1cfeb7489SZachary Loafman /*- 24d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause 38a36da99SPedro F. Giffuni * 4cfeb7489SZachary Loafman * Copyright (c) 2009 Isilon Inc http://www.isilon.com/ 5cfeb7489SZachary Loafman * 6cfeb7489SZachary Loafman * Redistribution and use in source and binary forms, with or without 7cfeb7489SZachary Loafman * modification, are permitted provided that the following conditions 8cfeb7489SZachary Loafman * are met: 9cfeb7489SZachary Loafman * 1. Redistributions of source code must retain the above copyright 10cfeb7489SZachary Loafman * notice, this list of conditions and the following disclaimer. 11cfeb7489SZachary Loafman * 2. Redistributions in binary form must reproduce the above copyright 12cfeb7489SZachary Loafman * notice, this list of conditions and the following disclaimer in the 13cfeb7489SZachary Loafman * documentation and/or other materials provided with the distribution. 14cfeb7489SZachary Loafman * 15cfeb7489SZachary Loafman * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16cfeb7489SZachary Loafman * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17cfeb7489SZachary Loafman * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18cfeb7489SZachary Loafman * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19cfeb7489SZachary Loafman * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20cfeb7489SZachary Loafman * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21cfeb7489SZachary Loafman * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22cfeb7489SZachary Loafman * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23cfeb7489SZachary Loafman * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24cfeb7489SZachary Loafman * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25cfeb7489SZachary Loafman * SUCH DAMAGE. 26cfeb7489SZachary Loafman */ 27cfeb7489SZachary Loafman /** 28cfeb7489SZachary Loafman * @file 29cfeb7489SZachary Loafman * 30cfeb7489SZachary Loafman * fail(9) Facility. 31cfeb7489SZachary Loafman * 32cfeb7489SZachary Loafman * @ingroup failpoint_private 33cfeb7489SZachary Loafman */ 34cfeb7489SZachary Loafman /** 35cfeb7489SZachary Loafman * @defgroup failpoint fail(9) Facility 36cfeb7489SZachary Loafman * 37cfeb7489SZachary Loafman * Failpoints allow for injecting fake errors into running code on the fly, 38cfeb7489SZachary Loafman * without modifying code or recompiling with flags. Failpoints are always 39cfeb7489SZachary Loafman * present, and are very efficient when disabled. Failpoints are described 40cfeb7489SZachary Loafman * in man fail(9). 41cfeb7489SZachary Loafman */ 42cfeb7489SZachary Loafman /** 43cfeb7489SZachary Loafman * @defgroup failpoint_private Private fail(9) Implementation functions 44cfeb7489SZachary Loafman * 45cfeb7489SZachary Loafman * Private implementations for the actual failpoint code. 46cfeb7489SZachary Loafman * 47cfeb7489SZachary Loafman * @ingroup failpoint 48cfeb7489SZachary Loafman */ 49cfeb7489SZachary Loafman /** 50cfeb7489SZachary Loafman * @addtogroup failpoint_private 51cfeb7489SZachary Loafman * @{ 52cfeb7489SZachary Loafman */ 53cfeb7489SZachary Loafman 54cfeb7489SZachary Loafman #include <sys/cdefs.h> 5582e17adcSConrad Meyer #include "opt_stack.h" 5682e17adcSConrad Meyer 570894a9bcSMatthew D Fleming #include <sys/ctype.h> 58cfeb7489SZachary Loafman #include <sys/errno.h> 59cfeb7489SZachary Loafman #include <sys/fail.h> 60cfeb7489SZachary Loafman #include <sys/kernel.h> 61cfeb7489SZachary Loafman #include <sys/libkern.h> 6270e20d4eSConrad Meyer #include <sys/limits.h> 63cfeb7489SZachary Loafman #include <sys/lock.h> 64cfeb7489SZachary Loafman #include <sys/malloc.h> 65cfeb7489SZachary Loafman #include <sys/mutex.h> 66b5bd50aeSMatthew D Fleming #include <sys/proc.h> 67cfeb7489SZachary Loafman #include <sys/sbuf.h> 6870e20d4eSConrad Meyer #include <sys/sleepqueue.h> 6970e20d4eSConrad Meyer #include <sys/sx.h> 7070e20d4eSConrad Meyer #include <sys/sysctl.h> 7170e20d4eSConrad Meyer #include <sys/types.h> 72cfeb7489SZachary Loafman 7370e20d4eSConrad Meyer #include <machine/atomic.h> 74cfeb7489SZachary Loafman #include <machine/stdarg.h> 75cfeb7489SZachary Loafman 76cfeb7489SZachary Loafman #ifdef ILOG_DEFINE_FOR_FILE 77cfeb7489SZachary Loafman ILOG_DEFINE_FOR_FILE(L_ISI_FAIL_POINT, L_ILOG, fail_point); 78cfeb7489SZachary Loafman #endif 79cfeb7489SZachary Loafman 80d745c852SEd Schouten static MALLOC_DEFINE(M_FAIL_POINT, "Fail Points", "fail points system"); 81cfeb7489SZachary Loafman #define fp_free(ptr) free(ptr, M_FAIL_POINT) 82cfeb7489SZachary Loafman #define fp_malloc(size, flags) malloc((size), M_FAIL_POINT, (flags)) 8370e20d4eSConrad Meyer #define fs_free(ptr) fp_free(ptr) 8470e20d4eSConrad Meyer #define fs_malloc() fp_malloc(sizeof(struct fail_point_setting), \ 8570e20d4eSConrad Meyer M_WAITOK | M_ZERO) 86cfeb7489SZachary Loafman 8770e20d4eSConrad Meyer /** 8870e20d4eSConrad Meyer * These define the wchans that are used for sleeping, pausing respectively. 8970e20d4eSConrad Meyer * They are chosen arbitrarily but need to be distinct to the failpoint and 9070e20d4eSConrad Meyer * the sleep/pause distinction. 9170e20d4eSConrad Meyer */ 9270e20d4eSConrad Meyer #define FP_SLEEP_CHANNEL(fp) (void*)(fp) 9370e20d4eSConrad Meyer #define FP_PAUSE_CHANNEL(fp) __DEVOLATILE(void*, &fp->fp_setting) 9470e20d4eSConrad Meyer 9570e20d4eSConrad Meyer /** 9670e20d4eSConrad Meyer * Don't allow more than this many entries in a fail point set by sysctl. 9770e20d4eSConrad Meyer * The 99.99...% case is to have 1 entry. I can't imagine having this many 9870e20d4eSConrad Meyer * entries, so it should not limit us. Saves on re-mallocs while holding 9970e20d4eSConrad Meyer * a non-sleepable lock. 10070e20d4eSConrad Meyer */ 10170e20d4eSConrad Meyer #define FP_MAX_ENTRY_COUNT 20 10270e20d4eSConrad Meyer 10370e20d4eSConrad Meyer /* Used to drain sbufs to the sysctl output */ 10470e20d4eSConrad Meyer int fail_sysctl_drain_func(void *, const char *, int); 10570e20d4eSConrad Meyer 10670e20d4eSConrad Meyer /* Head of tailq of struct fail_point_entry */ 10770e20d4eSConrad Meyer TAILQ_HEAD(fail_point_entry_queue, fail_point_entry); 10870e20d4eSConrad Meyer 10970e20d4eSConrad Meyer /** 11070e20d4eSConrad Meyer * fp entries garbage list; outstanding entries are cleaned up in the 11170e20d4eSConrad Meyer * garbage collector 11270e20d4eSConrad Meyer */ 11370e20d4eSConrad Meyer STAILQ_HEAD(fail_point_setting_garbage, fail_point_setting); 11470e20d4eSConrad Meyer static struct fail_point_setting_garbage fp_setting_garbage = 11570e20d4eSConrad Meyer STAILQ_HEAD_INITIALIZER(fp_setting_garbage); 11670e20d4eSConrad Meyer static struct mtx mtx_garbage_list; 11770e20d4eSConrad Meyer MTX_SYSINIT(mtx_garbage_list, &mtx_garbage_list, "fail point garbage mtx", 11870e20d4eSConrad Meyer MTX_SPIN); 11970e20d4eSConrad Meyer 12070e20d4eSConrad Meyer static struct sx sx_fp_set; 12170e20d4eSConrad Meyer SX_SYSINIT(sx_fp_set, &sx_fp_set, "fail point set sx"); 122cfeb7489SZachary Loafman 123d26b7945SMatthew D Fleming /** 124d26b7945SMatthew D Fleming * Failpoint types. 