/* * Copyright (c) 1991, 1992 Paul Kranenburg <pk@cs.few.eur.nl> * Copyright (c) 1993 Branko Lankester <branko@hacktic.nl> * Copyright (c) 1993, 1994, 1995, 1996 Rick Sladkey <jrs@world.std.com> * Copyright (c) 1996-1999 Wichert Akkerman <wichert@cistron.nl> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * $Id: strace.c,v 1.66 2005/06/07 23:21:31 roland Exp $ */ #include "defs.h" #include <sys/types.h> #include <signal.h> #include <errno.h> #include <sys/param.h> #include <fcntl.h> #include <sys/resource.h> #include <sys/wait.h> #include <sys/stat.h> #include <pwd.h> #include <grp.h> #include <string.h> #include <limits.h> #include <dirent.h> #if defined(IA64) && defined(LINUX) # include <asm/ptrace_offsets.h> #endif #ifdef USE_PROCFS #include <poll.h> #endif #ifdef SVR4 #include <sys/stropts.h> #ifdef HAVE_MP_PROCFS #ifdef HAVE_SYS_UIO_H #include <sys/uio.h> #endif #endif #endif #ifdef HAVE_ANDROID_OS #define wait4 __wait4 #endif int debug = 0, followfork = 0, followvfork = 0, interactive = 0; int rflag = 0, tflag = 0, dtime = 0, cflag = 0; int iflag = 0, xflag = 0, qflag = 0; int pflag_seen = 0; /* Sometimes we want to print only succeeding syscalls. */ int not_failing_only = 0; char *username = NULL; uid_t run_uid; gid_t run_gid; int acolumn = DEFAULT_ACOLUMN; int max_strlen = DEFAULT_STRLEN; char *outfname = NULL; FILE *outf; struct tcb **tcbtab; unsigned int nprocs, tcbtabsize; char *progname; extern char **environ; static int trace P((void)); static void cleanup P((void)); static void interrupt P((int sig)); static sigset_t empty_set, blocked_set; #ifdef HAVE_SIG_ATOMIC_T static volatile sig_atomic_t interrupted; #else /* !HAVE_SIG_ATOMIC_T */ #ifdef __STDC__ static volatile int interrupted; #else /* !__STDC__ */ static int interrupted; #endif /* !__STDC__ */ #endif /* !HAVE_SIG_ATOMIC_T */ #ifdef USE_PROCFS static struct tcb *pfd2tcb P((int pfd)); static void reaper P((int sig)); static void rebuild_pollv P((void)); static struct pollfd *pollv; #ifndef HAVE_POLLABLE_PROCFS static void proc_poll_open P((void)); static void proc_poller P((int pfd)); struct proc_pollfd { int fd; int revents; int pid; }; static int poller_pid; static int proc_poll_pipe[2] = { -1, -1 }; #endif /* !HAVE_POLLABLE_PROCFS */ #ifdef HAVE_MP_PROCFS #define POLLWANT POLLWRNORM #else #define POLLWANT POLLPRI #endif #endif /* USE_PROCFS */ static void usage(ofp, exitval) FILE *ofp; int exitval; { fprintf(ofp, "\ usage: strace [-dffhiqrtttTvVxx] [-a column] [-e expr] ... [-o file]\n\ [-p pid] ... [-s strsize] [-u username] [-E var=val] ...\n\ [command [arg ...]]\n\ or: strace -c [-e expr] ... [-O overhead] [-S sortby] [-E var=val] ...\n\ [command [arg ...]]\n\ -c -- count time, calls, and errors for each syscall and report summary\n\ -f -- follow forks, -ff -- with output into separate files\n\ -F -- attempt to follow vforks, -h -- print help message\n\ -i -- print instruction pointer at time of syscall\n\ -q -- suppress messages about attaching, detaching, etc.\n\ -r -- print relative timestamp, -t -- absolute timestamp, -tt -- with usecs\n\ -T -- print time spent in each syscall, -V -- print version\n\ -v -- verbose mode: print unabbreviated argv, stat, termio[s], etc. args\n\ -x -- print non-ascii strings in hex, -xx -- print all strings in hex\n\ -a column -- alignment COLUMN for printing syscall results (default %d)\n\ -e expr -- a qualifying expression: option=[!]all or option=[!]val1[,val2]...\n\ options: trace, abbrev, verbose, raw, signal, read, or write\n\ -o file -- send trace output to FILE instead of stderr\n\ -O overhead -- set overhead for tracing syscalls to OVERHEAD usecs\n\ -p pid -- trace process with process id PID, may be repeated\n\ -s strsize -- limit length of print strings to STRSIZE chars (default %d)\n\ -S sortby -- sort syscall counts by: time, calls, name, nothing (default %s)\n\ -u username -- run command as username handling setuid and/or setgid\n\ -E var=val -- put var=val in the environment for command\n\ -E var -- remove var from the environment for command\n\ " /* this is broken, so don't document it -z -- print only succeeding syscalls\n\ */ , DEFAULT_ACOLUMN, DEFAULT_STRLEN, DEFAULT_SORTBY); exit(exitval); } #ifdef SVR4 #ifdef MIPS void foobar() { } #endif /* MIPS */ #endif /* SVR4 */ int main(argc, argv) int argc; char *argv[]; { extern int optind; extern char *optarg; struct tcb *tcp; int c, pid = 0; struct sigaction sa; static char buf[BUFSIZ]; /* Allocate the initial tcbtab. */ tcbtabsize = argc; /* Surely enough for all -p args. */ tcbtab = (struct tcb **) malloc (tcbtabsize * sizeof tcbtab[0]); tcbtab[0] = (struct tcb *) calloc (tcbtabsize, sizeof *tcbtab[0]); for (tcp = tcbtab[0]; tcp < &tcbtab[0][tcbtabsize]; ++tcp) tcbtab[tcp - tcbtab[0]] = &tcbtab[0][tcp - tcbtab[0]]; progname = argv[0]; outf = stderr; interactive = 1; qualify("trace=all"); qualify("abbrev=all"); qualify("verbose=all"); qualify("signal=all"); set_sortby(DEFAULT_SORTBY); set_personality(DEFAULT_PERSONALITY); while ((c = getopt(argc, argv, "+cdfFhiqrtTvVxza:e:o:O:p:s:S:u:E:")) != EOF) { switch (c) { case 'c': cflag++; dtime++; break; case 'd': debug++; break; case 'f': followfork++; break; case 'F': followvfork++; break; case 'h': usage(stdout, 0); break; case 'i': iflag++; break; case 'q': qflag++; break; case 'r': rflag++; tflag++; break; case 't': tflag++; break; case 'T': dtime++; break; case 'x': xflag++; break; case 'v': qualify("abbrev=none"); break; case 'V': printf("%s -- version %s\n", PACKAGE_NAME, VERSION); exit(0); break; case 'z': not_failing_only = 1; break; case 'a': acolumn = atoi(optarg); break; case 'e': qualify(optarg); break; case 'o': outfname = strdup(optarg); break; case 'O': set_overhead(atoi(optarg)); break; case 'p': if ((pid = atoi(optarg)) <= 0) { fprintf(stderr, "%s: Invalid process id: %s\n", progname, optarg); break; } if (pid == getpid()) { fprintf(stderr, "%s: I'm sorry, I can't let you do that, Dave.