0) 794c0341432SJohn Baldwin return (false); 795c0341432SJohn Baldwin 796c0341432SJohn Baldwin switch (csp->csp_mode) { 797c0341432SJohn Baldwin case CSP_MODE_COMPRESS: 798c0341432SJohn Baldwin if (!alg_is_compression(csp->csp_cipher_alg)) 799c0341432SJohn Baldwin return (false); 800c0341432SJohn Baldwin if (csp->csp_flags != 0) 801c0341432SJohn Baldwin return (false); 802c0341432SJohn Baldwin if (csp->csp_cipher_klen != 0 || csp->csp_ivlen != 0 || 803c0341432SJohn Baldwin csp->csp_auth_alg != 0 || csp->csp_auth_klen != 0 || 804c0341432SJohn Baldwin csp->csp_auth_mlen != 0) 805c0341432SJohn Baldwin return (false); 806c0341432SJohn Baldwin break; 807c0341432SJohn Baldwin case CSP_MODE_CIPHER: 808c0341432SJohn Baldwin if (!alg_is_cipher(csp->csp_cipher_alg)) 809c0341432SJohn Baldwin return (false); 810c0341432SJohn Baldwin if (csp->csp_cipher_alg != CRYPTO_NULL_CBC) { 811c0341432SJohn Baldwin if (csp->csp_cipher_klen == 0) 812c0341432SJohn Baldwin return (false); 813c0341432SJohn Baldwin if (csp->csp_cipher_alg != CRYPTO_ARC4) { 814c0341432SJohn Baldwin if (csp->csp_ivlen == 0) 815c0341432SJohn Baldwin return (false); 816c0341432SJohn Baldwin } 817c0341432SJohn Baldwin } 818c0341432SJohn Baldwin if (csp->csp_ivlen >= EALG_MAX_BLOCK_LEN) 819c0341432SJohn Baldwin return (false); 820c0341432SJohn Baldwin if (csp->csp_auth_alg != 0 || csp->csp_auth_klen != 0 || 821c0341432SJohn Baldwin csp->csp_auth_mlen != 0) 822c0341432SJohn Baldwin return (false); 823c0341432SJohn Baldwin break; 824c0341432SJohn Baldwin case CSP_MODE_DIGEST: 825c0341432SJohn Baldwin if (csp->csp_cipher_alg != 0 || csp->csp_cipher_klen != 0) 826c0341432SJohn Baldwin return (false); 827c0341432SJohn Baldwin 828c0341432SJohn Baldwin /* IV is optional for digests (e.g. GMAC). */ 829c0341432SJohn Baldwin if (csp->csp_ivlen >= EALG_MAX_BLOCK_LEN) 830c0341432SJohn Baldwin return (false); 831c0341432SJohn Baldwin if (!alg_is_digest(csp->csp_auth_alg)) 832c0341432SJohn Baldwin return (false); 833c0341432SJohn Baldwin 834c0341432SJohn Baldwin /* Key is optional for BLAKE2 digests. */ 835c0341432SJohn Baldwin if (csp->csp_auth_alg == CRYPTO_BLAKE2B || 836c0341432SJohn Baldwin csp->csp_auth_alg == CRYPTO_BLAKE2S) 837c0341432SJohn Baldwin ; 838c0341432SJohn Baldwin else if (alg_is_keyed_digest(csp->csp_auth_alg)) { 839c0341432SJohn Baldwin if (csp->csp_auth_klen == 0) 840c0341432SJohn Baldwin return (false); 841c0341432SJohn Baldwin } else { 842c0341432SJohn Baldwin if (csp->csp_auth_klen != 0) 843c0341432SJohn Baldwin return (false); 844c0341432SJohn Baldwin } 845c0341432SJohn Baldwin if (csp->csp_auth_mlen != 0) { 846c0341432SJohn Baldwin axf = crypto_auth_hash(csp); 847c0341432SJohn Baldwin if (axf == NULL || csp->csp_auth_mlen > axf->hashsize) 848c0341432SJohn Baldwin return (false); 849c0341432SJohn Baldwin } 850c0341432SJohn Baldwin break; 851c0341432SJohn Baldwin case CSP_MODE_AEAD: 852c0341432SJohn Baldwin if (!alg_is_aead(csp->csp_cipher_alg)) 853c0341432SJohn Baldwin return (false); 854c0341432SJohn Baldwin if (csp->csp_cipher_klen == 0) 855c0341432SJohn Baldwin return (false); 856c0341432SJohn Baldwin if (csp->csp_ivlen == 0 || 857c0341432SJohn Baldwin csp->csp_ivlen >= EALG_MAX_BLOCK_LEN) 858c0341432SJohn Baldwin return (false); 859c0341432SJohn Baldwin if (csp->csp_auth_alg != 0 || csp->csp_auth_klen != 0) 860c0341432SJohn Baldwin return (false); 861c0341432SJohn Baldwin 862c0341432SJohn Baldwin /* 863c0341432SJohn Baldwin * XXX: Would be nice to have a better way to get this 864c0341432SJohn Baldwin * value. 865c0341432SJohn Baldwin */ 866c0341432SJohn Baldwin switch (csp->csp_cipher_alg) { 867c0341432SJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 868c0341432SJohn Baldwin case CRYPTO_AES_CCM_16: 869c0341432SJohn Baldwin if (csp->csp_auth_mlen > 16) 870c0341432SJohn Baldwin return (false); 871c0341432SJohn Baldwin break; 872c0341432SJohn Baldwin } 873c0341432SJohn Baldwin break; 874c0341432SJohn Baldwin case CSP_MODE_ETA: 875c0341432SJohn Baldwin if (!alg_is_cipher(csp->csp_cipher_alg)) 876c0341432SJohn Baldwin return (false); 877c0341432SJohn Baldwin if (csp->csp_cipher_alg != CRYPTO_NULL_CBC) { 878c0341432SJohn Baldwin if (csp->csp_cipher_klen == 0) 879c0341432SJohn Baldwin return (false); 880c0341432SJohn Baldwin if (csp->csp_cipher_alg != CRYPTO_ARC4) { 881c0341432SJohn Baldwin if (csp->csp_ivlen == 0) 882c0341432SJohn Baldwin return (false); 883c0341432SJohn Baldwin } 884c0341432SJohn Baldwin } 885c0341432SJohn Baldwin if (csp->csp_ivlen >= EALG_MAX_BLOCK_LEN) 886c0341432SJohn Baldwin return (false); 887c0341432SJohn Baldwin if (!alg_is_digest(csp->csp_auth_alg)) 888c0341432SJohn Baldwin return (false); 889c0341432SJohn Baldwin 890c0341432SJohn Baldwin /* Key is optional for BLAKE2 digests. */ 891c0341432SJohn Baldwin if (csp->csp_auth_alg == CRYPTO_BLAKE2B || 892c0341432SJohn Baldwin csp->csp_auth_alg == CRYPTO_BLAKE2S) 893c0341432SJohn Baldwin ; 894c0341432SJohn Baldwin else if (alg_is_keyed_digest(csp->csp_auth_alg)) { 895c0341432SJohn Baldwin if (csp->csp_auth_klen == 0) 896c0341432SJohn Baldwin return (false); 897c0341432SJohn Baldwin } else { 898c0341432SJohn Baldwin if (csp->csp_auth_klen != 0) 899c0341432SJohn Baldwin return (false); 900c0341432SJohn Baldwin } 901c0341432SJohn Baldwin if (csp->csp_auth_mlen != 0) { 902c0341432SJohn Baldwin axf = crypto_auth_hash(csp); 903c0341432SJohn Baldwin if (axf == NULL || csp->csp_auth_mlen > axf->hashsize) 904c0341432SJohn Baldwin return (false); 905c0341432SJohn Baldwin } 906c0341432SJohn Baldwin break; 907c0341432SJohn Baldwin default: 908c0341432SJohn Baldwin return (false); 909c0341432SJohn Baldwin } 910c0341432SJohn Baldwin 911c0341432SJohn Baldwin return (true); 912c0341432SJohn Baldwin } 913c0341432SJohn Baldwin 914c0341432SJohn Baldwin /* 915c0341432SJohn Baldwin * Delete a session after it has been detached from its driver. 916c0341432SJohn Baldwin */ 917c0341432SJohn Baldwin static void 918c0341432SJohn Baldwin crypto_deletesession(crypto_session_t cses) 919c0341432SJohn Baldwin { 920c0341432SJohn Baldwin struct cryptocap *cap; 921c0341432SJohn Baldwin 922c0341432SJohn Baldwin cap = cses->cap; 923c0341432SJohn Baldwin 924c0341432SJohn Baldwin explicit_bzero(cses->softc, cap->cc_session_size); 925c0341432SJohn Baldwin free(cses->softc, M_CRYPTO_DATA); 926c0341432SJohn Baldwin uma_zfree(cryptoses_zone, cses); 927c0341432SJohn Baldwin 928c0341432SJohn Baldwin CRYPTO_DRIVER_LOCK(); 929c0341432SJohn Baldwin cap->cc_sessions--; 930c0341432SJohn Baldwin if (cap->cc_sessions == 0 && cap->cc_flags & CRYPTOCAP_F_CLEANUP) 931c0341432SJohn Baldwin wakeup(cap); 932c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 933c0341432SJohn Baldwin cap_rele(cap); 934c0341432SJohn Baldwin } 935c0341432SJohn Baldwin 936694e0113SPawel Jakub Dawidek /* 9376810ad6fSSam Leffler * Create a new session. The crid argument specifies a crypto 9386810ad6fSSam Leffler * driver to use or constraints on a driver to select (hardware 9396810ad6fSSam Leffler * only, software only, either). Whatever driver is selected 9406810ad6fSSam Leffler * must be capable of the requested crypto algorithms. 941694e0113SPawel Jakub Dawidek */ 9426810ad6fSSam Leffler int 943c0341432SJohn Baldwin crypto_newsession(crypto_session_t *cses, 944c0341432SJohn Baldwin const struct crypto_session_params *csp, int crid) 9456810ad6fSSam Leffler { 9461b0909d5SConrad Meyer crypto_session_t res; 9476810ad6fSSam Leffler struct cryptocap *cap; 9486810ad6fSSam Leffler int err; 9496810ad6fSSam Leffler 950c0341432SJohn Baldwin if (!check_csp(csp)) 951c0341432SJohn Baldwin return (EINVAL); 952c0341432SJohn Baldwin 9531b0909d5SConrad Meyer res = NULL; 9541b0909d5SConrad Meyer 9556810ad6fSSam Leffler CRYPTO_DRIVER_LOCK(); 9566810ad6fSSam Leffler if ((crid & (CRYPTOCAP_F_HARDWARE | CRYPTOCAP_F_SOFTWARE)) == 0) { 957694e0113SPawel Jakub Dawidek /* 9586810ad6fSSam Leffler * Use specified driver; verify it is capable. 959694e0113SPawel Jakub Dawidek */ 9606810ad6fSSam Leffler cap = crypto_checkdriver(crid); 961c0341432SJohn Baldwin if (cap != NULL && CRYPTODEV_PROBESESSION(cap->cc_dev, csp) > 0) 962694e0113SPawel Jakub Dawidek cap = NULL; 9636810ad6fSSam Leffler } else { 9646810ad6fSSam Leffler /* 9656810ad6fSSam Leffler * No requested driver; select based on crid flags. 9666810ad6fSSam Leffler */ 967c0341432SJohn Baldwin cap = crypto_select_driver(csp, crid); 968694e0113SPawel Jakub Dawidek } 9691b0909d5SConrad Meyer if (cap == NULL) { 970c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 97108fca7a5SJohn-Mark Gurney CRYPTDEB("no driver"); 972c0341432SJohn Baldwin return (EOPNOTSUPP); 97308fca7a5SJohn-Mark Gurney } 974c0341432SJohn Baldwin cap_ref(cap); 9751b0909d5SConrad Meyer cap->cc_sessions++; 976091d81d1SSam Leffler CRYPTO_DRIVER_UNLOCK(); 9771b0909d5SConrad Meyer 9781b0909d5SConrad Meyer res = uma_zalloc(cryptoses_zone, M_WAITOK | M_ZERO); 979c0341432SJohn Baldwin res->cap = cap; 980c0341432SJohn Baldwin res->softc = malloc(cap->cc_session_size, M_CRYPTO_DATA, M_WAITOK | 981c0341432SJohn Baldwin M_ZERO); 982c0341432SJohn Baldwin res->csp = *csp; 9831b0909d5SConrad Meyer 9841b0909d5SConrad Meyer /* Call the driver initialization routine. */ 985c0341432SJohn Baldwin err = CRYPTODEV_NEWSESSION(cap->cc_dev, res, csp); 9861b0909d5SConrad Meyer if (err != 0) { 9871b0909d5SConrad Meyer CRYPTDEB("dev newsession failed: %d", err); 988c0341432SJohn Baldwin crypto_deletesession(res); 989c0341432SJohn Baldwin return (err); 9901b0909d5SConrad Meyer } 9911b0909d5SConrad Meyer 9921b0909d5SConrad Meyer *cses = res; 993c0341432SJohn Baldwin return (0); 9944acae0acSPawel Jakub Dawidek } 9954acae0acSPawel Jakub Dawidek 996091d81d1SSam Leffler /* 997091d81d1SSam Leffler * Delete an existing session (or a reserved session on an unregistered 998091d81d1SSam Leffler * driver). 