125d26b7945SMatthew D Fleming * Don't change these without changing fail_type_strings in fail.c. 126d26b7945SMatthew D Fleming * @ingroup failpoint_private 127d26b7945SMatthew D Fleming */ 128d26b7945SMatthew D Fleming enum fail_point_t { 129d26b7945SMatthew D Fleming FAIL_POINT_OFF, /**< don't fail */ 130d26b7945SMatthew D Fleming FAIL_POINT_PANIC, /**< panic */ 131d26b7945SMatthew D Fleming FAIL_POINT_RETURN, /**< return an errorcode */ 132d26b7945SMatthew D Fleming FAIL_POINT_BREAK, /**< break into the debugger */ 133d26b7945SMatthew D Fleming FAIL_POINT_PRINT, /**< print a message */ 134d26b7945SMatthew D Fleming FAIL_POINT_SLEEP, /**< sleep for some msecs */ 13570e20d4eSConrad Meyer FAIL_POINT_PAUSE, /**< sleep until failpoint is set to off */ 13670e20d4eSConrad Meyer FAIL_POINT_YIELD, /**< yield the cpu */ 13770e20d4eSConrad Meyer FAIL_POINT_DELAY, /**< busy wait the cpu */ 13870e20d4eSConrad Meyer FAIL_POINT_NUMTYPES, 13970e20d4eSConrad Meyer FAIL_POINT_INVALID = -1 140d26b7945SMatthew D Fleming }; 141d26b7945SMatthew D Fleming 1420894a9bcSMatthew D Fleming static struct { 1430894a9bcSMatthew D Fleming const char *name; 1440894a9bcSMatthew D Fleming int nmlen; 1450894a9bcSMatthew D Fleming } fail_type_strings[] = { 1460894a9bcSMatthew D Fleming #define FP_TYPE_NM_LEN(s) { s, sizeof(s) - 1 } 1470894a9bcSMatthew D Fleming [FAIL_POINT_OFF] = FP_TYPE_NM_LEN("off"), 1480894a9bcSMatthew D Fleming [FAIL_POINT_PANIC] = FP_TYPE_NM_LEN("panic"), 1490894a9bcSMatthew D Fleming [FAIL_POINT_RETURN] = FP_TYPE_NM_LEN("return"), 1500894a9bcSMatthew D Fleming [FAIL_POINT_BREAK] = FP_TYPE_NM_LEN("break"), 1510894a9bcSMatthew D Fleming [FAIL_POINT_PRINT] = FP_TYPE_NM_LEN("print"), 1520894a9bcSMatthew D Fleming [FAIL_POINT_SLEEP] = FP_TYPE_NM_LEN("sleep"), 15370e20d4eSConrad Meyer [FAIL_POINT_PAUSE] = FP_TYPE_NM_LEN("pause"), 15470e20d4eSConrad Meyer [FAIL_POINT_YIELD] = FP_TYPE_NM_LEN("yield"), 15570e20d4eSConrad Meyer [FAIL_POINT_DELAY] = FP_TYPE_NM_LEN("delay"), 156d26b7945SMatthew D Fleming }; 157d26b7945SMatthew D Fleming 15870e20d4eSConrad Meyer #define FE_COUNT_UNTRACKED (INT_MIN) 15970e20d4eSConrad Meyer 160d26b7945SMatthew D Fleming /** 161d26b7945SMatthew D Fleming * Internal structure tracking a single term of a complete failpoint. 162d26b7945SMatthew D Fleming * @ingroup failpoint_private 163d26b7945SMatthew D Fleming */ 164d26b7945SMatthew D Fleming struct fail_point_entry { 16570e20d4eSConrad Meyer volatile bool fe_stale; 166d26b7945SMatthew D Fleming enum fail_point_t fe_type; /**< type of entry */ 167d26b7945SMatthew D Fleming int fe_arg; /**< argument to type (e.g. return value) */ 168d26b7945SMatthew D Fleming int fe_prob; /**< likelihood of firing in millionths */ 169508d8569SMark Johnston int32_t fe_count; /**< number of times to fire, -1 means infinite */ 170b5bd50aeSMatthew D Fleming pid_t fe_pid; /**< only fail for this process */ 17170e20d4eSConrad Meyer struct fail_point *fe_parent; /**< backpointer to fp */ 17270e20d4eSConrad Meyer TAILQ_ENTRY(fail_point_entry) fe_entries; /**< next entry ptr */ 173d26b7945SMatthew D Fleming }; 174d26b7945SMatthew D Fleming 17570e20d4eSConrad Meyer struct fail_point_setting { 17670e20d4eSConrad Meyer STAILQ_ENTRY(fail_point_setting) fs_garbage_link; 17770e20d4eSConrad Meyer struct fail_point_entry_queue fp_entry_queue; 17870e20d4eSConrad Meyer struct fail_point * fs_parent; 17970e20d4eSConrad Meyer struct mtx feq_mtx; /* Gives fail_point_pause something to do. */ 18070e20d4eSConrad Meyer }; 181cfeb7489SZachary Loafman 182cfeb7489SZachary Loafman /** 183cfeb7489SZachary Loafman * Defines stating the equivalent of probablilty one (100%) 184cfeb7489SZachary Loafman */ 185cfeb7489SZachary Loafman enum { 186cfeb7489SZachary Loafman PROB_MAX = 1000000, /* probability between zero and this number */ 18770e20d4eSConrad Meyer PROB_DIGITS = 6 /* number of zero's in above number */ 188cfeb7489SZachary Loafman }; 189cfeb7489SZachary Loafman 19070e20d4eSConrad Meyer /* Get a ref on an fp's fp_setting */ 19170e20d4eSConrad Meyer static inline struct fail_point_setting *fail_point_setting_get_ref( 19270e20d4eSConrad Meyer struct fail_point *fp); 19370e20d4eSConrad Meyer /* Release a ref on an fp_setting */ 19470e20d4eSConrad Meyer static inline void fail_point_setting_release_ref(struct fail_point *fp); 19570e20d4eSConrad Meyer /* Allocate and initialize a struct fail_point_setting */ 19670e20d4eSConrad Meyer static struct fail_point_setting *fail_point_setting_new(struct 19770e20d4eSConrad Meyer fail_point *); 19870e20d4eSConrad Meyer /* Free a struct fail_point_setting */ 19970e20d4eSConrad Meyer static void fail_point_setting_destroy(struct fail_point_setting *fp_setting); 20070e20d4eSConrad Meyer /* Allocate and initialize a struct fail_point_entry */ 20170e20d4eSConrad Meyer static struct fail_point_entry *fail_point_entry_new(struct 20270e20d4eSConrad Meyer fail_point_setting *); 20370e20d4eSConrad Meyer /* Free a struct fail_point_entry */ 20470e20d4eSConrad Meyer static void fail_point_entry_destroy(struct fail_point_entry *fp_entry); 20570e20d4eSConrad Meyer /* Append fp setting to garbage list */ 20670e20d4eSConrad Meyer static inline void fail_point_setting_garbage_append( 20770e20d4eSConrad Meyer struct fail_point_setting *fp_setting); 20870e20d4eSConrad Meyer /* Swap fp's setting with fp_setting_new */ 20970e20d4eSConrad Meyer static inline struct fail_point_setting * 21070e20d4eSConrad Meyer fail_point_swap_settings(struct fail_point *fp, 21170e20d4eSConrad Meyer struct fail_point_setting *fp_setting_new); 21270e20d4eSConrad Meyer /* Free up any zero-ref setting in the garbage queue */ 21370e20d4eSConrad Meyer static void fail_point_garbage_collect(void); 21470e20d4eSConrad Meyer /* If this fail point's setting are empty, then swap it out to NULL. */ 21570e20d4eSConrad Meyer static inline void fail_point_eval_swap_out(struct fail_point *fp, 21670e20d4eSConrad Meyer struct fail_point_setting *fp_setting); 21770e20d4eSConrad Meyer 21870e20d4eSConrad Meyer bool 21970e20d4eSConrad Meyer fail_point_is_off(struct fail_point *fp) 22070e20d4eSConrad Meyer { 22170e20d4eSConrad Meyer bool return_val; 22270e20d4eSConrad Meyer struct fail_point_setting *fp_setting; 22370e20d4eSConrad Meyer struct fail_point_entry *ent; 22470e20d4eSConrad Meyer 22570e20d4eSConrad Meyer return_val = true; 22670e20d4eSConrad Meyer 22770e20d4eSConrad Meyer fp_setting = fail_point_setting_get_ref(fp); 22870e20d4eSConrad Meyer if (fp_setting != NULL) { 22970e20d4eSConrad Meyer TAILQ_FOREACH(ent, &fp_setting->fp_entry_queue, 23070e20d4eSConrad Meyer fe_entries) { 23170e20d4eSConrad Meyer if (!ent->fe_stale) { 23270e20d4eSConrad Meyer return_val = false; 23370e20d4eSConrad Meyer break; 23470e20d4eSConrad Meyer } 23570e20d4eSConrad Meyer } 23670e20d4eSConrad Meyer } 23770e20d4eSConrad Meyer fail_point_setting_release_ref(fp); 23870e20d4eSConrad Meyer 23970e20d4eSConrad Meyer return (return_val); 24070e20d4eSConrad Meyer } 24170e20d4eSConrad Meyer 24270e20d4eSConrad Meyer /* Allocate and initialize a struct fail_point_setting */ 24370e20d4eSConrad Meyer static struct fail_point_setting * 24470e20d4eSConrad Meyer fail_point_setting_new(struct fail_point *fp) 24570e20d4eSConrad Meyer { 24670e20d4eSConrad Meyer struct fail_point_setting *fs_new; 24770e20d4eSConrad Meyer 24870e20d4eSConrad Meyer fs_new = fs_malloc(); 24970e20d4eSConrad Meyer fs_new->fs_parent = fp; 25070e20d4eSConrad Meyer TAILQ_INIT(&fs_new->fp_entry_queue); 25170e20d4eSConrad