\n", progname); break; } if ((tcp = alloctcb(pid)) == NULL) { fprintf(stderr, "%s: out of memory\n", progname); exit(1); } tcp->flags |= TCB_ATTACHED; pflag_seen++; break; case 's': max_strlen = atoi(optarg); if (max_strlen < 0) { fprintf(stderr, "%s: invalid -s argument: %s\n", progname, optarg); exit(1); } break; case 'S': set_sortby(optarg); break; case 'u': username = strdup(optarg); break; case 'E': if (putenv(optarg) < 0) { fprintf(stderr, "%s: out of memory\n", progname); exit(1); } break; default: usage(stderr, 1); break; } } if (optind == argc && !pflag_seen) usage(stderr, 1); /* See if they want to run as another user. */ if (username != NULL) { struct passwd *pent; if (getuid() != 0 || geteuid() != 0) { fprintf(stderr, "%s: you must be root to use the -u option\n", progname); exit(1); } if ((pent = getpwnam(username)) == NULL) { fprintf(stderr, "%s: cannot find user `%s'\n", progname, optarg); exit(1); } run_uid = pent->pw_uid; run_gid = pent->pw_gid; } else { run_uid = getuid(); run_gid = getgid(); } #ifndef SVR4 setreuid(geteuid(), getuid()); #endif /* Check if they want to redirect the output. */ if (outfname) { long f; /* See if they want to pipe the output. */ if (outfname[0] == '|' || outfname[0] == '!') { /* * We can't do the <outfname>.PID funny business * when using popen, so prohibit it. */ if (followfork > 1) { fprintf(stderr, "\ %s: piping the output and -ff are mutually exclusive options\n", progname); exit(1); } #ifdef HAVE_ANDROID_OS fprintf(stderr,"output to a pipe not supported on android.\n"); exit(-1); #else if ((outf = popen(outfname + 1, "w")) == NULL) { fprintf(stderr, "%s: can't popen '%s': %s\n", progname, outfname + 1, strerror(errno)); exit(1); } #endif } else if ((outf = fopen(outfname, "w")) == NULL) { fprintf(stderr, "%s: can't fopen '%s': %s\n", progname, outfname, strerror(errno)); exit(1); } if ((f=fcntl(fileno(outf), F_GETFD)) < 0 ) { perror("failed to get flags for outputfile"); exit(1); } if (fcntl(fileno(outf), F_SETFD, f|FD_CLOEXEC) < 0 ) { perror("failed to set flags for outputfile"); exit(1); } } #ifndef SVR4 setreuid(geteuid(), getuid()); #endif if (!outfname || outfname[0] == '|' || outfname[0] == '!') setvbuf(outf, buf, _IOLBF, BUFSIZ); if (outfname && optind < argc) { interactive = 0; qflag = 1; } for (c = 0; c < tcbtabsize; c++) { tcp = tcbtab[c]; /* Reinitialize the output since it may have changed. */ tcp->outf = outf; if (!(tcp->flags & TCB_INUSE) || !(tcp->flags & TCB_ATTACHED)) continue; #ifdef USE_PROCFS if (proc_open(tcp, 1) < 0) { fprintf(stderr, "trouble opening proc file\n"); droptcb(tcp); continue; } #else /* !USE_PROCFS */ # ifdef LINUX if (tcp->flags & TCB_CLONE_THREAD) continue; if (followfork) { char procdir[MAXPATHLEN]; DIR *dir; sprintf(procdir, "/proc/%d/task", tcp->pid); dir = opendir(procdir); if (dir != NULL) { unsigned int ntid = 0, nerr = 0; struct dirent *de; int tid; while ((de = readdir(dir)) != NULL) { if (de->d_fileno == 0 || de->d_name[0] == '.') continue; tid = atoi(de->d_name); if (tid <= 0) continue; ++ntid; if (ptrace(PTRACE_ATTACH, tid, (char *) 1, 0) < 0) ++nerr; else if (tid != tcbtab[c]->pid) { if (nprocs == tcbtabsize && expand_tcbtab()) tcp = NULL; else tcp = alloctcb(tid); if (tcp == NULL) { fprintf(stderr, "%s: out of memory\n", progname); exit(1); } tcp->flags |= TCB_ATTACHED|TCB_CLONE_THREAD|TCB_CLONE_DETACHED|TCB_FOLLOWFORK; tcbtab[c]->nchildren++; tcbtab[c]->nclone_threads++; tcbtab[c]->nclone_detached++; tcp->parent = tcbtab[c]; } } closedir(dir); if (nerr == ntid) { perror("attach: ptrace(PTRACE_ATTACH, ...)"); droptcb(tcp); continue; } if (!qflag) { ntid -= nerr; if (ntid > 1) fprintf(stderr, "\ Process %u attached with %u threads - interrupt to quit\n", tcp->pid, ntid); else fprintf(stderr, "\ Process %u attached - interrupt to quit\n", tcp->pid); } continue; } } # endif if (ptrace(PTRACE_ATTACH, tcp->pid, (char *) 1, 0) < 0) { perror("attach: ptrace(PTRACE_ATTACH, ...)"); droptcb(tcp); continue; } #endif /* !USE_PROCFS */ if (!qflag) fprintf(stderr, "Process %u attached - interrupt to quit\n", tcp->pid); } if (!pflag_seen) { struct stat statbuf; char *filename; char pathname[MAXPATHLEN]; filename = argv[optind]; if (strchr(filename, '/')) { if (strlen(filename) > sizeof pathname - 1) { errno = ENAMETOOLONG; perror("strace: exec"); exit(1); } strcpy(pathname, filename); } #ifdef USE_DEBUGGING_EXEC /* * Debuggers customarily check the current directory * first regardless of the path but doing that gives * security geeks a panic attack. */ else if (stat(filename, &statbuf) == 0) strcpy(pathname, filename); #endif /* USE_DEBUGGING_EXEC */ else { char *path; int m, n, len; for (path = getenv("PATH"); path && *path; path += m) { if (strchr(path, ':')) { n = strchr(path, ':') - path; m = n + 1; } else m = n = strlen(path); if (n == 0) { getcwd(pathname, MAXPATHLEN); len = strlen(pathname); } else if (n > sizeof pathname - 1) continue; else { strncpy(pathname, path, n); len = n; } if (len && pathname[len - 1] != '/') pathname[len++] = '/'; strcpy(pathname + len, filename); if (stat(pathname, &statbuf) == 0 && /* Accept only regular files with some execute bits set. XXX not perfect, might still fail */ S_ISREG(statbuf.st_mode) && (statbuf.st_mode & 0111)) break; } } if (stat(pathname, &statbuf) < 0) { fprintf(stderr, "%s: %s: command not found\n", progname, filename); exit(1); } switch (pid = fork()) { case -1: perror("strace: fork"); cleanup(); exit(1); break; case 0: { #ifdef USE_PROCFS if (outf != stderr) close (fileno (outf)); #ifdef MIPS /* Kludge for SGI, see proc_open for details. */ sa.sa_handler = foobar; sa.sa_flags = 0; sigemptyset(&sa.sa_mask); sigaction(SIGINT, &sa, NULL); #endif /* MIPS */ #ifndef FREEBSD pause(); #else /* FREEBSD */ kill(getpid(), SIGSTOP); /* stop HERE */ #endif /* FREEBSD */ #else /* !USE_PROCFS */ if (outf!