999091d81d1SSam Leffler */ 10001b0909d5SConrad Meyer void 10011b0909d5SConrad Meyer crypto_freesession(crypto_session_t cses) 1002091d81d1SSam Leffler { 10034acae0acSPawel Jakub Dawidek struct cryptocap *cap; 10041b0909d5SConrad Meyer 10051b0909d5SConrad Meyer if (cses == NULL) 10061b0909d5SConrad Meyer return; 1007091d81d1SSam Leffler 1008c0341432SJohn Baldwin cap = cses->cap; 1009091d81d1SSam Leffler 1010091d81d1SSam Leffler /* Call the driver cleanup routine, if available. */ 10111b0909d5SConrad Meyer CRYPTODEV_FREESESSION(cap->cc_dev, cses); 10121b0909d5SConrad Meyer 1013c0341432SJohn Baldwin crypto_deletesession(cses); 1014091d81d1SSam Leffler } 1015091d81d1SSam Leffler 1016091d81d1SSam Leffler /* 1017c0341432SJohn Baldwin * Return a new driver id. Registers a driver with the system so that 1018c0341432SJohn Baldwin * it can be probed by subsequent sessions. 1019091d81d1SSam Leffler */ 1020091d81d1SSam Leffler int32_t 10211b0909d5SConrad Meyer crypto_get_driverid(device_t dev, size_t sessionsize, int flags) 1022091d81d1SSam Leffler { 1023c0341432SJohn Baldwin struct cryptocap *cap, **newdrv; 1024091d81d1SSam Leffler int i; 1025091d81d1SSam Leffler 10266810ad6fSSam Leffler if ((flags & (CRYPTOCAP_F_HARDWARE | CRYPTOCAP_F_SOFTWARE)) == 0) { 1027c0341432SJohn Baldwin device_printf(dev, 1028c0341432SJohn Baldwin "no flags specified when registering driver\n"); 10296810ad6fSSam Leffler return -1; 10306810ad6fSSam Leffler } 10316810ad6fSSam Leffler 1032c0341432SJohn Baldwin cap = malloc(sizeof(*cap), M_CRYPTO_DATA, M_WAITOK | M_ZERO); 1033c0341432SJohn Baldwin cap->cc_dev = dev; 1034c0341432SJohn Baldwin cap->cc_session_size = sessionsize; 1035c0341432SJohn Baldwin cap->cc_flags = flags; 1036c0341432SJohn Baldwin refcount_init(&cap->cc_refs, 1); 1037c0341432SJohn Baldwin 1038091d81d1SSam Leffler CRYPTO_DRIVER_LOCK(); 1039c0341432SJohn Baldwin for (;;) { 1040c0341432SJohn Baldwin for (i = 0; i < crypto_drivers_size; i++) { 1041c0341432SJohn Baldwin if (crypto_drivers[i] == NULL) 1042091d81d1SSam Leffler break; 10434acae0acSPawel Jakub Dawidek } 1044c0341432SJohn Baldwin 1045c0341432SJohn Baldwin if (i < crypto_drivers_size) 1046c0341432SJohn Baldwin break; 1047091d81d1SSam Leffler 1048091d81d1SSam Leffler /* Out of entries, allocate some more. */ 1049c0341432SJohn Baldwin 1050c0341432SJohn Baldwin if (2 * crypto_drivers_size <= crypto_drivers_size) { 1051091d81d1SSam Leffler CRYPTO_DRIVER_UNLOCK(); 1052091d81d1SSam Leffler printf("crypto: driver count wraparound!\n"); 1053c0341432SJohn Baldwin cap_rele(cap); 1054c0341432SJohn Baldwin return (-1); 1055091d81d1SSam Leffler } 1056091d81d1SSam Leffler CRYPTO_DRIVER_UNLOCK(); 1057091d81d1SSam Leffler 1058c0341432SJohn Baldwin newdrv = malloc(2 * crypto_drivers_size * 1059c0341432SJohn Baldwin sizeof(*crypto_drivers), M_CRYPTO_DATA, M_WAITOK | M_ZERO); 1060091d81d1SSam Leffler 1061c0341432SJohn Baldwin CRYPTO_DRIVER_LOCK(); 1062c0341432SJohn Baldwin memcpy(newdrv, crypto_drivers, 1063c0341432SJohn Baldwin crypto_drivers_size * sizeof(*crypto_drivers)); 1064c0341432SJohn Baldwin 1065c0341432SJohn Baldwin crypto_drivers_size *= 2; 1066091d81d1SSam Leffler 1067091d81d1SSam Leffler free(crypto_drivers, M_CRYPTO_DATA); 1068091d81d1SSam Leffler crypto_drivers = newdrv; 1069091d81d1SSam Leffler } 1070091d81d1SSam Leffler 1071c0341432SJohn Baldwin cap->cc_hid = i; 1072c0341432SJohn Baldwin crypto_drivers[i] = cap; 1073c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 1074c0341432SJohn Baldwin 1075091d81d1SSam Leffler if (bootverbose) 1076d7d2f0d4SConrad Meyer printf("crypto: assign %s driver id %u, flags 0x%x\n", 10776810ad6fSSam Leffler device_get_nameunit(dev), i, flags); 1078091d81d1SSam Leffler 1079091d81d1SSam Leffler return i; 1080091d81d1SSam Leffler } 1081091d81d1SSam Leffler 10826810ad6fSSam Leffler /* 10836810ad6fSSam Leffler * Lookup a driver by name. We match against the full device 10846810ad6fSSam Leffler * name and unit, and against just the name. The latter gives 10856810ad6fSSam Leffler * us a simple widlcarding by device name. On success return the 10866810ad6fSSam Leffler * driver/hardware identifier; otherwise return -1. 10876810ad6fSSam Leffler */ 10886810ad6fSSam Leffler int 10896810ad6fSSam Leffler crypto_find_driver(const char *match) 1090091d81d1SSam Leffler { 1091c0341432SJohn Baldwin struct cryptocap *cap; 10926810ad6fSSam Leffler int i, len = strlen(match); 10936810ad6fSSam Leffler 10946810ad6fSSam Leffler CRYPTO_DRIVER_LOCK(); 1095c0341432SJohn Baldwin for (i = 0; i < crypto_drivers_size; i++) { 1096c0341432SJohn Baldwin if (crypto_drivers[i] == NULL) 10976810ad6fSSam Leffler continue; 1098c0341432SJohn Baldwin cap = crypto_drivers[i]; 1099c0341432SJohn Baldwin if (strncmp(match, device_get_nameunit(cap->cc_dev), len) == 0 || 1100c0341432SJohn Baldwin strncmp(match, device_get_name(cap->cc_dev), len) == 0) { 1101c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 1102c0341432SJohn Baldwin return (i); 1103c0341432SJohn Baldwin } 11046810ad6fSSam Leffler } 11056810ad6fSSam Leffler CRYPTO_DRIVER_UNLOCK(); 1106c0341432SJohn Baldwin return (-1); 11076810ad6fSSam Leffler } 11086810ad6fSSam Leffler 11096810ad6fSSam Leffler /* 11106810ad6fSSam Leffler * Return the device_t for the specified driver or NULL 11116810ad6fSSam Leffler * if the driver identifier is invalid. 11126810ad6fSSam Leffler */ 11136810ad6fSSam Leffler device_t 11146810ad6fSSam Leffler crypto_find_device_byhid(int hid) 11156810ad6fSSam Leffler { 1116c0341432SJohn Baldwin struct cryptocap *cap; 1117c0341432SJohn Baldwin device_t dev; 1118c0341432SJohn Baldwin 1119c0341432SJohn Baldwin dev = NULL; 1120c0341432SJohn Baldwin CRYPTO_DRIVER_LOCK(); 1121c0341432SJohn Baldwin cap = crypto_checkdriver(hid); 1122c0341432SJohn Baldwin if (cap != NULL) 1123c0341432SJohn Baldwin dev = cap->cc_dev; 1124c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 1125c0341432SJohn Baldwin return (dev); 11266810ad6fSSam Leffler } 11276810ad6fSSam Leffler 11286810ad6fSSam Leffler /* 11296810ad6fSSam Leffler * Return the device/driver capabilities. 11306810ad6fSSam Leffler */ 11316810ad6fSSam Leffler int 11326810ad6fSSam Leffler crypto_getcaps(int hid) 11336810ad6fSSam Leffler { 1134c0341432SJohn Baldwin struct cryptocap *cap; 1135c0341432SJohn Baldwin int flags; 1136c0341432SJohn Baldwin 1137c0341432SJohn Baldwin flags = 0; 1138c0341432SJohn Baldwin CRYPTO_DRIVER_LOCK(); 1139c0341432SJohn Baldwin cap = crypto_checkdriver(hid); 1140c0341432SJohn Baldwin if (cap != NULL) 1141c0341432SJohn Baldwin flags = cap->cc_flags; 1142c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 1143c0341432SJohn Baldwin return (flags); 1144091d81d1SSam Leffler } 1145091d81d1SSam Leffler 1146091d81d1SSam Leffler /* 1147091d81d1SSam Leffler * Register support for a key-related algorithm. This routine 1148091d81d1SSam Leffler * is called once for each algorithm supported a driver. 1149091d81d1SSam Leffler */ 1150091d81d1SSam Leffler int 11516810ad6fSSam Leffler crypto_kregister(u_int32_t driverid, int kalg, u_int32_t flags) 1152091d81d1SSam Leffler { 1153091d81d1SSam Leffler struct cryptocap *cap; 1154091d81d1SSam Leffler int err; 1155091d81d1SSam Leffler 1156091d81d1SSam Leffler CRYPTO_DRIVER_LOCK(); 1157091d81d1SSam Leffler 1158091d81d1SSam Leffler cap = crypto_checkdriver(driverid); 1159091d81d1SSam Leffler if (cap != NULL && 1160091d81d1SSam Leffler (CRK_ALGORITM_MIN <= kalg && kalg <= CRK_ALGORITHM_MAX)) { 1161091d81d1SSam Leffler /* 1162091d81d1SSam Leffler * XXX Do some performance testing to determine placing. 1163091d81d1SSam Leffler * XXX We probably need an auxiliary data structure that 1164091d81d1SSam Leffler * XXX describes relative performances. 1165091d81d1SSam Leffler */ 1166091d81d1SSam Leffler 1167091d81d1SSam Leffler cap->cc_kalg[kalg] = flags | CRYPTO_ALG_FLAG_SUPPORTED; 1168091d81d1SSam Leffler if (bootverbose) 11696810ad6fSSam Leffler printf("crypto: %s registers key alg %u flags %u\n" 11706810ad6fSSam Leffler , device_get_nameunit(cap->cc_dev) 1171091d81d1SSam Leffler , kalg 1172091d81d1SSam Leffler , flags 1173091d81d1SSam Leffler ); 1174091d81d1SSam Leffler err = 0; 1175091d81d1SSam Leffler } else 1176091d81d1SSam Leffler err = EINVAL; 1177091d81d1SSam Leffler 1178091d81d1SSam Leffler CRYPTO_DRIVER_UNLOCK(); 1179091d81d1SSam Leffler return err; 1180091d81d1SSam Leffler } 1181091d81d1SSam Leffler 1182091d81d1SSam Leffler /* 1183091d81d1SSam Leffler * Unregister all algorithms associated with a crypto driver. 