Meyer mtx_init(&fs_new->feq_mtx, "fail point entries", NULL, MTX_SPIN); 25270e20d4eSConrad Meyer 25370e20d4eSConrad Meyer fail_point_setting_garbage_append(fs_new); 25470e20d4eSConrad Meyer 25570e20d4eSConrad Meyer return (fs_new); 25670e20d4eSConrad Meyer } 25770e20d4eSConrad Meyer 25870e20d4eSConrad Meyer /* Free a struct fail_point_setting */ 25970e20d4eSConrad Meyer static void 26070e20d4eSConrad Meyer fail_point_setting_destroy(struct fail_point_setting *fp_setting) 26170e20d4eSConrad Meyer { 26270e20d4eSConrad Meyer struct fail_point_entry *ent; 26370e20d4eSConrad Meyer 26470e20d4eSConrad Meyer while (!TAILQ_EMPTY(&fp_setting->fp_entry_queue)) { 26570e20d4eSConrad Meyer ent = TAILQ_FIRST(&fp_setting->fp_entry_queue); 26670e20d4eSConrad Meyer TAILQ_REMOVE(&fp_setting->fp_entry_queue, ent, fe_entries); 26770e20d4eSConrad Meyer fail_point_entry_destroy(ent); 26870e20d4eSConrad Meyer } 26970e20d4eSConrad Meyer 27070e20d4eSConrad Meyer fs_free(fp_setting); 27170e20d4eSConrad Meyer } 27270e20d4eSConrad Meyer 27370e20d4eSConrad Meyer /* Allocate and initialize a struct fail_point_entry */ 27470e20d4eSConrad Meyer static struct fail_point_entry * 27570e20d4eSConrad Meyer fail_point_entry_new(struct fail_point_setting *fp_setting) 27670e20d4eSConrad Meyer { 27770e20d4eSConrad Meyer struct fail_point_entry *fp_entry; 27870e20d4eSConrad Meyer 27970e20d4eSConrad Meyer fp_entry = fp_malloc(sizeof(struct fail_point_entry), 28070e20d4eSConrad Meyer M_WAITOK | M_ZERO); 28170e20d4eSConrad Meyer fp_entry->fe_parent = fp_setting->fs_parent; 28270e20d4eSConrad Meyer fp_entry->fe_prob = PROB_MAX; 28370e20d4eSConrad Meyer fp_entry->fe_pid = NO_PID; 28470e20d4eSConrad Meyer fp_entry->fe_count = FE_COUNT_UNTRACKED; 28570e20d4eSConrad Meyer TAILQ_INSERT_TAIL(&fp_setting->fp_entry_queue, fp_entry, 28670e20d4eSConrad Meyer fe_entries); 28770e20d4eSConrad Meyer 28870e20d4eSConrad Meyer return (fp_entry); 28970e20d4eSConrad Meyer } 29070e20d4eSConrad Meyer 29170e20d4eSConrad Meyer /* Free a struct fail_point_entry */ 29270e20d4eSConrad Meyer static void 29370e20d4eSConrad Meyer fail_point_entry_destroy(struct fail_point_entry *fp_entry) 29470e20d4eSConrad Meyer { 29570e20d4eSConrad Meyer 29670e20d4eSConrad Meyer fp_free(fp_entry); 29770e20d4eSConrad Meyer } 29870e20d4eSConrad Meyer 29970e20d4eSConrad Meyer /* Get a ref on an fp's fp_setting */ 30070e20d4eSConrad Meyer static inline struct fail_point_setting * 30170e20d4eSConrad Meyer fail_point_setting_get_ref(struct fail_point *fp) 30270e20d4eSConrad Meyer { 30370e20d4eSConrad Meyer struct fail_point_setting *fp_setting; 30470e20d4eSConrad Meyer 30570e20d4eSConrad Meyer /* Invariant: if we have a ref, our pointer to fp_setting is safe */ 30670e20d4eSConrad Meyer atomic_add_acq_32(&fp->fp_ref_cnt, 1); 30770e20d4eSConrad Meyer fp_setting = fp->fp_setting; 30870e20d4eSConrad Meyer 30970e20d4eSConrad Meyer return (fp_setting); 31070e20d4eSConrad Meyer } 31170e20d4eSConrad Meyer 31270e20d4eSConrad Meyer /* Release a ref on an fp_setting */ 31370e20d4eSConrad Meyer static inline void 31470e20d4eSConrad Meyer fail_point_setting_release_ref(struct fail_point *fp) 31570e20d4eSConrad Meyer { 31670e20d4eSConrad Meyer 31770e20d4eSConrad Meyer KASSERT(&fp->fp_ref_cnt > 0, ("Attempting to deref w/no refs")); 31870e20d4eSConrad Meyer atomic_subtract_rel_32(&fp->fp_ref_cnt, 1); 31970e20d4eSConrad Meyer } 32070e20d4eSConrad Meyer 32170e20d4eSConrad Meyer /* Append fp entries to fp garbage list */ 32270e20d4eSConrad Meyer static inline void 32370e20d4eSConrad Meyer fail_point_setting_garbage_append(struct fail_point_setting *fp_setting) 32470e20d4eSConrad Meyer { 32570e20d4eSConrad Meyer 32670e20d4eSConrad Meyer mtx_lock_spin(&mtx_garbage_list); 32770e20d4eSConrad Meyer STAILQ_INSERT_TAIL(&fp_setting_garbage, fp_setting, 32870e20d4eSConrad Meyer fs_garbage_link); 32970e20d4eSConrad Meyer mtx_unlock_spin(&mtx_garbage_list); 33070e20d4eSConrad Meyer } 33170e20d4eSConrad Meyer 33270e20d4eSConrad Meyer /* Swap fp's entries with fp_setting_new */ 33370e20d4eSConrad Meyer static struct fail_point_setting * 33470e20d4eSConrad Meyer fail_point_swap_settings(struct fail_point *fp, 33570e20d4eSConrad Meyer struct fail_point_setting *fp_setting_new) 33670e20d4eSConrad Meyer { 33770e20d4eSConrad Meyer struct fail_point_setting *fp_setting_old; 33870e20d4eSConrad Meyer 33970e20d4eSConrad Meyer fp_setting_old = fp->fp_setting; 34070e20d4eSConrad Meyer fp->fp_setting = fp_setting_new; 34170e20d4eSConrad Meyer 34270e20d4eSConrad Meyer return (fp_setting_old); 34370e20d4eSConrad Meyer } 34470e20d4eSConrad Meyer 34570e20d4eSConrad Meyer static inline void 34670e20d4eSConrad Meyer fail_point_eval_swap_out(struct fail_point *fp, 34770e20d4eSConrad Meyer struct fail_point_setting *fp_setting) 34870e20d4eSConrad Meyer { 34970e20d4eSConrad Meyer 35070e20d4eSConrad Meyer /* We may have already been swapped out and replaced; ignore. */ 35170e20d4eSConrad Meyer if (fp->fp_setting == fp_setting) 35270e20d4eSConrad Meyer fail_point_swap_settings(fp, NULL); 35370e20d4eSConrad Meyer } 35470e20d4eSConrad Meyer 35570e20d4eSConrad Meyer /* Free up any zero-ref entries in the garbage queue */ 35670e20d4eSConrad Meyer static void 357508d8569SMark Johnston fail_point_garbage_collect(void) 35870e20d4eSConrad Meyer { 35970e20d4eSConrad Meyer struct fail_point_setting *fs_current, *fs_next; 36070e20d4eSConrad Meyer struct fail_point_setting_garbage fp_ents_free_list; 36170e20d4eSConrad Meyer 36270e20d4eSConrad Meyer /** 36370e20d4eSConrad Meyer * We will transfer the entries to free to fp_ents_free_list while holding 36470e20d4eSConrad Meyer * the spin mutex, then free it after we drop the lock. This avoids 36570e20d4eSConrad Meyer * triggering witness due to sleepable mutexes in the memory 36670e20d4eSConrad Meyer * allocator. 36770e20d4eSConrad Meyer */ 36870e20d4eSConrad Meyer STAILQ_INIT(&fp_ents_free_list); 36970e20d4eSConrad Meyer 37070e20d4eSConrad Meyer mtx_lock_spin(&mtx_garbage_list); 37170e20d4eSConrad Meyer STAILQ_FOREACH_SAFE(fs_current, &fp_setting_garbage, fs_garbage_link, 37270e20d4eSConrad Meyer fs_next) { 37370e20d4eSConrad Meyer if (fs_current->fs_parent->fp_setting != fs_current && 37470e20d4eSConrad Meyer fs_current->fs_parent->fp_ref_cnt == 0) { 37570e20d4eSConrad Meyer STAILQ_REMOVE(&fp_setting_garbage, fs_current, 37670e20d4eSConrad Meyer fail_point_setting, fs_garbage_link); 37770e20d4eSConrad Meyer STAILQ_INSERT_HEAD(&fp_ents_free_list, fs_current, 37870e20d4eSConrad Meyer fs_garbage_link); 37970e20d4eSConrad Meyer } 38070e20d4eSConrad Meyer } 38170e20d4eSConrad Meyer mtx_unlock_spin(&mtx_garbage_list); 38270e20d4eSConrad Meyer 38370e20d4eSConrad Meyer STAILQ_FOREACH_SAFE(fs_current, &fp_ents_free_list, fs_garbage_link, 38470e20d4eSConrad Meyer fs_next) 38570e20d4eSConrad Meyer fail_point_setting_destroy(fs_current); 38670e20d4eSConrad Meyer } 38770e20d4eSConrad Meyer 38870e20d4eSConrad Meyer /* Drain out all refs from this fail point */ 38970e20d4eSConrad Meyer static inline void 39070e20d4eSConrad Meyer fail_point_drain(struct fail_point *fp, int expected_ref) 39170e20d4eSConrad Meyer { 39270e20d4eSConrad Meyer struct fail_point_setting *entries; 39370e20d4eSConrad Meyer 39470e20d4eSConrad Meyer entries = fail_point_swap_settings(fp, NULL); 39570e20d4eSConrad Meyer /** 39670e20d4eSConrad Meyer * We have unpaused all threads; so we will wait no longer 39770e20d4eSConrad Meyer * than the time taken for the longest remaining sleep, or 39870e20d4eSConrad Meyer * the length of time of a long-running code block. 