/* $OpenBSD: kdump.c,v 1.127 2016/03/30 08:00:01 guenther Exp $ */ /*- * Copyright (c) 1988, 1993 * The Regents of the University of California. 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. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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. */ #include /* MAXCOMLEN nitems */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define PLEDGENAMES #include #undef PLEDGENAMES #define _KERNEL #include #undef _KERNEL #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ktrace.h" #include "kdump.h" #include "kdump_subr.h" #include "extern.h" int timestamp, decimal, iohex, fancy = 1, maxdata = INT_MAX; int needtid, tail, basecol; char *tracefile = DEF_TRACEFILE; struct ktr_header ktr_header; pid_t pid_opt = -1; #define eqs(s1, s2) (strcmp((s1), (s2)) == 0) #include #define KTRACE #define PTRACE #define NFSCLIENT #define NFSSERVER #define SYSVSEM #define SYSVMSG #define SYSVSHM #define ACCOUNTING #include #undef KTRACE #undef PTRACE #undef NFSCLIENT #undef NFSSERVER #undef SYSVSEM #undef SYSVMSG #undef SYSVSHM #undef ACCOUNTING static char *ptrace_ops[] = { "PT_TRACE_ME", "PT_READ_I", "PT_READ_D", "PT_READ_U", "PT_WRITE_I", "PT_WRITE_D", "PT_WRITE_U", "PT_CONTINUE", "PT_KILL", "PT_ATTACH", "PT_DETACH", "PT_IO", "PT_SET_EVENT_MASK", "PT_GET_EVENT_MASK", "PT_GET_PROCESS_STATE", "PT_GET_THREAD_FIRST", "PT_GET_THREAD_NEXT", }; static int fread_tail(void *, size_t, size_t); static void dumpheader(struct ktr_header *); static void ktrgenio(struct ktr_genio *, size_t); static void ktrnamei(const char *, size_t); static void ktrpsig(struct ktr_psig *); static void ktrsyscall(struct ktr_syscall *, size_t); static const char *kresolvsysctl(int, const int *); static void ktrsysret(struct ktr_sysret *, size_t); static void ktruser(struct ktr_user *, size_t); static void ktrexec(const char*, size_t); static void ktrpledge(struct ktr_pledge *, size_t); static void usage(void); static void ioctldecode(int); static void ptracedecode(int); static void atfd(int); static void polltimeout(int); static void wait4pid(int); static void signame(int); static void semctlname(int); static void shmctlname(int); static void semgetname(int); static void flagsandmodename(int); static void clockname(int); static void sockoptlevelname(int); static void ktraceopname(int); static int screenwidth; int main(int argc, char *argv[]) { int ch, silent; size_t ktrlen, size; int trpoints = ALL_POINTS; const char *errstr; void *m; if (screenwidth == 0) { struct winsize ws; if (fancy && ioctl(fileno(stderr), TIOCGWINSZ, &ws) != -1 && ws.ws_col > 8) screenwidth = ws.ws_col; else screenwidth = 80; } while ((ch = getopt(argc, argv, "f:dHlm:np:RTt:xX")) != -1) switch (ch) { case 'f': tracefile = optarg; break; case 'd': decimal = 1; break; case 'H': needtid = 1; break; case 'l': tail = 1; break; case 'm': maxdata = strtonum(optarg, 0, INT_MAX, &errstr); if (errstr) errx(1, "-m %s: %s", optarg, errstr); break; case 'n': fancy = 0; break; case 'p': pid_opt = strtonum(optarg, 1, INT_MAX, &errstr); if (errstr) errx(1, "-p %s: %s", optarg, errstr); break; case 'R': timestamp = 2; /* relative timestamp */ break; case 'T': timestamp = 1; break; case 't': trpoints = getpoints(optarg); if (trpoints < 0) errx(1, "unknown trace point in %s", optarg); break; case 'x': iohex = 1; break; case 'X': iohex = 2; break; default: usage(); } if (argc > optind) usage(); if (pledge("stdio rpath getpw", NULL) == -1) err(1, "pledge"); m = malloc(size = 1025); if (m == NULL) err(1, NULL); if (!freopen(tracefile, "r", stdin)) err(1, "%s", tracefile); if (fread_tail(&ktr_header, sizeof(struct ktr_header), 1) == 0 || ktr_header.ktr_type != htobe32(KTR_START)) errx(1, "%s: not a dump", tracefile); while (fread_tail(&ktr_header, sizeof(struct ktr_header), 1)) { silent = 0; if (pid_opt != -1 && pid_opt != ktr_header.ktr_pid) silent = 1; if (silent == 0 && trpoints & (1< size) { void *newm; if (ktrlen == SIZE_MAX) errx(1, "data too long"); newm = realloc(m, ktrlen+1); if (newm == NULL) err(1, "realloc"); m = newm; size = ktrlen; } if (ktrlen && fread_tail(m, ktrlen, 1) == 0) errx(1, "data too short"); if (silent) continue; if ((trpoints & (1<ktr_type) { case KTR_SYSCALL: type = "CALL"; break; case KTR_SYSRET: type = "RET "; break; case KTR_NAMEI: type = "NAMI"; break; case KTR_GENIO: type = "GIO "; break; case KTR_PSIG: type = "PSIG"; break; case KTR_STRUCT: type = "STRU"; break; case KTR_USER: type = "USER"; break; case KTR_EXECARGS: type = "ARGS"; break; case KTR_EXECENV: type = "ENV "; break; case KTR_PLEDGE: type = "PLDG"; break; default: /* htobe32() not guaranteed to work as case label */ if (kth->ktr_type == htobe32(KTR_START)) { type = "STRT"; break; } (void)snprintf(unknown, sizeof unknown, "UNKNOWN(%u)", kth->ktr_type); type = unknown; } basecol = printf("%6ld", (long)kth->ktr_pid); if (needtid) basecol += printf("/%-7ld", (long)kth->ktr_tid); basecol += printf(" %-8.*s ", MAXCOMLEN, kth->ktr_comm); if (timestamp) { if (timestamp == 2) { timespecsub(&kth->ktr_time, &prevtime, &temp); prevtime = kth->ktr_time; } else temp = kth->ktr_time; basecol += printf("%lld.%06ld ", (long long)temp.tv_sec, temp.tv_nsec / 1000); } basecol += printf("%s ", type); } /* * Base Formatters */ /* some syscalls have padding that shouldn't be shown */ static int pad(long arg) { /* nothing printed */ return (1); } /* a formatter that just saves the argument for the next formatter */ int arg1; static int pass_two(long arg) { arg1 = (int)arg; /* nothing printed */ return (1); } static int pdeclong(long arg) { (void)printf("%ld", arg); return (0); } static int pdeculong(long arg) { (void)printf("%lu", arg); return (0); } static int phexlong(long arg) { (void)printf("%#lx", arg); return (0); } static int pnonfancy(long arg) { if (decimal) (void)printf("%ld", arg); else (void)printf("%#lx", arg); return (0); } static void pdecint(int arg) { (void)printf("%d", arg); } static void pdecuint(int arg) { (void)printf("%u", arg); } static void phexint(int arg) { (void)printf("%#x", arg); } static void poctint(int arg) { (void)printf("%#o", arg); } #ifdef __LP64__ /* on LP64, long long arguments are the same as long arguments */ #define Phexlonglong Phexlong #define phexll NULL /* not actually used on LP64 */ #else /* __LP64__ */ /* on ILP32, long long arguments are passed as two 32bit args */ #define Phexlonglong PASS_LONGLONG, Phexll static int phexll(long arg2) { long long val; #if _BYTE_ORDER == _LITTLE_ENDIAN val = ((long long)arg2 << 32) | ((long long)arg1 & 0xffffffff); #else val = ((long long)arg1 << 32) | ((long long)arg2 & 0xffffffff); #endif if (fancy || !decimal) (void)printf("%#llx", val); else (void)printf("%lld", val); return (0); } #endif /* __LP64__ */ static int (*long_formatters[])(long) = { NULL, pdeclong, pdeculong, phexlong, pass_two, pass_two, phexll, pad, pnonfancy, }; static void (*formatters[])(int) = { NULL, pdecint, phexint, poctint, pdecuint, ioctldecode, ptracedecode, atfd, polltimeout, wait4pid, signame, semctlname, shmctlname, semgetname, flagsandmodename, clockname, sockoptlevelname, ktraceopname, fcntlcmdname, modename, flagsname, openflagsname, atflagsname, accessmodename, mmapprotname, mmapflagsname, wait4optname, sendrecvflagsname, mountflagsname, rebootoptname, flockname, sockoptname, sockipprotoname, socktypename, sockflagsname, sockfamilyname, mlockallname, shmatname, whencename, pathconfname, rlimitname, shutdownhowname, prioname, madvisebehavname, msyncflagsname, clocktypename, rusagewho, sigactionflagname, sigprocmaskhowname, minheritname, quotactlname, sigill_name, sigtrap_name, sigemt_name, sigfpe_name, sigbus_name, sigsegv_name, sigchld_name, ktracefacname, itimername, sigset, uidname, gidname, syslogflagname, }; enum { /* the end of the (known) arguments is recognized by the zero fill */ end_of_args = 0, /* negative are the negative of the index into long_formatters[] */ Pdeclong = -1, Pdeculong = -2, Phexlong = -3, PASS_TWO = -4, /* the remaining long formatters still get called