=stderr) close(fileno (outf)); if (ptrace(PTRACE_TRACEME, 0, (char *) 1, 0) < 0) { perror("strace: ptrace(PTRACE_TRACEME, ...)"); return -1; } if (debug) kill(getpid(), SIGSTOP); if (username != NULL || geteuid() == 0) { uid_t run_euid = run_uid; gid_t run_egid = run_gid; if (statbuf.st_mode & S_ISUID) run_euid = statbuf.st_uid; if (statbuf.st_mode & S_ISGID) run_egid = statbuf.st_gid; /* * It is important to set groups before we * lose privileges on setuid. */ if (username != NULL) { #ifndef HAVE_ANDROID_OS if (initgroups(username, run_gid) < 0) { perror("initgroups"); exit(1); } #endif /* HAVE_ANDROID_OS */ if (setregid(run_gid, run_egid) < 0) { perror("setregid"); exit(1); } if (setreuid(run_uid, run_euid) < 0) { perror("setreuid"); exit(1); } } } else setreuid(run_uid, run_uid); /* * Induce an immediate stop so that the parent * will resume us with PTRACE_SYSCALL and display * this execve call normally. */ kill(getpid(), SIGSTOP); #endif /* !USE_PROCFS */ execv(pathname, &argv[optind]); perror("strace: exec"); _exit(1); break; } default: if ((tcp = alloctcb(pid)) == NULL) { fprintf(stderr, "tcb table full\n"); cleanup(); exit(1); } #ifdef USE_PROCFS if (proc_open(tcp, 0) < 0) { fprintf(stderr, "trouble opening proc file\n"); cleanup(); exit(1); } #endif /* USE_PROCFS */ break; } } sigemptyset(&empty_set); sigemptyset(&blocked_set); sa.sa_handler = SIG_IGN; sigemptyset(&sa.sa_mask); sa.sa_flags = 0; sigaction(SIGTTOU, &sa, NULL); sigaction(SIGTTIN, &sa, NULL); if (interactive) { sigaddset(&blocked_set, SIGHUP); sigaddset(&blocked_set, SIGINT); sigaddset(&blocked_set, SIGQUIT); sigaddset(&blocked_set, SIGPIPE); sigaddset(&blocked_set, SIGTERM); sa.sa_handler = interrupt; #ifdef SUNOS4 /* POSIX signals on sunos4.1 are a little broken. */ sa.sa_flags = SA_INTERRUPT; #endif /* SUNOS4 */ } sigaction(SIGHUP, &sa, NULL); sigaction(SIGINT, &sa, NULL); sigaction(SIGQUIT, &sa, NULL); sigaction(SIGPIPE, &sa, NULL); sigaction(SIGTERM, &sa, NULL); #ifdef USE_PROCFS sa.sa_handler = reaper; sigaction(SIGCHLD, &sa, NULL); #else /* Make sure SIGCHLD has the default action so that waitpid definitely works without losing track of children. The user should not have given us a bogus state to inherit, but he might have. Arguably we should detect SIG_IGN here and pass it on to children, but probably noone really needs that. */ sa.sa_handler = SIG_DFL; sigaction(SIGCHLD, &sa, NULL); #endif /* USE_PROCFS */ if (trace() < 0) exit(1); cleanup(); exit(0); } void newoutf(tcp) struct tcb *tcp; { char name[MAXPATHLEN]; FILE *fp; if (outfname && followfork > 1) { sprintf(name, "%s.%u", outfname, tcp->pid); #ifndef SVR4 setreuid(geteuid(), getuid()); #endif fp = fopen(name, "w"); #ifndef SVR4 setreuid(geteuid(), getuid()); #endif if (fp == NULL) { perror("fopen"); return; } tcp->outf = fp; } return; } int expand_tcbtab() { /* Allocate some more TCBs and expand the table. We don't want to relocate the TCBs because our callers have pointers and it would be a pain. So tcbtab is a table of pointers. Since we never free the TCBs, we allocate a single chunk of many. */ struct tcb **newtab = (struct tcb **) realloc(tcbtab, 2 * tcbtabsize * sizeof tcbtab[0]); struct tcb *newtcbs = (struct tcb *) calloc(tcbtabsize, sizeof *newtcbs); int i; if (newtab == NULL || newtcbs == NULL) { if (newtab != NULL) free(newtab); return 1; } for (i = tcbtabsize; i < 2 * tcbtabsize; ++i) newtab[i] = &newtcbs[i - tcbtabsize]; tcbtabsize *= 2; tcbtab = newtab; return 0; } struct tcb * alloctcb(pid) int pid; { int i; struct tcb *tcp; for (i = 0; i < tcbtabsize; i++) { tcp = tcbtab[i]; if ((tcp->flags & TCB_INUSE) == 0) { tcp->pid = pid; tcp->parent = NULL; tcp->nchildren = 0; tcp->nzombies = 0; #ifdef TCB_CLONE_THREAD tcp->nclone_threads = tcp->nclone_detached = 0; tcp->nclone_waiting = 0; #endif tcp->flags = TCB_INUSE | TCB_STARTUP; tcp->outf = outf; /* Initialise to current out file */ tcp->stime.tv_sec = 0; tcp->stime.tv_usec = 0; tcp->pfd = -1; nprocs++; return tcp; } } return NULL; } #ifdef USE_PROCFS int proc_open(tcp, attaching) struct tcb *tcp; int attaching; { char proc[32]; long arg; #ifdef SVR4 int i; sysset_t syscalls; sigset_t signals; fltset_t faults; #endif #ifndef HAVE_POLLABLE_PROCFS static int last_pfd; #endif #ifdef HAVE_MP_PROCFS /* Open the process pseudo-files in /proc. */ sprintf(proc, "/proc/%d/ctl", tcp->pid); if ((tcp->pfd = open(proc, O_WRONLY|O_EXCL)) < 0) { perror("strace: open(\"/proc/...\", ...)"); return -1; } if ((arg = fcntl(tcp->pfd, F_GETFD)) < 0) { perror("F_GETFD"); return -1; } if (fcntl(tcp->pfd, F_SETFD, arg|FD_CLOEXEC) < 0) { perror("F_SETFD"); return -1; } sprintf(proc, "/proc/%d/status", tcp->pid); if ((tcp->pfd_stat = open(proc, O_RDONLY|O_EXCL)) < 0) { perror("strace: open(\"/proc/...\", ...)"); return -1; } if ((arg = fcntl(tcp->pfd_stat, F_GETFD)) < 0) { perror("F_GETFD"); return -1; } if (fcntl(tcp->pfd_stat, F_SETFD, arg|FD_CLOEXEC) < 0) { perror("F_SETFD"); return -1; } sprintf(proc, "/proc/%d/as", tcp->pid); if ((tcp->pfd_as = open(proc, O_RDONLY|O_EXCL)) < 0) { perror("strace: open(\"/proc/...\", ...)"); return -1; } if ((arg = fcntl(tcp->pfd_as, F_GETFD)) < 0) { perror("F_GETFD"); return -1; } if (fcntl(tcp->pfd_as, F_SETFD, arg|FD_CLOEXEC) < 0) { perror("F_SETFD"); return -1; } #else /* Open the process pseudo-file in /proc. */ #ifndef FREEBSD sprintf(proc, "/proc/%d", tcp->pid); if ((tcp->pfd = open(proc, O_RDWR|O_EXCL)) < 0) { #else /* FREEBSD */ sprintf(proc, "/proc/%d/mem", tcp->pid); if ((tcp->pfd = open(proc, O_RDWR)) < 0) { #endif /* FREEBSD */ perror("strace: open(\"/proc/...\", ...)"); return -1; } if ((arg = fcntl(tcp->pfd, F_GETFD)) < 0) { perror("F_GETFD"); return -1; } if (fcntl(tcp->pfd, F_SETFD, arg|FD_CLOEXEC) < 0) { perror("F_SETFD"); return -1; } #endif #ifdef FREEBSD sprintf(proc, "/proc/%d/regs", tcp->pid); if ((tcp->pfd_reg = open(proc, O_RDONLY)) < 0) { perror("strace: open(\"/proc/.../regs\", ...)"); return -1; } if (cflag) { sprintf(proc, "/proc/%d/status", tcp->pid); if ((tcp->pfd_status = open(proc, O_RDONLY)) < 0) { perror("strace: open(\"/proc/.../status\", ...)"); return -1; } } else tcp->pfd_status = -1; #endif /* FREEBSD */ rebuild_pollv(); if (!attaching) { /* * Wait for the child to pause. Because of a race * condition we have to poll for the event. */ for (;;) { if (IOCTL_STATUS (tcp) < 0) { perror("strace: PIOCSTATUS"); return -1; } if (tcp->status.PR_FLAGS & PR_ASLEEP) break; } } #ifndef FREEBSD /* Stop the process so that we own the stop. */ if (IOCTL(tcp->pfd, PIOCSTOP, (char *)NULL) < 0) { perror("strace: PIOCSTOP"); return -1; } #endif #ifdef PIOCSET /* Set Run-on-Last-Close. */ arg = PR_RLC; if (IOCTL(tcp->pfd, PIOCSET, &arg) < 0) { perror("PIOCSET PR_RLC"); return -1; } /* Set or Reset Inherit-on-Fork. */ arg = PR_FORK; if (IOCTL(tcp->pfd, followfork ? PIOCSET : PIOCRESET, &arg) < 0) { perror("PIOC{SET,RESET} PR_FORK"); return -1; } #else /* !PIOCSET */ #ifndef FREEBSD if (ioctl(tcp->pfd, PIOCSRLC) < 0) { perror("PIOCSRLC"); return -1; } if (ioctl(tcp->pfd, followfork ? PIOCSFORK : PIOCRFORK) < 0) { perror("PIOC{S,R}FORK"); return -1; } #else /* FREEBSD */ /* just unset the PF_LINGER flag for the Run-on-Last-Close. */ if (ioctl(tcp->pfd, PIOCGFL, &arg) < 0) { perror("PIOCGFL"); return -1; } arg &= ~PF_LINGER; if (ioctl(tcp->pfd, PIOCSFL, arg) < 0) { perror("PIOCSFL"); return -1; } #endif /* FREEBSD */ #endif /* !PIOCSET */ #ifndef FREEBSD /* Enable all syscall entries we care about. */ premptyset(&syscalls); for (i = 1; i < MAX_QUALS; ++i) { if (i > (sizeof syscalls) * CHAR_BIT) break; if (qual_flags [i] & QUAL_TRACE) praddset (&syscalls, i); } praddset (&syscalls, SYS_execve); if (followfork) { praddset (&syscalls, SYS_fork); #ifdef SYS_forkall praddset (&syscalls, SYS_forkall); #endif #ifdef SYS_fork1 praddset (&syscalls, SYS_fork1); #endif #ifdef SYS_rfork1 praddset (&syscalls, SYS_rfork1); #endif #ifdef SYS_rforkall praddset (&syscalls, SYS_rforkall); #endif } if (IOCTL(tcp->pfd, PIOCSENTRY, &syscalls) < 0) { perror("PIOCSENTRY"); return -1; } /* Enable the syscall exits. */ if (IOCTL(tcp->pfd, PIOCSEXIT, &syscalls) < 0) { perror("PIOSEXIT"); return -1; } /* Enable signals we care about. */ premptyset(&signals); for (i = 1; i < MAX_QUALS; ++i) { if (i > (sizeof signals) * CHAR_BIT) break; if (qual_flags [i] & QUAL_SIGNAL) praddset (&signals, i); } if (IOCTL(tcp->pfd, PIOCSTRACE, &signals) < 0) { perror("PIOCSTRACE"); return -1; } /* Enable faults we care about */ premptyset(&faults); for (i = 1; i < MAX_QUALS; ++i) { if (i > (sizeof faults) * CHAR_BIT) break; if (qual_flags [i] & QUAL_FAULT) praddset (&faults, i); } if (IOCTL(tcp->pfd, PIOCSFAULT, &faults) < 0) { perror("PIOCSFAULT"); return -1; } #else /* FREEBSD */ /* set events flags. */ arg = S_SIG | S_SCE | S_SCX ; if(ioctl(tcp->pfd, PIOCBIS, arg) < 0) { perror("PIOCBIS"); return -1; } #endif /* FREEBSD */ if (!attaching) { #ifdef MIPS /* * The SGI PRSABORT doesn't work for pause() so * we send it a caught signal to wake it up. */ kill(tcp->pid, SIGINT); #else /* !MIPS */ #ifdef PRSABORT /* The child is in a pause(), abort it. */ arg = PRSABORT; if (IOCTL (tcp->pfd, PIOCRUN, &arg) < 0) { perror("PIOCRUN"); return -1; } #endif #endif /* !MIPS*/ #ifdef FREEBSD /* wake up the child if it received the SIGSTOP */ kill(tcp->pid, SIGCONT); #endif for (;;) { /* Wait for the child to do something. */ if (IOCTL_WSTOP (tcp) < 0) { perror("PIOCWSTOP"); return -1; } if (tcp->status.PR_WHY == PR_SYSENTRY) { tcp->flags &= ~TCB_INSYSCALL; get_scno(tcp); if (known_scno(tcp) == SYS_execve) break; } /* Set it running: maybe execve will be next. */ #ifndef FREEBSD arg = 0; if (IOCTL(tcp->pfd, PIOCRUN, &arg) < 0) { #else /* FREEBSD */ if (IOCTL(tcp->pfd, PIOCRUN, 0) < 0) { #endif /* FREEBSD */ perror("PIOCRUN"); return -1; } #ifdef FREEBSD /* handle the case where we "opened" the child before it did the kill -STOP */ if (tcp->status.PR_WHY == PR_SIGNALLED && tcp->status.PR_WHAT == SIGSTOP) kill(tcp->pid, SIGCONT); #endif } #ifndef FREEBSD } #else /* FREEBSD */ } else { if (attaching < 2) { /* We are attaching to an already running process. * Try to figure out the state of the process in syscalls, * to handle the first event well. * This is done by having a look at the "wchan" property of the * process, which tells where it is stopped (if it is). */ FILE * status; char wchan[20]; /* should be enough */ sprintf(proc, "/proc/%d/status", tcp->pid); status = fopen(proc, "r"); if (status && (fscanf(status, "%*s %*d %*d %*d %*d %*d,%*d %*s %*d,%*d" "%*d,%*d %*d,%*d %19s", wchan) == 1) && strcmp(wchan, "nochan") && strcmp(wchan, "spread") && strcmp(wchan, "stopevent")) { /* The process is asleep in the middle of a syscall. Fake the syscall entry event */ tcp->flags &= ~(TCB_INSYSCALL|TCB_STARTUP); tcp->status.PR_WHY = PR_SYSENTRY; trace_syscall(tcp); } if (status) fclose(status); } /* otherwise it's a fork being followed */ } #endif /* FREEBSD */ #ifndef HAVE_POLLABLE_PROCFS if (proc_poll_pipe[0] != -1) proc_poller(tcp->pfd); else if (nprocs > 1) { proc_poll_open(); proc_poller(last_pfd); proc_poller(tcp->pfd); } last_pfd = tcp->pfd; #endif /* !HAVE_POLLABLE_PROCFS */ return 0; } #endif /* USE_PROCFS */ struct tcb * pid2tcb(pid) int pid; { int i; struct tcb *tcp; for (i = 0; i < tcbtabsize; i++) { tcp = tcbtab[i]; if (pid && tcp->pid != pid) continue; if (tcp->flags & TCB_INUSE) return tcp; } return NULL; } #ifdef USE_PROCFS static struct tcb * pfd2tcb(pfd) int pfd; { int i; for (i = 0; i < tcbtabsize; i++) { struct tcb *tcp = tcbtab[i]; if (tcp->pfd != pfd) continue; if (tcp->flags & TCB_INUSE) return tcp; } return NULL; } #endif /* USE_PROCFS */ void droptcb(tcp) struct tcb *tcp; { if (tcp->pid == 0) return; #ifdef TCB_CLONE_THREAD if (tcp->nclone_threads > 0) { /* There are other threads left in this process, but this is the one whose PID represents the whole process. We need to keep this record around as a zombie until all the threads die. */ tcp->flags |= TCB_EXITING; return; } #endif nprocs--; tcp->pid = 0; if (tcp->parent != NULL) { tcp->parent->nchildren--; #ifdef TCB_CLONE_THREAD if (tcp->flags & TCB_CLONE_DETACHED) tcp->parent->nclone_detached--; if (tcp->flags & TCB_CLONE_THREAD) tcp->parent->nclone_threads--; #endif #ifdef TCB_CLONE_DETACHED if (!(tcp->flags & TCB_CLONE_DETACHED)) #endif tcp->parent->nzombies++; tcp->parent = NULL; } tcp->flags = 0; if (tcp->pfd != -1) { close(tcp->pfd); tcp->pfd = -1; #ifdef FREEBSD if (tcp->pfd_reg != -1) { close(tcp->pfd_reg); tcp->pfd_reg = -1; } if (tcp->pfd_status != -1) { close(tcp->pfd_status); tcp->pfd_status = -1; } #endif /* !FREEBSD */ #ifdef USE_PROCFS rebuild_pollv(); /* Note, flags needs to be cleared by now. */ #endif } if (outfname && followfork > 1 && tcp->outf) fclose(tcp->outf); tcp->outf = 0; } #ifndef USE_PROCFS static int resume(tcp) struct tcb *tcp; { if (tcp == NULL) return -1; if (!