/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include typedef struct dtrace_cmd { void (*dc_func)(struct dtrace_cmd *); /* function to compile arg */ dtrace_probespec_t dc_spec; /* probe specifier context */ char *dc_arg; /* argument from main argv */ const char *dc_name; /* name for error messages */ const char *dc_desc; /* desc for error messages */ dtrace_prog_t *dc_prog; /* program compiled from arg */ char dc_ofile[PATH_MAX]; /* derived output file name */ } dtrace_cmd_t; #define DMODE_VERS 0 /* display version information and exit (-V) */ #define DMODE_EXEC 1 /* compile program for enabling (-a/e/E) */ #define DMODE_ANON 2 /* compile program for anonymous tracing (-A) */ #define DMODE_LINK 3 /* compile program for linking with ELF (-G) */ #define DMODE_LIST 4 /* compile program and list probes (-l) */ #define E_SUCCESS 0 #define E_ERROR 1 #define E_USAGE 2 static const char DTRACE_OPTSTR[] = "3:6:aAb:c:CD:ef:FGHi:I:lL:m:n:o:p:P:qs:SU:vVwx:X:Z"; static char **g_argv; static int g_argc; static char **g_objv; static int g_objc; static dtrace_cmd_t *g_cmdv; static int g_cmdc; static struct ps_prochandle **g_psv; static int g_psc; static int g_pslive; static char *g_pname; static int g_quiet; static int g_flowindent; static int g_intr; static int g_impatient; static int g_newline; static int g_total; static int g_cflags; static int g_oflags; static int g_verbose; static int g_exec = 1; static int g_mode = DMODE_EXEC; static int g_status = E_SUCCESS; static int g_grabanon = 0; static const char *g_ofile = NULL; static FILE *g_ofp = stdout; static dtrace_hdl_t *g_dtp; static char *g_etcfile = "/etc/system"; static const char *g_etcbegin = "* vvvv Added by DTrace"; static const char *g_etcend = "* ^^^^ Added by DTrace"; static const char *g_etc[] = { "*", "* The following forceload directives were added by dtrace(1M) to allow for", "* tracing during boot. If these directives are removed, the system will", "* continue to function, but tracing will not occur during boot as desired.", "* To remove these directives (and this block comment) automatically, run", "* \"dtrace -A\" without additional arguments. See the \"Anonymous Tracing\"", "* chapter of the Solaris Dynamic Tracing Guide for details.", "*", NULL }; static int usage(FILE *fp) { static const char predact[] = "[[ predicate ] action ]"; (void) fprintf(fp, "Usage: %s [-32|-64] [-aACeFGHlqSvVwZ] " "[-b bufsz] [-c cmd] [-D name[=def]]\n\t[-I path] [-L path] " "[-o output] [-p pid] [-s script] [-U name]\n\t" "[-x opt[=val]] [-X a|c|s|t]\n\n" "\t[-P provider %s]\n" "\t[-m [ provider: ] module %s]\n" "\t[-f [[ provider: ] module: ] func %s]\n" "\t[-n [[[ provider: ] module: ] func: ] name %s]\n" "\t[-i probe-id %s] [ args ... ]\n\n", g_pname, predact, predact, predact, predact, predact); (void) fprintf(fp, "\tpredicate -> '/' D-expression '/'\n"); (void) fprintf(fp, "\t action -> '{' D-statements '}'\n"); (void) fprintf(fp, "\n" "\t-32 generate 32-bit D programs and ELF files\n" "\t-64 generate 64-bit D programs and ELF files\n\n" "\t-a claim anonymous tracing state\n" "\t-A generate driver.conf(4) directives for anonymous tracing\n" "\t-b set trace buffer size\n" "\t-c run specified command and exit upon its completion\n" "\t-C run cpp(1) preprocessor on script files\n" "\t-D define symbol when invoking preprocessor\n" "\t-e exit after compiling request but prior to enabling probes\n" "\t-f enable or list probes matching the specified function name\n" "\t-F coalesce trace output by function\n" "\t-G generate an ELF file containing embedded dtrace program\n" "\t-H print included files when invoking preprocessor\n" "\t-i enable or list probes matching the specified probe id\n" "\t-I add include directory to preprocessor search path\n" "\t-l list probes matching specified criteria\n" "\t-L add library directory to library search path\n" "\t-m enable or list probes matching the specified module name\n" "\t-n enable or list probes matching the specified probe name\n" "\t-o set output file\n" "\t-p grab specified process-ID and cache its symbol tables\n" "\t-P enable or list probes matching the specified provider name\n" "\t-q set quiet mode (only output explicitly traced data)\n" "\t-s enable or list probes according to the specified