when non-fancy (-n option) */ #define FMT_IS_NONFANCY(x) ((x) <= PASS_LONGLONG) PASS_LONGLONG = -5, Phexll = -6, PAD = -7, Pnonfancy = -8, /* positive values are the index into formatters[] */ Pdecint = 1, Phexint, Poctint, Pdecuint, Ioctldecode, Ptracedecode, Atfd, Polltimeout, Wait4pid, Signame, Semctlname, Shmctlname, Semgetname, Flagsandmodename, Clockname, Sockoptlevelname, Ktraceopname, Fcntlcmdname, Modename, Flagsname, Openflagsname, Atflagsname, Accessmodename, Mmapprotname, Mmapflagsname, Wait4optname, Sendrecvflagsname, Mountflagsname, Rebootoptname, Flockname, Sockoptname, Sockipprotoname, Socktypename, Sockflagsname, Sockfamilyname, Mlockallname, Shmatname, Whencename, Pathconfname, Rlimitname, Shutdownhowname, Prioname, Madvisebehavname, Msyncflagsname, Clocktypename, Rusagewho, Sigactionflagname, Sigprocmaskhowname, Minheritname, Quotactlname, Sigill_name, Sigtrap_name, Sigemt_name, Sigfpe_name, Sigbus_name, Sigsegv_name, Sigchld_name, Ktracefacname, Itimername, Sigset, Uidname, Gidname, Syslogflagname, }; #define Pptr Phexlong #define Psize Pdeculong /* size_t for small buffers */ #define Pbigsize Phexlong /* size_t for I/O buffers */ #define Pcount Pdecint /* int for a count of something */ #define Pfd Pdecint #define Ppath Phexlong #define Pdev_t Pdecint #define Ppid_t Pdecint #define Ppgid Pdecint /* pid or negative pgid */ #define Poff_t Phexlonglong #define Pmsqid Pdecint #define Pshmid Pdecint #define Psemid Pdecint #define Pkey_t Pdecint #define Pucount Pdecuint #define Chflagsname Phexlong /* to be added */ #define Sockprotoname Phexlong /* to be added */ #define Swapctlname Phexlong /* to be added */ #define Msgflgname Phexlong /* to be added */ typedef signed char formatter; static const formatter scargs[][8] = { [SYS_exit] = { Pdecint }, [SYS_read] = { Pfd, Pptr, Pbigsize }, [SYS_write] = { Pfd, Pptr, Pbigsize }, [SYS_open] = { Ppath, PASS_TWO, Flagsandmodename }, [SYS_close] = { Pfd }, [SYS_getentropy] = { Pptr, Psize }, [SYS___tfork] = { Pptr, Psize }, [SYS_link] = { Ppath, Ppath }, [SYS_unlink] = { Ppath }, [SYS_wait4] = { Wait4pid, Pptr, Wait4optname }, [SYS_chdir] = { Ppath }, [SYS_fchdir] = { Pfd }, [SYS_mknod] = { Ppath, Modename, Pdev_t }, [SYS_chmod] = { Ppath, Modename }, [SYS_chown] = { Ppath, Uidname, Gidname }, [SYS_break] = { Pptr }, [SYS_getrusage] = { Rusagewho, Pptr }, [SYS_mount] = { Pptr, Ppath, Mountflagsname, Pptr }, [SYS_unmount] = { Ppath, Mountflagsname }, [SYS_setuid] = { Uidname }, [SYS_ptrace] = { Ptracedecode, Ppid_t, Pptr, Pdecint }, [SYS_recvmsg] = { Pfd, Pptr, Sendrecvflagsname }, [SYS_sendmsg] = { Pfd, Pptr, Sendrecvflagsname }, [SYS_recvfrom] = { Pfd, Pptr, Pbigsize, Sendrecvflagsname }, [SYS_accept] = { Pfd, Pptr, Pptr }, [SYS_getpeername] = { Pfd, Pptr, Pptr }, [SYS_getsockname] = { Pfd, Pptr, Pptr }, [SYS_access] = { Ppath, Accessmodename }, [SYS_chflags] = { Ppath, Chflagsname }, [SYS_fchflags] = { Pfd, Chflagsname }, [SYS_kill] = { Ppgid, Signame }, [SYS_stat] = { Ppath, Pptr }, [SYS_lstat] = { Ppath, Pptr }, [SYS_dup] = { Pfd }, [SYS_fstatat] = { Atfd, Ppath, Pptr, Atflagsname }, [SYS_profil] = { Pptr, Pbigsize, Pbigsize, Pdecuint }, [SYS_ktrace] = { Ppath, Ktraceopname, Ktracefacname, Ppgid }, [SYS_sigaction] = { Signame, Pptr, Pptr }, [SYS_sigprocmask] = { Sigprocmaskhowname, Sigset }, [SYS_getlogin_r] = { Pptr, Psize }, [SYS_setlogin] = { Pptr }, [SYS_acct] = { Ppath }, [SYS_fstat] = { Pfd, Pptr }, [SYS_ioctl] = { Pfd, Ioctldecode, Pptr }, [SYS_reboot] = { Rebootoptname }, [SYS_revoke] = { Ppath }, [SYS_symlink] = { Ppath, Ppath }, [SYS_readlink] = { Ppath, Pptr, Psize }, [SYS_execve] = { Ppath, Pptr, Pptr }, [SYS_umask] = { Modename }, [SYS_chroot] = { Ppath }, [SYS_getfsstat] = { Pptr, Pbigsize, Mountflagsname }, [SYS_statfs] = { Ppath, Pptr }, [SYS_fstatfs] = { Pfd, Pptr }, [SYS_fhstatfs] = { Pptr, Pptr }, [SYS_gettimeofday] = { Pptr, Pptr }, [SYS_settimeofday] = { Pptr, Pptr }, [SYS_setitimer] = { Itimername, Pptr, Pptr }, [SYS_getitimer] = { Itimername, Pptr }, [SYS_select] = { Pcount, Pptr, Pptr, Pptr, Pptr }, [SYS_kevent] = { Pfd, Pptr, Pcount, Pptr, Pcount, Pptr }, [SYS_munmap] = { Pptr, Pbigsize }, [SYS_mprotect] = { Pptr, Pbigsize, Mmapprotname }, [SYS_madvise] = { Pptr, Pbigsize, Madvisebehavname }, [SYS_utimes] = { Ppath, Pptr }, [SYS_futimes] = { Pfd, Pptr }, [SYS_kbind] = { Pptr, Psize, Phexlonglong }, [SYS_mincore] = { Pptr, Pbigsize, Pptr }, [SYS_getgroups] = { Pcount, Pptr }, [SYS_setgroups] = { Pcount, Pptr }, [SYS_setpgid] = { Ppid_t, Ppid_t }, [SYS_sendsyslog] = { Pptr, Psize, Syslogflagname }, [SYS_utimensat] = { Atfd, Ppath, Pptr, Atflagsname }, [SYS_futimens] = { Pfd, Pptr }, [SYS_clock_gettime] = { Clockname, Pptr }, [SYS_clock_settime] = { Clockname, Pptr }, [SYS_clock_getres] = { Clockname, Pptr }, [SYS_dup2] = { Pfd, Pfd }, [SYS_nanosleep] = { Pptr, Pptr }, [SYS_fcntl] = { Pfd, PASS_TWO, Fcntlcmdname }, [SYS_accept4] = { Pfd, Pptr, Pptr, Sockflagsname }, [SYS___thrsleep] = { Pptr, Clockname, Pptr, Pptr, Pptr }, [SYS_fsync] = { Pfd }, [SYS_setpriority] = { Prioname, Ppid_t, Pdecint }, [SYS_socket] = { Sockfamilyname, Socktypename, Sockprotoname }, [SYS_connect] = { Pfd, Pptr, Pucount }, [SYS_getdents] = { Pfd, Pptr, Pbigsize }, [SYS_getpriority] = { Prioname, Ppid_t }, [SYS_pipe2] = { Pptr, Flagsname }, [SYS_dup3] = { Pfd, Pfd, Flagsname }, [SYS_sigreturn] = { Pptr }, [SYS_bind] = { Pfd, Pptr, Pucount }, [SYS_setsockopt] = { Pfd, PASS_TWO, Sockoptlevelname, Pptr, Pdecint }, [SYS_listen] = { Pfd, Pdecint }, [SYS_chflagsat] = { Atfd, Ppath, Chflagsname, Atflagsname }, [SYS_ppoll] = { Pptr, Pucount, Pptr, Pptr }, [SYS_pselect] = { Pcount, Pptr, Pptr, Pptr, Pptr, Pptr }, [SYS_sigsuspend] = { Sigset }, [SYS_getsockopt] = { Pfd, PASS_TWO, Sockoptlevelname, Pptr, Pptr }, [SYS_thrkill] = { Ppid_t, Signame, Pptr }, [SYS_readv] = { Pfd, Pptr, Pcount }, [SYS_writev] = { Pfd, Pptr, Pcount }, [SYS_fchown] = { Pfd, Uidname, Gidname }, [SYS_fchmod] = { Pfd, Modename }, [SYS_setreuid] = { Uidname, Uidname }, [SYS_setregid] = { Gidname, Gidname }, [SYS_rename] = { Ppath, Ppath }, [SYS_flock] = { Pfd, Flockname }, [SYS_mkfifo] = { Ppath, Modename }, [SYS_sendto] = { Pfd, Pptr, Pbigsize, Sendrecvflagsname }, [SYS_shutdown] = { Pfd, Shutdownhowname }, [SYS_socketpair] = { Sockfamilyname, Socktypename, Sockprotoname, Pptr }, [SYS_mkdir] = { Ppath, Modename }, [SYS_rmdir] = { Ppath }, [SYS_adjtime] = { Pptr, Pptr }, [SYS_quotactl] = { Ppath, Quotactlname, Uidname, Pptr }, [SYS_nfssvc] = { Phexint, Pptr }, [SYS_getfh] = { Ppath, Pptr }, [SYS_sysarch] = { Pdecint, Pptr }, [SYS_pread] = { Pfd, Pptr, Pbigsize, PAD, Poff_t }, [SYS_pwrite] = { Pfd, Pptr, Pbigsize, PAD, Poff_t }, [SYS_setgid] = { Gidname }, [SYS_setegid] = { Gidname }, [SYS_seteuid] = { Uidname }, [SYS_pathconf] = { Ppath, Pathconfname }, [SYS_fpathconf] = { Pfd, Pathconfname }, [SYS_swapctl] = { Swapctlname, Pptr, Pdecint }, [SYS_getrlimit] = { Rlimitname, Pptr }, [SYS_setrlimit] = { Rlimitname, Pptr }, [SYS_mmap] = { Pptr, Pbigsize, Mmapprotname, Mmapflagsname, Pfd, PAD, Poff_t }, [SYS_lseek] = { Pfd, PAD, Poff_t, Whencename }, [SYS_truncate] = { Ppath, PAD, Poff_t }, [SYS_ftruncate] = { Pfd, PAD, Poff_t }, [SYS_sysctl] = { Pptr, Pcount, Pptr, Pptr, Pptr, Psize }, [SYS_mlock] = { Pptr, Pbigsize }, [SYS_munlock] = { Pptr, Pbigsize }, [SYS_getpgid] = { Ppid_t }, [SYS_utrace] = { Pptr, Pptr, Psize }, [SYS_semget] = { Pkey_t, Pcount, Semgetname }, [SYS_msgget] = { Pkey_t, Msgflgname }, [SYS_msgsnd] = { Pmsqid, Pptr, Psize, Msgflgname }, [SYS_msgrcv] = { Pmsqid, Pptr, Psize, Pdeclong, Msgflgname }, [SYS_shmat] = { Pshmid, Pptr, Shmatname }, [SYS_shmdt] = { Pptr }, [SYS_minherit] = { Pptr, Pbigsize, Minheritname }, [SYS_poll] = { Pptr, Pucount, Polltimeout }, [SYS_lchown] = { Ppath, Uidname, Gidname }, [SYS_getsid] = { Ppid_t }, [SYS_msync] = { Pptr, Pbigsize, Msyncflagsname }, [SYS_pipe] = { Pptr }, [SYS_fhopen] = { Pptr, Openflagsname }, [SYS_preadv] = { Pfd, Pptr, Pcount, PAD, Poff_t }, [SYS_pwritev] = { Pfd, Pptr, Pcount, PAD, Poff_t }, [SYS_mlockall] = { Mlockallname }, [SYS_getresuid] = { Pptr, Pptr, Pptr }, [SYS_setresuid] = { Uidname, Uidname, Uidname }, [SYS_getresgid] = { Pptr, Pptr, Pptr }, [SYS_setresgid] = { Gidname, Gidname, Gidname }, [SYS_mquery] = { Pptr, Pbigsize, Mmapprotname, Mmapflagsname, Pfd, PAD, Poff_t }, [SYS_closefrom] = { Pfd }, [SYS_sigaltstack] = { Pptr, Pptr }, [SYS_shmget] = { Pkey_t, Pbigsize, Semgetname }, [SYS_semop] = { Psemid, Pptr, Psize }, [SYS_fhstat] = { Pptr, Pptr }, [SYS___semctl] = { Psemid, Pcount, Semctlname, Pptr }, [SYS_shmctl] = { Pshmid, Shmctlname, Pptr }, [SYS_msgctl] = { Pmsqid, Shmctlname, Pptr }, [SYS___thrwakeup] = { Pptr, Pcount }, [SYS___threxit] = { Pptr }, [SYS___thrsigdivert] = { Sigset, Pptr, Pptr }, [SYS___getcwd] = { Pptr, Psize }, [SYS_adjfreq] = { Pptr, Pptr }, [SYS_setrtable] = { Pdecint }, [SYS_faccessat] = { Atfd, Ppath, Accessmodename, Atflagsname }, [SYS_fchmodat] = { Atfd, Ppath, Modename, Atflagsname }, [SYS_fchownat] = { Atfd, Ppath, Uidname, Gidname, Atflagsname }, [SYS_linkat] = { Atfd, Ppath, Atfd, Ppath, Atflagsname }, [SYS_mkdirat] = { Atfd, Ppath, Modename }, [SYS_mkfifoat] = { Atfd, Ppath, Modename }, [SYS_mknodat] = { Atfd, Ppath, Modename, Pdev_t }, [SYS_openat] = { Atfd, Ppath, PASS_TWO, Flagsandmodename }, [SYS_readlinkat] = { Atfd, Ppath, Pptr, Psize }, [SYS_renameat] = { Atfd, Ppath, Atfd, Ppath }, [SYS_symlinkat] = { Ppath, Atfd, Ppath }, [SYS_unlinkat] = { Atfd, Ppath, Atflagsname }, [SYS___set_tcb] = { Pptr }, }; static void ktrsyscall(struct ktr_syscall *ktr, size_t ktrlen) { register_t *ap; int narg; char sep; if (ktr->ktr_argsize > ktrlen) errx(1, "syscall argument length %d > ktr header length %zu", ktr->ktr_argsize, ktrlen); narg = ktr->ktr_argsize / sizeof(register_t); sep = '\0'; if (ktr->ktr_code >= SYS_MAXSYSCALL || ktr->ktr_code < 0) (void)printf("[%d]", ktr->ktr_code); else (void)printf("%s", syscallnames[ktr->ktr_code]); ap = (register_t *)((char *)ktr + sizeof(struct ktr_syscall)); (void)putchar('('); if (ktr->ktr_code == SYS_sysctl && fancy) { const char *s; int n, i, *top; n = ap[1]; if (n > CTL_MAXNAME) n = CTL_MAXNAME; if (n < 0) errx(1, "invalid sysctl length %d", n); if (n > 0) { top = (int *)(ap + 6); printf("%d", top[0]); for (i = 1; i < n; i++) printf(".%d", top[i]); if ((s = kresolvsysctl(0, top)) != NULL) { printf("<%s", s); for (i = 1; i < n; i++) { if ((s = kresolvsysctl(i, top)) != NULL) printf(".%s", s); else printf(".%d", top[i]); } putchar('>'); } } sep = ','; ap += 2; narg -= 2; } else if (ktr->ktr_code < nitems(scargs)) { const formatter *fmts = scargs[ktr->ktr_code]; int fmt; while (narg && (fmt = *fmts) != 0) { if (sep) putchar(sep); sep = ','; if (!fancy && !FMT_IS_NONFANCY(fmt)) fmt = Pnonfancy; if (fmt > 0) formatters[fmt]((int)*ap); else if (long_formatters[-fmt](*ap)) sep = '\0'; fmts++; ap++; narg--; } } while (narg > 0) { if (sep) putchar(sep); if (decimal) (void)printf("%ld", (long)*ap); else (void)printf("%#lx", (long)*ap); sep = ','; ap++; narg--; } (void)printf(")\n"); } static struct ctlname topname[] = CTL_NAMES; static struct ctlname kernname[] = CTL_KERN_NAMES; static struct ctlname vmname[] = CTL_VM_NAMES; static struct ctlname fsname[] = CTL_FS_NAMES; static struct ctlname netname[] = CTL_NET_NAMES; static struct ctlname hwname[] = CTL_HW_NAMES; static struct ctlname debugname[CTL_DEBUG_MAXID]; static struct ctlname kernmallocname[] = CTL_KERN_MALLOC_NAMES; static struct ctlname forkstatname[] = CTL_KERN_FORKSTAT_NAMES; static struct ctlname nchstatsname[] = CTL_KERN_NCHSTATS_NAMES; static struct ctlname kernprocname[] = { { NULL }, { "all" }, { "pid" }, { "pgrp" }, { "session" }, { "tty" }, { "uid" }, { "ruid" }, { "kthread" }, }; static struct ctlname ttysname[] = CTL_KERN_TTY_NAMES; static struct ctlname semname[] = CTL_KERN_SEMINFO_NAMES; static struct ctlname shmname[] = CTL_KERN_SHMINFO_NAMES; static struct ctlname watchdogname[] = CTL_KERN_WATCHDOG_NAMES; static struct ctlname tcname[] = CTL_KERN_TIMECOUNTER_NAMES; #ifdef CTL_MACHDEP_NAMES