39970e20d4eSConrad Meyer */ 40070e20d4eSConrad Meyer while (fp->fp_ref_cnt > expected_ref) { 40170e20d4eSConrad Meyer wakeup(FP_PAUSE_CHANNEL(fp)); 40270e20d4eSConrad Meyer tsleep(&fp, PWAIT, "fail_point_drain", hz / 100); 40370e20d4eSConrad Meyer } 404bf2276f3SJohn Baldwin if (fp->fp_callout) 405bf2276f3SJohn Baldwin callout_drain(fp->fp_callout); 40670e20d4eSConrad Meyer fail_point_swap_settings(fp, entries); 40770e20d4eSConrad Meyer } 40870e20d4eSConrad Meyer 40970e20d4eSConrad Meyer static inline void 41070e20d4eSConrad Meyer fail_point_pause(struct fail_point *fp, enum fail_point_return_code *pret, 41170e20d4eSConrad Meyer struct mtx *mtx_sleep) 41270e20d4eSConrad Meyer { 41370e20d4eSConrad Meyer 41470e20d4eSConrad Meyer if (fp->fp_pre_sleep_fn) 41570e20d4eSConrad Meyer fp->fp_pre_sleep_fn(fp->fp_pre_sleep_arg); 41670e20d4eSConrad Meyer 41770e20d4eSConrad Meyer msleep_spin(FP_PAUSE_CHANNEL(fp), mtx_sleep, "failpt", 0); 41870e20d4eSConrad Meyer 41970e20d4eSConrad Meyer if (fp->fp_post_sleep_fn) 42070e20d4eSConrad Meyer fp->fp_post_sleep_fn(fp->fp_post_sleep_arg); 42170e20d4eSConrad Meyer } 42270e20d4eSConrad Meyer 42370e20d4eSConrad Meyer static inline void 42470e20d4eSConrad Meyer fail_point_sleep(struct fail_point *fp, int msecs, 42570e20d4eSConrad Meyer enum fail_point_return_code *pret) 42670e20d4eSConrad Meyer { 42770e20d4eSConrad Meyer int timo; 42870e20d4eSConrad Meyer 42970e20d4eSConrad Meyer /* Convert from millisecs to ticks, rounding up */ 4305abb3b74SConrad Meyer timo = howmany((int64_t)msecs * hz, 1000L); 43170e20d4eSConrad Meyer 43270e20d4eSConrad Meyer if (timo > 0) { 43370e20d4eSConrad Meyer if (!(fp->fp_flags & FAIL_POINT_USE_TIMEOUT_PATH)) { 43470e20d4eSConrad Meyer if (fp->fp_pre_sleep_fn) 43570e20d4eSConrad Meyer fp->fp_pre_sleep_fn(fp->fp_pre_sleep_arg); 43670e20d4eSConrad Meyer 43770e20d4eSConrad Meyer tsleep(FP_SLEEP_CHANNEL(fp), PWAIT, "failpt", timo); 43870e20d4eSConrad Meyer 43970e20d4eSConrad Meyer if (fp->fp_post_sleep_fn) 44070e20d4eSConrad Meyer fp->fp_post_sleep_fn(fp->fp_post_sleep_arg); 44170e20d4eSConrad Meyer } else { 44270e20d4eSConrad Meyer if (fp->fp_pre_sleep_fn) 44370e20d4eSConrad Meyer fp->fp_pre_sleep_fn(fp->fp_pre_sleep_arg); 44470e20d4eSConrad Meyer 445bf2276f3SJohn Baldwin callout_reset(fp->fp_callout, timo, 446bf2276f3SJohn Baldwin fp->fp_post_sleep_fn, fp->fp_post_sleep_arg); 44770e20d4eSConrad Meyer *pret = FAIL_POINT_RC_QUEUED; 44870e20d4eSConrad Meyer } 44970e20d4eSConrad Meyer } 45070e20d4eSConrad Meyer } 45170e20d4eSConrad Meyer 45270e20d4eSConrad Meyer static char *parse_fail_point(struct fail_point_setting *, char *); 45370e20d4eSConrad Meyer static char *parse_term(struct fail_point_setting *, char *); 454cfeb7489SZachary Loafman static char *parse_number(int *out_units, int *out_decimal, char *); 455cfeb7489SZachary Loafman static char *parse_type(struct fail_point_entry *, char *); 456cfeb7489SZachary Loafman 457cfeb7489SZachary Loafman /** 458cfeb7489SZachary Loafman * Initialize a fail_point. The name is formed in a printf-like fashion 459cfeb7489SZachary Loafman * from "fmt" and subsequent arguments. This function is generally used 460cfeb7489SZachary Loafman * for custom failpoints located at odd places in the sysctl tree, and is 461cfeb7489SZachary Loafman * not explicitly needed for standard in-line-declared failpoints. 462cfeb7489SZachary Loafman * 463cfeb7489SZachary Loafman * @ingroup failpoint 464cfeb7489SZachary Loafman */ 465cfeb7489SZachary Loafman void 466cfeb7489SZachary Loafman fail_point_init(struct fail_point *fp, const char *fmt, ...) 467cfeb7489SZachary Loafman { 468cfeb7489SZachary Loafman va_list ap; 469cfeb7489SZachary Loafman char *name; 470cfeb7489SZachary Loafman int n; 471cfeb7489SZachary Loafman 47270e20d4eSConrad Meyer fp->fp_setting = NULL; 473cfeb7489SZachary Loafman fp->fp_flags = 0; 474cfeb7489SZachary Loafman 475cfeb7489SZachary Loafman /* Figure out the size of the name. */ 476cfeb7489SZachary Loafman va_start(ap, fmt); 477cfeb7489SZachary Loafman n = vsnprintf(NULL, 0, fmt, ap); 478cfeb7489SZachary Loafman va_end(ap); 479cfeb7489SZachary Loafman 480cfeb7489SZachary Loafman /* Allocate the name and fill it in. */ 481cfeb7489SZachary Loafman name = fp_malloc(n + 1, M_WAITOK); 482cfeb7489SZachary Loafman va_start(ap, fmt); 483cfeb7489SZachary Loafman vsnprintf(name, n + 1, fmt, ap); 484cfeb7489SZachary Loafman va_end(ap); 485*6a2a3855SZhenlei Huang 486cfeb7489SZachary Loafman fp->fp_name = name; 4874b7c6844SMatthew D Fleming fp->fp_location = ""; 488cfeb7489SZachary Loafman fp->fp_flags |= FAIL_POINT_DYNAMIC_NAME; 48970e20d4eSConrad Meyer fp->fp_pre_sleep_fn = NULL; 49070e20d4eSConrad Meyer fp->fp_pre_sleep_arg = NULL; 49170e20d4eSConrad Meyer fp->fp_post_sleep_fn = NULL; 49270e20d4eSConrad Meyer fp->fp_post_sleep_arg = NULL; 493cfeb7489SZachary Loafman } 494cfeb7489SZachary Loafman 495bf2276f3SJohn Baldwin void 496bf2276f3SJohn Baldwin fail_point_alloc_callout(struct fail_point *fp) 497bf2276f3SJohn Baldwin { 498bf2276f3SJohn Baldwin 499bf2276f3SJohn Baldwin /** 500bf2276f3SJohn Baldwin * This assumes that calls to fail_point_use_timeout_path() 501bf2276f3SJohn Baldwin * will not race. 502bf2276f3SJohn Baldwin */ 503bf2276f3SJohn Baldwin if (fp->fp_callout != NULL) 504bf2276f3SJohn Baldwin return; 505bf2276f3SJohn Baldwin fp->fp_callout = fp_malloc(sizeof(*fp->fp_callout), M_WAITOK); 506bf2276f3SJohn Baldwin callout_init(fp->fp_callout, CALLOUT_MPSAFE); 507bf2276f3SJohn Baldwin } 508bf2276f3SJohn Baldwin 509cfeb7489SZachary Loafman /** 51070e20d4eSConrad Meyer * Free the resources held by a fail_point, and wake any paused threads. 51170e20d4eSConrad Meyer * Thou shalt not allow threads to hit this fail point after you enter this 51270e20d4eSConrad Meyer * function, nor shall you call this multiple times for a given fp. 513cfeb7489SZachary Loafman * @ingroup failpoint 514cfeb7489SZachary Loafman */ 515cfeb7489SZachary Loafman void 516cfeb7489SZachary Loafman fail_point_destroy(struct fail_point *fp) 517cfeb7489SZachary Loafman { 518cfeb7489SZachary Loafman 51970e20d4eSConrad Meyer fail_point_drain(fp, 0); 52070e20d4eSConrad Meyer 5210894a9bcSMatthew D Fleming if ((fp->fp_flags & FAIL_POINT_DYNAMIC_NAME) != 0) { 5220894a9bcSMatthew D Fleming fp_free(__DECONST(void *, fp->fp_name)); 523cfeb7489SZachary Loafman fp->fp_name = NULL; 524cfeb7489SZachary Loafman } 525cfeb7489SZachary Loafman fp->fp_flags = 0; 526bf2276f3SJohn Baldwin if (fp->fp_callout) { 527bf2276f3SJohn Baldwin fp_free(fp->fp_callout); 528bf2276f3SJohn Baldwin fp->fp_callout = NULL; 529bf2276f3SJohn Baldwin } 53070e20d4eSConrad Meyer 53170e20d4eSConrad Meyer sx_xlock(&sx_fp_set); 53270e20d4eSConrad Meyer fail_point_garbage_collect(); 53370e20d4eSConrad Meyer sx_xunlock(&sx_fp_set); 534cfeb7489SZachary Loafman } 535cfeb7489SZachary Loafman 536cfeb7489SZachary Loafman /** 537cfeb7489SZachary Loafman * This does the real work of evaluating a fail point. If the fail point tells 538cfeb7489SZachary Loafman * us to return a value, this function returns 1 and fills in 'return_value' 539cfeb7489SZachary Loafman * (return_value is allowed to be null). If the fail point tells us to panic, 540cfeb7489SZachary Loafman * we never return. Otherwise we just return 0 after doing some work, which 541cfeb7489SZachary Loafman * means "keep going". 