1184091d81d1SSam Leffler * If there are pending sessions using it, leave enough information 1185091d81d1SSam Leffler * around so that subsequent calls using those sessions will 1186091d81d1SSam Leffler * correctly detect the driver has been unregistered and reroute 1187091d81d1SSam Leffler * requests. 1188091d81d1SSam Leffler */ 1189091d81d1SSam Leffler int 1190091d81d1SSam Leffler crypto_unregister_all(u_int32_t driverid) 1191091d81d1SSam Leffler { 1192091d81d1SSam Leffler struct cryptocap *cap; 1193091d81d1SSam Leffler 1194091d81d1SSam Leffler CRYPTO_DRIVER_LOCK(); 1195091d81d1SSam Leffler cap = crypto_checkdriver(driverid); 1196c0341432SJohn Baldwin if (cap == NULL) { 1197091d81d1SSam Leffler CRYPTO_DRIVER_UNLOCK(); 1198c0341432SJohn Baldwin return (EINVAL); 1199c0341432SJohn Baldwin } 12006810ad6fSSam Leffler 1201c0341432SJohn Baldwin cap->cc_flags |= CRYPTOCAP_F_CLEANUP; 1202c0341432SJohn Baldwin crypto_drivers[driverid] = NULL; 1203c0341432SJohn Baldwin 1204c0341432SJohn Baldwin /* 1205c0341432SJohn Baldwin * XXX: This doesn't do anything to kick sessions that 1206c0341432SJohn Baldwin * have no pending operations. 1207c0341432SJohn Baldwin */ 1208c0341432SJohn Baldwin while (cap->cc_sessions != 0 || cap->cc_koperations != 0) 1209c0341432SJohn Baldwin mtx_sleep(cap, &crypto_drivers_mtx, 0, "cryunreg", 0); 1210c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 1211c0341432SJohn Baldwin cap_rele(cap); 1212c0341432SJohn Baldwin 1213c0341432SJohn Baldwin return (0); 1214091d81d1SSam Leffler } 1215091d81d1SSam Leffler 1216091d81d1SSam Leffler /* 1217091d81d1SSam Leffler * Clear blockage on a driver. The what parameter indicates whether 1218091d81d1SSam Leffler * the driver is now ready for cryptop's and/or cryptokop's. 1219091d81d1SSam Leffler */ 1220091d81d1SSam Leffler int 1221091d81d1SSam Leffler crypto_unblock(u_int32_t driverid, int what) 1222091d81d1SSam Leffler { 1223091d81d1SSam Leffler struct cryptocap *cap; 12243a865c82SPawel Jakub Dawidek int err; 1225091d81d1SSam Leffler 1226091d81d1SSam Leffler CRYPTO_Q_LOCK(); 1227091d81d1SSam Leffler cap = crypto_checkdriver(driverid); 1228091d81d1SSam Leffler if (cap != NULL) { 12293a865c82SPawel Jakub Dawidek if (what & CRYPTO_SYMQ) 1230091d81d1SSam Leffler cap->cc_qblocked = 0; 12313a865c82SPawel Jakub Dawidek if (what & CRYPTO_ASYMQ) 1232091d81d1SSam Leffler cap->cc_kqblocked = 0; 12333a865c82SPawel Jakub Dawidek if (crp_sleep) 12341a91ccccSSam Leffler wakeup_one(&crp_q); 1235091d81d1SSam Leffler err = 0; 1236091d81d1SSam Leffler } else 1237091d81d1SSam Leffler err = EINVAL; 1238091d81d1SSam Leffler CRYPTO_Q_UNLOCK(); 1239091d81d1SSam Leffler 1240091d81d1SSam Leffler return err; 1241091d81d1SSam Leffler } 1242091d81d1SSam Leffler 1243c0341432SJohn Baldwin #ifdef INVARIANTS 1244c0341432SJohn Baldwin /* Various sanity checks on crypto requests. */ 1245c0341432SJohn Baldwin static void 1246c0341432SJohn Baldwin crp_sanity(struct cryptop *crp) 1247c0341432SJohn Baldwin { 1248c0341432SJohn Baldwin struct crypto_session_params *csp; 1249c0341432SJohn Baldwin 1250c0341432SJohn Baldwin KASSERT(crp->crp_session != NULL, ("incoming crp without a session")); 1251c0341432SJohn Baldwin KASSERT(crp->crp_ilen >= 0, ("incoming crp with -ve input length")); 1252c0341432SJohn Baldwin KASSERT(crp->crp_etype == 0, ("incoming crp with error")); 1253c0341432SJohn Baldwin KASSERT(!(crp->crp_flags & CRYPTO_F_DONE), 1254c0341432SJohn Baldwin ("incoming crp already done")); 1255c0341432SJohn Baldwin 1256c0341432SJohn Baldwin csp = &crp->crp_session->csp; 1257c0341432SJohn Baldwin switch (csp->csp_mode) { 1258c0341432SJohn Baldwin case CSP_MODE_COMPRESS: 1259c0341432SJohn Baldwin KASSERT(crp->crp_op == CRYPTO_OP_COMPRESS || 1260c0341432SJohn Baldwin crp->crp_op == CRYPTO_OP_DECOMPRESS, 1261c0341432SJohn Baldwin ("invalid compression op %x", crp->crp_op)); 1262c0341432SJohn Baldwin break; 1263c0341432SJohn Baldwin case CSP_MODE_CIPHER: 1264c0341432SJohn Baldwin KASSERT(crp->crp_op == CRYPTO_OP_ENCRYPT || 1265c0341432SJohn Baldwin crp->crp_op == CRYPTO_OP_DECRYPT, 1266c0341432SJohn Baldwin ("invalid cipher op %x", crp->crp_op)); 1267c0341432SJohn Baldwin break; 1268c0341432SJohn Baldwin case CSP_MODE_DIGEST: 1269c0341432SJohn Baldwin KASSERT(crp->crp_op == CRYPTO_OP_COMPUTE_DIGEST || 1270c0341432SJohn Baldwin crp->crp_op == CRYPTO_OP_VERIFY_DIGEST, 1271c0341432SJohn Baldwin ("invalid digest op %x", crp->crp_op)); 1272c0341432SJohn Baldwin break; 1273c0341432SJohn Baldwin case CSP_MODE_AEAD: 1274c0341432SJohn Baldwin KASSERT(crp->crp_op == 1275c0341432SJohn Baldwin (CRYPTO_OP_ENCRYPT | CRYPTO_OP_COMPUTE_DIGEST) || 1276c0341432SJohn Baldwin crp->crp_op == 1277c0341432SJohn Baldwin (CRYPTO_OP_DECRYPT | CRYPTO_OP_VERIFY_DIGEST), 1278c0341432SJohn Baldwin ("invalid AEAD op %x", crp->crp_op)); 1279c0341432SJohn Baldwin if (csp->csp_cipher_alg == CRYPTO_AES_NIST_GCM_16) 1280c0341432SJohn Baldwin KASSERT(crp->crp_flags & CRYPTO_F_IV_SEPARATE, 1281c0341432SJohn Baldwin ("GCM without a separate IV")); 1282c0341432SJohn Baldwin if (csp->csp_cipher_alg == CRYPTO_AES_CCM_16) 1283c0341432SJohn Baldwin KASSERT(crp->crp_flags & CRYPTO_F_IV_SEPARATE, 1284c0341432SJohn Baldwin ("CCM without a separate IV")); 1285c0341432SJohn Baldwin break; 1286c0341432SJohn Baldwin case CSP_MODE_ETA: 1287c0341432SJohn Baldwin KASSERT(crp->crp_op == 1288c0341432SJohn Baldwin (CRYPTO_OP_ENCRYPT | CRYPTO_OP_COMPUTE_DIGEST) || 1289c0341432SJohn Baldwin crp->crp_op == 1290c0341432SJohn Baldwin (CRYPTO_OP_DECRYPT | CRYPTO_OP_VERIFY_DIGEST), 1291c0341432SJohn Baldwin ("invalid ETA op %x", crp->crp_op)); 1292c0341432SJohn Baldwin break; 1293c0341432SJohn Baldwin } 1294c0341432SJohn Baldwin KASSERT(crp->crp_buf_type >= CRYPTO_BUF_CONTIG && 1295c0341432SJohn Baldwin crp->crp_buf_type <= CRYPTO_BUF_MBUF, 1296c0341432SJohn Baldwin ("invalid crp buffer type %d", crp->crp_buf_type)); 1297c0341432SJohn Baldwin if (csp->csp_mode == CSP_MODE_AEAD || csp->csp_mode == CSP_MODE_ETA) { 1298c0341432SJohn Baldwin KASSERT(crp->crp_aad_start == 0 || 1299c0341432SJohn Baldwin crp->crp_aad_start < crp->crp_ilen, 1300c0341432SJohn Baldwin ("invalid AAD start")); 1301c0341432SJohn Baldwin KASSERT(crp->crp_aad_length != 0 || crp->crp_aad_start == 0, 1302c0341432SJohn Baldwin ("AAD with zero length and non-zero start")); 1303c0341432SJohn Baldwin KASSERT(crp->crp_aad_length == 0 || 1304c0341432SJohn Baldwin crp->crp_aad_start + crp->crp_aad_length <= crp->crp_ilen, 1305c0341432SJohn Baldwin ("AAD outside input length")); 1306c0341432SJohn Baldwin } else { 1307c0341432SJohn Baldwin KASSERT(crp->crp_aad_start == 0 && crp->crp_aad_length == 0, 1308c0341432SJohn Baldwin ("AAD region in request not supporting AAD")); 1309c0341432SJohn Baldwin } 1310c0341432SJohn Baldwin if (csp->csp_ivlen == 0) { 131129fe41ddSJohn Baldwin KASSERT((crp->crp_flags & CRYPTO_F_IV_SEPARATE) == 0, 131229fe41ddSJohn Baldwin ("IV_SEPARATE set when IV isn't used")); 1313c0341432SJohn Baldwin KASSERT(crp->crp_iv_start == 0, 1314c0341432SJohn Baldwin ("crp_iv_start set when IV isn't used")); 1315c0341432SJohn Baldwin } else if (crp->crp_flags & CRYPTO_F_IV_SEPARATE) { 1316c0341432SJohn Baldwin KASSERT(crp->crp_iv_start == 0, 1317c0341432SJohn Baldwin ("IV_SEPARATE used with non-zero IV start")); 1318c0341432SJohn Baldwin } else { 1319c0341432SJohn Baldwin KASSERT(crp->crp_iv_start < crp->crp_ilen, 1320c0341432SJohn Baldwin ("invalid IV start")); 1321c0341432SJohn Baldwin KASSERT(crp->crp_iv_start + csp->csp_ivlen <= crp->crp_ilen, 1322c0341432SJohn Baldwin ("IV outside input length")); 1323c0341432SJohn Baldwin } 1324c0341432SJohn Baldwin KASSERT(crp->crp_payload_start == 0 || 1325c0341432SJohn Baldwin crp->crp_payload_start < crp->crp_ilen, 1326c0341432SJohn Baldwin ("invalid payload start")); 1327c0341432SJohn Baldwin KASSERT(crp->crp_payload_start + crp->crp_payload_length <= 1328c0341432SJohn Baldwin crp->crp_ilen, ("payload outside input length")); 1329c0341432SJohn Baldwin if (csp->csp_mode == CSP_MODE_DIGEST || 1330c0341432SJohn Baldwin csp->csp_mode == CSP_MODE_AEAD || csp->csp_mode == CSP_MODE_ETA) { 1331c0341432SJohn Baldwin KASSERT(crp->crp_digest_start == 0 || 1332c0341432SJohn Baldwin crp->crp_digest_start < crp->crp_ilen, 1333c0341432SJohn Baldwin ("invalid digest start")); 1334c0341432SJohn Baldwin /* XXX: For the mlen == 0 case this check isn't perfect. */ 1335c0341432SJohn Baldwin KASSERT(crp->crp_digest_start + csp->csp_auth_mlen <= 1336c0341432SJohn Baldwin crp->crp_ilen, 1337c0341432SJohn Baldwin ("digest outside input length")); 1338c0341432SJohn Baldwin } else { 1339c0341432SJohn Baldwin KASSERT(crp->crp_digest_start == 0, 1340c0341432SJohn Baldwin ("non-zero digest start for request without a digest")); 1341c0341432SJohn Baldwin } 1342c0341432SJohn Baldwin if (csp->csp_cipher_klen != 0) 1343c0341432SJohn Baldwin KASSERT(csp->csp_cipher_key != NULL || 1344c0341432SJohn Baldwin crp->crp_cipher_key != NULL, 1345c0341432SJohn Baldwin ("cipher request without a key")); 1346c0341432SJohn Baldwin if (csp->csp_auth_klen != 0) 1347c0341432SJohn Baldwin KASSERT(csp->csp_auth_key != NULL || crp->crp_auth_key != NULL, 1348c0341432SJohn Baldwin ("auth request without a key")); 1349c0341432SJohn Baldwin KASSERT(crp->crp_callback != NULL, ("incoming crp without callback")); 1350c0341432SJohn Baldwin } 1351c0341432SJohn Baldwin #endif 1352c0341432SJohn Baldwin 1353091d81d1SSam Leffler /* 1354091d81d1SSam Leffler * Add a crypto request to a queue, to be processed by the kernel thread. 