D script\n" "\t-S print D compiler intermediate code\n" "\t-U undefine symbol when invoking preprocessor\n" "\t-v set verbose mode (report stability attributes, arguments)\n" "\t-V report DTrace API version\n" "\t-w permit destructive actions\n" "\t-x enable or modify compiler and tracing options\n" "\t-X specify ISO C conformance settings for preprocessor\n" "\t-Z permit probe descriptions that match zero probes\n"); return (E_USAGE); } static void verror(const char *fmt, va_list ap) { int error = errno; (void) fprintf(stderr, "%s: ", g_pname); (void) vfprintf(stderr, fmt, ap); if (fmt[strlen(fmt) - 1] != '\n') (void) fprintf(stderr, ": %s\n", strerror(error)); } /*PRINTFLIKE1*/ static void fatal(const char *fmt, ...) { va_list ap; va_start(ap, fmt); verror(fmt, ap); va_end(ap); exit(E_ERROR); } /*PRINTFLIKE1*/ static void dfatal(const char *fmt, ...) { va_list ap; va_start(ap, fmt); (void) fprintf(stderr, "%s: ", g_pname); if (fmt != NULL) (void) vfprintf(stderr, fmt, ap); va_end(ap); if (fmt != NULL && fmt[strlen(fmt) - 1] != '\n') { (void) fprintf(stderr, ": %s\n", dtrace_errmsg(g_dtp, dtrace_errno(g_dtp))); } else if (fmt == NULL) { (void) fprintf(stderr, "%s\n", dtrace_errmsg(g_dtp, dtrace_errno(g_dtp))); } exit(E_ERROR); } /*PRINTFLIKE1*/ static void error(const char *fmt, ...) { va_list ap; va_start(ap, fmt); verror(fmt, ap); va_end(ap); } /*PRINTFLIKE1*/ static void notice(const char *fmt, ...) { va_list ap; if (g_quiet) return; /* -q or quiet pragma suppresses notice()s */ va_start(ap, fmt); verror(fmt, ap); va_end(ap); } /*PRINTFLIKE1*/ static void oprintf(const char *fmt, ...) { va_list ap; int n; va_start(ap, fmt); n = vfprintf(g_ofp, fmt, ap); va_end(ap); if (n < 0) { if (errno != EINTR) { fatal("failed to write to %s", g_ofile ? g_ofile : ""); } clearerr(g_ofp); } } static char ** make_argv(char *s) { const char *ws = "\f\n\r\t\v "; char **argv = malloc(sizeof (char *) * (strlen(s) / 2 + 1)); int argc = 0; char *p = s; if (argv == NULL) return (NULL); for (p = strtok(s, ws); p != NULL; p = strtok(NULL, ws)) argv[argc++] = p; if (argc == 0) argv[argc++] = s; argv[argc] = NULL; return (argv); } static void dof_prune(const char *fname) { struct stat sbuf; size_t sz, i, j, mark, len; char *buf; int msg = 0, fd; if ((fd = open(fname, O_RDONLY)) == -1) { /* * This is okay only if the file doesn't exist at all. */ if (errno != ENOENT) fatal("failed to open %s", fname); return; } if (fstat(fd, &sbuf) == -1) fatal("failed to fstat %s", fname); if ((buf = malloc((sz = sbuf.st_size) + 1)) == NULL) fatal("failed to allocate memory for %s", fname); if (read(fd, buf, sz) != sz) fatal("failed to read %s", fname); buf[sz] = '\0'; (void) close(fd); if ((fd = open(fname, O_WRONLY | O_TRUNC)) == -1) fatal("failed to open %s for writing", fname); len = strlen("dof-data-"); for (mark = 0, i = 0; i < sz; i++) { if (strncmp(&buf[i], "dof-data-", len) != 0) continue; /* * This is only a match if it's in the 0th column. */ if (i != 0 && buf[i - 1] != '\n') continue; if (msg++ == 0) { error("cleaned up old anonymous " "enabling in %s\n", fname); } /* * We have a match. First write out our data up until now. */ if (i != mark) { if (write(fd, &buf[mark], i - mark) != i - mark) fatal("failed to write to %s", fname); } /* * Now scan forward until we scan past a newline. */ for (j = i; j < sz && buf[j] != '\n'; j++) continue; /* * Reset our mark. */ if ((mark = j + 1) >= sz) break; i = j; } if (mark < sz) { if (write(fd, &buf[mark], sz - mark) != sz - mark) fatal("failed to write to %s", fname); } (void) close(fd); free(buf); } static void etcsystem_prune(void) { struct stat sbuf; size_t sz; char *buf, *start, *end; int fd; char *fname = g_etcfile, *tmpname; if ((fd = open(fname, O_RDONLY)) == -1) fatal("failed to open %s", fname); if (fstat(fd, &sbuf) == -1) fatal("failed to fstat %s", fname); if ((buf = malloc((sz = sbuf.st_size) + 1)) == NULL) fatal("failed to allocate memory for %s", fname); if (read(fd, buf, sz) != sz) fatal("failed to read %s", fname); buf[sz] = '\0'; (void) close(fd); if ((start = strstr(buf, g_etcbegin)) == NULL) goto out; if (strlen(buf) != sz) { fatal("embedded nul byte in %s; manual repair of %s " "required\n", fname, fname); } if (strstr(start + 1, g_etcbegin) != NULL) { fatal("multiple start sentinels in %s; manual repair of %s " "required\n", fname, fname); } if ((end = strstr(buf, g_etcend)) == NULL) { fatal("missing end sentinel in %s; manual repair of %s " "required\n", fname, fname); } if (start > end) { fatal("end sentinel preceeds start sentinel in %s; manual " "repair of %s required\n", fname, fname); } end += strlen(g_etcend) + 1; bcopy(end, start, strlen(end) + 1); tmpname = alloca(sz = strlen(fname) + 80); (void) snprintf(tmpname, sz, "%s.dtrace.