542cfeb7489SZachary Loafman */ 543cfeb7489SZachary Loafman enum fail_point_return_code 544cfeb7489SZachary Loafman fail_point_eval_nontrivial(struct fail_point *fp, int *return_value) 545cfeb7489SZachary Loafman { 54670e20d4eSConrad Meyer bool execute = false; 54770e20d4eSConrad Meyer struct fail_point_entry *ent; 54870e20d4eSConrad Meyer struct fail_point_setting *fp_setting; 54970e20d4eSConrad Meyer enum fail_point_return_code ret; 55070e20d4eSConrad Meyer int cont; 55170e20d4eSConrad Meyer int count; 552cfeb7489SZachary Loafman int msecs; 55370e20d4eSConrad Meyer int usecs; 554cfeb7489SZachary Loafman 55570e20d4eSConrad Meyer ret = FAIL_POINT_RC_CONTINUE; 55670e20d4eSConrad Meyer cont = 0; /* don't continue by default */ 557cfeb7489SZachary Loafman 55870e20d4eSConrad Meyer fp_setting = fail_point_setting_get_ref(fp); 55970e20d4eSConrad Meyer if (fp_setting == NULL) 56070e20d4eSConrad Meyer goto abort; 56170e20d4eSConrad Meyer 56270e20d4eSConrad Meyer TAILQ_FOREACH(ent, &fp_setting->fp_entry_queue, fe_entries) { 56370e20d4eSConrad Meyer if (ent->fe_stale) 56470e20d4eSConrad Meyer continue; 565cfeb7489SZachary Loafman 566cfeb7489SZachary Loafman if (ent->fe_prob < PROB_MAX && 5670894a9bcSMatthew D Fleming ent->fe_prob < random() % PROB_MAX) 5680894a9bcSMatthew D Fleming continue; 56970e20d4eSConrad Meyer 570b5bd50aeSMatthew D Fleming if (ent->fe_pid != NO_PID && ent->fe_pid != curproc->p_pid) 571b5bd50aeSMatthew D Fleming continue; 572cfeb7489SZachary Loafman 57370e20d4eSConrad Meyer if (ent->fe_count != FE_COUNT_UNTRACKED) { 57470e20d4eSConrad Meyer count = ent->fe_count; 57570e20d4eSConrad Meyer while (count > 0) { 57670e20d4eSConrad Meyer if (atomic_cmpset_32(&ent->fe_count, count, count - 1)) { 57770e20d4eSConrad Meyer count--; 57870e20d4eSConrad Meyer execute = true; 57970e20d4eSConrad Meyer break; 58070e20d4eSConrad Meyer } 58170e20d4eSConrad Meyer count = ent->fe_count; 58270e20d4eSConrad Meyer } 58370e20d4eSConrad Meyer if (execute == false) 58470e20d4eSConrad Meyer /* We lost the race; consider the entry stale and bail now */ 58570e20d4eSConrad Meyer continue; 58670e20d4eSConrad Meyer if (count == 0) 58770e20d4eSConrad Meyer ent->fe_stale = true; 58870e20d4eSConrad Meyer } 58970e20d4eSConrad Meyer 590cfeb7489SZachary Loafman switch (ent->fe_type) { 591cfeb7489SZachary Loafman case FAIL_POINT_PANIC: 592cfeb7489SZachary Loafman panic("fail point %s panicking", fp->fp_name); 593cfeb7489SZachary Loafman /* NOTREACHED */ 594cfeb7489SZachary Loafman 595cfeb7489SZachary Loafman case FAIL_POINT_RETURN: 5960894a9bcSMatthew D Fleming if (return_value != NULL) 597cfeb7489SZachary Loafman *return_value = ent->fe_arg; 598cfeb7489SZachary Loafman ret = FAIL_POINT_RC_RETURN; 599cfeb7489SZachary Loafman break; 600cfeb7489SZachary Loafman 601cfeb7489SZachary Loafman case FAIL_POINT_BREAK: 6020894a9bcSMatthew D Fleming printf("fail point %s breaking to debugger\n", 6030894a9bcSMatthew D Fleming fp->fp_name); 604cfeb7489SZachary Loafman breakpoint(); 605cfeb7489SZachary Loafman break; 606cfeb7489SZachary Loafman 607cfeb7489SZachary Loafman case FAIL_POINT_PRINT: 608cfeb7489SZachary Loafman printf("fail point %s executing\n", fp->fp_name); 609cfeb7489SZachary Loafman cont = ent->fe_arg; 610cfeb7489SZachary Loafman break; 611cfeb7489SZachary Loafman 612cfeb7489SZachary Loafman case FAIL_POINT_SLEEP: 613cfeb7489SZachary Loafman msecs = ent->fe_arg; 614cfeb7489SZachary Loafman if (msecs) 61570e20d4eSConrad Meyer fail_point_sleep(fp, msecs, &ret); 61670e20d4eSConrad Meyer break; 61770e20d4eSConrad Meyer 61870e20d4eSConrad Meyer case FAIL_POINT_PAUSE: 61970e20d4eSConrad Meyer /** 62070e20d4eSConrad Meyer * Pausing is inherently strange with multiple 62170e20d4eSConrad Meyer * entries given our design. That is because some 62270e20d4eSConrad Meyer * entries could be unreachable, for instance in cases like: 62370e20d4eSConrad Meyer * pause->return. We can never reach the return entry. 62470e20d4eSConrad Meyer * The sysctl layer actually truncates all entries after 62570e20d4eSConrad Meyer * a pause for this reason. 62670e20d4eSConrad Meyer */ 62770e20d4eSConrad Meyer mtx_lock_spin(&fp_setting->feq_mtx); 62870e20d4eSConrad Meyer fail_point_pause(fp, &ret, &fp_setting->feq_mtx); 62970e20d4eSConrad Meyer mtx_unlock_spin(&fp_setting->feq_mtx); 63070e20d4eSConrad Meyer break; 63170e20d4eSConrad Meyer 63270e20d4eSConrad Meyer case FAIL_POINT_YIELD: 6333bd485f9SMark Johnston kern_yield(PRI_UNCHANGED); 63470e20d4eSConrad Meyer break; 63570e20d4eSConrad Meyer 63670e20d4eSConrad Meyer case FAIL_POINT_DELAY: 63770e20d4eSConrad Meyer usecs = ent->fe_arg; 63870e20d4eSConrad Meyer DELAY(usecs); 639cfeb7489SZachary Loafman break; 640cfeb7489SZachary Loafman 641cfeb7489SZachary Loafman default: 642cfeb7489SZachary Loafman break; 643cfeb7489SZachary Loafman } 644cfeb7489SZachary Loafman 6450894a9bcSMatthew D Fleming if (cont == 0) 646cfeb7489SZachary Loafman break; 647cfeb7489SZachary Loafman } 648cfeb7489SZachary Loafman 64970e20d4eSConrad Meyer if (fail_point_is_off(fp)) 65070e20d4eSConrad Meyer fail_point_eval_swap_out(fp, fp_setting); 651cfeb7489SZachary Loafman 65270e20d4eSConrad Meyer abort: 65370e20d4eSConrad Meyer fail_point_setting_release_ref(fp); 654cfeb7489SZachary Loafman 6550894a9bcSMatthew D Fleming return (ret); 656cfeb7489SZachary Loafman } 657cfeb7489SZachary Loafman 658cfeb7489SZachary Loafman /** 659cfeb7489SZachary Loafman * Translate internal fail_point structure into human-readable text. 660cfeb7489SZachary Loafman */ 661cfeb7489SZachary Loafman static void 66270e20d4eSConrad Meyer fail_point_get(struct fail_point *fp, struct sbuf *sb, 66370e20d4eSConrad Meyer bool verbose) 664cfeb7489SZachary Loafman { 665cfeb7489SZachary Loafman struct fail_point_entry *ent; 66670e20d4eSConrad Meyer struct fail_point_setting *fp_setting; 66770e20d4eSConrad Meyer struct fail_point_entry *fp_entry_cpy; 66870e20d4eSConrad Meyer int cnt_sleeping; 66970e20d4eSConrad Meyer int idx; 67070e20d4eSConrad Meyer int printed_entry_count; 671cfeb7489SZachary Loafman 67270e20d4eSConrad Meyer cnt_sleeping = 0; 67370e20d4eSConrad Meyer idx = 0; 67470e20d4eSConrad Meyer printed_entry_count = 0; 675cfeb7489SZachary Loafman 67670e20d4eSConrad Meyer fp_entry_cpy = fp_malloc(sizeof(struct fail_point_entry) * 67770e20d4eSConrad Meyer (FP_MAX_ENTRY_COUNT + 1), M_WAITOK); 67870e20d4eSConrad Meyer 67970e20d4eSConrad Meyer fp_setting = fail_point_setting_get_ref(fp); 68070e20d4eSConrad Meyer 68170e20d4eSConrad Meyer if (fp_setting != NULL) { 68270e20d4eSConrad Meyer TAILQ_FOREACH(ent, &fp_setting->fp_entry_queue, fe_entries) { 68370e20d4eSConrad Meyer if (ent->fe_stale) 68470e20d4eSConrad Meyer continue; 68570e20d4eSConrad Meyer 68670e20d4eSConrad Meyer KASSERT(printed_entry_count < FP_MAX_ENTRY_COUNT, 68770e20d4eSConrad Meyer ("FP entry list larger than allowed")); 68870e20d4eSConrad Meyer 68970e20d4eSConrad Meyer fp_entry_cpy[printed_entry_count] = *ent; 69070e20d4eSConrad Meyer ++printed_entry_count; 69170e20d4eSConrad Meyer } 69270e20d4eSConrad Meyer } 69370e20d4eSConrad Meyer fail_point_setting_release_ref(fp); 69470e20d4eSConrad Meyer 69570e20d4eSConrad Meyer /* This is our equivalent of a NULL terminator */ 69670e20d4eSConrad Meyer fp_entry_cpy[printed_entry_count].fe_type = FAIL_POINT_INVALID; 69770e20d4eSConrad Meyer 69870e20d4eSConrad Meyer while (idx < printed_entry_count) { 69970e20d4eSConrad Meyer ent = &fp_entry_cpy[idx]; 70070e20d4eSConrad Meyer ++idx; 701cfeb7489SZachary Loafman if (ent->fe_prob < PROB_MAX) { 702cfeb7489SZachary Loafman int decimal = ent->fe_prob % (PROB_MAX / 100); 703cfeb7489SZachary Loafman int units = ent->fe_prob / (PROB_MAX / 100); 704cfeb7489SZachary Loafman sbuf_printf(sb, "%d", units); 705cfeb7489SZachary Loafman if (decimal) { 706cfeb7489SZachary Loafman int digits = PROB_DIGITS - 2; 707cfeb7489SZachary Loafman while (!