1355091d81d1SSam Leffler */ 1356091d81d1SSam Leffler int 1357091d81d1SSam Leffler crypto_dispatch(struct cryptop *crp) 1358091d81d1SSam Leffler { 13594acae0acSPawel Jakub Dawidek struct cryptocap *cap; 13604acae0acSPawel Jakub Dawidek int result; 1361091d81d1SSam Leffler 1362c0341432SJohn Baldwin #ifdef INVARIANTS 1363c0341432SJohn Baldwin crp_sanity(crp); 1364c0341432SJohn Baldwin #endif 1365c0341432SJohn Baldwin 13667d1853eeSSam Leffler cryptostats.cs_ops++; 13677d1853eeSSam Leffler 13687d1853eeSSam Leffler #ifdef CRYPTO_TIMING 13697d1853eeSSam Leffler if (crypto_timing) 13707d1853eeSSam Leffler binuptime(&crp->crp_tstamp); 13717d1853eeSSam Leffler #endif 13727d1853eeSSam Leffler 13731b0909d5SConrad Meyer crp->crp_retw_id = ((uintptr_t)crp->crp_session) % crypto_workers_num; 1374de2b2c90SFabien Thomas 137539bbca6fSFabien Thomas if (CRYPTOP_ASYNC(crp)) { 137639bbca6fSFabien Thomas if (crp->crp_flags & CRYPTO_F_ASYNC_KEEPORDER) { 137739bbca6fSFabien Thomas struct crypto_ret_worker *ret_worker; 137839bbca6fSFabien Thomas 137939bbca6fSFabien Thomas ret_worker = CRYPTO_RETW(crp->crp_retw_id); 138039bbca6fSFabien Thomas 138139bbca6fSFabien Thomas CRYPTO_RETW_LOCK(ret_worker); 138239bbca6fSFabien Thomas crp->crp_seq = ret_worker->reorder_ops++; 138339bbca6fSFabien Thomas CRYPTO_RETW_UNLOCK(ret_worker); 138439bbca6fSFabien Thomas } 138539bbca6fSFabien Thomas 138639bbca6fSFabien Thomas TASK_INIT(&crp->crp_task, 0, crypto_task_invoke, crp); 138739bbca6fSFabien Thomas taskqueue_enqueue(crypto_tq, &crp->crp_task); 138839bbca6fSFabien Thomas return (0); 138939bbca6fSFabien Thomas } 13904acae0acSPawel Jakub Dawidek 1391eb73a605SSam Leffler if ((crp->crp_flags & CRYPTO_F_BATCH) == 0) { 1392eb73a605SSam Leffler /* 1393eb73a605SSam Leffler * Caller marked the request to be processed 1394eb73a605SSam Leffler * immediately; dispatch it directly to the 1395eb73a605SSam Leffler * driver unless the driver is currently blocked. 1396eb73a605SSam Leffler */ 1397c0341432SJohn Baldwin cap = crp->crp_session->cap; 13984acae0acSPawel Jakub Dawidek if (!cap->cc_qblocked) { 13994acae0acSPawel Jakub Dawidek result = crypto_invoke(cap, crp, 0); 14004acae0acSPawel Jakub Dawidek if (result != ERESTART) 14014acae0acSPawel Jakub Dawidek return (result); 1402091d81d1SSam Leffler /* 1403bda0abc6SPawel Jakub Dawidek * The driver ran out of resources, put the request on 1404bda0abc6SPawel Jakub Dawidek * the queue. 1405091d81d1SSam Leffler */ 1406f7890744SSam Leffler } 1407eb73a605SSam Leffler } 140839bbca6fSFabien Thomas crypto_batch_enqueue(crp); 140939bbca6fSFabien Thomas return 0; 141039bbca6fSFabien Thomas } 141139bbca6fSFabien Thomas 141239bbca6fSFabien Thomas void 141339bbca6fSFabien Thomas crypto_batch_enqueue(struct cryptop *crp) 141439bbca6fSFabien Thomas { 141539bbca6fSFabien Thomas 14164acae0acSPawel Jakub Dawidek CRYPTO_Q_LOCK(); 14174acae0acSPawel Jakub Dawidek TAILQ_INSERT_TAIL(&crp_q, crp, crp_next); 14183a865c82SPawel Jakub Dawidek if (crp_sleep) 14193a865c82SPawel Jakub Dawidek wakeup_one(&crp_q); 14203569ae7fSSam Leffler CRYPTO_Q_UNLOCK(); 1421091d81d1SSam Leffler } 1422091d81d1SSam Leffler 1423091d81d1SSam Leffler /* 1424091d81d1SSam Leffler * Add an asymetric crypto request to a queue, 1425091d81d1SSam Leffler * to be processed by the kernel thread. 1426091d81d1SSam Leffler */ 1427091d81d1SSam Leffler int 1428091d81d1SSam Leffler crypto_kdispatch(struct cryptkop *krp) 1429091d81d1SSam Leffler { 14306810ad6fSSam Leffler int error; 1431091d81d1SSam Leffler 14327d1853eeSSam Leffler cryptostats.cs_kops++; 14337d1853eeSSam Leffler 1434c0341432SJohn Baldwin krp->krp_cap = NULL; 1435c0341432SJohn Baldwin error = crypto_kinvoke(krp); 14366810ad6fSSam Leffler if (error == ERESTART) { 1437091d81d1SSam Leffler CRYPTO_Q_LOCK(); 14384acae0acSPawel Jakub Dawidek TAILQ_INSERT_TAIL(&crp_kq, krp, krp_next); 14393a865c82SPawel Jakub Dawidek if (crp_sleep) 14403a865c82SPawel Jakub Dawidek wakeup_one(&crp_q); 1441091d81d1SSam Leffler CRYPTO_Q_UNLOCK(); 14426810ad6fSSam Leffler error = 0; 14436810ad6fSSam Leffler } 14446810ad6fSSam Leffler return error; 1445091d81d1SSam Leffler } 1446091d81d1SSam Leffler 1447091d81d1SSam Leffler /* 14486810ad6fSSam Leffler * Verify a driver is suitable for the specified operation. 14496810ad6fSSam Leffler */ 14506810ad6fSSam Leffler static __inline int 14516810ad6fSSam Leffler kdriver_suitable(const struct cryptocap *cap, const struct cryptkop *krp) 14526810ad6fSSam Leffler { 14536810ad6fSSam Leffler return (cap->cc_kalg[krp->krp_op] & CRYPTO_ALG_FLAG_SUPPORTED) != 0; 14546810ad6fSSam Leffler } 14556810ad6fSSam Leffler 14566810ad6fSSam Leffler /* 14576810ad6fSSam Leffler * Select a driver for an asym operation. The driver must 14586810ad6fSSam Leffler * support the necessary algorithm. The caller can constrain 14596810ad6fSSam Leffler * which device is selected with the flags parameter. The 14606810ad6fSSam Leffler * algorithm we use here is pretty stupid; just use the first 14616810ad6fSSam Leffler * driver that supports the algorithms we need. If there are 14626810ad6fSSam Leffler * multiple suitable drivers we choose the driver with the 14636810ad6fSSam Leffler * fewest active operations. We prefer hardware-backed 14646810ad6fSSam Leffler * drivers to software ones when either may be used. 14656810ad6fSSam Leffler */ 14666810ad6fSSam Leffler static struct cryptocap * 14676810ad6fSSam Leffler crypto_select_kdriver(const struct cryptkop *krp, int flags) 14686810ad6fSSam Leffler { 1469151ba793SAlexander Kabaev struct cryptocap *cap, *best; 14706810ad6fSSam Leffler int match, hid; 14716810ad6fSSam Leffler 14726810ad6fSSam Leffler CRYPTO_DRIVER_ASSERT(); 14736810ad6fSSam Leffler 14746810ad6fSSam Leffler /* 14756810ad6fSSam Leffler * Look first for hardware crypto devices if permitted. 14766810ad6fSSam Leffler */ 14776810ad6fSSam Leffler if (flags & CRYPTOCAP_F_HARDWARE) 14786810ad6fSSam Leffler match = CRYPTOCAP_F_HARDWARE; 14796810ad6fSSam Leffler else 14806810ad6fSSam Leffler match = CRYPTOCAP_F_SOFTWARE; 14816810ad6fSSam Leffler best = NULL; 14826810ad6fSSam Leffler again: 1483c0341432SJohn Baldwin for (hid = 0; hid < crypto_drivers_size; hid++) { 14846810ad6fSSam Leffler /* 1485c0341432SJohn Baldwin * If there is no driver for this slot, or the driver 1486c0341432SJohn Baldwin * is not appropriate (hardware or software based on 1487c0341432SJohn Baldwin * match), then skip. 14886810ad6fSSam Leffler */ 1489c0341432SJohn Baldwin cap = crypto_drivers[hid]; 14906810ad6fSSam Leffler if (cap->cc_dev == NULL || 14916810ad6fSSam Leffler (cap->cc_flags & match) == 0) 14926810ad6fSSam Leffler continue; 14936810ad6fSSam Leffler 14946810ad6fSSam Leffler /* verify all the algorithms are supported. */ 14956810ad6fSSam Leffler if (kdriver_suitable(cap, krp)) { 14966810ad6fSSam Leffler if (best == NULL || 14976810ad6fSSam Leffler cap->cc_koperations < best->cc_koperations) 14986810ad6fSSam Leffler best = cap; 14996810ad6fSSam Leffler } 15006810ad6fSSam Leffler } 15016810ad6fSSam Leffler if (best != NULL) 15026810ad6fSSam Leffler return best; 15036810ad6fSSam Leffler if (match == CRYPTOCAP_F_HARDWARE && (flags & CRYPTOCAP_F_SOFTWARE)) { 15046810ad6fSSam Leffler /* sort of an Algol 68-style for loop */ 15056810ad6fSSam Leffler match = CRYPTOCAP_F_SOFTWARE; 15066810ad6fSSam Leffler goto again; 15076810ad6fSSam Leffler } 15086810ad6fSSam Leffler return best; 15096810ad6fSSam Leffler } 15106810ad6fSSam Leffler 15116810ad6fSSam Leffler /* 1512c0341432SJohn Baldwin * Choose a driver for an asymmetric crypto request. 1513091d81d1SSam Leffler */ 1514c0341432SJohn Baldwin static struct cryptocap * 1515c0341432SJohn Baldwin crypto_lookup_kdriver(struct cryptkop *krp) 1516091d81d1SSam Leffler { 1517c0341432SJohn Baldwin struct cryptocap *cap; 1518c0341432SJohn Baldwin uint32_t crid; 1519091d81d1SSam Leffler 1520c0341432SJohn Baldwin /* If this request is requeued, it might already have a driver. */ 1521c0341432SJohn Baldwin cap = krp->krp_cap; 1522c0341432SJohn Baldwin if (cap != NULL) 1523c0341432SJohn Baldwin return (cap); 1524091d81d1SSam Leffler 1525c0341432SJohn Baldwin /* Use krp_crid to choose a driver. */ 1526c0341432SJohn Baldwin crid = krp->krp_crid; 15276810ad6fSSam Leffler if ((crid & (CRYPTOCAP_F_HARDWARE | CRYPTOCAP_F_SOFTWARE)) == 0) { 15286810ad6fSSam Leffler cap = crypto_checkdriver(crid); 15296810ad6fSSam Leffler if (cap != NULL) { 15306810ad6fSSam Leffler /* 1531c0341432SJohn Baldwin * Driver present, it must support the 1532c0341432SJohn Baldwin * necessary algorithm and, if s/w drivers are 1533c0341432SJohn Baldwin * excluded, it must be registered as 1534c0341432SJohn Baldwin * hardware-backed. 