(tcp->flags & TCB_SUSPENDED)) { fprintf(stderr, "PANIC: pid %u not suspended\n", tcp->pid); return -1; } tcp->flags &= ~TCB_SUSPENDED; #ifdef TCB_CLONE_THREAD if (tcp->flags & TCB_CLONE_THREAD) tcp->parent->nclone_waiting--; #endif if (ptrace(PTRACE_SYSCALL, tcp->pid, (char *) 1, 0) < 0) { perror("resume: ptrace(PTRACE_SYSCALL, ...)"); return -1; } if (!qflag) fprintf(stderr, "Process %u resumed\n", tcp->pid); return 0; } #endif /* !USE_PROCFS */ /* detach traced process; continue with sig */ static int detach(tcp, sig) struct tcb *tcp; int sig; { int error = 0; #ifdef LINUX int status, resumed; #endif if (tcp->flags & TCB_BPTSET) sig = SIGKILL; #ifdef LINUX /* * Linux wrongly insists the child be stopped * before detaching. Arghh. We go through hoops * to make a clean break of things. */ #if defined(SPARC) #undef PTRACE_DETACH #define PTRACE_DETACH PTRACE_SUNDETACH #endif if ((error = ptrace(PTRACE_DETACH, tcp->pid, (char *) 1, sig)) == 0) { /* On a clear day, you can see forever. */ } else if (errno != ESRCH) { /* Shouldn't happen. */ perror("detach: ptrace(PTRACE_DETACH, ...)"); } else if (kill(tcp->pid, 0) < 0) { if (errno != ESRCH) perror("detach: checking sanity"); } else if (kill(tcp->pid, SIGSTOP) < 0) { if (errno != ESRCH) perror("detach: stopping child"); } else { for (;;) { #ifdef __WALL if (wait4(tcp->pid, &status, __WALL, NULL) < 0) { if (errno == ECHILD) /* Already gone. */ break; if (errno != EINVAL) { perror("detach: waiting"); break; } #endif /* __WALL */ /* No __WALL here. */ if (waitpid(tcp->pid, &status, 0) < 0) { if (errno != ECHILD) { perror("detach: waiting"); break; } #ifdef __WCLONE /* If no processes, try clones. */ if (wait4(tcp->pid, &status, __WCLONE, NULL) < 0) { if (errno != ECHILD) perror("detach: waiting"); break; } #endif /* __WCLONE */ } #ifdef __WALL } #endif if (!WIFSTOPPED(status)) { /* Au revoir, mon ami. */ break; } if (WSTOPSIG(status) == SIGSTOP) { if ((error = ptrace(PTRACE_DETACH, tcp->pid, (char *) 1, sig)) < 0) { if (errno != ESRCH) perror("detach: ptrace(PTRACE_DETACH, ...)"); /* I died trying. */ } break; } if ((error = ptrace(PTRACE_CONT, tcp->pid, (char *) 1, WSTOPSIG(status) == SIGTRAP ? 0 : WSTOPSIG(status))) < 0) { if (errno != ESRCH) perror("detach: ptrace(PTRACE_CONT, ...)"); break; } } } #endif /* LINUX */ #if defined(SUNOS4) /* PTRACE_DETACH won't respect `sig' argument, so we post it here. */ if (sig && kill(tcp->pid, sig) < 0) perror("detach: kill"); sig = 0; if ((error = ptrace(PTRACE_DETACH, tcp->pid, (char *) 1, sig)) < 0) perror("detach: ptrace(PTRACE_DETACH, ...)"); #endif /* SUNOS4 */ #ifndef USE_PROCFS resumed = 0; /* XXX This won't always be quite right (but it never was). A waiter with argument 0 or < -1 is waiting for any pid in a particular pgrp, which this child might or might not be in. The waiter will only wake up if it's argument is -1 or if it's waiting for tcp->pid's pgrp. It makes a difference to wake up a waiter when there might be more traced children, because it could get a false ECHILD error. OTOH, if this was the last child in the pgrp, then it ought to wake up and get ECHILD. We would have to search the system for all pid's in the pgrp to be sure. && (t->waitpid == -1 || (t->waitpid == 0 && getpgid (tcp->pid) == getpgid (t->pid)) || (t->waitpid < 0 && t->waitpid == -getpid (t->pid))) */ if (tcp->parent && (tcp->parent->flags & TCB_SUSPENDED) && (tcp->parent->waitpid <= 0 || tcp->parent->waitpid == tcp->pid)) { error = resume(tcp->parent); ++resumed; } #ifdef TCB_CLONE_THREAD if (tcp->parent && tcp->parent->nclone_waiting > 0) { /* Some other threads of our parent are waiting too. */ unsigned int i; /* Resume all the threads that were waiting for this PID. */ for (i = 0; i < tcbtabsize; i++) { struct tcb *t = tcbtab[i]; if (t->parent == tcp->parent && t != tcp && ((t->flags & (TCB_CLONE_THREAD|TCB_SUSPENDED)) == (TCB_CLONE_THREAD|TCB_SUSPENDED)) && t->waitpid == tcp->pid) { error |= resume (t); ++resumed; } } if (resumed == 0) /* Noone was waiting for this PID in particular, so now we might need to resume some wildcarders. */ for (i = 0; i < tcbtabsize; i++) { struct tcb *t = tcbtab[i]; if (t->parent == tcp->parent && t != tcp && ((t->flags & (TCB_CLONE_THREAD|TCB_SUSPENDED)) == (TCB_CLONE_THREAD|TCB_SUSPENDED)) && t->waitpid <= 0 ) { error |= resume (t); break; } } } #endif #endif /* !USE_PROCFS */ if (!qflag) fprintf(stderr, "Process %u detached\n", tcp->pid); droptcb(tcp); return error; } #ifdef USE_PROCFS static void reaper(sig) int sig; { int pid; int status; while ((pid = waitpid(-1, &status, WNOHANG)) > 0) { #if 0 struct tcb *tcp; tcp = pid2tcb(pid); if (tcp) droptcb(tcp); #endif } } #endif /* USE_PROCFS */ static void cleanup() { int i; struct tcb *tcp; for (i = 0; i < tcbtabsize; i++) { tcp = tcbtab[i]; if (!(tcp->flags & TCB_INUSE)) continue; if (debug) fprintf(stderr, "cleanup: looking at pid %u\n", tcp->pid); if (tcp_last && (!outfname || followfork < 2 || tcp_last == tcp)) { tprintf(" <unfinished ...>\n"); tcp_last = NULL; } if (tcp->flags & TCB_ATTACHED) detach(tcp, 0); else { kill(tcp->pid, SIGCONT); kill(tcp->pid, SIGTERM); } } if (cflag) call_summary(outf); } static void interrupt(sig) int sig; { interrupted = 1; } #ifndef HAVE_STRERROR #if !HAVE_DECL_SYS_ERRLIST extern int sys_nerr; extern char *sys_errlist[]; #endif /* HAVE_DECL_SYS_ERRLIST */ const char * strerror(errno) int errno; { static char buf[64]; if (errno < 1 || errno >= sys_nerr) { sprintf(buf, "Unknown error %d", errno); return buf; } return sys_errlist[errno]; } #endif /* HAVE_STERRROR */ #ifndef HAVE_STRSIGNAL #if defined HAVE_SYS_SIGLIST && !defined HAVE_DECL_SYS_SIGLIST extern char *sys_siglist[]; #endif #if defined HAVE_SYS__SIGLIST && !defined HAVE_DECL__SYS_SIGLIST extern char *_sys_siglist[]; #endif const char * strsignal(sig) int sig; { static char buf[64]; if (sig < 1 || sig >= NSIG) { sprintf(buf, "Unknown signal %d", sig); return buf; } #ifdef HAVE__SYS_SIGLIST return _sys_siglist[sig]; #else return sys_siglist[sig]; #endif } #endif /* HAVE_STRSIGNAL */ #ifdef USE_PROCFS static void rebuild_pollv() { int i, j; if (pollv != NULL) free (pollv); pollv = (struct pollfd *) malloc(nprocs * sizeof pollv[0]); if (pollv == NULL) { fprintf(stderr, "%s: out of memory\n", progname); exit(1); } for (i = j = 0; i < tcbtabsize; i++) { struct tcb *tcp = tcbtab[i]; if (!