/* $OpenBSD: btrace.c,v 1.81 2023/11/10 18:56:21 jasper Exp $ */ /* * Copyright (c) 2019 - 2023 Martin Pieuchot * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "btrace.h" #include "bt_parser.h" #define MINIMUM(a, b) (((a) < (b)) ? (a) : (b)) #define MAXIMUM(a, b) (((a) > (b)) ? (a) : (b)) /* * Maximum number of operands an arithmetic operation can have. This * is necessary to stop infinite recursion when evaluating expressions. */ #define __MAXOPERANDS 5 #define __PATH_DEVDT "/dev/dt" __dead void usage(void); char *read_btfile(const char *, size_t *); /* * Retrieve & parse probe information. */ void dtpi_cache(int); void dtpi_print_list(int); const char *dtpi_func(struct dtioc_probe_info *); int dtpi_is_unit(const char *); struct dtioc_probe_info *dtpi_get_by_value(const char *, const char *, const char *); /* * Main loop and rule evaluation. */ void rules_do(int); int rules_setup(int); int rules_apply(int, struct dt_evt *); void rules_teardown(int); int rule_eval(struct bt_rule *, struct dt_evt *); void rule_printmaps(struct bt_rule *); /* * Language builtins & functions. */ uint64_t builtin_nsecs(struct dt_evt *); const char *builtin_kstack(struct dt_evt *); const char *builtin_arg(struct dt_evt *, enum bt_argtype); struct bt_arg *fn_str(struct bt_arg *, struct dt_evt *, char *); int stmt_eval(struct bt_stmt *, struct dt_evt *); void stmt_bucketize(struct bt_stmt *, struct dt_evt *); void stmt_clear(struct bt_stmt *); void stmt_delete(struct bt_stmt *, struct dt_evt *); void stmt_insert(struct bt_stmt *, struct dt_evt *); void stmt_print(struct bt_stmt *, struct dt_evt *); void stmt_store(struct bt_stmt *, struct dt_evt *); bool stmt_test(struct bt_stmt *, struct dt_evt *); void stmt_time(struct bt_stmt *, struct dt_evt *); void stmt_zero(struct bt_stmt *); struct bt_arg *ba_read(struct bt_arg *); struct bt_arg *baeval(struct bt_arg *, struct dt_evt *); const char *ba2hash(struct bt_arg *, struct dt_evt *); long baexpr2long(struct bt_arg *, struct dt_evt *); const char *ba2bucket(struct bt_arg *, struct bt_arg *, struct dt_evt *, long *); int ba2dtflags(struct bt_arg *); /* * Debug routines. */ __dead void xabort(const char *, ...); void debug(const char *, ...); void debugx(const char *, ...); const char *debug_probe_name(struct bt_probe *); void debug_dump_term(struct bt_arg *); void debug_dump_expr(struct bt_arg *); void debug_dump_filter(struct bt_rule *); struct dtioc_probe_info *dt_dtpis; /* array of available probes */ size_t dt_ndtpi; /* # of elements in the array */ struct dtioc_arg_info **dt_args; /* array of probe arguments */ struct dt_evt bt_devt; /* fake event for BEGIN/END */ #define EVENT_BEGIN 0 #define EVENT_END (unsigned int)(-1) uint64_t bt_filtered; /* # of events filtered out */ struct syms *kelf, *uelf; char **vargs; int nargs = 0; int verbose = 0; int dtfd; volatile sig_atomic_t quit_pending; static void signal_handler(int sig) { quit_pending = sig; } int main(int argc, char *argv[]) { int fd = -1, ch, error = 0; const char *filename = NULL, *btscript = NULL; int showprobes = 0, noaction = 0; size_t btslen = 0; setlocale(LC_ALL, ""); while ((ch = getopt(argc, argv, "e:lnp:v")) != -1) { switch (ch) { case 'e': btscript = optarg; btslen = strlen(btscript); break; case 'l': showprobes = 1; break; case 'n': noaction = 1; break; case 'p': uelf = kelf_open(optarg); break; case 'v': verbose++; break; default: usage(); } } argc -= optind; argv += optind; if (argc > 0 && btscript == NULL) filename = argv[0]; /* Cannot pledge due to special ioctl()s */ if (unveil(__PATH_DEVDT, "r") == -1) err(1, "unveil %s", __PATH_DEVDT); if (unveil(_PATH_KSYMS, "r") == -1) err(1, "unveil %s", _PATH_KSYMS); if (filename != NULL) { if (unveil(filename, "r") == -1) err(1, "unveil %s", filename); } if (unveil(NULL, NULL) == -1) err(1, "unveil"); if (filename != NULL) { btscript = read_btfile(filename, &btslen); argc--; argv++; } nargs = argc; vargs = argv; if (btscript == NULL && !showprobes) usage(); if (btscript != NULL) { error = btparse(btscript, btslen, filename, 1); if (error) return error; } if (noaction) return error; if (showprobes || g_nprobes > 0) { fd = open(__PATH_DEVDT, O_RDONLY); if (fd == -1) err(1, "could not open %s", __PATH_DEVDT); dtfd = fd; } if (showprobes) { dtpi_cache(fd); dtpi_print_list(fd); } if (!TAILQ_EMPTY(&g_rules)) rules_do(fd); if (fd != -1) close(fd); return error; } __dead void usage(void) { fprintf(stderr, "usage: %s [-lnv] [-e program | file] [-p file] " "[argument ...]