15356810ad6fSSam Leffler */ 15366810ad6fSSam Leffler if (!kdriver_suitable(cap, krp) || 15376810ad6fSSam Leffler (!crypto_devallowsoft && 15386810ad6fSSam Leffler (cap->cc_flags & CRYPTOCAP_F_HARDWARE) == 0)) 15396810ad6fSSam Leffler cap = NULL; 15404acae0acSPawel Jakub Dawidek } 15416810ad6fSSam Leffler } else { 15426810ad6fSSam Leffler /* 15436810ad6fSSam Leffler * No requested driver; select based on crid flags. 15446810ad6fSSam Leffler */ 15456810ad6fSSam Leffler if (!crypto_devallowsoft) /* NB: disallow s/w drivers */ 15466810ad6fSSam Leffler crid &= ~CRYPTOCAP_F_SOFTWARE; 15476810ad6fSSam Leffler cap = crypto_select_kdriver(krp, crid); 15484acae0acSPawel Jakub Dawidek } 1549c0341432SJohn Baldwin 1550c0341432SJohn Baldwin if (cap != NULL) { 1551c0341432SJohn Baldwin krp->krp_cap = cap_ref(cap); 1552c0341432SJohn Baldwin krp->krp_hid = cap->cc_hid; 1553c0341432SJohn Baldwin } 1554c0341432SJohn Baldwin return (cap); 1555c0341432SJohn Baldwin } 1556c0341432SJohn Baldwin 1557c0341432SJohn Baldwin /* 1558c0341432SJohn Baldwin * Dispatch an asymmetric crypto request. 1559c0341432SJohn Baldwin */ 1560c0341432SJohn Baldwin static int 1561c0341432SJohn Baldwin crypto_kinvoke(struct cryptkop *krp) 1562c0341432SJohn Baldwin { 1563c0341432SJohn Baldwin struct cryptocap *cap = NULL; 1564c0341432SJohn Baldwin int error; 1565c0341432SJohn Baldwin 1566c0341432SJohn Baldwin KASSERT(krp != NULL, ("%s: krp == NULL", __func__)); 1567c0341432SJohn Baldwin KASSERT(krp->krp_callback != NULL, 1568c0341432SJohn Baldwin ("%s: krp->crp_callback == NULL", __func__)); 1569c0341432SJohn Baldwin 1570c0341432SJohn Baldwin CRYPTO_DRIVER_LOCK(); 1571c0341432SJohn Baldwin cap = crypto_lookup_kdriver(krp); 1572c0341432SJohn Baldwin if (cap == NULL) { 1573c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 1574c0341432SJohn Baldwin krp->krp_status = ENODEV; 1575c0341432SJohn Baldwin crypto_kdone(krp); 1576c0341432SJohn Baldwin return (0); 1577c0341432SJohn Baldwin } 1578c0341432SJohn Baldwin 1579c0341432SJohn Baldwin /* 1580c0341432SJohn Baldwin * If the device is blocked, return ERESTART to requeue it. 1581c0341432SJohn Baldwin */ 1582c0341432SJohn Baldwin if (cap->cc_kqblocked) { 1583c0341432SJohn Baldwin /* 1584c0341432SJohn Baldwin * XXX: Previously this set krp_status to ERESTART and 1585c0341432SJohn Baldwin * invoked crypto_kdone but the caller would still 1586c0341432SJohn Baldwin * requeue it. 1587c0341432SJohn Baldwin */ 1588c0341432SJohn Baldwin CRYPTO_DRIVER_UNLOCK(); 1589c0341432SJohn Baldwin return (ERESTART); 1590c0341432SJohn Baldwin } 1591c0341432SJohn Baldwin 15924acae0acSPawel Jakub Dawidek cap->cc_koperations++; 15934acae0acSPawel Jakub Dawidek CRYPTO_DRIVER_UNLOCK(); 15946810ad6fSSam Leffler error = CRYPTODEV_KPROCESS(cap->cc_dev, krp, 0); 15954acae0acSPawel Jakub Dawidek if (error == ERESTART) { 1596c0341432SJohn Baldwin CRYPTO_DRIVER_LOCK(); 15974acae0acSPawel Jakub Dawidek cap->cc_koperations--; 15984acae0acSPawel Jakub Dawidek CRYPTO_DRIVER_UNLOCK(); 15994acae0acSPawel Jakub Dawidek return (error); 16004acae0acSPawel Jakub Dawidek } 1601091d81d1SSam Leffler 1602c0341432SJohn Baldwin KASSERT(error == 0, ("error %d returned from crypto_kprocess", error)); 1603c0341432SJohn Baldwin return (0); 1604091d81d1SSam Leffler } 1605091d81d1SSam Leffler 16067d1853eeSSam Leffler #ifdef CRYPTO_TIMING 16077d1853eeSSam Leffler static void 16087d1853eeSSam Leffler crypto_tstat(struct cryptotstat *ts, struct bintime *bt) 16097d1853eeSSam Leffler { 16107d1853eeSSam Leffler struct bintime now, delta; 16117d1853eeSSam Leffler struct timespec t; 16127d1853eeSSam Leffler uint64_t u; 16137d1853eeSSam Leffler 16147d1853eeSSam Leffler binuptime(&now); 16157d1853eeSSam Leffler u = now.frac; 16167d1853eeSSam Leffler delta.frac = now.frac - bt->frac; 16177d1853eeSSam Leffler delta.sec = now.sec - bt->sec; 16187d1853eeSSam Leffler if (u < delta.frac) 16197d1853eeSSam Leffler delta.sec--; 16207d1853eeSSam Leffler bintime2timespec(&delta, &t); 16216040822cSAlan Somers timespecadd(&ts->acc, &t, &ts->acc); 16227d1853eeSSam Leffler if (timespeccmp(&t, &ts->min, <)) 16237d1853eeSSam Leffler ts->min = t; 16247d1853eeSSam Leffler if (timespeccmp(&t, &ts->max, >)) 16257d1853eeSSam Leffler ts->max = t; 16267d1853eeSSam Leffler ts->count++; 16277d1853eeSSam Leffler 16287d1853eeSSam Leffler *bt = now; 16297d1853eeSSam Leffler } 16307d1853eeSSam Leffler #endif 16317d1853eeSSam Leffler 163239bbca6fSFabien Thomas static void 163339bbca6fSFabien Thomas crypto_task_invoke(void *ctx, int pending) 163439bbca6fSFabien Thomas { 163539bbca6fSFabien Thomas struct cryptocap *cap; 163639bbca6fSFabien Thomas struct cryptop *crp; 1637c0341432SJohn Baldwin int result; 163839bbca6fSFabien Thomas 163939bbca6fSFabien Thomas crp = (struct cryptop *)ctx; 1640c0341432SJohn Baldwin cap = crp->crp_session->cap; 164139bbca6fSFabien Thomas result = crypto_invoke(cap, crp, 0); 164239bbca6fSFabien Thomas if (result == ERESTART) 164339bbca6fSFabien Thomas crypto_batch_enqueue(crp); 164439bbca6fSFabien Thomas } 164539bbca6fSFabien Thomas 1646091d81d1SSam Leffler /* 1647091d81d1SSam Leffler * Dispatch a crypto request to the appropriate crypto devices. 1648091d81d1SSam Leffler */ 1649091d81d1SSam Leffler static int 16504acae0acSPawel Jakub Dawidek crypto_invoke(struct cryptocap *cap, struct cryptop *crp, int hint) 1651091d81d1SSam Leffler { 16524acae0acSPawel Jakub Dawidek 16534acae0acSPawel Jakub Dawidek KASSERT(crp != NULL, ("%s: crp == NULL", __func__)); 16544acae0acSPawel Jakub Dawidek KASSERT(crp->crp_callback != NULL, 16554acae0acSPawel Jakub Dawidek ("%s: crp->crp_callback == NULL", __func__)); 1656c0341432SJohn Baldwin KASSERT(crp->crp_session != NULL, 1657c0341432SJohn Baldwin ("%s: crp->crp_session == NULL", __func__)); 1658091d81d1SSam Leffler 16597d1853eeSSam Leffler #ifdef CRYPTO_TIMING 16607d1853eeSSam Leffler if (crypto_timing) 16617d1853eeSSam Leffler crypto_tstat(&cryptostats.cs_invoke, &crp->crp_tstamp); 16627d1853eeSSam Leffler #endif 16634acae0acSPawel Jakub Dawidek if (cap->cc_flags & CRYPTOCAP_F_CLEANUP) { 1664c0341432SJohn Baldwin struct crypto_session_params csp; 16651b0909d5SConrad Meyer crypto_session_t nses; 1666091d81d1SSam Leffler 1667091d81d1SSam Leffler /* 1668091d81d1SSam Leffler * Driver has unregistered; migrate the session and return 1669091d81d1SSam Leffler * an error to the caller so they'll resubmit the op. 16704acae0acSPawel Jakub Dawidek * 16714acae0acSPawel Jakub Dawidek * XXX: What if there are more already queued requests for this 16724acae0acSPawel Jakub Dawidek * session? 1673c0341432SJohn Baldwin * 1674c0341432SJohn Baldwin * XXX: Real solution is to make sessions refcounted 1675c0341432SJohn Baldwin * and force callers to hold a reference when 1676c0341432SJohn Baldwin * assigning to crp_session. Could maybe change 1677c0341432SJohn Baldwin * crypto_getreq to accept a session pointer to make 1678c0341432SJohn Baldwin * that work. Alternatively, we could abandon the 1679c0341432SJohn Baldwin * notion of rewriting crp_session in requests forcing 1680c0341432SJohn Baldwin * the caller to deal with allocating a new session. 1681c0341432SJohn Baldwin * Perhaps provide a method to allow a crp's session to 1682c0341432SJohn Baldwin * be swapped that callers could use. 1683091d81d1SSam Leffler */ 1684c0341432SJohn Baldwin csp = crp->crp_session->csp; 16851b0909d5SConrad Meyer crypto_freesession(crp->crp_session); 16864acae0acSPawel Jakub Dawidek 1687c0341432SJohn Baldwin /* 1688c0341432SJohn Baldwin * XXX: Key pointers may no longer be valid. If we 1689c0341432SJohn Baldwin * really want to support this we need to define the 1690c0341432SJohn Baldwin * KPI such that 'csp' is required to be valid for the 1691c0341432SJohn Baldwin * duration of a session by the caller perhaps. 1692c0341432SJohn Baldwin * 1693c0341432SJohn Baldwin * XXX: If the keys have been changed this will reuse 1694c0341432SJohn Baldwin * the old keys. This probably suggests making 1695c0341432SJohn Baldwin * rekeying more explicit and updating the key 1696c0341432SJohn Baldwin * pointers in 'csp' when the keys change. 1697c0341432SJohn Baldwin */ 1698c0341432SJohn Baldwin if (crypto_newsession(&nses, &csp, 16996810ad6fSSam Leffler CRYPTOCAP_F_HARDWARE | CRYPTOCAP_F_SOFTWARE) == 0) 17001b0909d5SConrad Meyer crp->crp_session = nses; 1701091d81d1SSam Leffler 1702091d81d1SSam Leffler crp->crp_etype = EAGAIN; 17031a91ccccSSam Leffler crypto_done(crp); 1704091d81d1SSam Leffler return 0; 1705091d81d1SSam Leffler } else { 1706091d81d1SSam Leffler /* 1707091d81d1SSam Leffler * Invoke the driver to process the request. 