%d", fname, getpid()); if ((fd = open(tmpname, O_WRONLY | O_CREAT | O_EXCL, sbuf.st_mode)) == -1) fatal("failed to create %s", tmpname); if (write(fd, buf, strlen(buf)) < strlen(buf)) { (void) unlink(tmpname); fatal("failed to write to %s", tmpname); } (void) close(fd); if (chown(tmpname, sbuf.st_uid, sbuf.st_gid) != 0) { (void) unlink(tmpname); fatal("failed to chown(2) %s to uid %d, gid %d", tmpname, (int)sbuf.st_uid, (int)sbuf.st_gid); } if (rename(tmpname, fname) == -1) fatal("rename of %s to %s failed", tmpname, fname); error("cleaned up forceload directives in %s\n", fname); out: free(buf); } static void etcsystem_add(void) { const char *mods[20]; int nmods, line; if ((g_ofp = fopen(g_ofile = g_etcfile, "a")) == NULL) fatal("failed to open output file '%s'", g_ofile); oprintf("%s\n", g_etcbegin); for (line = 0; g_etc[line] != NULL; line++) oprintf("%s\n", g_etc[line]); nmods = dtrace_provider_modules(g_dtp, mods, sizeof (mods) / sizeof (char *) - 1); if (nmods >= sizeof (mods) / sizeof (char *)) fatal("unexpectedly large number of modules!"); mods[nmods++] = "dtrace"; for (line = 0; line < nmods; line++) oprintf("forceload: drv/%s\n", mods[line]); oprintf("%s\n", g_etcend); if (fclose(g_ofp) == EOF) fatal("failed to close output file '%s'", g_ofile); error("added forceload directives to %s\n", g_ofile); } static void print_probe_info(const dtrace_probeinfo_t *p) { char buf[BUFSIZ]; int i; oprintf("\n\tProbe Description Attributes\n"); oprintf("\t\tIdentifier Names: %s\n", dtrace_stability_name(p->dtp_attr.dtat_name)); oprintf("\t\tData Semantics: %s\n", dtrace_stability_name(p->dtp_attr.dtat_data)); oprintf("\t\tDependency Class: %s\n", dtrace_class_name(p->dtp_attr.dtat_class)); oprintf("\n\tArgument Attributes\n"); oprintf("\t\tIdentifier Names: %s\n", dtrace_stability_name(p->dtp_arga.dtat_name)); oprintf("\t\tData Semantics: %s\n", dtrace_stability_name(p->dtp_arga.dtat_data)); oprintf("\t\tDependency Class: %s\n", dtrace_class_name(p->dtp_arga.dtat_class)); oprintf("\n\tArgument Types\n"); for (i = 0; i < p->dtp_argc; i++) { if (ctf_type_name(p->dtp_argv[i].dtt_ctfp, p->dtp_argv[i].dtt_type, buf, sizeof (buf)) == NULL) (void) strlcpy(buf, "(unknown)", sizeof (buf)); oprintf("\t\targs[%d]: %s\n", i, buf); } if (p->dtp_argc == 0) oprintf("\t\tNone\n"); oprintf("\n"); } /*ARGSUSED*/ static int info_stmt(dtrace_hdl_t *dtp, dtrace_prog_t *pgp, dtrace_stmtdesc_t *stp, dtrace_ecbdesc_t **last) { dtrace_ecbdesc_t *edp = stp->dtsd_ecbdesc; dtrace_probedesc_t *pdp = &edp->dted_probe; dtrace_probeinfo_t p; if (edp == *last) return (0); oprintf("\n%s:%s:%s:%s\n", pdp->dtpd_provider, pdp->dtpd_mod, pdp->dtpd_func, pdp->dtpd_name); if (dtrace_probe_info(dtp, pdp, &p) == 0) print_probe_info(&p); *last = edp; return (0); } /* * Execute the specified program by enabling the corresponding instrumentation. * If -e has been specified, we get the program info but do not enable it. If * -v has been specified, we print a stability report for the program. */ static void exec_prog(const dtrace_cmd_t *dcp) { dtrace_ecbdesc_t *last = NULL; dtrace_proginfo_t dpi; if (!g_exec) { dtrace_program_info(g_dtp, dcp->dc_prog, &dpi); } else if (dtrace_program_exec(g_dtp, dcp->dc_prog, &dpi) == -1) { dfatal("failed to enable '%s'", dcp->dc_name); } else { notice("%s '%s' matched %u probe%s\n", dcp->dc_desc, dcp->dc_name, dpi.dpi_matches, dpi.dpi_matches == 1 ? "" : "s"); } if (g_verbose) { oprintf("\nStability attributes for %s %s:\n", dcp->dc_desc, dcp->dc_name); oprintf("\n\tMinimum Probe Description Attributes\n"); oprintf("\t\tIdentifier Names: %s\n", dtrace_stability_name(dpi.dpi_descattr.dtat_name)); oprintf("\t\tData Semantics: %s\n", dtrace_stability_name(dpi.dpi_descattr.dtat_data)); oprintf("\t\tDependency Class: %s\n", dtrace_class_name(dpi.dpi_descattr.dtat_class)); oprintf("\n\tMinimum Statement Attributes\n"); oprintf("\t\tIdentifier Names: %s\n", dtrace_stability_name(dpi.dpi_stmtattr.dtat_name)); oprintf("\t\tData Semantics: %s\n", dtrace_stability_name(dpi.dpi_stmtattr.dtat_data)); oprintf("\t\tDependency Class: %s\n", dtrace_class_name(dpi.dpi_stmtattr.dtat_class)); if (!g_exec) { (void) dtrace_stmt_iter(g_dtp, dcp->dc_prog, (dtrace_stmt_f *)info_stmt, &last); } else oprintf("\n"); } g_total += dpi.dpi_matches; } /* * Print out the specified DOF buffer as a set of ASCII bytes appropriate for * storing in a driver.conf(4) file associated with the dtrace driver. */ static void anon_prog(const dtrace_cmd_t *dcp, dof_hdr_t *dof, int n) { const uchar_t *p, *q; if (dof == NULL) dfatal("failed to create DOF image for '%s'", dcp->dc_name); p = (uchar_t *)dof; q = p + dof->dofh_loadsz; oprintf("dof-data-%d=0x%x", n, *p++); while (p < q) oprintf(",0x%x", *p++); oprintf(";\n"); dtrace_dof_destroy(g_dtp, dof); } /* * Link the specified D program in DOF form into an ELF file for use in either * helpers, userland provider definitions, or both. If -o was specified, that * path is used as the output file name. If -o wasn't specified and the input * program is from a script whose name is %.d, use basename(%.o) as the output * file name. Otherwise we use "d.out" as the default output file name. */ static void link_prog(dtrace_cmd_t *dcp) { char *p; if (g_cmdc == 1 && g_ofile != NULL) { (void) strlcpy(dcp->dc_ofile, g_ofile, sizeof (dcp->dc_ofile)); } else if ((p = strrchr(dcp->dc_arg, '.')) != NULL && strcmp(p, ".d") == 0) { p[0] = '\0'; /* strip .d suffix */ (void) snprintf(dcp->dc_ofile, sizeof (dcp->dc_ofile), "%s.o", basename(dcp->dc_arg)); } else { (void) snprintf(dcp->dc_ofile, sizeof (dcp->dc_ofile), g_cmdc > 1 ? "%s.%d" : "%s", "d.out", (int)(dcp - g_cmdv)); } if (dtrace_program_link(g_dtp, dcp->dc_prog, DTRACE_D_PROBES, dcp->dc_ofile, g_objc - 1, g_objv + 1) != 0) dfatal("failed to link %s %s", dcp->dc_desc, dcp->dc_name); } /*ARGSUSED*/ static int list_probe(dtrace_hdl_t *dtp, const dtrace_probedesc_t *pdp, void *arg) { dtrace_probeinfo_t p; oprintf("%5d %10s %17s %33s %s\n", pdp->dtpd_id, pdp->dtpd_provider, pdp->dtpd_mod, pdp->dtpd_func, pdp->dtpd_name); if (g_verbose && dtrace_probe_info(dtp, pdp, &p) == 0) print_probe_info(&p); return (0); } /*ARGSUSED*/ static int list_stmt(dtrace_hdl_t *dtp, dtrace_prog_t *pgp, dtrace_stmtdesc_t *stp, dtrace_ecbdesc_t **last) { dtrace_ecbdesc_t *edp = stp->dtsd_ecbdesc; if (edp == *last) return (0); if (dtrace_probe_iter(g_dtp, &edp->dted_probe, list_probe, NULL) != 0) { error("failed to match %s:%s:%s:%s: %s\n", edp->dted_probe.dtpd_provider, edp->dted_probe.dtpd_mod, edp->dted_probe.dtpd_func, edp->dted_probe.dtpd_name, dtrace_errmsg(dtp, dtrace_errno(dtp))); } *last = edp; return (0); } /* * List the probes corresponding to the specified program by iterating over * each statement and then matching probes to the statement probe descriptions. */ static void list_prog(const dtrace_cmd_t *dcp) { dtrace_ecbdesc_t *last = NULL; (void) dtrace_stmt_iter(g_dtp, dcp->dc_prog, (dtrace_stmt_f *)list_stmt, &last); } static void compile_file(dtrace_cmd_t *dcp) { char *arg0; FILE *fp; if ((fp = fopen(dcp->dc_arg, "r")) == NULL) fatal("failed to open %s", dcp->dc_arg); arg0 = g_argv[0]; g_argv[0] = dcp->dc_arg; if ((dcp->dc_prog = dtrace_program_fcompile(g_dtp, fp, g_cflags, g_argc, g_argv)) == NULL) dfatal("failed to compile script %s", dcp->dc_arg); g_argv[0] = arg0; (void) fclose(fp); dcp->dc_desc = "script"; dcp->dc_name = dcp->dc_arg; } static void compile_str(dtrace_cmd_t *dcp) { char *p; if ((dcp->dc_prog = dtrace_program_strcompile(g_dtp, dcp->dc_arg, dcp->dc_spec, g_cflags | DTRACE_C_PSPEC, g_argc, g_argv)) == NULL) dfatal("invalid probe specifier %s", dcp->dc_arg); if ((p = strpbrk(dcp->dc_arg, "{/;")) != NULL) *p = '\0'; /* crop name for reporting */ dcp->dc_desc = "description"; dcp->dc_name = dcp->dc_arg; } /*ARGSUSED*/ static void prochandler(struct ps_prochandle *P, void *arg) { const psinfo_t *prp = Ppsinfo(P); int pid = Pstatus(P)->pr_pid; char name[SIG2STR_MAX]; switch (Pstate(P)) { case PS_UNDEAD: /* * Ideally we would like to always report pr_wstat