(tcp->flags & TCB_INUSE)) continue; pollv[j].fd = tcp->pfd; pollv[j].events = POLLWANT; j++; } if (j != nprocs) { fprintf(stderr, "strace: proc miscount\n"); exit(1); } } #ifndef HAVE_POLLABLE_PROCFS static void proc_poll_open() { int arg; int i; if (pipe(proc_poll_pipe) < 0) { perror("pipe"); exit(1); } for (i = 0; i < 2; i++) { if ((arg = fcntl(proc_poll_pipe[i], F_GETFD)) < 0) { perror("F_GETFD"); exit(1); } if (fcntl(proc_poll_pipe[i], F_SETFD, arg|FD_CLOEXEC) < 0) { perror("F_SETFD"); exit(1); } } } static int proc_poll(pollv, nfds, timeout) struct pollfd *pollv; int nfds; int timeout; { int i; int n; struct proc_pollfd pollinfo; if ((n = read(proc_poll_pipe[0], &pollinfo, sizeof(pollinfo))) < 0) return n; if (n != sizeof(struct proc_pollfd)) { fprintf(stderr, "panic: short read: %d\n", n); exit(1); } for (i = 0; i < nprocs; i++) { if (pollv[i].fd == pollinfo.fd) pollv[i].revents = pollinfo.revents; else pollv[i].revents = 0; } poller_pid = pollinfo.pid; return 1; } static void wakeup_handler(sig) int sig; { } static void proc_poller(pfd) int pfd; { struct proc_pollfd pollinfo; struct sigaction sa; sigset_t blocked_set, empty_set; int i; int n; struct rlimit rl; #ifdef FREEBSD struct procfs_status pfs; #endif /* FREEBSD */ switch (fork()) { case -1: perror("fork"); _exit(0); case 0: break; default: return; } sa.sa_handler = interactive ? SIG_DFL : SIG_IGN; sa.sa_flags = 0; sigemptyset(&sa.sa_mask); sigaction(SIGHUP, &sa, NULL); sigaction(SIGINT, &sa, NULL); sigaction(SIGQUIT, &sa, NULL); sigaction(SIGPIPE, &sa, NULL); sigaction(SIGTERM, &sa, NULL); sa.sa_handler = wakeup_handler; sigaction(SIGUSR1, &sa, NULL); sigemptyset(&blocked_set); sigaddset(&blocked_set, SIGUSR1); sigprocmask(SIG_BLOCK, &blocked_set, NULL); sigemptyset(&empty_set); if (getrlimit(RLIMIT_NOFILE, &rl) < 0) { perror("getrlimit(RLIMIT_NOFILE, ...)"); _exit(0); } n = rl.rlim_cur; for (i = 0; i < n; i++) { if (i != pfd && i != proc_poll_pipe[1]) close(i); } pollinfo.fd = pfd; pollinfo.pid = getpid(); for (;;) { #ifndef FREEBSD if (ioctl(pfd, PIOCWSTOP, NULL) < 0) #else /* FREEBSD */ if (ioctl(pfd, PIOCWSTOP, &pfs) < 0) #endif /* FREEBSD */ { switch (errno) { case EINTR: continue; case EBADF: pollinfo.revents = POLLERR; break; case ENOENT: pollinfo.revents = POLLHUP; break; default: perror("proc_poller: PIOCWSTOP"); } write(proc_poll_pipe[1], &pollinfo, sizeof(pollinfo)); _exit(0); } pollinfo.revents = POLLWANT; write(proc_poll_pipe[1], &pollinfo, sizeof(pollinfo)); sigsuspend(&empty_set); } } #endif /* !HAVE_POLLABLE_PROCFS */ static int choose_pfd() { int i, j; struct tcb *tcp; static int last; if (followfork < 2 && last < nprocs && (pollv[last].revents & POLLWANT)) { /* * The previous process is ready to run again. We'll * let it do so if it is currently in a syscall. This * heuristic improves the readability of the trace. */ tcp = pfd2tcb(pollv[last].fd); if (tcp && (tcp->flags & TCB_INSYSCALL)) return pollv[last].fd; } for (i = 0; i < nprocs; i++) { /* Let competing children run round robin. */ j = (i + last + 1) % nprocs; if (pollv[j].revents & (POLLHUP | POLLERR)) { tcp = pfd2tcb(pollv[j].fd); if (!tcp) { fprintf(stderr, "strace: lost proc\n"); exit(1); } droptcb(tcp); return -1; } if (pollv[j].revents & POLLWANT) { last = j; return pollv[j].fd; } } fprintf(stderr, "strace: nothing ready\n"); exit(1); } static int trace() { #ifdef POLL_HACK struct tcb *in_syscall = NULL; #endif struct tcb *tcp; int pfd; int what; int ioctl_result = 0, ioctl_errno = 0; long arg; for (;;) { if (interactive) sigprocmask(SIG_SETMASK, &empty_set, NULL); if (nprocs == 0) break; switch (nprocs) { case 1: #ifndef HAVE_POLLABLE_PROCFS if (proc_poll_pipe[0] == -1) { #endif tcp = pid2tcb(0); if (!tcp) continue; pfd = tcp->pfd; if (pfd == -1) continue; break; #ifndef HAVE_POLLABLE_PROCFS } /* fall through ... */ #endif /* !HAVE_POLLABLE_PROCFS */ default: #ifdef HAVE_POLLABLE_PROCFS #ifdef POLL_HACK /* On some systems (e.g. UnixWare) we get too much ugly "unfinished..." stuff when multiple proceses are in syscalls. Here's a nasty hack */ if (in_syscall) { struct pollfd pv; tcp = in_syscall; in_syscall = NULL; pv.fd = tcp->pfd; pv.events = POLLWANT; if ((what = poll (&pv, 1, 1)) < 0) { if (interrupted) return 0; continue; } else if (what == 1 && pv.revents & POLLWANT) { goto FOUND; } } #endif if (poll(pollv, nprocs, INFTIM) < 0) { if (interrupted) return 0; continue; } #else /* !HAVE_POLLABLE_PROCFS */ if (proc_poll(pollv, nprocs, INFTIM) < 0) { if (interrupted) return 0; continue; } #endif /* !HAVE_POLLABLE_PROCFS */ pfd = choose_pfd(); if (pfd == -1) continue; break; } /* Look up `pfd' in our table. */ if ((tcp = pfd2tcb(pfd)) == NULL) { fprintf(stderr, "unknown pfd: %u\n", pfd); exit(1); } #ifdef POLL_HACK FOUND: #endif /* Get the status of the process. */ if (!interrupted) { #ifndef FREEBSD ioctl_result = IOCTL_WSTOP (tcp); #else /* FREEBSD */ /* Thanks to some scheduling mystery, the first poller sometimes waits for the already processed end of fork event. Doing a non blocking poll here solves the problem. */ if (proc_poll_pipe[0] != -1) ioctl_result = IOCTL_STATUS (tcp); else ioctl_result = IOCTL_WSTOP (tcp); #endif /* FREEBSD */ ioctl_errno = errno; #ifndef HAVE_POLLABLE_PROCFS if (proc_poll_pipe[0] != -1) { if (ioctl_result < 0) kill(poller_pid, SIGKILL); else kill(poller_pid, SIGUSR1); } #endif /* !HAVE_POLLABLE_PROCFS */ } if (interrupted) return 0; if (interactive) sigprocmask(SIG_BLOCK, &blocked_set, NULL); if (ioctl_result < 0) { /* Find out what happened if it failed. */ switch (ioctl_errno) { case EINTR: case EBADF: continue; #ifdef FREEBSD case ENOTTY: #endif case ENOENT: droptcb(tcp); continue; default: perror("PIOCWSTOP"); exit(1); } } #ifdef FREEBSD if ((tcp->flags & TCB_STARTUP) && (tcp->status.PR_WHY == PR_SYSEXIT)) { /* discard first event for a syscall we never entered */ IOCTL (tcp->pfd, PIOCRUN, 0); continue; } #endif /* clear the just started flag */ tcp->flags &= ~TCB_STARTUP; /* set current output file */ outf = tcp->outf; if (cflag) { struct timeval stime; #ifdef FREEBSD char buf[1024]; int len; if ((len = pread(tcp->pfd_status, buf, sizeof(buf) - 1, 0)) > 