1708091d81d1SSam Leffler */ 17096810ad6fSSam Leffler return CRYPTODEV_PROCESS(cap->cc_dev, crp, hint); 1710091d81d1SSam Leffler } 1711091d81d1SSam Leffler } 1712091d81d1SSam Leffler 1713091d81d1SSam Leffler void 1714091d81d1SSam Leffler crypto_freereq(struct cryptop *crp) 1715091d81d1SSam Leffler { 1716091d81d1SSam Leffler 1717091d81d1SSam Leffler if (crp == NULL) 1718091d81d1SSam Leffler return; 1719091d81d1SSam Leffler 17200d5c337bSPawel Jakub Dawidek #ifdef DIAGNOSTIC 17210d5c337bSPawel Jakub Dawidek { 17220d5c337bSPawel Jakub Dawidek struct cryptop *crp2; 172339bbca6fSFabien Thomas struct crypto_ret_worker *ret_worker; 17240d5c337bSPawel Jakub Dawidek 17250d5c337bSPawel Jakub Dawidek CRYPTO_Q_LOCK(); 17260d5c337bSPawel Jakub Dawidek TAILQ_FOREACH(crp2, &crp_q, crp_next) { 17270d5c337bSPawel Jakub Dawidek KASSERT(crp2 != crp, 17280d5c337bSPawel Jakub Dawidek ("Freeing cryptop from the crypto queue (%p).", 17290d5c337bSPawel Jakub Dawidek crp)); 17300d5c337bSPawel Jakub Dawidek } 17310d5c337bSPawel Jakub Dawidek CRYPTO_Q_UNLOCK(); 173239bbca6fSFabien Thomas 173339bbca6fSFabien Thomas FOREACH_CRYPTO_RETW(ret_worker) { 173439bbca6fSFabien Thomas CRYPTO_RETW_LOCK(ret_worker); 173539bbca6fSFabien Thomas TAILQ_FOREACH(crp2, &ret_worker->crp_ret_q, crp_next) { 17360d5c337bSPawel Jakub Dawidek KASSERT(crp2 != crp, 17370d5c337bSPawel Jakub Dawidek ("Freeing cryptop from the return queue (%p).", 17380d5c337bSPawel Jakub Dawidek crp)); 17390d5c337bSPawel Jakub Dawidek } 174039bbca6fSFabien Thomas CRYPTO_RETW_UNLOCK(ret_worker); 174139bbca6fSFabien Thomas } 17420d5c337bSPawel Jakub Dawidek } 17430d5c337bSPawel Jakub Dawidek #endif 17440d5c337bSPawel Jakub Dawidek 1745091d81d1SSam Leffler uma_zfree(cryptop_zone, crp); 1746091d81d1SSam Leffler } 1747091d81d1SSam Leffler 1748091d81d1SSam Leffler struct cryptop * 1749c0341432SJohn Baldwin crypto_getreq(crypto_session_t cses, int how) 1750091d81d1SSam Leffler { 1751091d81d1SSam Leffler struct cryptop *crp; 1752091d81d1SSam Leffler 1753c0341432SJohn Baldwin MPASS(how == M_WAITOK || how == M_NOWAIT); 1754c0341432SJohn Baldwin crp = uma_zalloc(cryptop_zone, how | M_ZERO); 1755c0341432SJohn Baldwin crp->crp_session = cses; 1756c0341432SJohn Baldwin return (crp); 1757091d81d1SSam Leffler } 1758091d81d1SSam Leffler 1759091d81d1SSam Leffler /* 1760091d81d1SSam Leffler * Invoke the callback on behalf of the driver. 1761091d81d1SSam Leffler */ 1762091d81d1SSam Leffler void 1763091d81d1SSam Leffler crypto_done(struct cryptop *crp) 1764091d81d1SSam Leffler { 17653569ae7fSSam Leffler KASSERT((crp->crp_flags & CRYPTO_F_DONE) == 0, 17663569ae7fSSam Leffler ("crypto_done: op already done, flags 0x%x", crp->crp_flags)); 17673569ae7fSSam Leffler crp->crp_flags |= CRYPTO_F_DONE; 17687d1853eeSSam Leffler if (crp->crp_etype != 0) 17697d1853eeSSam Leffler cryptostats.cs_errs++; 17707d1853eeSSam Leffler #ifdef CRYPTO_TIMING 17717d1853eeSSam Leffler if (crypto_timing) 17727d1853eeSSam Leffler crypto_tstat(&cryptostats.cs_done, &crp->crp_tstamp); 17737d1853eeSSam Leffler #endif 1774d8409aafSSam Leffler /* 1775d8409aafSSam Leffler * CBIMM means unconditionally do the callback immediately; 1776d8409aafSSam Leffler * CBIFSYNC means do the callback immediately only if the 1777d8409aafSSam Leffler * operation was done synchronously. Both are used to avoid 1778d8409aafSSam Leffler * doing extraneous context switches; the latter is mostly 1779d8409aafSSam Leffler * used with the software crypto driver. 1780d8409aafSSam Leffler */ 178139bbca6fSFabien Thomas if (!CRYPTOP_ASYNC_KEEPORDER(crp) && 178239bbca6fSFabien Thomas ((crp->crp_flags & CRYPTO_F_CBIMM) || 1783d8409aafSSam Leffler ((crp->crp_flags & CRYPTO_F_CBIFSYNC) && 17841b0909d5SConrad Meyer (crypto_ses2caps(crp->crp_session) & CRYPTOCAP_F_SYNC)))) { 1785eb73a605SSam Leffler /* 1786eb73a605SSam Leffler * Do the callback directly. This is ok when the 1787eb73a605SSam Leffler * callback routine does very little (e.g. the 1788eb73a605SSam Leffler * /dev/crypto callback method just does a wakeup). 1789eb73a605SSam Leffler */ 1790eb73a605SSam Leffler #ifdef CRYPTO_TIMING 1791eb73a605SSam Leffler if (crypto_timing) { 1792eb73a605SSam Leffler /* 1793eb73a605SSam Leffler * NB: We must copy the timestamp before 1794eb73a605SSam Leffler * doing the callback as the cryptop is 1795eb73a605SSam Leffler * likely to be reclaimed. 1796eb73a605SSam Leffler */ 1797eb73a605SSam Leffler struct bintime t = crp->crp_tstamp; 1798eb73a605SSam Leffler crypto_tstat(&cryptostats.cs_cb, &t); 1799eb73a605SSam Leffler crp->crp_callback(crp); 1800eb73a605SSam Leffler crypto_tstat(&cryptostats.cs_finis, &t); 1801eb73a605SSam Leffler } else 1802eb73a605SSam Leffler #endif 1803eb73a605SSam Leffler crp->crp_callback(crp); 1804eb73a605SSam Leffler } else { 180539bbca6fSFabien Thomas struct crypto_ret_worker *ret_worker; 180639bbca6fSFabien Thomas bool wake; 180739bbca6fSFabien Thomas 180839bbca6fSFabien Thomas ret_worker = CRYPTO_RETW(crp->crp_retw_id); 180939bbca6fSFabien Thomas wake = false; 181039bbca6fSFabien Thomas 1811eb73a605SSam Leffler /* 1812eb73a605SSam Leffler * Normal case; queue the callback for the thread. 1813eb73a605SSam Leffler */ 181439bbca6fSFabien Thomas CRYPTO_RETW_LOCK(ret_worker); 181539bbca6fSFabien Thomas if (CRYPTOP_ASYNC_KEEPORDER(crp)) { 181639bbca6fSFabien Thomas struct cryptop *tmp; 181739bbca6fSFabien Thomas 181839bbca6fSFabien Thomas TAILQ_FOREACH_REVERSE(tmp, &ret_worker->crp_ordered_ret_q, 181939bbca6fSFabien Thomas cryptop_q, crp_next) { 182039bbca6fSFabien Thomas if (CRYPTO_SEQ_GT(crp->crp_seq, tmp->crp_seq)) { 182139bbca6fSFabien Thomas TAILQ_INSERT_AFTER(&ret_worker->crp_ordered_ret_q, 182239bbca6fSFabien Thomas tmp, crp, crp_next); 182339bbca6fSFabien Thomas break; 182439bbca6fSFabien Thomas } 182539bbca6fSFabien Thomas } 182639bbca6fSFabien Thomas if (tmp == NULL) { 182739bbca6fSFabien Thomas TAILQ_INSERT_HEAD(&ret_worker->crp_ordered_ret_q, 182839bbca6fSFabien Thomas crp, crp_next); 182939bbca6fSFabien Thomas } 183039bbca6fSFabien Thomas 183139bbca6fSFabien Thomas if (crp->crp_seq == ret_worker->reorder_cur_seq) 183239bbca6fSFabien Thomas wake = true; 183339bbca6fSFabien Thomas } 183439bbca6fSFabien Thomas else { 183539bbca6fSFabien Thomas if (CRYPTO_RETW_EMPTY(ret_worker)) 183639bbca6fSFabien Thomas wake = true; 183739bbca6fSFabien Thomas 183839bbca6fSFabien Thomas TAILQ_INSERT_TAIL(&ret_worker->crp_ret_q, crp, crp_next); 183939bbca6fSFabien Thomas } 184039bbca6fSFabien Thomas 184139bbca6fSFabien Thomas if (wake) 184239bbca6fSFabien Thomas wakeup_one(&ret_worker->crp_ret_q); /* shared wait channel */ 184339bbca6fSFabien Thomas CRYPTO_RETW_UNLOCK(ret_worker); 1844091d81d1SSam Leffler } 1845eb73a605SSam Leffler } 1846091d81d1SSam Leffler 1847091d81d1SSam Leffler /* 1848091d81d1SSam Leffler * Invoke the callback on behalf of the driver. 1849091d81d1SSam Leffler */ 1850091d81d1SSam Leffler void 1851091d81d1SSam Leffler crypto_kdone(struct cryptkop *krp) 1852091d81d1SSam Leffler { 185339bbca6fSFabien Thomas struct crypto_ret_worker *ret_worker; 18544acae0acSPawel Jakub Dawidek struct cryptocap *cap; 1855091d81d1SSam Leffler 18567d1853eeSSam Leffler if (krp->krp_status != 0) 18577d1853eeSSam Leffler cryptostats.cs_kerrs++; 18584acae0acSPawel Jakub Dawidek CRYPTO_DRIVER_LOCK(); 1859c0341432SJohn Baldwin cap = krp->krp_cap; 1860fb17b4c5SJohn-Mark Gurney KASSERT(cap->cc_koperations > 0, ("cc_koperations == 0")); 18614acae0acSPawel Jakub Dawidek cap->cc_koperations--; 1862c0341432SJohn Baldwin if (cap->cc_koperations == 0 && cap->cc_flags & CRYPTOCAP_F_CLEANUP) 1863c0341432SJohn Baldwin wakeup(cap); 18644acae0acSPawel Jakub Dawidek CRYPTO_DRIVER_UNLOCK(); 1865c0341432SJohn Baldwin krp->krp_cap = NULL; 1866c0341432SJohn Baldwin cap_rele(cap); 186739bbca6fSFabien Thomas 186839bbca6fSFabien Thomas ret_worker = CRYPTO_RETW(0); 186939bbca6fSFabien Thomas 187039bbca6fSFabien Thomas CRYPTO_RETW_LOCK(ret_worker); 187139bbca6fSFabien Thomas if (CRYPTO_RETW_EMPTY(ret_worker)) 187239bbca6fSFabien Thomas wakeup_one(&ret_worker->crp_ret_q); /* shared wait channel */ 187339bbca6fSFabien Thomas TAILQ_INSERT_TAIL(&ret_worker->crp_ret_kq, krp, krp_next); 187439bbca6fSFabien Thomas CRYPTO_RETW_UNLOCK(ret_worker); 1875091d81d1SSam Leffler } 1876091d81d1SSam Leffler 1877091d81d1SSam Leffler int 1878091d81d1SSam Leffler crypto_getfeat(int *featp) 1879091d81d1SSam Leffler { 1880091d81d1SSam Leffler int hid, kalg, feat = 0; 1881091d81d1SSam Leffler 1882091d81d1SSam Leffler CRYPTO_DRIVER_LOCK(); 1883c0341432SJohn Baldwin for (hid = 0; hid < crypto_drivers_size; hid++) { 1884c0341432SJohn Baldwin const struct cryptocap *cap = crypto_drivers[hid]; 18856810ad6fSSam Leffler 1886c0341432SJohn Baldwin if (cap == NULL || 1887c0341432SJohn Baldwin ((cap->cc_flags & CRYPTOCAP_F_SOFTWARE) && 1888c0341432SJohn Baldwin !crypto_devallowsoft)) { 1889091d81d1SSam Leffler continue; 1890091d81d1SSam Leffler } 1891091d81d1SSam Leffler for (kalg = 0; kalg < CRK_ALGORITHM_MAX; kalg++) 18926810ad6fSSam Leffler if (cap->cc_kalg[kalg] & CRYPTO_ALG_FLAG_SUPPORTED) 1893091d81d1SSam Leffler feat |= 1 << kalg; 1894091d81d1SSam Leffler } 1895091d81d1SSam Leffler CRYPTO_DRIVER_UNLOCK(); 1896091d81d1SSam Leffler *featp = feat; 1897091d81d1SSam Leffler return (0); 1898091d81d1SSam Leffler } 1899091d81d1SSam Leffler 190051e45326SSam Leffler /* 190151e45326SSam Leffler * Terminate a thread at module unload. The process that 190251e45326SSam Leffler * initiated this is waiting for us to signal that we're gone; 190351e45326SSam Leffler * wake it up and exit. We use the driver table lock to insure 190451e45326SSam Leffler * we don't do the wakeup before they're waiting. There is no 190551e45326SSam Leffler * race here because the waiter sleeps on the proc lock for the 190651e45326SSam Leffler * thread so it gets notified at the right time because of an 190751e45326SSam Leffler * extra wakeup that's done in exit1(). 