static struct ctlname machdepname[] = CTL_MACHDEP_NAMES; #endif static struct ctlname ddbname[] = CTL_DDB_NAMES; #ifndef nitems #define nitems(_a) (sizeof((_a)) / sizeof((_a)[0])) #endif #define SETNAME(name) do { names = (name); limit = nitems(name); } while (0) static const char * kresolvsysctl(int depth, const int *top) { struct ctlname *names; size_t limit; int idx = top[depth]; names = NULL; switch (depth) { case 0: SETNAME(topname); break; case 1: switch (top[0]) { case CTL_KERN: SETNAME(kernname); break; case CTL_VM: SETNAME(vmname); break; case CTL_FS: SETNAME(fsname); break; case CTL_NET: SETNAME(netname); break; case CTL_DEBUG: SETNAME(debugname); break; case CTL_HW: SETNAME(hwname); break; #ifdef CTL_MACHDEP_NAMES case CTL_MACHDEP: SETNAME(machdepname); break; #endif case CTL_DDB: SETNAME(ddbname); break; } break; case 2: switch (top[0]) { case CTL_KERN: switch (top[1]) { case KERN_MALLOCSTATS: SETNAME(kernmallocname); break; case KERN_FORKSTAT: SETNAME(forkstatname); break; case KERN_NCHSTATS: SETNAME(nchstatsname); break; case KERN_TTY: SETNAME(ttysname); break; case KERN_SEMINFO: SETNAME(semname); break; case KERN_SHMINFO: SETNAME(shmname); break; case KERN_WATCHDOG: SETNAME(watchdogname); break; case KERN_PROC: idx++; /* zero is valid at this level */ SETNAME(kernprocname); break; case KERN_TIMECOUNTER: SETNAME(tcname); break; } } break; } if (names != NULL && idx > 0 && idx < limit) return (names[idx].ctl_name); return (NULL); } static void ktrsysret(struct ktr_sysret *ktr, size_t ktrlen) { register_t ret = 0; long long retll; int error = ktr->ktr_error; int code = ktr->ktr_code; if (ktrlen < sizeof(*ktr)) errx(1, "sysret length %zu < ktr header length %zu", ktrlen, sizeof(*ktr)); ktrlen -= sizeof(*ktr); if (error == 0) { if (ktrlen == sizeof(ret)) { memcpy(&ret, ktr+1, sizeof(ret)); retll = ret; } else if (ktrlen == sizeof(retll)) memcpy(&retll, ktr+1, sizeof(retll)); else errx(1, "sysret bogus length %zu", ktrlen); } if (code >= SYS_MAXSYSCALL || code < 0) (void)printf("[%d] ", code); else (void)printf("%s ", syscallnames[code]); doerr: if (error == 0) { if (fancy) { switch (code) { case SYS_lseek: (void)printf("%lld", retll); if (retll < 0 || retll > 9) (void)printf("/%#llx", retll); break; case SYS_sigprocmask: case SYS_sigpending: sigset(ret); break; case SYS___thrsigdivert: signame(ret); break; case SYS_getuid: case SYS_geteuid: uidname(ret); break; case SYS_getgid: case SYS_getegid: gidname(ret); break; /* syscalls that return errno values */ case SYS_getlogin_r: case SYS___thrsleep: if ((error = ret) != 0) goto doerr; /* FALLTHROUGH */ default: (void)printf("%ld", (long)ret); if (ret < 0 || ret > 9) (void)printf("/%#lx", (long)ret); } } else { if (decimal) (void)printf("%lld", retll); else (void)printf("%#llx", retll); } } else if (error == ERESTART) (void)printf("RESTART"); else if (error == EJUSTRETURN) (void)printf("JUSTRETURN"); else { (void)printf("-1 errno %d", error); if (fancy) (void)printf(" %s", strerror(error)); } (void)putchar('\n'); } static void ktrnamei(const char *cp, size_t len) { showbufc(basecol, (unsigned char *)cp, len, VIS_DQ | VIS_TAB | VIS_NL); } void showbufc(int col, unsigned char *dp, size_t datalen, int flags) { int width; unsigned char visbuf[5], *cp; flags |= VIS_CSTYLE; putchar('"'); col++; for (; datalen > 0; datalen--, dp++) { (void)vis(visbuf, *dp, flags, *(dp+1)); cp = visbuf; /* * Keep track of printables and * space chars (like fold(1)). */ if (col == 0) { (void)putchar('\t'); col = 8; } switch (*cp) { case '\n': col = 0; (void)putchar('\n'); continue; case '\t': width = 8 - (col&07); break; default: width = strlen(cp); } if (col + width > (screenwidth-2)) { (void)printf("\\\n\t"); col = 8; } col += width; do { (void)putchar(*cp++); } while (*cp); } if (col == 0) (void)printf(" "); (void)printf("\"\n"); } static void showbuf(unsigned char *dp, size_t datalen) { int i, j; int col = 0, bpl; unsigned char c; if (iohex == 1) { putchar('\t'); col = 8; for (i = 0; i < datalen; i++) { printf("%02x", dp[i]); col += 3; if (i < datalen - 1) { if (col + 3 > screenwidth) { printf("\n\t"); col = 8; } else putchar(' '); } } putchar('\n'); return; } if (iohex == 2) { bpl = (screenwidth - 13)/4; if (bpl <= 0) bpl = 1; for (i = 0; i < datalen; i += bpl) { printf(" %04x: ", i); for (j = 0; j < bpl; j++) { if (i+j >= datalen) printf(" "); else printf("%02x ", dp[i+j]); } putchar(' '); for (j = 0; j < bpl; j++) { if (i+j >= datalen) break; c = dp[i+j]; if (!isprint(c)) c = '.'; putchar(c); } putchar('\n'); } return; } (void)printf(" "); showbufc(7, dp, datalen, 0); } static void ktrgenio(struct ktr_genio *ktr, size_t len) { unsigned char *dp = (unsigned char *)ktr + sizeof(struct ktr_genio); size_t datalen; if (len < sizeof(struct ktr_genio)) errx(1, "invalid ktr genio length %zu", len); datalen = len - sizeof(struct ktr_genio); printf("fd %d %s %zu bytes\n", ktr->ktr_fd, ktr->ktr_rw == UIO_READ ? "read" : "wrote", datalen); if (maxdata == 0) return; if (datalen > maxdata) datalen = maxdata; if (iohex && !datalen) return; showbuf(dp, datalen); } static void ktrpsig(struct ktr_psig *psig) { signame(psig->signo); printf(" "); if (psig->action == SIG_DFL) (void)printf("SIG_DFL"); else { (void)printf("caught handler=0x%lx mask=", (u_long)psig->action); sigset(psig->mask); } if (psig->code) { printf(" code "); if (fancy) { switch (psig->signo) { case SIGILL: sigill_name(psig->code); break; case SIGTRAP: sigtrap_name(psig->code); break; case SIGEMT: sigemt_name(psig->code); break; case SIGFPE: sigfpe_name(psig->code); break; case SIGBUS: sigbus_name(psig->code); break; case SIGSEGV: sigsegv_name(psig->code); break; case SIGCHLD: sigchld_name(psig->code); break; } } printf("<%d>", psig->code); } switch (psig->signo) { case SIGSEGV: case SIGILL: case SIGBUS: case SIGFPE: printf(" addr=%p trapno=%d", psig->si.si_addr, psig->si.si_trapno); break; default: break; } printf("\n"); } static void ktruser(struct ktr_user *usr, size_t len) { if (len < sizeof(struct ktr_user)) errx(1, "invalid ktr user length %zu", len); len -= sizeof(struct ktr_user); printf("%.*s:", KTR_USER_MAXIDLEN, usr->ktr_id); printf(" %zu bytes\n", len); showbuf((unsigned char *)(usr + 1), len); } static void ktrexec(const char *ptr, size_t len) { int i, col; size_t l; putchar('\n'); i = 0; while (len > 0) { l = strnlen(ptr, len); col = printf("\t[%d] = ", i++); col += 7; /* tab expands from 1 to 8 columns */ showbufc(col, (unsigned char *)ptr, l, VIS_DQ|VIS_TAB|VIS_NL); if (l == len) { printf("\tunterminated argument\n"); break; } len -= l + 1; ptr += l + 1; } } static void ktrpledge(struct ktr_pledge *pledge, size_t len) { char *name = ""; int i; if (len < sizeof(struct ktr_pledge)) errx(1, "invalid ktr pledge length %zu", len); if (pledge->syscall >= SYS_MAXSYSCALL || pledge->syscall < 0) (void)printf("[%d]", pledge->syscall); else (void)printf("%s", syscallnames[pledge->syscall]); printf(", "); for (i = 0; pledge->code && pledgenames[i].bits != 0; i++) { if (pledgenames[i].bits & pledge->code) { name = pledgenames[i].name; break; } } printf("\"%s\"", name); (void)printf(", errno %d", pledge->error); if (fancy) (void)printf(" %s", strerror(pledge->error)); printf("\n"); } static void usage(void) { extern char *__progname; fprintf(stderr, "usage: %s " "[-dHlnRTXx] [-f file] [-m maxdata] [-p pid]\n" "%*s[-t [cinstuxX+]]\n", __progname, (int)(sizeof("usage: ") + strlen(__progname)), ""); exit(1); } /* * FORMATTERS */ static void ioctldecode(int cmd) { char dirbuf[4], *dir = dirbuf; const char *cp; if ((cp = ioctlname((unsigned)cmd)) != NULL) { (void)printf("%s", cp); return; } if (cmd & IOC_IN) *dir++ = 'W'; if (cmd & IOC_OUT) *dir++ = 'R'; *dir = '\0'; printf("_IO%s('%c',%d", dirbuf, (int)((cmd >> 8) & 0xff), cmd & 0xff); if ((cmd & IOC_VOID) == 0) printf(decimal ? ",%u)" : ",%#x)", (cmd >> 16) & 0xff); else printf(")"); } static void ptracedecode(int request) { if (request >= 0 && request < nitems(ptrace_ops)) (void)printf("%s", ptrace_ops[request]); else switch(request) { #ifdef