0) { buf[len] = '\0'; sscanf(buf, "%*s %*d %*d %*d %*d %*d,%*d %*s %*d,%*d %*d,%*d %ld,%ld", &stime.tv_sec, &stime.tv_usec); } else stime.tv_sec = stime.tv_usec = 0; #else /* !FREEBSD */ stime.tv_sec = tcp->status.pr_stime.tv_sec; stime.tv_usec = tcp->status.pr_stime.tv_nsec/1000; #endif /* !FREEBSD */ tv_sub(&tcp->dtime, &stime, &tcp->stime); tcp->stime = stime; } what = tcp->status.PR_WHAT; switch (tcp->status.PR_WHY) { #ifndef FREEBSD case PR_REQUESTED: if (tcp->status.PR_FLAGS & PR_ASLEEP) { tcp->status.PR_WHY = PR_SYSENTRY; if (trace_syscall(tcp) < 0) { fprintf(stderr, "syscall trouble\n"); exit(1); } } break; #endif /* !FREEBSD */ case PR_SYSENTRY: #ifdef POLL_HACK in_syscall = tcp; #endif case PR_SYSEXIT: if (trace_syscall(tcp) < 0) { fprintf(stderr, "syscall trouble\n"); exit(1); } break; case PR_SIGNALLED: if (!cflag && (qual_flags[what] & QUAL_SIGNAL)) { printleader(tcp); tprintf("--- %s (%s) ---", signame(what), strsignal(what)); printtrailer(tcp); #ifdef PR_INFO if (tcp->status.PR_INFO.si_signo == what) { printleader(tcp); tprintf(" siginfo="); printsiginfo(&tcp->status.PR_INFO, 1); printtrailer(tcp); } #endif } break; case PR_FAULTED: if (!cflag && (qual_flags[what] & QUAL_FAULT)) { printleader(tcp); tprintf("=== FAULT %d ===", what); printtrailer(tcp); } break; #ifdef FREEBSD case 0: /* handle case we polled for nothing */ continue; #endif default: fprintf(stderr, "odd stop %d\n", tcp->status.PR_WHY); exit(1); break; } arg = 0; #ifndef FREEBSD if (IOCTL (tcp->pfd, PIOCRUN, &arg) < 0) { #else if (IOCTL (tcp->pfd, PIOCRUN, 0) < 0) { #endif perror("PIOCRUN"); exit(1); } } return 0; } #else /* !USE_PROCFS */ #ifdef TCB_GROUP_EXITING /* Handle an exit detach or death signal that is taking all the related clone threads with it. This is called in three circumstances: SIG == -1 TCP has already died (TCB_ATTACHED is clear, strace is parent). SIG == 0 Continuing TCP will perform an exit_group syscall. SIG == other Continuing TCP with SIG will kill the process. */ static int handle_group_exit(struct tcb *tcp, int sig) { /* We need to locate our records of all the clone threads related to TCP, either its children or siblings. */ struct tcb *leader = ((tcp->flags & TCB_CLONE_THREAD) ? tcp->parent : tcp->nclone_detached > 0 ? tcp : NULL); if (sig < 0) { if (leader != NULL && leader != tcp && !(leader->flags & TCB_GROUP_EXITING)) fprintf(stderr, "PANIC: handle_group_exit: %d leader %d\n", tcp->pid, leader ? leader->pid : -1); droptcb(tcp); /* Already died. */ } else { if (tcp->flags & TCB_ATTACHED) { if (leader != NULL && leader != tcp) { if (leader->flags & TCB_ATTACHED) { /* We need to detach the leader so that the process death will be reported to its real parent. But we kill it first to prevent it doing anything before we kill the whole process in a moment. We can use PTRACE_KILL on a thread that's not already stopped. Then the value we pass in PTRACE_DETACH just sets the death signal reported to the real parent. */ ptrace(PTRACE_KILL, leader->pid, 0, 0); if (debug) fprintf(stderr, " [%d exit %d kills %d]\n", tcp->pid, sig, leader->pid); detach(leader, sig); } else leader->flags |= TCB_GROUP_EXITING; } detach(tcp, sig); } else if (ptrace(PTRACE_CONT, tcp->pid, (char *) 1, sig) < 0) { perror("strace: ptrace(PTRACE_CONT, ...)"); cleanup(); return -1; } else { if (leader != NULL) leader->flags |= TCB_GROUP_EXITING; if (leader != NULL && leader != tcp) droptcb(tcp); /* The leader will report to us as parent now, and then we'll get to the SIG==-1 case. */ return 0; } } return 0; } #endif static int trace() { int pid; int wait_errno; int status; struct tcb *tcp; #ifdef LINUX struct rusage ru; #ifdef __WALL static int wait4_options = __WALL; #endif #endif /* LINUX */ while (nprocs != 0) { if (interactive) sigprocmask(SIG_SETMASK, &empty_set, NULL); #ifdef LINUX #ifdef __WALL pid = wait4(-1, &status, wait4_options, cflag ? &ru : NULL); if (pid < 0 && (wait4_options & __WALL) && errno == EINVAL) { /* this kernel does not support __WALL */ wait4_options &= ~__WALL; errno = 0; pid = wait4(-1, &status, wait4_options, cflag ? &ru : NULL); } if (pid < 0 && !(wait4_options & __WALL) && errno == ECHILD) { /* most likely a "cloned" process */ pid = wait4(-1, &status, __WCLONE, cflag ? &ru : NULL); if (pid == -1) { fprintf(stderr, "strace: clone wait4 " "failed: %s\n", strerror(errno)); } } #else pid = wait4(-1, &status, 0, cflag ? &ru : NULL); #endif /* __WALL */ #endif /* LINUX */ #ifdef SUNOS4 pid = wait(&status); #endif /* SUNOS4 */ wait_errno = errno; if (interactive) sigprocmask(SIG_BLOCK, &blocked_set, NULL); if (interrupted) return 0; if (pid == -1) { switch (wait_errno) { case EINTR: continue; case ECHILD: /* * We would like to verify this case * but sometimes a race in Solbourne's * version of SunOS sometimes reports * ECHILD before sending us SIGCHILD. */ #if 0 if (nprocs == 0) return 0; fprintf(stderr, "strace: proc miscount\n"); exit(1); #endif return 0; default: errno = wait_errno; perror("strace: wait"); return -1; } } if (debug) fprintf(stderr, " [wait(%#x) = %u]\n", status, pid); /* Look up `pid' in our table. */ if ((tcp = pid2tcb(pid)) == NULL) { #ifdef LINUX if (followfork || followvfork) { /* This is needed to go with the CLONE_PTRACE changes in process.c/util.c: we might see the child's initial trap before we see the parent return from the clone syscall. Leave the child suspended until the parent returns from its system call. Only then will we have the association of parent and child so that we know how to do clearbpt in the child. */ if ((tcp = alloctcb(pid)) == NULL) { fprintf(stderr, " [tcb table full]\n"); kill(pid, SIGKILL); /* XXX */ return 0; } tcp->flags |= TCB_ATTACHED | TCB_SUSPENDED; newoutf(tcp); if (!qflag) fprintf(stderr, "\ Process %d attached (waiting for parent)\n", pid); } else /* This can happen if a clone call used CLONE_PTRACE itself. */ #endif { fprintf(stderr, "unknown pid: %u\n", pid); if (WIFSTOPPED(status)) ptrace(PTRACE_CONT, pid, (char *) 1, 0); exit(1); } } /* set current output file */ outf = tcp->outf; if (cflag) { #ifdef LINUX tv_sub(&tcp->dtime, &ru.ru_stime, &tcp->stime); tcp->stime = ru.ru_stime; #endif /* !LINUX */ } if (tcp->flags & TCB_SUSPENDED) { /* * Apparently, doing any ptrace() call on a stopped * process, provokes the kernel to report the process * status again on a subsequent wait(), even if the * process has not been actually restarted. * Since we have inspected the arguments of suspended * processes we end up here testing for this case. */ continue; } if (WIFSIGNALED(status)) { if (!cflag && (qual_flags[WTERMSIG(status)] & QUAL_SIGNAL)) { printleader(tcp); tprintf("+++ killed by %s %s+++", signame(WTERMSIG(status)), #ifdef WCOREDUMP WCOREDUMP(status) ? "(core dumped) " : #endif ""); printtrailer(tcp); } #ifdef TCB_GROUP_EXITING handle_group_exit(tcp, -1); #else droptcb(tcp); #endif continue; } if (WIFEXITED(status)) { if (debug) fprintf(stderr, "pid %u exited\n", pid); if ((tcp->flags & TCB_ATTACHED) #ifdef TCB_GROUP_EXITING && !