190851e45326SSam Leffler */ 1909091d81d1SSam Leffler static void 191051e45326SSam Leffler crypto_finis(void *chan) 1911091d81d1SSam Leffler { 191251e45326SSam Leffler CRYPTO_DRIVER_LOCK(); 191351e45326SSam Leffler wakeup_one(chan); 191451e45326SSam Leffler CRYPTO_DRIVER_UNLOCK(); 19153745c395SJulian Elischer kproc_exit(0); 1916091d81d1SSam Leffler } 1917091d81d1SSam Leffler 1918091d81d1SSam Leffler /* 19191a91ccccSSam Leffler * Crypto thread, dispatches crypto requests. 1920091d81d1SSam Leffler */ 1921091d81d1SSam Leffler static void 1922091d81d1SSam Leffler crypto_proc(void) 1923091d81d1SSam Leffler { 19241a91ccccSSam Leffler struct cryptop *crp, *submit; 19251a91ccccSSam Leffler struct cryptkop *krp; 1926091d81d1SSam Leffler struct cryptocap *cap; 1927091d81d1SSam Leffler int result, hint; 1928091d81d1SSam Leffler 19296ed982a2SAndrew Turner #if defined(__i386__) || defined(__amd64__) || defined(__aarch64__) 193004c49e68SKonstantin Belousov fpu_kern_thread(FPU_KERN_NORMAL); 193104c49e68SKonstantin Belousov #endif 193204c49e68SKonstantin Belousov 19331a91ccccSSam Leffler CRYPTO_Q_LOCK(); 1934091d81d1SSam Leffler for (;;) { 1935091d81d1SSam Leffler /* 1936091d81d1SSam Leffler * Find the first element in the queue that can be 1937091d81d1SSam Leffler * processed and look-ahead to see if multiple ops 1938091d81d1SSam Leffler * are ready for the same driver. 1939091d81d1SSam Leffler */ 1940091d81d1SSam Leffler submit = NULL; 1941091d81d1SSam Leffler hint = 0; 1942091d81d1SSam Leffler TAILQ_FOREACH(crp, &crp_q, crp_next) { 1943c0341432SJohn Baldwin cap = crp->crp_session->cap; 19444acae0acSPawel Jakub Dawidek /* 19454acae0acSPawel Jakub Dawidek * Driver cannot disappeared when there is an active 19464acae0acSPawel Jakub Dawidek * session. 19474acae0acSPawel Jakub Dawidek */ 1948c3c82036SPawel Jakub Dawidek KASSERT(cap != NULL, ("%s:%u Driver disappeared.", 1949c3c82036SPawel Jakub Dawidek __func__, __LINE__)); 1950c0341432SJohn Baldwin if (cap->cc_flags & CRYPTOCAP_F_CLEANUP) { 1951091d81d1SSam Leffler /* Op needs to be migrated, process it. */ 1952091d81d1SSam Leffler if (submit == NULL) 1953091d81d1SSam Leffler submit = crp; 1954091d81d1SSam Leffler break; 1955091d81d1SSam Leffler } 1956091d81d1SSam Leffler if (!cap->cc_qblocked) { 1957091d81d1SSam Leffler if (submit != NULL) { 1958091d81d1SSam Leffler /* 1959091d81d1SSam Leffler * We stop on finding another op, 1960091d81d1SSam Leffler * regardless whether its for the same 1961091d81d1SSam Leffler * driver or not. We could keep 1962091d81d1SSam Leffler * searching the queue but it might be 1963091d81d1SSam Leffler * better to just use a per-driver 1964091d81d1SSam Leffler * queue instead. 1965091d81d1SSam Leffler */ 1966c0341432SJohn Baldwin if (submit->crp_session->cap == cap) 1967091d81d1SSam Leffler hint = CRYPTO_HINT_MORE; 1968091d81d1SSam Leffler break; 1969091d81d1SSam Leffler } else { 1970091d81d1SSam Leffler submit = crp; 1971eb73a605SSam Leffler if ((submit->crp_flags & CRYPTO_F_BATCH) == 0) 1972091d81d1SSam Leffler break; 1973091d81d1SSam Leffler /* keep scanning for more are q'd */ 1974091d81d1SSam Leffler } 1975091d81d1SSam Leffler } 1976091d81d1SSam Leffler } 1977091d81d1SSam Leffler if (submit != NULL) { 1978091d81d1SSam Leffler TAILQ_REMOVE(&crp_q, submit, crp_next); 1979c0341432SJohn Baldwin cap = submit->crp_session->cap; 1980c3c82036SPawel Jakub Dawidek KASSERT(cap != NULL, ("%s:%u Driver disappeared.", 1981c3c82036SPawel Jakub Dawidek __func__, __LINE__)); 1982c0341432SJohn Baldwin CRYPTO_Q_UNLOCK(); 19834acae0acSPawel Jakub Dawidek result = crypto_invoke(cap, submit, hint); 1984c0341432SJohn Baldwin CRYPTO_Q_LOCK(); 1985091d81d1SSam Leffler if (result == ERESTART) { 1986091d81d1SSam Leffler /* 1987091d81d1SSam Leffler * The driver ran out of resources, mark the 1988091d81d1SSam Leffler * driver ``blocked'' for cryptop's and put 1989091d81d1SSam Leffler * the request back in the queue. It would 1990091d81d1SSam Leffler * best to put the request back where we got 1991091d81d1SSam Leffler * it but that's hard so for now we put it 1992091d81d1SSam Leffler * at the front. This should be ok; putting 1993091d81d1SSam Leffler * it at the end does not work. 1994091d81d1SSam Leffler */ 1995c0341432SJohn Baldwin cap->cc_qblocked = 1; 1996091d81d1SSam Leffler TAILQ_INSERT_HEAD(&crp_q, submit, crp_next); 19977d1853eeSSam Leffler cryptostats.cs_blocks++; 1998091d81d1SSam Leffler } 1999091d81d1SSam Leffler } 2000091d81d1SSam Leffler 2001091d81d1SSam Leffler /* As above, but for key ops */ 2002091d81d1SSam Leffler TAILQ_FOREACH(krp, &crp_kq, krp_next) { 2003c0341432SJohn Baldwin cap = krp->krp_cap; 2004c0341432SJohn Baldwin if (cap->cc_flags & CRYPTOCAP_F_CLEANUP) { 20056810ad6fSSam Leffler /* 2006c0341432SJohn Baldwin * Operation needs to be migrated, 2007c0341432SJohn Baldwin * clear krp_cap so a new driver is 2008c0341432SJohn Baldwin * selected. 20096810ad6fSSam Leffler */ 2010c0341432SJohn Baldwin krp->krp_cap = NULL; 2011c0341432SJohn Baldwin cap_rele(cap); 2012091d81d1SSam Leffler break; 2013091d81d1SSam Leffler } 2014091d81d1SSam Leffler if (!cap->cc_kqblocked) 2015091d81d1SSam Leffler break; 2016091d81d1SSam Leffler } 2017091d81d1SSam Leffler if (krp != NULL) { 2018091d81d1SSam Leffler TAILQ_REMOVE(&crp_kq, krp, krp_next); 2019c0341432SJohn Baldwin CRYPTO_Q_UNLOCK(); 2020c0341432SJohn Baldwin result = crypto_kinvoke(krp); 2021c0341432SJohn Baldwin CRYPTO_Q_LOCK(); 2022091d81d1SSam Leffler if (result == ERESTART) { 2023091d81d1SSam Leffler /* 2024091d81d1SSam Leffler * The driver ran out of resources, mark the 2025091d81d1SSam Leffler * driver ``blocked'' for cryptkop's and put 2026091d81d1SSam Leffler * the request back in the queue. It would 2027091d81d1SSam Leffler * best to put the request back where we got 2028091d81d1SSam Leffler * it but that's hard so for now we put it 2029091d81d1SSam Leffler * at the front. This should be ok; putting 2030091d81d1SSam Leffler * it at the end does not work. 2031091d81d1SSam Leffler */ 2032c0341432SJohn Baldwin krp->krp_cap->cc_kqblocked = 1; 2033091d81d1SSam Leffler TAILQ_INSERT_HEAD(&crp_kq, krp, krp_next); 20347d1853eeSSam Leffler cryptostats.cs_kblocks++; 2035091d81d1SSam Leffler } 2036091d81d1SSam Leffler } 2037091d81d1SSam Leffler 20381a91ccccSSam Leffler if (submit == NULL && krp == NULL) { 2039091d81d1SSam Leffler /* 2040091d81d1SSam Leffler * Nothing more to be processed. Sleep until we're 2041091d81d1SSam Leffler * woken because there are more ops to process. 2042091d81d1SSam Leffler * This happens either by submission or by a driver 2043091d81d1SSam Leffler * becoming unblocked and notifying us through 2044091d81d1SSam Leffler * crypto_unblock. Note that when we wakeup we 2045091d81d1SSam Leffler * start processing each queue again from the 2046091d81d1SSam Leffler * front. It's not clear that it's important to 2047091d81d1SSam Leffler * preserve this ordering since ops may finish 2048091d81d1SSam Leffler * out of order if dispatched to different devices 2049091d81d1SSam Leffler * and some become blocked while others do not. 2050091d81d1SSam Leffler */ 20513a865c82SPawel Jakub Dawidek crp_sleep = 1; 20521a91ccccSSam Leffler msleep(&crp_q, &crypto_q_mtx, PWAIT, "crypto_wait", 0); 20533a865c82SPawel Jakub Dawidek crp_sleep = 0; 205451e45326SSam Leffler if (cryptoproc == NULL) 205551e45326SSam Leffler break; 20567d1853eeSSam Leffler cryptostats.cs_intrs++; 2057091d81d1SSam Leffler } 2058091d81d1SSam Leffler } 205951e45326SSam Leffler CRYPTO_Q_UNLOCK(); 20601a91ccccSSam Leffler 206151e45326SSam Leffler crypto_finis(&crp_q); 20621a91ccccSSam Leffler } 20631a91ccccSSam Leffler 20641a91ccccSSam Leffler /* 20651a91ccccSSam Leffler * Crypto returns thread, does callbacks for processed crypto requests. 20661a91ccccSSam Leffler * Callbacks are done here, rather than in the crypto drivers, because 20671a91ccccSSam Leffler * callbacks typically are expensive and would slow interrupt handling. 