(decimal % 10)) { 708cfeb7489SZachary Loafman digits--; 709cfeb7489SZachary Loafman decimal /= 10; 710cfeb7489SZachary Loafman } 711cfeb7489SZachary Loafman sbuf_printf(sb, ".%0*d", digits, decimal); 712cfeb7489SZachary Loafman } 713cfeb7489SZachary Loafman sbuf_printf(sb, "%%"); 714cfeb7489SZachary Loafman } 71570e20d4eSConrad Meyer if (ent->fe_count >= 0) 716cfeb7489SZachary Loafman sbuf_printf(sb, "%d*", ent->fe_count); 7170894a9bcSMatthew D Fleming sbuf_printf(sb, "%s", fail_type_strings[ent->fe_type].name); 718cfeb7489SZachary Loafman if (ent->fe_arg) 719cfeb7489SZachary Loafman sbuf_printf(sb, "(%d)", ent->fe_arg); 720b5bd50aeSMatthew D Fleming if (ent->fe_pid != NO_PID) 721b5bd50aeSMatthew D Fleming sbuf_printf(sb, "[pid %d]", ent->fe_pid); 722cfeb7489SZachary Loafman if (TAILQ_NEXT(ent, fe_entries)) 7230a713948SAlexander Motin sbuf_cat(sb, "->"); 724cfeb7489SZachary Loafman } 72570e20d4eSConrad Meyer if (!printed_entry_count) 7260a713948SAlexander Motin sbuf_cat(sb, "off"); 727cfeb7489SZachary Loafman 72870e20d4eSConrad Meyer fp_free(fp_entry_cpy); 72970e20d4eSConrad Meyer if (verbose) { 73082e17adcSConrad Meyer #ifdef STACK 73170e20d4eSConrad Meyer /* Print number of sleeping threads. queue=0 is the argument 73270e20d4eSConrad Meyer * used by msleep when sending our threads to sleep. */ 7330a713948SAlexander Motin sbuf_cat(sb, "\nsleeping_thread_stacks = {\n"); 73470e20d4eSConrad Meyer sleepq_sbuf_print_stacks(sb, FP_SLEEP_CHANNEL(fp), 0, 73570e20d4eSConrad Meyer &cnt_sleeping); 73670e20d4eSConrad Meyer 7370a713948SAlexander Motin sbuf_cat(sb, "},\n"); 73882e17adcSConrad Meyer #endif 73970e20d4eSConrad Meyer sbuf_printf(sb, "sleeping_thread_count = %d,\n", 74070e20d4eSConrad Meyer cnt_sleeping); 74170e20d4eSConrad Meyer 74282e17adcSConrad Meyer #ifdef STACK 7430a713948SAlexander Motin sbuf_cat(sb, "paused_thread_stacks = {\n"); 74470e20d4eSConrad Meyer sleepq_sbuf_print_stacks(sb, FP_PAUSE_CHANNEL(fp), 0, 74570e20d4eSConrad Meyer &cnt_sleeping); 74670e20d4eSConrad Meyer 7470a713948SAlexander Motin sbuf_cat(sb, "},\n"); 74882e17adcSConrad Meyer #endif 74970e20d4eSConrad Meyer sbuf_printf(sb, "paused_thread_count = %d\n", 75070e20d4eSConrad Meyer cnt_sleeping); 75170e20d4eSConrad Meyer } 752cfeb7489SZachary Loafman } 753cfeb7489SZachary Loafman 754cfeb7489SZachary Loafman /** 755cfeb7489SZachary Loafman * Set an internal fail_point structure from a human-readable failpoint string 756cfeb7489SZachary Loafman * in a lock-safe manner. 757cfeb7489SZachary Loafman */ 758cfeb7489SZachary Loafman static int 759cfeb7489SZachary Loafman fail_point_set(struct fail_point *fp, char *buf) 760cfeb7489SZachary Loafman { 761cfeb7489SZachary Loafman struct fail_point_entry *ent, *ent_next; 76270e20d4eSConrad Meyer struct fail_point_setting *entries; 76370e20d4eSConrad Meyer bool should_wake_paused; 76470e20d4eSConrad Meyer bool should_truncate; 76570e20d4eSConrad Meyer int error; 76670e20d4eSConrad Meyer 76770e20d4eSConrad Meyer error = 0; 76870e20d4eSConrad Meyer should_wake_paused = false; 76970e20d4eSConrad Meyer should_truncate = false; 770cfeb7489SZachary Loafman 771cfeb7489SZachary Loafman /* Parse new entries. */ 77270e20d4eSConrad Meyer /** 77370e20d4eSConrad Meyer * ref protects our new malloc'd stuff from being garbage collected 77470e20d4eSConrad Meyer * before we link it. 77570e20d4eSConrad Meyer */ 77670e20d4eSConrad Meyer fail_point_setting_get_ref(fp); 77770e20d4eSConrad Meyer entries = fail_point_setting_new(fp); 77870e20d4eSConrad Meyer if (parse_fail_point(entries, buf) == NULL) { 77970e20d4eSConrad Meyer STAILQ_REMOVE(&fp_setting_garbage, entries, 78070e20d4eSConrad Meyer fail_point_setting, fs_garbage_link); 78170e20d4eSConrad Meyer fail_point_setting_destroy(entries); 782cfeb7489SZachary Loafman error = EINVAL; 783cfeb7489SZachary Loafman goto end; 784cfeb7489SZachary Loafman } 785cfeb7489SZachary Loafman 78670e20d4eSConrad Meyer /** 78770e20d4eSConrad Meyer * Transfer the entries we are going to keep to a new list. 78870e20d4eSConrad Meyer * Get rid of useless zero probability entries, and entries with hit 78970e20d4eSConrad Meyer * count 0. 79070e20d4eSConrad Meyer * If 'off' is present, and it has no hit count set, then all entries 79170e20d4eSConrad Meyer * after it are discarded since they are unreachable. 79270e20d4eSConrad Meyer */ 79370e20d4eSConrad Meyer TAILQ_FOREACH_SAFE(ent, &entries->fp_entry_queue, fe_entries, ent_next) { 79470e20d4eSConrad Meyer if (ent->fe_prob == 0 || ent->fe_count == 0) { 79570e20d4eSConrad Meyer printf("Discarding entry which cannot execute %s\n", 79670e20d4eSConrad Meyer fail_type_strings[ent->fe_type].name); 79770e20d4eSConrad Meyer TAILQ_REMOVE(&entries->fp_entry_queue, ent, 79870e20d4eSConrad Meyer fe_entries); 79970e20d4eSConrad Meyer fp_free(ent); 80070e20d4eSConrad Meyer continue; 80170e20d4eSConrad Meyer } else if (should_truncate) { 80270e20d4eSConrad Meyer printf("Discarding unreachable entry %s\n", 80370e20d4eSConrad Meyer fail_type_strings[ent->fe_type].name); 80470e20d4eSConrad Meyer TAILQ_REMOVE(&entries->fp_entry_queue, ent, 80570e20d4eSConrad Meyer fe_entries); 80670e20d4eSConrad Meyer fp_free(ent); 80770e20d4eSConrad Meyer continue; 808cfeb7489SZachary Loafman } 809cfeb7489SZachary Loafman 81070e20d4eSConrad Meyer if (ent->fe_type == FAIL_POINT_OFF) { 81170e20d4eSConrad Meyer should_wake_paused = true; 81270e20d4eSConrad Meyer if (ent->fe_count == FE_COUNT_UNTRACKED) { 81370e20d4eSConrad Meyer should_truncate = true; 81470e20d4eSConrad Meyer TAILQ_REMOVE(&entries->fp_entry_queue, ent, 81570e20d4eSConrad Meyer fe_entries); 81670e20d4eSConrad Meyer fp_free(ent); 81770e20d4eSConrad Meyer } 81870e20d4eSConrad Meyer } else if (ent->fe_type == FAIL_POINT_PAUSE) { 81970e20d4eSConrad Meyer should_truncate = true; 82070e20d4eSConrad Meyer } else if (ent->fe_type == FAIL_POINT_SLEEP && (fp->fp_flags & 82170e20d4eSConrad Meyer FAIL_POINT_NONSLEEPABLE)) { 82270e20d4eSConrad Meyer /** 82370e20d4eSConrad Meyer * If this fail point is annotated as being in a 82470e20d4eSConrad Meyer * non-sleepable ctx, convert sleep to delay and 82570e20d4eSConrad Meyer * convert the msec argument to usecs. 