PT_GETFPREGS case PT_GETFPREGS: (void)printf("PT_GETFPREGS"); break; #endif case PT_GETREGS: (void)printf("PT_GETREGS"); break; #ifdef PT_GETXMMREGS case PT_GETXMMREGS: (void)printf("PT_GETXMMREGS"); break; #endif #ifdef PT_SETFPREGS case PT_SETFPREGS: (void)printf("PT_SETFPREGS"); break; #endif case PT_SETREGS: (void)printf("PT_SETREGS"); break; #ifdef PT_SETXMMREGS case PT_SETXMMREGS: (void)printf("PT_SETXMMREGS"); break; #endif #ifdef PT_STEP case PT_STEP: (void)printf("PT_STEP"); break; #endif #ifdef PT_WCOOKIE case PT_WCOOKIE: (void)printf("PT_WCOOKIE"); break; #endif default: pdecint(request); } } static void atfd(int fd) { if (fd == AT_FDCWD) (void)printf("AT_FDCWD"); else pdecint(fd); } static void polltimeout(int timeout) { if (timeout == INFTIM) (void)printf("INFTIM"); else pdecint(timeout); } static void wait4pid(int pid) { if (pid == WAIT_ANY) (void)printf("WAIT_ANY"); else if (pid == WAIT_MYPGRP) (void)printf("WAIT_MYPGRP"); else pdecint(pid); /* ppgid */ } static void signame(int sig) { if (sig > 0 && sig < NSIG) (void)printf("SIG%s", sys_signame[sig]); else (void)printf("SIG %d", sig); } void sigset(int ss) { int or = 0; int cnt = 0; int i; for (i = 1; i < NSIG; i++) if (sigismember(&ss, i)) cnt++; if (cnt > (NSIG-1)/2) { ss = ~ss; putchar('~'); } if (ss == 0) { (void)printf("0<>"); return; } printf("%#x<", ss); for (i = 1; i < NSIG; i++) if (sigismember(&ss, i)) { if (or) putchar('|'); else or=1; signame(i); } printf(">"); } static void semctlname(int cmd) { switch (cmd) { case GETNCNT: (void)printf("GETNCNT"); break; case GETPID: (void)printf("GETPID"); break; case GETVAL: (void)printf("GETVAL"); break; case GETALL: (void)printf("GETALL"); break; case GETZCNT: (void)printf("GETZCNT"); break; case SETVAL: (void)printf("SETVAL"); break; case SETALL: (void)printf("SETALL"); break; case IPC_RMID: (void)printf("IPC_RMID"); break; case IPC_SET: (void)printf("IPC_SET"); break; case IPC_STAT: (void)printf("IPC_STAT"); break; default: /* Should not reach */ (void)printf("", cmd); } } static void shmctlname(int cmd) { switch (cmd) { case IPC_RMID: (void)printf("IPC_RMID"); break; case IPC_SET: (void)printf("IPC_SET"); break; case IPC_STAT: (void)printf("IPC_STAT"); break; default: /* Should not reach */ (void)printf("", cmd); } } static void semgetname(int flag) { int or = 0; if_print_or(flag, IPC_CREAT, or); if_print_or(flag, IPC_EXCL, or); if_print_or(flag, SEM_R, or); if_print_or(flag, SEM_A, or); if_print_or(flag, (SEM_R>>3), or); if_print_or(flag, (SEM_A>>3), or); if_print_or(flag, (SEM_R>>6), or); if_print_or(flag, (SEM_A>>6), or); if (flag & ~(IPC_CREAT|IPC_EXCL|SEM_R|SEM_A|((SEM_R|SEM_A)>>3)| ((SEM_R|SEM_A)>>6))) printf("", flag); } /* * Only used by SYS_open and SYS_openat. Unless O_CREAT is set in flags, the * mode argument is unused (and often bogus and misleading). */ static void flagsandmodename(int mode) { openflagsname(arg1); if ((arg1 & O_CREAT) == O_CREAT) { (void)putchar(','); modename(mode); } else if (!fancy) (void)printf(",%#o", mode); } static void clockname(int clockid) { clocktypename(__CLOCK_TYPE(clockid)); if (__CLOCK_PTID(clockid) != 0) printf("(%d)", __CLOCK_PTID(clockid)); } /* * [g|s]etsockopt's level argument can either be SOL_SOCKET or a value * referring to a line in /etc/protocols. */ static void sockoptlevelname(int optname) { struct protoent *pe; if (arg1 == SOL_SOCKET) { (void)printf("SOL_SOCKET,"); sockoptname(optname); } else { pe = getprotobynumber(arg1); (void)printf("%u<%s>,%d", arg1, pe != NULL ? pe->p_name : "unknown", optname); } } static void ktraceopname(int ops) { int invalid = 0; printf("%#x<", ops); switch (KTROP(ops)) { case KTROP_SET: printf("KTROP_SET"); break; case KTROP_CLEAR: printf("KTROP_CLEAR"); break; case KTROP_CLEARFILE: printf("KTROP_CLEARFILE"); break; default: printf("KTROP(%d)", KTROP(ops)); invalid = 1; break; } if (ops & KTRFLAG_DESCEND) printf("|KTRFLAG_DESCEND"); printf(">"); if (invalid || (ops & ~(KTROP((unsigned)-1) | KTRFLAG_DESCEND))) (void)printf("%d", ops); }