(tcp->parent && (tcp->parent->flags & TCB_GROUP_EXITING)) #endif ) fprintf(stderr, "PANIC: attached pid %u exited\n", pid); if (tcp == tcp_last) { if ((tcp->flags & (TCB_INSYSCALL|TCB_REPRINT)) == TCB_INSYSCALL) tprintf(" <unfinished ... exit status %d>\n", WEXITSTATUS(status)); tcp_last = NULL; } #ifdef TCB_GROUP_EXITING handle_group_exit(tcp, -1); #else droptcb(tcp); #endif continue; } if (!WIFSTOPPED(status)) { fprintf(stderr, "PANIC: pid %u not stopped\n", pid); droptcb(tcp); continue; } if (debug) fprintf(stderr, "pid %u stopped, [%s]\n", pid, signame(WSTOPSIG(status))); if (tcp->flags & TCB_STARTUP) { /* * This flag is there to keep us in sync. * Next time this process stops it should * really be entering a system call. */ tcp->flags &= ~TCB_STARTUP; if (tcp->flags & TCB_ATTACHED) { /* * Interestingly, the process may stop * with STOPSIG equal to some other signal * than SIGSTOP if we happend to attach * just before the process takes a signal. */ if (!WIFSTOPPED(status)) { fprintf(stderr, "pid %u not stopped\n", pid); detach(tcp, WSTOPSIG(status)); continue; } } else { #ifdef SUNOS4 /* A child of us stopped at exec */ if (WSTOPSIG(status) == SIGTRAP && followvfork) fixvfork(tcp); #endif /* SUNOS4 */ } if (tcp->flags & TCB_BPTSET) { if (clearbpt(tcp) < 0) /* Pretty fatal */ { droptcb(tcp); cleanup(); return -1; } } goto tracing; } if (WSTOPSIG(status) != SIGTRAP) { if (WSTOPSIG(status) == SIGSTOP && (tcp->flags & TCB_SIGTRAPPED)) { /* * Trapped attempt to block SIGTRAP * Hope we are back in control now. */ tcp->flags &= ~(TCB_INSYSCALL | TCB_SIGTRAPPED); if (ptrace(PTRACE_SYSCALL, pid, (char *) 1, 0) < 0) { perror("trace: ptrace(PTRACE_SYSCALL, ...)"); cleanup(); return -1; } continue; } if (!cflag && (qual_flags[WSTOPSIG(status)] & QUAL_SIGNAL)) { unsigned long addr = 0, pc = 0; #ifdef PT_GETSIGINFO # define PSR_RI 41 struct siginfo si; unsigned long psr; upeek(pid, PT_CR_IPSR, &psr); upeek(pid, PT_CR_IIP, &pc); pc += (psr >> PSR_RI) & 0x3; ptrace(PT_GETSIGINFO, pid, 0, (long) &si); addr = (unsigned long) si.si_addr; #elif defined PTRACE_GETSIGINFO if (WSTOPSIG(status) == SIGSEGV || WSTOPSIG(status) == SIGBUS) { siginfo_t si; if (ptrace(PTRACE_GETSIGINFO, pid, 0, &si) == 0) addr = (unsigned long) si.si_addr; } #endif printleader(tcp); tprintf("--- %s (%s) @ %lx (%lx) ---", signame(WSTOPSIG(status)), strsignal(WSTOPSIG(status)), pc, addr); printtrailer(tcp); } if (((tcp->flags & TCB_ATTACHED) || tcp->nclone_threads > 0) && !sigishandled(tcp, WSTOPSIG(status))) { #ifdef TCB_GROUP_EXITING handle_group_exit(tcp, WSTOPSIG(status)); #else detach(tcp, WSTOPSIG(status)); #endif continue; } if (ptrace(PTRACE_SYSCALL, pid, (char *) 1, WSTOPSIG(status)) < 0) { perror("trace: ptrace(PTRACE_SYSCALL, ...)"); cleanup(); return -1; } tcp->flags &= ~TCB_SUSPENDED; continue; } if (trace_syscall(tcp) < 0) { if (tcp->flags & TCB_ATTACHED) detach(tcp, 0); else { ptrace(PTRACE_KILL, tcp->pid, (char *) 1, SIGTERM); droptcb(tcp); } continue; } if (tcp->flags & TCB_EXITING) { #ifdef TCB_GROUP_EXITING if (tcp->flags & TCB_GROUP_EXITING) { if (handle_group_exit(tcp, 0) < 0) return -1; continue; } #endif if (tcp->flags & TCB_ATTACHED) detach(tcp, 0); else if (ptrace(PTRACE_CONT, pid, (char *) 1, 0) < 0) { perror("strace: ptrace(PTRACE_CONT, ...)"); cleanup(); return -1; } continue; } if (tcp->flags & TCB_SUSPENDED) { if (!qflag) fprintf(stderr, "Process %u suspended\n", pid); continue; } tracing: if (ptrace(PTRACE_SYSCALL, pid, (char *) 1, 0) < 0) { perror("trace: ptrace(PTRACE_SYSCALL, ...)"); cleanup(); return -1; } } return 0; } #endif /* !USE_PROCFS */ static int curcol; #ifdef __STDC__ #include <stdarg.h> #define VA_START(a, b) va_start(a, b) #else #include <varargs.h> #define VA_START(a, b) va_start(a) #endif void #ifdef __STDC__ tprintf(const char *fmt, ...) #else tprintf(fmt, va_alist) char *fmt; va_dcl #endif { va_list args; VA_START(args, fmt); if (outf) { int n = vfprintf(outf, fmt, args); if (n < 0 && outf != stderr) perror(outfname == NULL ? "<writing to pipe>" : outfname); else curcol += n; } va_end(args); return; } void printleader(tcp) struct tcb *tcp; { if (tcp_last && (!outfname || followfork < 2 || tcp_last == tcp)) { tcp_last->flags |= TCB_REPRINT; tprintf(" <unfinished ...>\n"); } curcol = 0; if ((followfork == 1 || pflag_seen > 1) && outfname) tprintf("%-5d ", tcp->pid); else if (nprocs > 1 && !outfname) tprintf("[pid %5u] ", tcp->pid); if (tflag) { char str[sizeof("HH:MM:SS")]; struct timeval tv, dtv; static struct timeval otv; gettimeofday(&tv, NULL); if (rflag) { if (otv.tv_sec == 0) otv = tv; tv_sub(&dtv, &tv, &otv); tprintf("%6ld.%06ld ", (long) dtv.tv_sec, (long) dtv.tv_usec); otv = tv; } else if (tflag > 2) { tprintf("%ld.%06ld ", (long) tv.tv_sec, (long) tv.tv_usec); } else { time_t local = tv.tv_sec; strftime(str, sizeof(str), "%T", localtime(&local)); if (tflag > 1) tprintf("%s.%06ld ", str, (long) tv.tv_usec); else tprintf("%s ", str); } } if (iflag) printcall(tcp); } void tabto(col) int col; { if (curcol < col) tprintf("%*s", col - curcol, ""); } void printtrailer(tcp) struct tcb *tcp; { tprintf("\n"); tcp_last = NULL; } #ifdef HAVE_MP_PROCFS int mp_ioctl (int fd, int cmd, void *arg, int size) { struct iovec iov[2]; int n = 1; iov[0].iov_base = &cmd; iov[0].iov_len = sizeof cmd; if (arg) { ++n; iov[1].iov_base = arg; iov[1].iov_len = size; } return writev (fd, iov, n); } #endif