\n", getprogname()); exit(1); } char * read_btfile(const char *filename, size_t *len) { FILE *fp; char *fcontent; struct stat st; size_t fsize; if (stat(filename, &st)) err(1, "can't stat '%s'", filename); fsize = st.st_size; fcontent = malloc(fsize + 1); if (fcontent == NULL) err(1, "malloc"); fp = fopen(filename, "r"); if (fp == NULL) err(1, "can't open '%s'", filename); if (fread(fcontent, 1, fsize, fp) != fsize) err(1, "can't read '%s'", filename); fcontent[fsize] = '\0'; fclose(fp); *len = fsize; return fcontent; } void dtpi_cache(int fd) { struct dtioc_probe dtpr; if (dt_dtpis != NULL) return; memset(&dtpr, 0, sizeof(dtpr)); if (ioctl(fd, DTIOCGPLIST, &dtpr)) err(1, "DTIOCGPLIST"); dt_ndtpi = dtpr.dtpr_size / sizeof(*dt_dtpis); dt_dtpis = reallocarray(NULL, dt_ndtpi, sizeof(*dt_dtpis)); if (dt_dtpis == NULL) err(1, NULL); dtpr.dtpr_probes = dt_dtpis; if (ioctl(fd, DTIOCGPLIST, &dtpr)) err(1, "DTIOCGPLIST"); } void dtai_cache(int fd, struct dtioc_probe_info *dtpi) { struct dtioc_arg dtar; if (dt_args == NULL) { dt_args = calloc(dt_ndtpi, sizeof(*dt_args)); if (dt_args == NULL) err(1, NULL); } if (dt_args[dtpi->dtpi_pbn - 1] != NULL) return; dt_args[dtpi->dtpi_pbn - 1] = reallocarray(NULL, dtpi->dtpi_nargs, sizeof(**dt_args)); if (dt_args[dtpi->dtpi_pbn - 1] == NULL) err(1, NULL); dtar.dtar_pbn = dtpi->dtpi_pbn; dtar.dtar_size = dtpi->dtpi_nargs * sizeof(**dt_args); dtar.dtar_args = dt_args[dtpi->dtpi_pbn - 1]; if (ioctl(fd, DTIOCGARGS, &dtar)) err(1, "DTIOCGARGS"); } void dtpi_print_list(int fd) { struct dtioc_probe_info *dtpi; struct dtioc_arg_info *dtai; size_t i, j; dtpi = dt_dtpis; for (i = 0; i < dt_ndtpi; i++, dtpi++) { printf("%s:%s:%s", dtpi->dtpi_prov, dtpi_func(dtpi), dtpi->dtpi_name); if (strncmp(dtpi->dtpi_prov, "tracepoint", DTNAMESIZE) == 0) { dtai_cache(fd, dtpi); dtai = dt_args[dtpi->dtpi_pbn - 1]; printf("("); for (j = 0; j < dtpi->dtpi_nargs; j++, dtai++) { if (j > 0) printf(", "); printf("%s", dtai->dtai_argtype); } printf(")"); } printf("\n"); } } const char * dtpi_func(struct dtioc_probe_info *dtpi) { char *sysnb, func[DTNAMESIZE]; const char *errstr; int idx; if (strncmp(dtpi->dtpi_prov, "syscall", DTNAMESIZE)) return dtpi->dtpi_func; /* Translate syscall names */ strlcpy(func, dtpi->dtpi_func, sizeof(func)); sysnb = func; if (strsep(&sysnb, "%") == NULL) return dtpi->dtpi_func; idx = strtonum(sysnb, 1, SYS_MAXSYSCALL, &errstr); if (errstr != NULL) return dtpi->dtpi_func; return syscallnames[idx]; } int dtpi_is_unit(const char *unit) { return !strncmp("hz", unit, sizeof("hz")); } struct dtioc_probe_info * dtpi_get_by_value(const char *prov, const char *func, const char *name) { struct dtioc_probe_info *dtpi; size_t i; dtpi = dt_dtpis; for (i = 0; i < dt_ndtpi; i++, dtpi++) { if (prov != NULL && strncmp(prov, dtpi->dtpi_prov, DTNAMESIZE)) continue; if (func != NULL) { if (dtpi_is_unit(func)) return dtpi; if (strncmp(func, dtpi_func(dtpi), DTNAMESIZE)) continue; } if (strncmp(name, dtpi->dtpi_name, DTNAMESIZE)) continue; debug("matched probe %s:%s:%s\n", dtpi->dtpi_prov, dtpi_func(dtpi), dtpi->dtpi_name); return dtpi; } return NULL; } void rules_do(int fd) { struct sigaction sa; int halt = 0; memset(&sa, 0, sizeof(sa)); sigemptyset(&sa.sa_mask); sa.sa_flags = 0; sa.sa_handler = signal_handler; if (sigaction(SIGINT, &sa, NULL)) err(1, "sigaction"); if (sigaction(SIGTERM, &sa, NULL)) err(1, "sigaction"); halt = rules_setup(fd); while (!quit_pending && !halt && g_nprobes > 0) { static struct dt_evt devtbuf[64]; ssize_t rlen; size_t i; rlen = read(fd, devtbuf, sizeof(devtbuf) - 1); if (rlen == -1) { if (errno == EINTR && quit_pending) { printf("\n"); break; } err(1, "read"); } if ((rlen % sizeof(struct dt_evt)) != 0) err(1, "incorrect read"); for (i = 0; i < rlen / sizeof(struct dt_evt); i++) { halt = rules_apply(fd, &devtbuf[i]); if (halt) break; } } rules_teardown(fd); if (verbose && fd != -1) { struct dtioc_stat dtst; memset(&dtst, 0, sizeof(dtst)); if (ioctl(fd, DTIOCGSTATS, &dtst)) warn("DTIOCGSTATS"); printf("%llu events read\n", dtst.dtst_readevt); printf("%llu events dropped\n", dtst.dtst_dropevt); printf("%llu events filtered\n", bt_filtered); } } static uint64_t rules_action_scan(struct bt_stmt *bs) { struct bt_arg *ba; uint64_t evtflags = 0; while (bs != NULL) { SLIST_FOREACH(ba, &bs->bs_args, ba_next) evtflags |= ba2dtflags(ba); /* Also check the value for map/hist insertion */ switch (bs->bs_act) { case B_AC_BUCKETIZE: case B_AC_INSERT: ba = (struct bt_arg *)bs->bs_var; evtflags |= ba2dtflags(ba); break; case B_AC_TEST: evtflags |= rules_action_scan( (struct bt_stmt *)bs->bs_var); break; default: break; } bs = SLIST_NEXT(bs, bs_next); } return evtflags; } int rules_setup(int fd) { struct dtioc_probe_info *dtpi; struct dtioc_req *dtrq; struct bt_rule *r, *rbegin = NULL; struct bt_probe *bp; struct bt_stmt *bs; struct bt_arg *ba; int dokstack = 0, halt = 0, on = 1; uint64_t evtflags; TAILQ_FOREACH(r, &g_rules, br_next) { evtflags = 0; if (r->br_filter != NULL && r->br_filter->bf_condition != NULL) { bs = r->br_filter->bf_condition; ba = SLIST_FIRST(&bs->bs_args); evtflags |= ba2dtflags(ba); } evtflags |= rules_action_scan(SLIST_FIRST(&r->br_action)); SLIST_FOREACH(bp, &r->br_probes, bp_next) { debug("parsed probe '%s'", debug_probe_name(bp)); debug_dump_filter(r); if (bp->bp_type != B_PT_PROBE) { if (bp->bp_type == B_PT_BEGIN) rbegin = r; continue; } dtpi_cache(fd); dtpi = dtpi_get_by_value(bp->bp_prov, bp->bp_func, bp->bp_name); if (dtpi == NULL) { errx(1, "probe '%s:%s:%s' not found", bp->bp_prov, bp->bp_func, bp->bp_name); } dtrq = calloc(1, sizeof(*dtrq)); if (dtrq == NULL) err(1, "dtrq: 1alloc"); bp->bp_pbn = dtpi->dtpi_pbn; dtrq->dtrq_pbn = dtpi->dtpi_pbn; dtrq->dtrq_rate = bp->bp_rate; dtrq->dtrq_evtflags = evtflags; if (dtrq->dtrq_evtflags & DTEVT_KSTACK) dokstack = 1; bp->bp_cookie = dtrq; } } if (dokstack) kelf = kelf_open(_PATH_KSYMS); /* Initialize "fake" event for BEGIN/END */ bt_devt.dtev_pbn = EVENT_BEGIN; strlcpy(bt_devt.dtev_comm, getprogname(), sizeof(bt_devt.dtev_comm)); bt_devt.dtev_pid = getpid(); bt_devt.dtev_tid = getthrid(); clock_gettime(CLOCK_REALTIME, &bt_devt.dtev_tsp); if (rbegin) halt = rule_eval(rbegin, &bt_devt); /* Enable all probes */ TAILQ_FOREACH(r, &g_rules, br_next) { SLIST_FOREACH(bp, &r->br_probes, bp_next) { if (bp->bp_type != B_PT_PROBE) continue; dtrq = bp->bp_cookie; if (ioctl(fd, DTIOCPRBENABLE, dtrq)) err(1, "DTIOCPRBENABLE"); } } if (g_nprobes > 0) { if (ioctl(fd, DTIOCRECORD, &on)) err(1, "DTIOCRECORD"); } return halt; } /* * Returns non-zero if the program should halt. */ int rules_apply(int fd, struct dt_evt *dtev) { struct bt_rule *r; struct bt_probe *bp; TAILQ_FOREACH(r, &g_rules, br_next) { SLIST_FOREACH(bp, &r->br_probes, bp_next) { if (bp->bp_type != B_PT_PROBE || bp->bp_pbn != dtev->dtev_pbn) continue; dtai_cache(fd, &dt_dtpis[dtev->dtev_pbn - 1]); if (rule_eval(r, dtev)) return 1; } } return 0; } void rules_teardown(int fd) { struct dtioc_req *dtrq; struct bt_probe *bp; struct bt_rule *r, *rend = NULL; int dokstack = 0, off = 0; if (g_nprobes > 0) { if (ioctl(fd, DTIOCRECORD, &off)) err(1, "DTIOCRECORD"); } TAILQ_FOREACH(r, &g_rules, br_next) { SLIST_FOREACH(bp, &r->br_probes, bp_next) { if (bp->bp_type != B_PT_PROBE) { if (bp->bp_type == B_PT_END) rend = r; continue; } dtrq = bp->bp_cookie; if (ioctl(fd, DTIOCPRBDISABLE, dtrq)) err(1, "DTIOCPRBDISABLE"); if (dtrq->dtrq_evtflags & DTEVT_KSTACK) dokstack = 1; } } kelf_close(kelf); kelf = NULL; kelf_close(uelf); uelf = NULL; /* Update "fake" event for BEGIN/END */ bt_devt.dtev_pbn = EVENT_END; clock_gettime(CLOCK_REALTIME, &bt_devt.dtev_tsp); if (rend) rule_eval(rend, &bt_devt); /* Print non-empty map & hist */ TAILQ_FOREACH(r, &g_rules, br_next) rule_printmaps(r); } /* * Returns non-zero if the program should halt. */ int rule_eval(struct bt_rule *r, struct dt_evt *dtev) { struct bt_stmt *bs; struct bt_probe *bp; SLIST_FOREACH(bp, &r->br_probes, bp_next) { debug("eval rule '%s'", debug_probe_name(bp)); debug_dump_filter(r); } if (r->br_filter != NULL && r->br_filter->bf_condition != NULL) { if (stmt_test(r->br_filter->bf_condition, dtev) == false) { bt_filtered++; return 0; } } SLIST_FOREACH(bs, &r->br_action, bs_next) { if ((bs->bs_act == B_AC_TEST) && stmt_test(bs, dtev) == true) { struct bt_stmt *bbs = (struct bt_stmt *)bs->bs_var; while (bbs != NULL) { if (stmt_eval(bbs, dtev)) return 1; bbs = SLIST_NEXT(bbs, bs_next); } continue; } if (stmt_eval(bs, dtev)) return 1; } return 0; } void rule_printmaps(struct bt_rule *r) { struct bt_stmt *bs; SLIST_FOREACH(bs, &r->br_action, bs_next) { struct bt_arg *ba; SLIST_FOREACH(ba, &bs->bs_args, ba_next) { struct bt_var *bv = ba->ba_value; struct map *map; if (ba->ba_type != B_AT_MAP && ba->ba_type != B_AT_HIST) continue; map = (struct map *)bv->bv_value; if (map == NULL) continue; if (ba->ba_type == B_AT_MAP) map_print(map, SIZE_T_MAX, bv_name(bv)); else hist_print((struct hist *)map, bv_name(bv)); map_clear(map); bv->bv_value = NULL; } } } time_t builtin_gettime(struct dt_evt *dtev) { struct timespec ts; if (dtev == NULL) { clock_gettime(CLOCK_REALTIME, &ts); return ts.tv_sec; } return dtev->dtev_tsp.tv_sec; } static inline uint64_t TIMESPEC_TO_NSEC(struct timespec *ts) { return (ts->tv_sec * 1000000000L + ts->tv_nsec); } uint64_t builtin_nsecs(struct dt_evt *dtev) { struct timespec ts; if (dtev == NULL) { clock_gettime(CLOCK_REALTIME, &ts); return TIMESPEC_TO_NSEC(&ts); } return TIMESPEC_TO_NSEC(&dtev->dtev_tsp); } const char * builtin_stack(struct dt_evt *dtev, int kernel, unsigned long offset) { struct stacktrace *st = &dtev->dtev_kstack; static char buf[4096]; const char *last = "\nkernel\n"; char *bp; size_t i; int sz; if (!kernel) { st = &dtev->dtev_ustack; last = "\nuserland\n"; } else if (st->st_count == 0) { return "\nuserland\n"; } buf[0] = '\0'; bp = buf; sz = sizeof(buf); for (i = 0; i < st->st_count; i++) { int l; if (!kernel) l = kelf_snprintsym(uelf, bp, sz - 1, st->st_pc[i], offset); else l = kelf_snprintsym(kelf, bp, sz - 1, st->st_pc[i], offset); if (l < 0) break; if (l >= sz - 1) { bp += sz - 1; sz = 1; break; } bp += l; sz -= l; } snprintf(bp, sz, "%s", last); return buf; } const char * builtin_arg(struct dt_evt *dtev, enum bt_argtype dat) { static char buf[sizeof("18446744073709551615")]; /* UINT64_MAX */ unsigned int argn; struct dtioc_arg_info *dtai; const char *argtype, *fmt; long value; dtai = dt_args[dtev->dtev_pbn - 1]; argn = dat - B_AT_BI_ARG0; argtype = dtai[argn].dtai_argtype; if (strncmp(argtype, "int", DTNAMESIZE) == 0) { fmt = "%d"; value = (int)dtev->dtev_args[argn]; } else { fmt = "%lu"; value = dtev->dtev_args[argn]; } snprintf(buf, sizeof(buf), fmt, dtev->dtev_args[argn]); return buf; } /* * Returns non-zero if the program should halt. */ int stmt_eval(struct bt_stmt *bs, struct dt_evt *dtev) { int halt = 0; switch (bs->bs_act) { case B_AC_BUCKETIZE: stmt_bucketize(bs, dtev); break; case B_AC_CLEAR: stmt_clear(bs); break; case B_AC_DELETE: stmt_delete(bs, dtev); break; case B_AC_EXIT: halt = 1; break; case B_AC_INSERT: stmt_insert(bs, dtev); break; case B_AC_PRINT: stmt_print(bs, dtev); break; case B_AC_PRINTF: stmt_printf(bs, dtev); break; case B_AC_STORE: stmt_store(bs, dtev); break; case B_AC_TEST: /* done before */ break; case B_AC_TIME: stmt_time(bs, dtev); break; case B_AC_ZERO: stmt_zero(bs); break; default: xabort("no handler for action type %d", bs->bs_act); } return halt; } /* * Increment a bucket: { @h = hist(v); } or { @h = lhist(v, min, max, step); } * * In this case 'h' is represented by `bv' and '(min, max, step)' by `brange'. */ void stmt_bucketize(struct bt_stmt *bs, struct dt_evt *dtev) { struct bt_arg *brange, *bhist = SLIST_FIRST(&bs->bs_args); struct bt_arg *bval = (struct bt_arg *)bs->bs_var; struct bt_var *bv = bhist->ba_value; struct hist *hist; const char *bucket; long step = 0; assert(bhist->ba_type == B_AT_HIST); assert(SLIST_NEXT(bval, ba_next) == NULL); brange = bhist->ba_key; bucket = ba2bucket(bval, brange, dtev, &step); if (bucket == NULL) { debug("hist=%p '%s' value=%lu out of range\n", bv->bv_value, bv_name(bv), ba2long(bval, dtev)); return; } debug("hist=%p '%s' increment bucket '%s'\n", bv->bv_value, bv_name(bv), bucket); /* hist is NULL before first insert or after clear() */ hist = (struct hist *)bv->bv_value; if (hist == NULL) hist = hist_new(step); hist_increment(hist, bucket); debug("hist=%p '%s' increment bucket=%p '%s' bval=%p\n", hist, bv_name(bv), brange, bucket, bval); bv->bv_value = (struct bt_arg *)hist; bv->bv_type = B_VT_HIST; } /* * Empty a map: { clear(@map); } */ void stmt_clear(struct bt_stmt *bs) { struct bt_arg *ba = SLIST_FIRST(&bs->bs_args); struct bt_var *bv = ba->ba_value; struct map *map; assert(bs->bs_var == NULL); assert(ba->ba_type == B_AT_VAR); map = (struct map *)bv->bv_value; if (map == NULL) return; if (bv->bv_type != B_VT_MAP && bv->bv_type != B_VT_HIST) errx(1, "invalid variable type for clear(%s)", ba_name(ba)); map_clear(map); bv->bv_value = NULL; debug("map=%p '%s' clear\n", map, bv_name(bv)); } /* * Map delete: { delete(@map[key]); } * * In this case 'map' is represented by `bv' and 'key' by `bkey'. */ void stmt_delete(struct bt_stmt *bs, struct dt_evt *dtev) { struct bt_arg *bkey, *bmap = SLIST_FIRST(&bs->bs_args); struct bt_var *bv = bmap->ba_value; struct map *map; const char *hash; assert(bmap->ba_type == B_AT_MAP); assert(bs->bs_var == NULL); map = (struct map *)bv->bv_value; if (map == NULL) return; bkey = bmap->ba_key; hash = ba2hash(bkey, dtev); debug("map=%p '%s' delete key=%p '%s'\n", map, bv_name(bv), bkey, hash); map_delete(map, hash); } /* * Map insert: { @map[key] = 42; } * * In this case 'map' is represented by `bv', 'key' by `bkey' and * '42' by `bval'. */ void stmt_insert(struct bt_stmt *bs, struct dt_evt *dtev) { struct bt_arg *bkey, *bmap = SLIST_FIRST(&bs->bs_args); struct bt_arg *bval = (struct bt_arg *)bs->bs_var; struct bt_var *bv = bmap->ba_value; struct map *map; const char *hash; long val; assert(bmap->ba_type == B_AT_MAP); assert(SLIST_NEXT(bval, ba_next) == NULL); bkey = bmap->ba_key; hash = ba2hash(bkey, dtev); /* map is NULL before first insert or after clear() */ map = (struct map *)bv->bv_value; if (map == NULL) map = map_new(); /* Operate on existring value for count(), max(), min() and sum(). */ switch (bval->ba_type) { case B_AT_MF_COUNT: val = ba2long(map_get(map, hash), NULL); val++; bval = ba_new(val, B_AT_LONG); break; case B_AT_MF_MAX: val = ba2long(map_get(map, hash), NULL); val = MAXIMUM(val, ba2long(bval->ba_value, dtev)); bval = ba_new(val, B_AT_LONG); break; case B_AT_MF_MIN: val = ba2long(map_get(map, hash), NULL); val = MINIMUM(val, ba2long(bval->ba_value, dtev)); bval = ba_new(val, B_AT_LONG); break; case B_AT_MF_SUM: val = ba2long(map_get(map, hash), NULL); val += ba2long(bval->ba_value, dtev); bval = ba_new(val, B_AT_LONG); break; default: bval = baeval(bval, dtev); break; } map_insert(map, hash, bval); debug("map=%p '%s' insert key=%p '%s' bval=%p\n", map, bv_name(bv), bkey, hash, bval); bv->bv_value = (struct bt_arg *)map; bv->bv_type = B_VT_MAP; } /* * Print variables: { print(890); print(@map[, 8]); print(comm); } * * In this case the global variable 'map' is pointed at by `ba' * and '8' is represented by `btop'. */ void stmt_print(struct bt_stmt *bs, struct dt_evt *dtev) { struct bt_arg *btop, *ba = SLIST_FIRST(&bs->bs_args); struct bt_var *bv = ba->ba_value; struct map *map; size_t top = SIZE_T_MAX; assert(bs->bs_var == NULL); /* Parse optional `top' argument. */ btop = SLIST_NEXT(ba, ba_next); if (btop != NULL) { assert(SLIST_NEXT(btop, ba_next) == NULL); top = ba2long(btop, dtev); } /* Static argument. */ if (ba->ba_type != B_AT_VAR) { assert(btop == NULL); printf("%s\n", ba2str(ba, dtev)); return; } map = (struct map *)bv->bv_value; if (map == NULL) return; debug("map=%p '%s' print (top=%d)\n", bv->bv_value, bv_name(bv), top); if (bv->bv_type == B_VT_MAP) map_print(map, top, bv_name(bv)); else if (bv->bv_type == B_VT_HIST) hist_print((struct hist *)map, bv_name(bv)); else printf("%s\n", ba2str(ba, dtev)); } /* * Variable store: { @var = 3; } * * In this case '3' is represented by `ba', the argument of a STORE * action. * * If the argument depends of the value of an event (builtin) or is * the result of an operation, its evaluation is stored in a new `ba'. */ void stmt_store(struct bt_stmt *bs, struct dt_evt *dtev) { struct bt_arg *ba = SLIST_FIRST(&bs->bs_args); struct bt_var *bvar, *bv = bs->bs_var; assert(SLIST_NEXT(ba, ba_next) == NULL); switch (ba->ba_type) { case B_AT_STR: bv->bv_value = ba; bv->bv_type = B_VT_STR; break; case B_AT_LONG: bv->bv_value = ba; bv->bv_type = B_VT_LONG; break; case B_AT_VAR: bvar = ba->ba_value; bv->bv_type = bvar->bv_type; bv->bv_value = bvar->bv_value; break; case B_AT_TUPLE: bv->bv_value = baeval(ba, dtev); bv->bv_type = B_VT_TUPLE; break; case B_AT_BI_PID: case B_AT_BI_TID: case B_AT_BI_NSECS: case B_AT_BI_ARG0 ... B_AT_BI_ARG9: case B_AT_OP_PLUS ... B_AT_OP_LOR: bv->bv_value = baeval(ba, dtev); bv->bv_type = B_VT_LONG; break; case B_AT_FN_STR: bv->bv_value = baeval(ba, dtev); bv->bv_type = B_VT_STR; break; default: xabort("store not implemented for type %d", ba->ba_type); } debug("bv=%p var '%s' store (%p)='%s'\n", bv, bv_name(bv), bv->bv_value, ba2str(bv->bv_value, dtev)); } /* * String conversion { str($1); string($1, 3); } * * Since fn_str is currently only called in ba2str, *buf should be a pointer * to the static buffer provided by ba2str. */ struct bt_arg * fn_str(struct bt_arg *ba, struct dt_evt *dtev, char *buf) { struct bt_arg *arg, *index; ssize_t len = STRLEN; assert(ba->ba_type == B_AT_FN_STR); arg = (struct bt_arg*)ba->ba_value; assert(arg != NULL); index = SLIST_NEXT(arg, ba_next); if (index != NULL) { /* Should have only 1 optional argument. */ assert(SLIST_NEXT(index, ba_next) == NULL); len = MINIMUM(ba2long(index, dtev) + 1, STRLEN); } /* All negative lengths behave the same as a zero length. */ if (len < 1) return ba_new("", B_AT_STR); strlcpy(buf, ba2str(arg, dtev), len); return ba_new(buf, B_AT_STR); } /* * Expression test: { if (expr) stmt; } */ bool stmt_test(struct bt_stmt *bs, struct dt_evt *dtev) { struct bt_arg *ba; if (bs == NULL) return true; ba = SLIST_FIRST(&bs->bs_args); return baexpr2long(ba, dtev) != 0; } /* * Print time: { time("%H:%M:%S"); } */ void stmt_time(struct bt_stmt *bs, struct dt_evt *dtev) { struct bt_arg *ba = SLIST_FIRST(&bs->bs_args); time_t time; struct tm *tm; char buf[64]; assert(bs->bs_var == NULL); assert(ba->ba_type == B_AT_STR); assert(strlen(ba2str(ba, dtev)) < (sizeof(buf) - 1)); time = builtin_gettime(dtev); tm = localtime(&time); strftime(buf, sizeof(buf), ba2str(ba, dtev), tm); printf("%s", buf); } /* * Set entries to 0: { zero(@map); } */ void stmt_zero(struct bt_stmt *bs) { struct bt_arg *ba = SLIST_FIRST(&bs->bs_args); struct bt_var *bv = ba->ba_value; struct map *map; assert(bs->bs_var == NULL); assert(ba->ba_type == B_AT_VAR); map = (struct map *)bv->bv_value; if (map == NULL) return; if (bv->bv_type != B_VT_MAP && bv->bv_type != B_VT_HIST) errx(1, "invalid variable type for zero(%s)", ba_name(ba)); map_zero(map); debug("map=%p '%s' zero\n", map, bv_name(bv)); } struct bt_arg * ba_read(struct bt_arg *ba) { struct bt_var *bv = ba->ba_value; assert(ba->ba_type == B_AT_VAR); debug("bv=%p read '%s' (%p)\n", bv, bv_name(bv), bv->bv_value); /* Handle