here, but it * isn't possible given current /proc semantics. If we grabbed * the process, Ppsinfo() will either fail or return a zeroed * psinfo_t depending on how far the parent is in reaping it. * When /proc provides a stable pr_wstat in the status file, * this code can be improved by examining this new pr_wstat. */ if (prp != NULL && WIFSIGNALED(prp->pr_wstat)) { notice("pid %d terminated by %s\n", pid, proc_signame(WTERMSIG(prp->pr_wstat), name, sizeof (name))); } else if (prp != NULL && WEXITSTATUS(prp->pr_wstat) != 0) { notice("pid %d exited with status %d\n", pid, WEXITSTATUS(prp->pr_wstat)); } else { notice("pid %d has exited\n", pid); } g_pslive--; break; case PS_LOST: notice("pid %d exec'd a set-id or unobservable program\n", pid); g_pslive--; break; } } /*ARGSUSED*/ static int errhandler(dtrace_errdata_t *data, void *arg) { error(data->dteda_msg); return (DTRACE_HANDLE_OK); } /*ARGSUSED*/ static int drophandler(dtrace_dropdata_t *data, void *arg) { error(data->dtdda_msg); return (DTRACE_HANDLE_OK); } /*ARGSUSED*/ static int chewrec(const dtrace_probedata_t *data, const dtrace_recdesc_t *rec, void *arg) { dtrace_actkind_t act; uintptr_t addr; if (rec == NULL) { /* * We have processed the final record; output the newline if * we're not in quiet mode. */ if (!g_quiet) oprintf("\n"); return (DTRACE_CONSUME_NEXT); } act = rec->dtrd_action; addr = (uintptr_t)data->dtpda_data; if (act == DTRACEACT_EXIT) { g_status = *((uint32_t *)addr); return (DTRACE_CONSUME_NEXT); } return (DTRACE_CONSUME_THIS); } /*ARGSUSED*/ static int chew(const dtrace_probedata_t *data, void *arg) { dtrace_probedesc_t *pd = data->dtpda_pdesc; processorid_t cpu = data->dtpda_cpu; static int heading; if (g_impatient) { g_newline = 0; return (DTRACE_CONSUME_ABORT); } if (heading == 0) { if (!g_flowindent) { if (!g_quiet) { oprintf("%3s %6s %32s\n", "CPU", "ID", "FUNCTION:NAME"); } } else { oprintf("%3s %-41s\n", "CPU", "FUNCTION"); } heading = 1; } if (!g_flowindent) { if (!g_quiet) { char name[DTRACE_FUNCNAMELEN + DTRACE_NAMELEN + 2]; (void) snprintf(name, sizeof (name), "%s:%s", pd->dtpd_func, pd->dtpd_name); oprintf("%3d %6d %32s ", cpu, pd->dtpd_id, name); } } else { int indent = data->dtpda_indent; char *name; size_t len; if (data->dtpda_flow == DTRACEFLOW_NONE) { len = indent + DTRACE_FUNCNAMELEN + DTRACE_NAMELEN + 5; name = alloca(len); (void) snprintf(name, len, "%*s%s%s:%s", indent, "", data->dtpda_prefix, pd->dtpd_func, pd->dtpd_name); } else { len = indent + DTRACE_FUNCNAMELEN + 5; name = alloca(len); (void) snprintf(name, len, "%*s%s%s", indent, "", data->dtpda_prefix, pd->dtpd_func); } oprintf("%3d %-41s ", cpu, name); } return (DTRACE_CONSUME_THIS); } static void go(void) { int i; struct { char *name; char *optname; dtrace_optval_t val; } bufs[] = { { "buffer size", "bufsize" }, { "aggregation size", "aggsize" }, { "speculation size", "specsize" }, { "dynamic variable size", "dynvarsize" }, { NULL } }, rates[] = { { "cleaning rate", "cleanrate" }, { "status rate", "statusrate" }, { NULL } }; for (i = 0; bufs[i].name != NULL; i++) { if (dtrace_getopt(g_dtp, bufs[i].optname, &bufs[i].val) == -1) fatal("couldn't get option %s", bufs[i].optname); } for (i = 0; rates[i].name != NULL; i++) { if (dtrace_getopt(g_dtp, rates[i].optname, &rates[i].val) == -1) fatal("couldn't get option %s", rates[i].optname); } if (dtrace_go(g_dtp) == -1) dfatal("could not enable tracing"); for (i = 0; bufs[i].name != NULL; i++) { dtrace_optval_t j = 0, mul = 10; dtrace_optval_t nsize; if (bufs[i].val == DTRACEOPT_UNSET) continue; (void) dtrace_getopt(g_dtp, bufs[i].optname, &nsize); if (nsize == DTRACEOPT_UNSET || nsize == 0) continue; if (nsize >= bufs[i].val - sizeof (uint64_t)) continue; for (; (INT64_C(1) << mul) <= nsize; j++, mul += 10) continue; if (!