82670e20d4eSConrad Meyer */ 82770e20d4eSConrad Meyer printf("Sleep call request on fail point in " 82870e20d4eSConrad Meyer "non-sleepable context; using delay instead " 82970e20d4eSConrad Meyer "of sleep\n"); 83070e20d4eSConrad Meyer ent->fe_type = FAIL_POINT_DELAY; 83170e20d4eSConrad Meyer ent->fe_arg *= 1000; 83270e20d4eSConrad Meyer } 83370e20d4eSConrad Meyer } 834cfeb7489SZachary Loafman 83570e20d4eSConrad Meyer if (TAILQ_EMPTY(&entries->fp_entry_queue)) { 83670e20d4eSConrad Meyer entries = fail_point_swap_settings(fp, NULL); 83770e20d4eSConrad Meyer if (entries != NULL) 83870e20d4eSConrad Meyer wakeup(FP_PAUSE_CHANNEL(fp)); 83970e20d4eSConrad Meyer } else { 84070e20d4eSConrad Meyer if (should_wake_paused) 84170e20d4eSConrad Meyer wakeup(FP_PAUSE_CHANNEL(fp)); 84270e20d4eSConrad Meyer fail_point_swap_settings(fp, entries); 84370e20d4eSConrad Meyer } 844cfeb7489SZachary Loafman 845cfeb7489SZachary Loafman end: 846cfeb7489SZachary Loafman #ifdef IWARNING 847cfeb7489SZachary Loafman if (error) 8484b7c6844SMatthew D Fleming IWARNING("Failed to set %s %s to %s", 849cfeb7489SZachary Loafman fp->fp_name, fp->fp_location, buf); 850cfeb7489SZachary Loafman else 8514b7c6844SMatthew D Fleming INOTICE("Set %s %s to %s", 852cfeb7489SZachary Loafman fp->fp_name, fp->fp_location, buf); 853cfeb7489SZachary Loafman #endif /* IWARNING */ 854cfeb7489SZachary Loafman 85570e20d4eSConrad Meyer fail_point_setting_release_ref(fp); 8560894a9bcSMatthew D Fleming return (error); 857cfeb7489SZachary Loafman } 858cfeb7489SZachary Loafman 859cfeb7489SZachary Loafman #define MAX_FAIL_POINT_BUF 1023 860cfeb7489SZachary Loafman 861cfeb7489SZachary Loafman /** 862cfeb7489SZachary Loafman * Handle kernel failpoint set/get. 863cfeb7489SZachary Loafman */ 864cfeb7489SZachary Loafman int 865cfeb7489SZachary Loafman fail_point_sysctl(SYSCTL_HANDLER_ARGS) 866cfeb7489SZachary Loafman { 86770e20d4eSConrad Meyer struct fail_point *fp; 86870e20d4eSConrad Meyer char *buf; 869508d8569SMark Johnston struct sbuf sb, *sb_check; 870cfeb7489SZachary Loafman int error; 871cfeb7489SZachary Loafman 872508d8569SMark Johnston buf = NULL; 87370e20d4eSConrad Meyer error = 0; 87470e20d4eSConrad Meyer fp = arg1; 87570e20d4eSConrad Meyer 87670e20d4eSConrad Meyer sb_check = sbuf_new(&sb, NULL, 1024, SBUF_AUTOEXTEND); 87770e20d4eSConrad Meyer if (sb_check != &sb) 87870e20d4eSConrad Meyer return (ENOMEM); 87970e20d4eSConrad Meyer 88070e20d4eSConrad Meyer sbuf_set_drain(&sb, (sbuf_drain_func *)fail_sysctl_drain_func, req); 881cfeb7489SZachary Loafman 882cfeb7489SZachary Loafman /* Setting */ 88370e20d4eSConrad Meyer /** 88470e20d4eSConrad Meyer * Lock protects any new entries from being garbage collected before we 88570e20d4eSConrad Meyer * can link them to the fail point. 88670e20d4eSConrad Meyer */ 88770e20d4eSConrad Meyer sx_xlock(&sx_fp_set); 88870e20d4eSConrad Meyer if (req->newptr) { 889cfeb7489SZachary Loafman if (req->newlen > MAX_FAIL_POINT_BUF) { 890cfeb7489SZachary Loafman error = EINVAL; 891cfeb7489SZachary Loafman goto out; 892cfeb7489SZachary Loafman } 893cfeb7489SZachary Loafman 894cfeb7489SZachary Loafman buf = fp_malloc(req->newlen + 1, M_WAITOK); 895cfeb7489SZachary Loafman 896cfeb7489SZachary Loafman error = SYSCTL_IN(req, buf, req->newlen); 897cfeb7489SZachary Loafman if (error) 898cfeb7489SZachary Loafman goto out; 899cfeb7489SZachary Loafman buf[req->newlen] = '\0'; 900cfeb7489SZachary Loafman 901cfeb7489SZachary Loafman error = fail_point_set(fp, buf); 902cfeb7489SZachary Loafman } 903cfeb7489SZachary Loafman 90470e20d4eSConrad Meyer fail_point_garbage_collect(); 90570e20d4eSConrad Meyer sx_xunlock(&sx_fp_set); 90670e20d4eSConrad Meyer 90770e20d4eSConrad Meyer /* Retrieving. */ 90870e20d4eSConrad Meyer fail_point_get(fp, &sb, false); 90970e20d4eSConrad Meyer 910cfeb7489SZachary Loafman out: 91170e20d4eSConrad Meyer sbuf_finish(&sb); 91270e20d4eSConrad Meyer sbuf_delete(&sb); 91370e20d4eSConrad Meyer 91470e20d4eSConrad Meyer if (buf) 915cfeb7489SZachary Loafman fp_free(buf); 91670e20d4eSConrad Meyer 9170894a9bcSMatthew D Fleming return (error); 918cfeb7489SZachary Loafman } 919cfeb7489SZachary Loafman 92070e20d4eSConrad Meyer int 92170e20d4eSConrad Meyer fail_point_sysctl_status(SYSCTL_HANDLER_ARGS) 92270e20d4eSConrad Meyer { 92370e20d4eSConrad Meyer struct fail_point *fp; 92470e20d4eSConrad Meyer struct sbuf sb, *sb_check; 92570e20d4eSConrad Meyer 92670e20d4eSConrad Meyer fp = arg1; 92770e20d4eSConrad Meyer 92870e20d4eSConrad Meyer sb_check = sbuf_new(&sb, NULL, 1024, SBUF_AUTOEXTEND); 92970e20d4eSConrad Meyer if (sb_check != &sb) 93070e20d4eSConrad Meyer return (ENOMEM); 93170e20d4eSConrad Meyer 93270e20d4eSConrad Meyer sbuf_set_drain(&sb, (sbuf_drain_func *)fail_sysctl_drain_func, req); 93370e20d4eSConrad Meyer 93470e20d4eSConrad Meyer /* Retrieving. */ 93570e20d4eSConrad Meyer fail_point_get(fp, &sb, true); 93670e20d4eSConrad Meyer 93770e20d4eSConrad Meyer sbuf_finish(&sb); 93870e20d4eSConrad Meyer sbuf_delete(&sb); 93970e20d4eSConrad Meyer 94070e20d4eSConrad Meyer /** 94170e20d4eSConrad Meyer * Lock protects any new entries from being garbage collected before we 94270e20d4eSConrad Meyer * can link them to the fail point. 94370e20d4eSConrad Meyer */ 94470e20d4eSConrad Meyer sx_xlock(&sx_fp_set); 94570e20d4eSConrad Meyer fail_point_garbage_collect(); 94670e20d4eSConrad Meyer sx_xunlock(&sx_fp_set); 94770e20d4eSConrad Meyer 94870e20d4eSConrad Meyer return (0); 94970e20d4eSConrad Meyer } 95070e20d4eSConrad Meyer 95170e20d4eSConrad Meyer int 95270e20d4eSConrad Meyer fail_sysctl_drain_func(void *sysctl_args, const char *buf, int len) 95370e20d4eSConrad Meyer { 95470e20d4eSConrad Meyer struct sysctl_req *sa; 95570e20d4eSConrad Meyer int error; 95670e20d4eSConrad Meyer 95770e20d4eSConrad Meyer sa = sysctl_args; 95870e20d4eSConrad Meyer 95970e20d4eSConrad Meyer error = SYSCTL_OUT(sa, buf, len); 96070e20d4eSConrad Meyer 96170e20d4eSConrad Meyer if (error == ENOMEM) 96270e20d4eSConrad Meyer return (-1); 96370e20d4eSConrad Meyer else 96470e20d4eSConrad Meyer return (len); 96570e20d4eSConrad Meyer } 96670e20d4eSConrad Meyer 967cfeb7489SZachary Loafman /** 968cfeb7489SZachary Loafman * Internal helper function to translate a human-readable failpoint string 969cfeb7489SZachary Loafman * into a internally-parsable fail_point structure. 970cfeb7489SZachary Loafman */ 971cfeb7489SZachary Loafman static char * 97270e20d4eSConrad Meyer parse_fail_point(struct fail_point_setting *ents, char *p) 973cfeb7489SZachary Loafman { 974cfeb7489SZachary Loafman /* <fail_point> :: 975cfeb7489SZachary Loafman * <term> ( "->" <term> )* 976cfeb7489SZachary Loafman */ 97770e20d4eSConrad Meyer uint8_t term_count; 97870e20d4eSConrad Meyer 97970e20d4eSConrad Meyer term_count = 1; 98070e20d4eSConrad Meyer 9810894a9bcSMatthew D Fleming p = parse_term(ents, p); 9820894a9bcSMatthew D Fleming if (p == NULL) 9830894a9bcSMatthew D Fleming return (NULL); 98470e20d4eSConrad Meyer 9850894a9bcSMatthew D Fleming while (*p != '\0') { 98670e20d4eSConrad Meyer term_count++; 98770e20d4eSConrad Meyer if (p[0] != '-' || p[1] != '>' || 98870e20d4eSConrad Meyer (p = parse_term(ents, p+2)) == NULL || 98970e20d4eSConrad Meyer term_count > FP_MAX_ENTRY_COUNT) 9900894a9bcSMatthew D Fleming return (NULL); 9910894a9bcSMatthew D Fleming } 9920894a9bcSMatthew D Fleming return (p); 993cfeb7489SZachary Loafman } 994cfeb7489SZachary Loafman 995cfeb7489SZachary Loafman /** 996cfeb7489SZachary Loafman * Internal helper function to parse an individual term from a failpoint. 