map/hist access after clear(). */ if (bv->bv_value == NULL) return &g_nullba; return bv->bv_value; } // XXX extern struct bt_arg *ba_append(struct bt_arg *, struct bt_arg *); /* * Return a new argument that doesn't depend on `dtev'. This is used * when storing values in variables, maps, etc. */ struct bt_arg * baeval(struct bt_arg *bval, struct dt_evt *dtev) { struct bt_arg *ba, *bh = NULL; switch (bval->ba_type) { case B_AT_VAR: ba = baeval(ba_read(bval), NULL); break; case B_AT_LONG: case B_AT_BI_PID: case B_AT_BI_TID: case B_AT_BI_CPU: case B_AT_BI_NSECS: case B_AT_BI_ARG0 ... B_AT_BI_ARG9: case B_AT_BI_RETVAL: case B_AT_OP_PLUS ... B_AT_OP_LOR: ba = ba_new(ba2long(bval, dtev), B_AT_LONG); break; case B_AT_STR: case B_AT_BI_COMM: case B_AT_BI_KSTACK: case B_AT_BI_USTACK: case B_AT_BI_PROBE: case B_AT_FN_STR: ba = ba_new(ba2str(bval, dtev), B_AT_STR); break; case B_AT_TUPLE: ba = bval->ba_value; do { bh = ba_append(bh, baeval(ba, dtev)); } while ((ba = SLIST_NEXT(ba, ba_next)) != NULL); ba = ba_new(bh, B_AT_TUPLE); break; default: xabort("no eval support for type %d", bval->ba_type); } return ba; } /* * Return a string of coma-separated values */ const char * ba2hash(struct bt_arg *ba, struct dt_evt *dtev) { static char buf[KLEN]; char *hash; int l, len; buf[0] = '\0'; l = snprintf(buf, sizeof(buf), "%s", ba2str(ba, dtev)); if (l < 0 || (size_t)l > sizeof(buf)) { warn("string too long %d > %lu", l, sizeof(buf)); return buf; } len = 0; while ((ba = SLIST_NEXT(ba, ba_next)) != NULL) { len += l; hash = buf + len; l = snprintf(hash, sizeof(buf) - len, ", %s", ba2str(ba, dtev)); if (l < 0 || (size_t)l > (sizeof(buf) - len)) { warn("hash too long %d > %lu", l + len, sizeof(buf)); break; } } return buf; } static unsigned long next_pow2(unsigned long x) { size_t i; x--; for (i = 0; i < (sizeof(x) * 8) - 1; i++) x |= (x >> 1); return x + 1; } /* * Return the ceiling value the interval holding `ba' or NULL if it is * out of the (min, max) values. */ const char * ba2bucket(struct bt_arg *ba, struct bt_arg *brange, struct dt_evt *dtev, long *pstep) { static char buf[KLEN]; long val, bucket; int l; val = ba2long(ba, dtev); if (brange == NULL) bucket = next_pow2(val); else { long min, max, step; assert(brange->ba_type == B_AT_LONG); min = ba2long(brange, NULL); brange = SLIST_NEXT(brange, ba_next); assert(brange->ba_type == B_AT_LONG); max = ba2long(brange, NULL); if ((val < min) || (val > max)) return NULL; brange = SLIST_NEXT(brange, ba_next); assert(brange->ba_type == B_AT_LONG); step = ba2long(brange, NULL); bucket = ((val / step) + 1) * step; *pstep = step; } buf[0] = '\0'; l = snprintf(buf, sizeof(buf), "%lu", bucket); if (l < 0 || (size_t)l > sizeof(buf)) { warn("string too long %d > %lu", l, sizeof(buf)); return buf; } return buf; } /* * Evaluate the operation encoded in `ba' and return its result. */ long baexpr2long(struct bt_arg *ba, struct dt_evt *dtev) { static long recursions; struct bt_arg *lhs, *rhs; long lval, rval, result; if (++recursions >= __MAXOPERANDS) errx(1, "too many operands (>%d) in expression", __MAXOPERANDS); lhs = ba->ba_value; rhs = SLIST_NEXT(lhs, ba_next); /* * String comparison also use '==' and '!='. */ if (lhs->ba_type == B_AT_STR || (rhs != NULL && rhs->ba_type == B_AT_STR)) { char lstr[STRLEN], rstr[STRLEN]; strlcpy(lstr, ba2str(lhs, dtev), sizeof(lstr)); strlcpy(rstr, ba2str(rhs, dtev), sizeof(rstr)); result = strncmp(lstr, rstr, STRLEN) == 0; switch (ba->ba_type) { case B_AT_OP_EQ: break; case B_AT_OP_NE: result = !result; break; default: warnx("operation '%d' unsupported on strings", ba->ba_type); result = 1; } debug("ba=%p eval '(%s %s %s) = %d'\n", ba, lstr, ba_name(ba), rstr, result); goto out; } lval = ba2long(lhs, dtev); if (rhs == NULL) { rval = 0; } else { assert(SLIST_NEXT(rhs, ba_next) == NULL); rval = ba2long(rhs, dtev); } switch (ba->ba_type) { case B_AT_OP_PLUS: result = lval + rval; break; case B_AT_OP_MINUS: result = lval - rval; break; case B_AT_OP_MULT: result = lval * rval; break; case B_AT_OP_DIVIDE: result = lval / rval; break; case B_AT_OP_MODULO: result = lval % rval; break; case B_AT_OP_BAND: result = lval & rval; break; case B_AT_OP_XOR: result = lval ^ rval; break; case B_AT_OP_BOR: result = lval | rval; break; case B_AT_OP_EQ: result = (lval == rval); break; case B_AT_OP_NE: result = (lval != rval); break; case B_AT_OP_LE: result = (lval <= rval); break; case B_AT_OP_LT: result = (lval < rval); break; case B_AT_OP_GE: result = (lval >= rval); break; case B_AT_OP_GT: result = (lval > rval); break; case B_AT_OP_LAND: result = (lval && rval); break; case B_AT_OP_LOR: result = (lval || rval); break; default: xabort("unsupported operation %d", ba->ba_type); } debug("ba=%p eval '(%ld %s %ld) = %d'\n", ba, lval, ba_name(ba), rval, result); out: --recursions; return result; } const char * ba_name(struct bt_arg *ba) { switch (ba->ba_type) { case B_AT_STR: return (const char *)ba->ba_value; case B_AT_LONG: return ba2str(ba, NULL); case B_AT_NIL: return "0"; case B_AT_VAR: case B_AT_MAP: case B_AT_HIST: break; case B_AT_BI_PID: return "pid"; case B_AT_BI_TID: return "tid"; case B_AT_BI_COMM: return "comm"; case B_AT_BI_CPU: return "cpu"; case B_AT_BI_NSECS: return "nsecs"; case B_AT_BI_KSTACK: return "kstack"; case B_AT_BI_USTACK: return "ustack"; case B_AT_BI_ARG0: return "arg0"; case B_AT_BI_ARG1: return "arg1"; case B_AT_BI_ARG2: return "arg2"; case B_AT_BI_ARG3: return "arg3"; case B_AT_BI_ARG4: return "arg4"; case B_AT_BI_ARG5: return "arg5"; case B_AT_BI_ARG6: return "arg6"; case B_AT_BI_ARG7: return "arg7"; case B_AT_BI_ARG8: return "arg8"; case B_AT_BI_ARG9: return "arg9"; case B_AT_BI_ARGS: return "args"; case B_AT_BI_RETVAL: return "retval"; case B_AT_BI_PROBE: return "probe"; case B_AT_FN_STR: return "str"; case B_AT_OP_PLUS: return "+"; case B_AT_OP_MINUS: return "-"; case B_AT_OP_MULT: return "*"; case B_AT_OP_DIVIDE: return "/"; case B_AT_OP_MODULO: return "%"; case B_AT_OP_BAND: return "&"; case B_AT_OP_XOR: return "^"; case B_AT_OP_BOR: return "|"; case B_AT_OP_EQ: return "=="; case B_AT_OP_NE: return "!="; case B_AT_OP_LE: return "<="; case B_AT_OP_LT: return "<"; case B_AT_OP_GE: return ">="; case B_AT_OP_GT: return ">"; case B_AT_OP_LAND: return "&&"; case B_AT_OP_LOR: return "||"; default: xabort("unsupported type %d", ba->ba_type); } assert(ba->ba_type == B_AT_VAR || ba->ba_type == B_AT_MAP || ba->ba_type == B_AT_HIST); static char buf[64]; size_t sz; int l; buf[0] = '@'; buf[1] = '\0'; sz = sizeof(buf) - 1; l = snprintf(buf+1, sz, "%s", bv_name(ba->ba_value)); if (l < 0 || (size_t)l > sz) { warn("string too long %d > %zu", l, sz); return buf; } if (ba->ba_type == B_AT_MAP) { sz -= l; l = snprintf(buf+1+l, sz, "[%s]", ba_name(ba->ba_key)); if (l < 0 || (size_t)l > sz) { warn("string too long %d > %zu", l, sz); return buf; } } return buf; } /* * Return the representation of `ba' as long. */ long ba2long(struct bt_arg *ba, struct dt_evt *dtev) { struct bt_var *bv; long val; switch (ba->ba_type) { case B_AT_LONG: val = (long)ba->ba_value; break; case B_AT_VAR: ba = ba_read(ba); val = (long)ba->ba_value; break; case B_AT_MAP: bv = ba->ba_value; /* Uninitialized map */ if (bv->bv_value == NULL) return 0; val = ba2long(map_get((struct map *)bv->bv_value, ba2str(ba->ba_key, dtev)), dtev); break; case B_AT_NIL: val = 0L; break; case B_AT_BI_PID: val = dtev->dtev_pid; break; case B_AT_BI_TID: val = dtev->dtev_tid; break; case B_AT_BI_CPU: val = dtev->dtev_cpu; break; case B_AT_BI_NSECS: val = builtin_nsecs(dtev); break; case B_AT_BI_ARG0 ... B_AT_BI_ARG9: val = dtev->dtev_args[ba->ba_type - B_AT_BI_ARG0]; break; case B_AT_BI_RETVAL: val = dtev->dtev_retval[0]; break; case B_AT_BI_PROBE: val = dtev->dtev_pbn; break; case B_AT_OP_PLUS ... B_AT_OP_LOR: val = baexpr2long(ba, dtev); break; default: xabort("no long conversion for type %d", ba->ba_type); } return val; } /* * Return the representation of `ba' as string. */ const char * ba2str(struct bt_arg *ba, struct dt_evt *dtev) { static char buf[STRLEN]; struct bt_var *bv; struct dtioc_probe_info *dtpi; unsigned long idx; const char *str; buf[0] = '\0'; switch (ba->ba_type) { case B_AT_STR: str = (const char *)ba->ba_value; break; case B_AT_LONG: snprintf(buf, sizeof(buf), "%ld",(long)ba->ba_value); str = buf; break; case B_AT_TUPLE: snprintf(buf, sizeof(buf), "(%s)", ba2hash(ba->ba_value, dtev)); str = buf; break; case B_AT_TMEMBER: idx = (unsigned long)ba->ba_key; bv = ba->ba_value; /* Uninitialized tuple */ if (bv->bv_value == NULL) { str = buf; break; } ba = bv->bv_value; assert(ba->ba_type == B_AT_TUPLE); ba = ba->ba_value; while (ba != NULL && idx-- > 0) { ba = SLIST_NEXT(ba, ba_next); } str = ba2str(ba, dtev); break; case B_AT_NIL: str = ""; break; case B_AT_BI_KSTACK: str = builtin_stack(dtev, 1, 0); break; case B_AT_BI_USTACK: str = builtin_stack(dtev, 0, dt_get_offset(dtev->dtev_pid)); break; case B_AT_BI_COMM: str = dtev->dtev_comm; break; case B_AT_BI_CPU: snprintf(buf, sizeof(buf), "%u", dtev->dtev_cpu); str = buf; break; case B_AT_BI_PID: snprintf(buf, sizeof(buf), "%d", dtev->dtev_pid); str = buf; break; case B_AT_BI_TID: snprintf(buf, sizeof(buf), "%d", dtev->dtev_tid); str = buf; break; case B_AT_BI_NSECS: snprintf(buf, sizeof(buf), "%llu", builtin_nsecs(dtev)); str = buf; break; case B_AT_BI_ARG0 ... B_AT_BI_ARG9: str = builtin_arg(dtev, ba->ba_type); break; case B_AT_BI_RETVAL: snprintf(buf, sizeof(buf), "%ld", (long)dtev->dtev_retval[0]); str = buf; break; case B_AT_BI_PROBE: if (dtev->dtev_pbn == EVENT_BEGIN) { str = "BEGIN"; break; } else if (dtev->dtev_pbn == EVENT_END) { str = "END"; break; } dtpi = &dt_dtpis[dtev->dtev_pbn - 1]; if (dtpi != NULL) snprintf(buf, sizeof(buf), "%s:%s:%s", dtpi->dtpi_prov, dtpi_func(dtpi), dtpi->dtpi_name); else snprintf(buf, sizeof(buf), "%u", dtev->dtev_pbn); str = buf; break; case B_AT_MAP: bv = ba->ba_value; /* Uninitialized map */ if (bv->bv_value == NULL) { str = buf; break; } str = ba2str(map_get((struct map *)bv->bv_value, ba2str(ba->ba_key, dtev)), dtev); break; case B_AT_VAR: str = ba2str(ba_read(ba), dtev); break; case B_AT_FN_STR: str = (const char*)(fn_str(ba, dtev, buf))->ba_value; break; case B_AT_OP_PLUS ... B_AT_OP_LOR: snprintf(buf, sizeof(buf), "%ld", ba2long(ba, dtev)); str = buf; break; case B_AT_MF_COUNT: case B_AT_MF_MAX: case B_AT_MF_MIN: case B_AT_MF_SUM: assert(0); break; default: xabort("no string conversion for type %d", ba->ba_type); } return str; } /* * Return dt(4) flags indicating which data should be recorded by the * kernel, if any, for a given `ba'. */ int ba2dtflags(struct bt_arg *ba) { static long recursions; struct bt_arg *bval; int flags = 0; if (++recursions >= __MAXOPERANDS) errx(1, "too many operands (>%d) in expression", __MAXOPERANDS); do { if (ba->ba_type == B_AT_MAP) bval = ba->ba_key; else bval = ba; switch (bval->ba_type) { case B_AT_STR: case B_AT_LONG: case B_AT_TUPLE: case B_AT_TMEMBER: case B_AT_VAR: case B_AT_HIST: case B_AT_NIL: break; case B_AT_BI_KSTACK: flags |= DTEVT_KSTACK; break; case B_AT_BI_USTACK: flags |= DTEVT_USTACK; break; case B_AT_BI_COMM: flags |= DTEVT_EXECNAME; break; case B_AT_BI_CPU: case B_AT_BI_PID: case B_AT_BI_TID: case B_AT_BI_NSECS: break; case B_AT_BI_ARG0 ... B_AT_BI_ARG9: flags |= DTEVT_FUNCARGS; break; case B_AT_BI_RETVAL: case B_AT_BI_PROBE: break; case B_AT_MF_COUNT: case B_AT_MF_MAX: case B_AT_MF_MIN: case B_AT_MF_SUM: case B_AT_FN_STR: break; case B_AT_OP_PLUS ... B_AT_OP_LOR: flags |= ba2dtflags(bval->ba_value); break; default: xabort("invalid argument type %d", bval->ba_type); } } while ((ba = SLIST_NEXT(ba, ba_next)) != NULL); --recursions; return flags; } long bacmp(struct bt_arg *a, struct bt_arg *b) { long val; if (a->ba_type != b->ba_type) return a->ba_type - b->ba_type; switch (a->ba_type) { case B_AT_LONG: return ba2long(a, NULL) - ba2long(b, NULL); case B_AT_STR: return strcmp(ba2str(a, NULL), ba2str(b, NULL)); case B_AT_TUPLE: /* Compare two lists of arguments one by one. */ do { val = bacmp(a, b); if (val != 0) break; a = SLIST_NEXT(a, ba_next); b = SLIST_NEXT(b, ba_next); if (a == NULL && b != NULL) val = -1; else if (a != NULL && b == NULL) val = 1; } while (a != NULL && b != NULL); return val; default: xabort("no compare support for type %d", a->ba_type); } } __dead void xabort(const char *fmt, ...) { va_list ap; va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); fprintf(stderr, "\n"); abort(); } void debug(const char *fmt, ...) { va_list ap; if (verbose < 2) return; fprintf(stderr, "debug: "); va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); } void debugx(const char *fmt, ...) { va_list ap; if (verbose < 2) return; va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); } void debug_dump_term(struct bt_arg *ba) { switch (ba->ba_type) { case B_AT_LONG: debugx("%s", ba2str(ba, NULL)); break; case B_AT_OP_PLUS ... B_AT_OP_LOR: debug_dump_expr(ba); break; default: debugx("%s", ba_name(ba)); } } void debug_dump_expr(struct bt_arg *ba) { struct bt_arg *lhs, *rhs; lhs = ba->ba_value; rhs = SLIST_NEXT(lhs, ba_next); /* Left */ debug_dump_term(lhs); /* Right */ if (rhs != NULL) { debugx(" %s ", ba_name(ba)); debug_dump_term(rhs); } else { if (ba->ba_type != B_AT_OP_NE) debugx(" %s NULL", ba_name(ba)); } } void debug_dump_filter(struct bt_rule *r) { struct bt_stmt *bs; if (verbose < 2) return; if (r->br_filter == NULL) { debugx("\n"); return; } bs = r->br_filter->bf_condition; debugx(" /"); debug_dump_expr(SLIST_FIRST(&bs->bs_args)); debugx("/\n"); } const char * debug_probe_name(struct bt_probe *bp) { static char buf[64]; if (verbose < 2) return ""; if (bp->bp_type == B_PT_BEGIN) return "BEGIN"; if (bp->bp_type == B_PT_END) return "END"; assert(bp->bp_type == B_PT_PROBE); if (bp->bp_rate) { snprintf(buf, sizeof(buf), "%s:%s:%u", bp->bp_prov, bp->bp_unit, bp->bp_rate); } else { snprintf(buf, sizeof(buf), "%s:%s:%s", bp->bp_prov, bp->bp_unit, bp->bp_name); } return buf; } unsigned long dt_get_offset(pid_t pid) { static struct dtioc_getaux cache[32]; static int next; struct dtioc_getaux *aux = NULL; int i; for (i = 0; i < 32; i++) { if (cache[i].dtga_pid != pid) continue; aux = cache + i; break; } if (aux == NULL) { aux = &cache[next++]; next %= 32; aux->dtga_pid = pid; if (ioctl(dtfd, DTIOCGETAUXBASE, aux)) aux->dtga_auxbase = 0; } return aux->dtga_auxbase; }