20681a91ccccSSam Leffler */ 20691a91ccccSSam Leffler static void 207039bbca6fSFabien Thomas crypto_ret_proc(struct crypto_ret_worker *ret_worker) 20711a91ccccSSam Leffler { 20721a91ccccSSam Leffler struct cryptop *crpt; 20731a91ccccSSam Leffler struct cryptkop *krpt; 20741a91ccccSSam Leffler 207539bbca6fSFabien Thomas CRYPTO_RETW_LOCK(ret_worker); 20761a91ccccSSam Leffler for (;;) { 20771a91ccccSSam Leffler /* Harvest return q's for completed ops */ 207839bbca6fSFabien Thomas crpt = TAILQ_FIRST(&ret_worker->crp_ordered_ret_q); 207939bbca6fSFabien Thomas if (crpt != NULL) { 208039bbca6fSFabien Thomas if (crpt->crp_seq == ret_worker->reorder_cur_seq) { 208139bbca6fSFabien Thomas TAILQ_REMOVE(&ret_worker->crp_ordered_ret_q, crpt, crp_next); 208239bbca6fSFabien Thomas ret_worker->reorder_cur_seq++; 208339bbca6fSFabien Thomas } else { 208439bbca6fSFabien Thomas crpt = NULL; 208539bbca6fSFabien Thomas } 208639bbca6fSFabien Thomas } 20871a91ccccSSam Leffler 208839bbca6fSFabien Thomas if (crpt == NULL) { 208939bbca6fSFabien Thomas crpt = TAILQ_FIRST(&ret_worker->crp_ret_q); 209039bbca6fSFabien Thomas if (crpt != NULL) 209139bbca6fSFabien Thomas TAILQ_REMOVE(&ret_worker->crp_ret_q, crpt, crp_next); 209239bbca6fSFabien Thomas } 209339bbca6fSFabien Thomas 209439bbca6fSFabien Thomas krpt = TAILQ_FIRST(&ret_worker->crp_ret_kq); 20951a91ccccSSam Leffler if (krpt != NULL) 209639bbca6fSFabien Thomas TAILQ_REMOVE(&ret_worker->crp_ret_kq, krpt, krp_next); 20971a91ccccSSam Leffler 20981a91ccccSSam Leffler if (crpt != NULL || krpt != NULL) { 209939bbca6fSFabien Thomas CRYPTO_RETW_UNLOCK(ret_worker); 21001a91ccccSSam Leffler /* 21011a91ccccSSam Leffler * Run callbacks unlocked. 21021a91ccccSSam Leffler */ 21037d1853eeSSam Leffler if (crpt != NULL) { 21047d1853eeSSam Leffler #ifdef CRYPTO_TIMING 21057d1853eeSSam Leffler if (crypto_timing) { 21067d1853eeSSam Leffler /* 21077d1853eeSSam Leffler * NB: We must copy the timestamp before 21087d1853eeSSam Leffler * doing the callback as the cryptop is 21097d1853eeSSam Leffler * likely to be reclaimed. 21107d1853eeSSam Leffler */ 21117d1853eeSSam Leffler struct bintime t = crpt->crp_tstamp; 21127d1853eeSSam Leffler crypto_tstat(&cryptostats.cs_cb, &t); 21131a91ccccSSam Leffler crpt->crp_callback(crpt); 21147d1853eeSSam Leffler crypto_tstat(&cryptostats.cs_finis, &t); 21157d1853eeSSam Leffler } else 21167d1853eeSSam Leffler #endif 21177d1853eeSSam Leffler crpt->crp_callback(crpt); 21187d1853eeSSam Leffler } 21191a91ccccSSam Leffler if (krpt != NULL) 21201a91ccccSSam Leffler krpt->krp_callback(krpt); 212139bbca6fSFabien Thomas CRYPTO_RETW_LOCK(ret_worker); 21221a91ccccSSam Leffler } else { 21231a91ccccSSam Leffler /* 21241a91ccccSSam Leffler * Nothing more to be processed. Sleep until we're 21251a91ccccSSam Leffler * woken because there are more returns to process. 21261a91ccccSSam Leffler */ 212739bbca6fSFabien Thomas msleep(&ret_worker->crp_ret_q, &ret_worker->crypto_ret_mtx, PWAIT, 21281a91ccccSSam Leffler "crypto_ret_wait", 0); 212939bbca6fSFabien Thomas if (ret_worker->cryptoretproc == NULL) 213051e45326SSam Leffler break; 21317d1853eeSSam Leffler cryptostats.cs_rets++; 21321a91ccccSSam Leffler } 21331a91ccccSSam Leffler } 213439bbca6fSFabien Thomas CRYPTO_RETW_UNLOCK(ret_worker); 213551e45326SSam Leffler 213639bbca6fSFabien Thomas crypto_finis(&ret_worker->crp_ret_q); 21371a91ccccSSam Leffler } 21386810ad6fSSam Leffler 21396810ad6fSSam Leffler #ifdef DDB 21406810ad6fSSam Leffler static void 21416810ad6fSSam Leffler db_show_drivers(void) 21426810ad6fSSam Leffler { 21436810ad6fSSam Leffler int hid; 21446810ad6fSSam Leffler 21456810ad6fSSam Leffler db_printf("%12s %4s %4s %8s %2s %2s\n" 21466810ad6fSSam Leffler , "Device" 21476810ad6fSSam Leffler , "Ses" 21486810ad6fSSam Leffler , "Kops" 21496810ad6fSSam Leffler , "Flags" 21506810ad6fSSam Leffler , "QB" 21516810ad6fSSam Leffler , "KB" 21526810ad6fSSam Leffler ); 2153c0341432SJohn Baldwin for (hid = 0; hid < crypto_drivers_size; hid++) { 2154c0341432SJohn Baldwin const struct cryptocap *cap = crypto_drivers[hid]; 2155c0341432SJohn Baldwin if (cap == NULL) 21566810ad6fSSam Leffler continue; 21576810ad6fSSam Leffler db_printf("%-12s %4u %4u %08x %2u %2u\n" 21586810ad6fSSam Leffler , device_get_nameunit(cap->cc_dev) 21596810ad6fSSam Leffler , cap->cc_sessions 21606810ad6fSSam Leffler , cap->cc_koperations 21616810ad6fSSam Leffler , cap->cc_flags 21626810ad6fSSam Leffler , cap->cc_qblocked 21636810ad6fSSam Leffler , cap->cc_kqblocked 21646810ad6fSSam Leffler ); 21656810ad6fSSam Leffler } 21666810ad6fSSam Leffler } 21676810ad6fSSam Leffler 21686810ad6fSSam Leffler DB_SHOW_COMMAND(crypto, db_show_crypto) 21696810ad6fSSam Leffler { 21706810ad6fSSam Leffler struct cryptop *crp; 217139bbca6fSFabien Thomas struct crypto_ret_worker *ret_worker; 21726810ad6fSSam Leffler 21736810ad6fSSam Leffler db_show_drivers(); 21746810ad6fSSam Leffler db_printf("\n"); 21756810ad6fSSam Leffler 21766810ad6fSSam Leffler db_printf("%4s %8s %4s %4s %4s %4s %8s %8s\n", 21776810ad6fSSam Leffler "HID", "Caps", "Ilen", "Olen", "Etype", "Flags", 2178c0341432SJohn Baldwin "Device", "Callback"); 21796810ad6fSSam Leffler TAILQ_FOREACH(crp, &crp_q, crp_next) { 21806810ad6fSSam Leffler db_printf("%4u %08x %4u %4u %4u %04x %8p %8p\n" 2181c0341432SJohn Baldwin , crp->crp_session->cap->cc_hid 21821b0909d5SConrad Meyer , (int) crypto_ses2caps(crp->crp_session) 21836810ad6fSSam Leffler , crp->crp_ilen, crp->crp_olen 21846810ad6fSSam Leffler , crp->crp_etype 21856810ad6fSSam Leffler , crp->crp_flags 2186c0341432SJohn Baldwin , device_get_nameunit(crp->crp_session->cap->cc_dev) 21876810ad6fSSam Leffler , crp->crp_callback 21886810ad6fSSam Leffler ); 21896810ad6fSSam Leffler } 219039bbca6fSFabien Thomas FOREACH_CRYPTO_RETW(ret_worker) { 219139bbca6fSFabien Thomas db_printf("\n%8s %4s %4s %4s %8s\n", 219239bbca6fSFabien Thomas "ret_worker", "HID", "Etype", "Flags", "Callback"); 219339bbca6fSFabien Thomas if (!TAILQ_EMPTY(&ret_worker->crp_ret_q)) { 219439bbca6fSFabien Thomas TAILQ_FOREACH(crp, &ret_worker->crp_ret_q, crp_next) { 219539bbca6fSFabien Thomas db_printf("%8td %4u %4u %04x %8p\n" 219639bbca6fSFabien Thomas , CRYPTO_RETW_ID(ret_worker) 2197c0341432SJohn Baldwin , crp->crp_session->cap->cc_hid 21986810ad6fSSam Leffler , crp->crp_etype 21996810ad6fSSam Leffler , crp->crp_flags 22006810ad6fSSam Leffler , crp->crp_callback 22016810ad6fSSam Leffler ); 22026810ad6fSSam Leffler } 22036810ad6fSSam Leffler } 22046810ad6fSSam Leffler } 220539bbca6fSFabien Thomas } 22066810ad6fSSam Leffler 22076810ad6fSSam Leffler DB_SHOW_COMMAND(kcrypto, db_show_kcrypto) 22086810ad6fSSam Leffler { 22096810ad6fSSam Leffler struct cryptkop *krp; 221039bbca6fSFabien Thomas struct crypto_ret_worker *ret_worker; 22116810ad6fSSam Leffler 22126810ad6fSSam Leffler db_show_drivers(); 22136810ad6fSSam Leffler db_printf("\n"); 22146810ad6fSSam Leffler 22156810ad6fSSam Leffler db_printf("%4s %5s %4s %4s %8s %4s %8s\n", 22166810ad6fSSam Leffler "Op", "Status", "#IP", "#OP", "CRID", "HID", "Callback"); 22176810ad6fSSam Leffler TAILQ_FOREACH(krp, &crp_kq, krp_next) { 22186810ad6fSSam Leffler db_printf("%4u %5u %4u %4u %08x %4u %8p\n" 22196810ad6fSSam Leffler , krp->krp_op 22206810ad6fSSam Leffler , krp->krp_status 22216810ad6fSSam Leffler , krp->krp_iparams, krp->krp_oparams 22226810ad6fSSam Leffler , krp->krp_crid, krp->krp_hid 22236810ad6fSSam Leffler , krp->krp_callback 22246810ad6fSSam Leffler ); 22256810ad6fSSam Leffler } 222639bbca6fSFabien Thomas 222739bbca6fSFabien Thomas ret_worker = CRYPTO_RETW(0); 222839bbca6fSFabien Thomas if (!TAILQ_EMPTY(&ret_worker->crp_ret_q)) { 22296810ad6fSSam Leffler db_printf("%4s %5s %8s %4s %8s\n", 22306810ad6fSSam Leffler "Op", "Status", "CRID", "HID", "Callback"); 223139bbca6fSFabien Thomas TAILQ_FOREACH(krp, &ret_worker->crp_ret_kq, krp_next) { 22326810ad6fSSam Leffler db_printf("%4u %5u %08x %4u %8p\n" 22336810ad6fSSam Leffler , krp->krp_op 22346810ad6fSSam Leffler , krp->krp_status 22356810ad6fSSam Leffler , krp->krp_crid, krp->krp_hid 22366810ad6fSSam Leffler , krp->krp_callback 22376810ad6fSSam Leffler ); 22386810ad6fSSam Leffler } 22396810ad6fSSam Leffler } 22406810ad6fSSam Leffler } 22416810ad6fSSam Leffler #endif 22426810ad6fSSam Leffler 22436810ad6fSSam Leffler int crypto_modevent(module_t mod, int type, void *unused); 22446810ad6fSSam Leffler 22456810ad6fSSam Leffler /* 22466810ad6fSSam Leffler * Initialization code, both for static and dynamic loading. 22476810ad6fSSam Leffler * Note this is not invoked with the usual MODULE_DECLARE 22486810ad6fSSam Leffler * mechanism but instead is listed as a dependency by the 22496810ad6fSSam Leffler * cryptosoft driver. This guarantees proper ordering of 22506810ad6fSSam Leffler * calls on module load/unload. 22516810ad6fSSam Leffler */ 22526810ad6fSSam Leffler int 22536810ad6fSSam Leffler crypto_modevent(module_t mod, int type, void *unused) 22546810ad6fSSam Leffler { 22556810ad6fSSam Leffler int error = EINVAL; 22566810ad6fSSam Leffler 22576810ad6fSSam Leffler switch (type) { 22586810ad6fSSam Leffler case MOD_LOAD: 22596810ad6fSSam Leffler error = crypto_init(); 22606810ad6fSSam Leffler if (error == 0 && bootverbose) 22616810ad6fSSam Leffler printf("crypto: <crypto core>\n"); 22626810ad6fSSam Leffler break; 22636810ad6fSSam Leffler case MOD_UNLOAD: 22646810ad6fSSam Leffler /*XXX disallow if active sessions */ 22656810ad6fSSam Leffler error = 0; 22666810ad6fSSam Leffler crypto_destroy(); 22676810ad6fSSam Leffler return 0; 22686810ad6fSSam Leffler } 22696810ad6fSSam Leffler return error; 22706810ad6fSSam Leffler } 22716810ad6fSSam Leffler MODULE_VERSION(crypto, 1); 22726810ad6fSSam Leffler MODULE_DEPEND(crypto, zlib, 1, 1, 1); 2273