997cfeb7489SZachary Loafman */ 998cfeb7489SZachary Loafman static char * 99970e20d4eSConrad Meyer parse_term(struct fail_point_setting *ents, char *p) 1000cfeb7489SZachary Loafman { 1001cfeb7489SZachary Loafman struct fail_point_entry *ent; 1002cfeb7489SZachary Loafman 100370e20d4eSConrad Meyer ent = fail_point_entry_new(ents); 1004cfeb7489SZachary Loafman 1005cfeb7489SZachary Loafman /* 1006cfeb7489SZachary Loafman * <term> :: 1007cfeb7489SZachary Loafman * ( (<float> "%") | (<integer> "*" ) )* 1008cfeb7489SZachary Loafman * <type> 1009cfeb7489SZachary Loafman * [ "(" <integer> ")" ] 1010b5bd50aeSMatthew D Fleming * [ "[pid " <integer> "]" ] 1011cfeb7489SZachary Loafman */ 1012cfeb7489SZachary Loafman 1013cfeb7489SZachary Loafman /* ( (<float> "%") | (<integer> "*" ) )* */ 10140894a9bcSMatthew D Fleming while (isdigit(*p) || *p == '.') { 1015cfeb7489SZachary Loafman int units, decimal; 1016cfeb7489SZachary Loafman 10170894a9bcSMatthew D Fleming p = parse_number(&units, &decimal, p); 10180894a9bcSMatthew D Fleming if (p == NULL) 10190894a9bcSMatthew D Fleming return (NULL); 1020cfeb7489SZachary Loafman 1021cfeb7489SZachary Loafman if (*p == '%') { 1022cfeb7489SZachary Loafman if (units > 100) /* prevent overflow early */ 1023cfeb7489SZachary Loafman units = 100; 1024cfeb7489SZachary Loafman ent->fe_prob = units * (PROB_MAX / 100) + decimal; 1025cfeb7489SZachary Loafman if (ent->fe_prob > PROB_MAX) 1026cfeb7489SZachary Loafman ent->fe_prob = PROB_MAX; 1027cfeb7489SZachary Loafman } else if (*p == '*') { 102870e20d4eSConrad Meyer if (!units || units < 0 || decimal) 10290894a9bcSMatthew D Fleming return (NULL); 1030c2ede4b3SMartin Blapp ent->fe_count = units; 10310894a9bcSMatthew D Fleming } else 10320894a9bcSMatthew D Fleming return (NULL); 1033cfeb7489SZachary Loafman p++; 1034cfeb7489SZachary Loafman } 1035cfeb7489SZachary Loafman 1036cfeb7489SZachary Loafman /* <type> */ 10370894a9bcSMatthew D Fleming p = parse_type(ent, p); 10380894a9bcSMatthew D Fleming if (p == NULL) 10390894a9bcSMatthew D Fleming return (NULL); 1040cfeb7489SZachary Loafman if (*p == '\0') 10410894a9bcSMatthew D Fleming return (p); 1042cfeb7489SZachary Loafman 1043cfeb7489SZachary Loafman /* [ "(" <integer> ")" ] */ 1044cfeb7489SZachary Loafman if (*p != '(') 104570e20d4eSConrad Meyer return (p); 1046cfeb7489SZachary Loafman p++; 10470894a9bcSMatthew D Fleming if (!isdigit(*p) && *p != '-') 10480894a9bcSMatthew D Fleming return (NULL); 1049cfeb7489SZachary Loafman ent->fe_arg = strtol(p, &p, 0); 1050cfeb7489SZachary Loafman if (*p++ != ')') 10510894a9bcSMatthew D Fleming return (NULL); 1052cfeb7489SZachary Loafman 1053b5bd50aeSMatthew D Fleming /* [ "[pid " <integer> "]" ] */ 1054b5bd50aeSMatthew D Fleming #define PID_STRING "[pid " 1055b5bd50aeSMatthew D Fleming if (strncmp(p, PID_STRING, sizeof(PID_STRING) - 1) != 0) 1056b5bd50aeSMatthew D Fleming return (p); 1057b5bd50aeSMatthew D Fleming p += sizeof(PID_STRING) - 1; 1058b5bd50aeSMatthew D Fleming if (!isdigit(*p)) 1059b5bd50aeSMatthew D Fleming return (NULL); 1060b5bd50aeSMatthew D Fleming ent->fe_pid = strtol(p, &p, 0); 1061b5bd50aeSMatthew D Fleming if (*p++ != ']') 1062b5bd50aeSMatthew D Fleming return (NULL); 1063b5bd50aeSMatthew D Fleming 10640894a9bcSMatthew D Fleming return (p); 1065cfeb7489SZachary Loafman } 1066cfeb7489SZachary Loafman 1067cfeb7489SZachary Loafman /** 1068cfeb7489SZachary Loafman * Internal helper function to parse a numeric for a failpoint term. 1069cfeb7489SZachary Loafman */ 1070cfeb7489SZachary Loafman static char * 1071cfeb7489SZachary Loafman parse_number(int *out_units, int *out_decimal, char *p) 1072cfeb7489SZachary Loafman { 1073cfeb7489SZachary Loafman char *old_p; 1074cfeb7489SZachary Loafman 107570e20d4eSConrad Meyer /** 1076cfeb7489SZachary Loafman * <number> :: 1077cfeb7489SZachary Loafman * <integer> [ "." <integer> ] | 1078cfeb7489SZachary Loafman * "." <integer> 1079cfeb7489SZachary Loafman */ 1080cfeb7489SZachary Loafman 1081cfeb7489SZachary Loafman /* whole part */ 1082cfeb7489SZachary Loafman old_p = p; 1083c2ede4b3SMartin Blapp *out_units = strtol(p, &p, 10); 1084cfeb7489SZachary Loafman if (p == old_p && *p != '.') 10850894a9bcSMatthew D Fleming return (NULL); 1086cfeb7489SZachary Loafman 1087cfeb7489SZachary Loafman /* fractional part */ 1088cfeb7489SZachary Loafman *out_decimal = 0; 1089cfeb7489SZachary Loafman if (*p == '.') { 1090cfeb7489SZachary Loafman int digits = 0; 1091cfeb7489SZachary Loafman p++; 10920894a9bcSMatthew D Fleming while (isdigit(*p)) { 1093cfeb7489SZachary Loafman int digit = *p - '0'; 1094cfeb7489SZachary Loafman if (digits < PROB_DIGITS - 2) 1095cfeb7489SZachary Loafman *out_decimal = *out_decimal * 10 + digit; 1096cfeb7489SZachary Loafman else if (digits == PROB_DIGITS - 2 && digit >= 5) 1097cfeb7489SZachary Loafman (*out_decimal)++; 1098cfeb7489SZachary Loafman digits++; 1099cfeb7489SZachary Loafman p++; 1100cfeb7489SZachary Loafman } 1101cfeb7489SZachary Loafman if (!digits) /* need at least one digit after '.' */ 11020894a9bcSMatthew D Fleming return (NULL); 1103cfeb7489SZachary Loafman while (digits++ < PROB_DIGITS - 2) /* add implicit zeros */ 1104cfeb7489SZachary Loafman *out_decimal *= 10; 1105cfeb7489SZachary Loafman } 1106cfeb7489SZachary Loafman 11070894a9bcSMatthew D Fleming return (p); /* success */ 1108cfeb7489SZachary Loafman } 1109cfeb7489SZachary Loafman 1110cfeb7489SZachary Loafman /** 1111cfeb7489SZachary Loafman * Internal helper function to parse an individual type for a failpoint term. 1112cfeb7489SZachary Loafman */ 1113cfeb7489SZachary Loafman static char * 1114cfeb7489SZachary Loafman parse_type(struct fail_point_entry *ent, char *beg) 1115cfeb7489SZachary Loafman { 1116cfeb7489SZachary Loafman enum fail_point_t type; 11170894a9bcSMatthew D Fleming int len; 11180894a9bcSMatthew D Fleming 11190894a9bcSMatthew D Fleming for (type = FAIL_POINT_OFF; type < FAIL_POINT_NUMTYPES; type++) { 11200894a9bcSMatthew D Fleming len = fail_type_strings[type].nmlen; 11210894a9bcSMatthew D Fleming if (strncmp(fail_type_strings[type].name, beg, len) == 0) { 1122cfeb7489SZachary Loafman ent->fe_type = type; 11230894a9bcSMatthew D Fleming return (beg + len); 1124cfeb7489SZachary Loafman } 1125cfeb7489SZachary Loafman } 11260894a9bcSMatthew D Fleming return (NULL); 1127cfeb7489SZachary Loafman } 1128cfeb7489SZachary Loafman 1129cfeb7489SZachary Loafman /* The fail point sysctl tree. */ 11307029da5cSPawel Biernacki SYSCTL_NODE(_debug, OID_AUTO, fail_point, CTLFLAG_RW | CTLFLAG_MPSAFE, 0, 11317029da5cSPawel Biernacki "fail points"); 113270e20d4eSConrad Meyer 113370e20d4eSConrad Meyer /* Debugging/testing stuff for fail point */ 113470e20d4eSConrad Meyer static int 113570e20d4eSConrad Meyer sysctl_test_fail_point(SYSCTL_HANDLER_ARGS) 113670e20d4eSConrad Meyer { 113770e20d4eSConrad Meyer 113870e20d4eSConrad Meyer KFAIL_POINT_RETURN(DEBUG_FP, test_fail_point); 113970e20d4eSConrad Meyer return (0); 114070e20d4eSConrad Meyer } 114170e20d4eSConrad Meyer SYSCTL_OID(_debug_fail_point, OID_AUTO, test_trigger_fail_point, 11427029da5cSPawel Biernacki CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_NEEDGIANT, NULL, 0, 11437029da5cSPawel Biernacki sysctl_test_fail_point, "A", 114470e20d4eSConrad Meyer "Trigger test fail points"); 1145