(nsize & ((INT64_C(1) << (mul - 10)) - 1))) { error("%s lowered to %lld%c\n", bufs[i].name, (long long)nsize >> (mul - 10), " kmgtpe"[j]); } else { error("%s lowered to %lld bytes\n", bufs[i].name, (long long)nsize); } } for (i = 0; rates[i].name != NULL; i++) { dtrace_optval_t nval; char *dir; if (rates[i].val == DTRACEOPT_UNSET) continue; (void) dtrace_getopt(g_dtp, rates[i].optname, &nval); if (nval == DTRACEOPT_UNSET || nval == 0) continue; if (rates[i].val == nval) continue; dir = nval > rates[i].val ? "reduced" : "increased"; if (nval <= NANOSEC && (NANOSEC % nval) == 0) { error("%s %s to %lld hz\n", rates[i].name, dir, (long long)NANOSEC / (long long)nval); continue; } if ((nval % NANOSEC) == 0) { error("%s %s to once every %lld seconds\n", rates[i].name, dir, (long long)nval / (long long)NANOSEC); continue; } error("%s %s to once every %lld nanoseconds\n", rates[i].name, dir, (long long)nval); } } /*ARGSUSED*/ static void intr(int signo) { if (!g_intr) g_newline = 1; if (g_intr++) g_impatient = 1; } int main(int argc, char *argv[]) { dtrace_bufdesc_t buf; struct sigaction act; dtrace_status_t status[2]; dtrace_optval_t opt; dtrace_cmd_t *dcp; int done = 0, mode = 0; int err, i; char c, *p, **v; struct ps_prochandle *P; pid_t pid; g_pname = basename(argv[0]); if (argc == 1) return (usage(stderr)); if ((g_argv = malloc(sizeof (char *) * argc)) == NULL || (g_cmdv = malloc(sizeof (dtrace_cmd_t) * argc)) == NULL || (g_psv = malloc(sizeof (struct ps_prochandle *) * argc)) == NULL) fatal("failed to allocate memory for arguments"); g_argv[g_argc++] = argv[0]; /* propagate argv[0] to D as $0/$$0 */ argv[0] = g_pname; /* rewrite argv[0] for getopt errors */ bzero(status, sizeof (status)); bzero(&buf, sizeof (buf)); /* * Make an initial pass through argv[] processing any arguments that * affect our behavior mode (g_mode) and flags used for dtrace_open(). * We also accumulate arguments that are not affiliated with getopt * options into g_argv[], and abort if any invalid options are found. */ for (optind = 1; optind < argc; optind++) { while ((c = getopt(argc, argv, DTRACE_OPTSTR)) != EOF) { switch (c) { case '3': if (strcmp(optarg, "2") != 0) { (void) fprintf(stderr, "%s: illegal option -- 3%s\n", argv[0], optarg); return (usage(stderr)); } g_oflags &= ~DTRACE_O_LP64; g_oflags |= DTRACE_O_ILP32; break; case '6': if (strcmp(optarg, "4") != 0) { (void) fprintf(stderr, "%s: illegal option -- 6%s\n", argv[0], optarg); return (usage(stderr)); } g_oflags &= ~DTRACE_O_ILP32; g_oflags |= DTRACE_O_LP64; break; case 'a': g_grabanon++; /* also checked in pass 2 below */ break; case 'A': g_mode = DMODE_ANON; g_exec = 0; mode++; break; case 'e': g_exec = 0; done = 1; break; case 'G': g_mode = DMODE_LINK; g_oflags |= DTRACE_O_NODEV; g_cflags |= DTRACE_C_ZDEFS; /* -G implies -Z */ g_exec = 0; mode++; break; case 'l': g_mode = DMODE_LIST; g_cflags |= DTRACE_C_ZDEFS; /* -l implies -Z */ mode++; break; case 'V': g_mode = DMODE_VERS; mode++; break; default: if (strchr(DTRACE_OPTSTR, c) == NULL) return (usage(stderr)); } } if (optind < argc) g_argv[g_argc++] = argv[optind]; } if (mode > 1) { (void) fprintf(stderr, "%s: only one of the [-AGlV] options " "can be specified at a time\n", g_pname); return (E_USAGE); } if (g_mode == DMODE_VERS) return (printf("%s: %s\n", g_pname, _dtrace_version) <= 0); /* * Open libdtrace. If we are not actually going to be enabling any * instrumentation attempt to reopen libdtrace using DTRACE_O_NODEV. */ while ((g_dtp = dtrace_open(DTRACE_VERSION, g_oflags, &err)) == NULL) { if (!(g_oflags & DTRACE_O_NODEV) && !g_exec && !g_grabanon) { g_oflags |= DTRACE_O_NODEV; continue; } fatal("failed to initialize dtrace: %s\n", dtrace_errmsg(NULL, err)); } (void) dtrace_setopt(g_dtp, "bufsize", "4m"); (void) dtrace_setopt(g_dtp, "aggsize", "4m"); /* * If -G is specified, enable -xlink=dynamic and -xunodefs to permit * references to undefined symbols to remain as unresolved relocations. * If -A is specified, enable -xlink=primary to permit static linking * only to kernel symbols that are defined in a primary kernel module. */ if (g_mode == DMODE_LINK) { (void) dtrace_setopt(g_dtp, "linkmode", "dynamic"); (void) dtrace_setopt(g_dtp, "unodefs", NULL); g_objc = g_argc; g_objv = g_argv; /* * We still use g_argv[0], the name of the executable. */ g_argc = 1; } else if (g_mode == DMODE_ANON) (void) dtrace_setopt(g_dtp, "linkmode", "primary"); /* * Now that we have libdtrace open, make a second pass through argv[] * to perform any dtrace_setopt() calls and change any compiler flags. * We also accumulate any program specifications into our g_cmdv[] at * this time; these will compiled as part of the fourth processing pass. */ for (optind = 1; optind < argc; optind++) { while ((c = getopt(argc, argv, DTRACE_OPTSTR)) != EOF) { switch (c) { case 'a': if (dtrace_setopt(g_dtp, "grabanon", 0) != 0) dfatal("failed to set -a"); break; case 'b': if (dtrace_setopt(g_dtp, "bufsize", optarg) != 0) dfatal("failed to set -b %s", optarg); break; case 'C': g_cflags |= DTRACE_C_CPP; break; case 'D': if (dtrace_setopt(g_dtp, "define", optarg) != 0) dfatal("failed to set -D %s", optarg); break; case 'f': dcp = &g_cmdv[g_cmdc++]; dcp->dc_func = compile_str; dcp->dc_spec = DTRACE_PROBESPEC_FUNC; dcp->dc_arg = optarg; break; case 'F': if (dtrace_setopt(g_dtp, "flowindent", 0) != 0) dfatal("failed to set -F"); break; case 'H': if (dtrace_setopt(g_dtp, "cpphdrs", 0) != 0) dfatal("failed to set -H"); break; case 'i': dcp = &g_cmdv[g_cmdc++]; dcp->dc_func = compile_str; dcp->dc_spec = DTRACE_PROBESPEC_NAME; dcp->dc_arg = optarg; break; case 'I': if (dtrace_setopt(g_dtp, "incdir", optarg) != 0) dfatal("failed to set -I %s", optarg); break; case 'L': if (dtrace_setopt(g_dtp, "libdir", optarg) != 0) dfatal("failed to set -L %s", optarg); break; case 'm': dcp = &g_cmdv[g_cmdc++]; dcp->dc_func = compile_str; dcp->dc_spec = DTRACE_PROBESPEC_MOD; dcp->dc_arg = optarg; break; case 'n': dcp = &g_cmdv[g_cmdc++]; dcp->dc_func = compile_str; dcp->dc_spec = DTRACE_PROBESPEC_NAME; dcp->dc_arg = optarg; break; case 'P': dcp = &g_cmdv[g_cmdc++]; dcp->dc_func = compile_str; dcp->dc_spec = DTRACE_PROBESPEC_PROVIDER; dcp->dc_arg = optarg; break; case 'q': if (dtrace_setopt(g_dtp, "quiet", 0) != 0) dfatal("failed to set -q"); break; case 'o': g_ofile = optarg; break; case 's': dcp = &g_cmdv[g_cmdc++]; dcp->dc_func = compile_file; dcp->dc_spec = DTRACE_PROBESPEC_NONE; dcp->dc_arg = optarg; break; case 'S': g_cflags |= DTRACE_C_DIFV; break; case 'U': if (dtrace_setopt(g_dtp, "undef", optarg) != 0) dfatal("failed to set -U %s", optarg); break; case 'v': g_verbose++; break; case 'w': if (dtrace_setopt(g_dtp, "destructive", 0) != 0) dfatal("failed to set -w"); break; case 'x': if ((p = strchr(optarg, '=')) != NULL) *p++ = '\0'; if (dtrace_setopt(g_dtp, optarg, p) != 0) dfatal("failed to set -x %s", optarg); break; case 'X': if (dtrace_setopt(g_dtp, "stdc", optarg) != 0) dfatal("failed to set -X %s", optarg); break; case 'Z': g_cflags |= DTRACE_C_ZDEFS; break; default: if (strchr(DTRACE_OPTSTR, c) == NULL) return (usage(stderr)); } } } /* * In our third pass we handle any command-line options related to * grabbing or creating victim processes. The behavior of these calls * may been affected by any library options set by the second pass. */ for (optind = 1; optind < argc; optind++) { while ((c = getopt(argc, argv, DTRACE_OPTSTR)) != EOF) { switch (c) { case 'c': if ((v = make_argv(optarg)) == NULL) fatal("failed to allocate memory"); P = dtrace_proc_create(g_dtp, v[0], v); if (P == NULL) dfatal(NULL); /* dtrace_errmsg() only */ g_psv[g_psc++] = P; free(v); break; case 'p': errno = 0; pid = strtol(optarg, &p, 10); if (errno != 0 || p == optarg || p[0] != '\0') fatal("invalid pid: %s\n", optarg); P = dtrace_proc_grab(g_dtp, pid, 0); if (P == NULL) dfatal(NULL); /* dtrace_errmsg() only */ g_psv[g_psc++] = P; break; } } } /* * In our fourth pass we finish g_cmdv[] by calling dc_func to convert * each string or file specification into a compiled program structure. */ for (i = 0; i < g_cmdc; i++) g_cmdv[i].dc_func(&g_cmdv[i]); if (g_mode != DMODE_LIST) { if (dtrace_handle_err(g_dtp, &errhandler, NULL) == -1) dfatal("failed to establish error handler"); if (dtrace_handle_drop(g_dtp, &drophandler, NULL) == -1) dfatal("failed to establish drop handler"); if (dtrace_handle_proc(g_dtp, &prochandler, NULL) == -1) dfatal("failed to establish proc handler"); } (void) dtrace_getopt(g_dtp, "flowindent", &opt); g_flowindent = opt != DTRACEOPT_UNSET; (void) dtrace_getopt(g_dtp, "grabanon", &opt); g_grabanon = opt != DTRACEOPT_UNSET; (void) dtrace_getopt(g_dtp, "quiet", &opt); g_quiet = opt != DTRACEOPT_UNSET; /* * Now make a fifth and final pass over the options that have been * turned into programs and saved in g_cmdv[], performing any mode- * specific processing. If g_mode is DMODE_EXEC, we will break out * of the switch() and continue on to the data processing loop. For * other modes, we will exit dtrace once mode-specific work is done. */ switch (g_mode) { case DMODE_EXEC: if (g_ofile != NULL && (g_ofp = fopen(g_ofile, "a")) == NULL) fatal("failed to open output file '%s'", g_ofile); for (i = 0; i < g_cmdc; i++) exec_prog(&g_cmdv[i]); if (done && !g_grabanon) { dtrace_close(g_dtp); return (g_status); } break; case DMODE_ANON: if (g_ofile == NULL) g_ofile = "/kernel/drv/dtrace.conf"; dof_prune(g_ofile); /* strip out any old DOF directives */ etcsystem_prune(); /* string out any forceload directives */ if (g_cmdc == 0) { dtrace_close(g_dtp); return (g_status); } if ((g_ofp = fopen(g_ofile, "a")) == NULL) fatal("failed to open output file '%s'", g_ofile); for (i = 0; i < g_cmdc; i++) { anon_prog(&g_cmdv[i], dtrace_dof_create(g_dtp, g_cmdv[i].dc_prog, 0), i); } /* * Dump out the DOF corresponding to the error handler and the * current options as the final DOF property in the .conf file. */ anon_prog(NULL, dtrace_geterr_dof(g_dtp), i++); anon_prog(NULL, dtrace_getopt_dof(g_dtp), i++); if (fclose(g_ofp) == EOF) fatal("failed to close output file '%s'", g_ofile); /* * These messages would use notice() rather than error(), but * we don't want them suppressed when -A is run on a D program * that itself contains a #pragma D option quiet. */ error("saved anonymous enabling in %s\n", g_ofile); etcsystem_add(); error("run update_drv(1M) or reboot to enable changes\n"); dtrace_close(g_dtp); return (g_status); case DMODE_LINK: for (i = 0; i < g_cmdc; i++) link_prog(&g_cmdv[i]); if (g_cmdc > 1 && g_ofile != NULL) { char **objv = alloca(g_cmdc * sizeof (char *)); for (i = 0; i < g_cmdc; i++) objv[i] = g_cmdv[i].dc_ofile; if (dtrace_program_link(g_dtp, NULL, DTRACE_D_PROBES, g_ofile, g_cmdc, objv) != 0) dfatal(NULL); /* dtrace_errmsg() only */ } dtrace_close(g_dtp); return (g_status); case DMODE_LIST: if (g_ofile != NULL && (g_ofp = fopen(g_ofile, "a")) == NULL) fatal("failed to open output file '%s'", g_ofile); oprintf("%5s %10s %17s %33s %s\n", "ID", "PROVIDER", "MODULE", "FUNCTION", "NAME"); for (i = 0; i < g_cmdc; i++) list_prog(&g_cmdv[i]); if (g_cmdc == 0) (void) dtrace_probe_iter(g_dtp, NULL, list_probe, NULL); dtrace_close(g_dtp); return (g_status); } /* * If -a and -Z were not specified and no probes have been matched, no * probe criteria was specified on the command line and we abort. */ if (g_total == 0 && !g_grabanon && !(g_cflags & DTRACE_C_ZDEFS)) dfatal("no probes %s\n", g_cmdc ? "matched" : "specified"); /* * Start tracing. Once we dtrace_go(), reload any options that affect * our globals in case consuming anonymous state has changed them. */ go(); (void) dtrace_getopt(g_dtp, "flowindent", &opt); g_flowindent = opt != DTRACEOPT_UNSET; (void) dtrace_getopt(g_dtp, "grabanon", &opt); g_grabanon = opt != DTRACEOPT_UNSET; (void) dtrace_getopt(g_dtp, "quiet", &opt); g_quiet = opt != DTRACEOPT_UNSET; (void) dtrace_getopt(g_dtp, "destructive", &opt); if (opt != DTRACEOPT_UNSET) notice("allowing destructive actions\n"); (void) sigemptyset(&act.sa_mask); act.sa_flags = 0; act.sa_handler = intr; (void) sigaction(SIGINT, &act, NULL); (void) sigaction(SIGTERM, &act, NULL); /* * Now that tracing is active and we are ready to consume trace data, * continue any grabbed or created processes, setting them running * using the /proc control mechanism inside of libdtrace. */ for (i = 0; i < g_psc; i++) dtrace_proc_continue(g_dtp, g_psv[i]); g_pslive = g_psc; /* count for prochandler() */ do { if (!g_intr && !done) dtrace_sleep(g_dtp); if (g_newline) { /* * Output a newline just to make the output look * slightly cleaner. Note that we do this even in * "quiet" mode... */ oprintf("\n"); g_newline = 0; } if (done || g_intr || (g_psc != 0 && g_pslive == 0)) { done = 1; if (dtrace_stop(g_dtp) == -1) dfatal("couldn't stop tracing"); } switch (dtrace_work(g_dtp, g_ofp, chew, chewrec, NULL)) { case DTRACE_WORKSTATUS_DONE: done = 1; break; case DTRACE_WORKSTATUS_OKAY: break; default: if (!g_impatient && dtrace_errno(g_dtp) != EINTR) dfatal("processing aborted"); } if (fflush(g_ofp) == EOF) clearerr(g_ofp); } while (!done); oprintf("\n"); if (!g_impatient) { if (dtrace_aggregate_print(g_dtp, g_ofp, NULL) == -1 && dtrace_errno(g_dtp) != EINTR) dfatal("failed to print aggregations"); } dtrace_close(g_dtp); return (g_status); }