/* * Copryight 1997 Sean Eric Fagan * * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Sean Eric Fagan * 4. Neither the name of the author may be used to endorse or promote * products derived from this software without specific prior written * permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 AUTHOR 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. */ #ifndef lint static const char rcsid[] = "$FreeBSD$"; #endif /* not lint */ /* * This file has routines used to print out system calls and their * arguments. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "truss.h" #include "extern.h" #include "syscall.h" /* * This should probably be in its own file. */ struct syscall syscalls[] = { { "fcntl", 1, 3, { { Int, 0 } , { Fcntl, 1 }, { Hex, 2 }}}, { "readlink", 1, 3, { { String, 0 } , { Readlinkres | OUT, 1 }, { Int, 2 }}}, { "lseek", 2, 3, #ifdef __LP64__ { { Int, 0 }, {Quad, 2 }, { Whence, 3 }}}, #else { { Int, 0 }, {Quad, 2 }, { Whence, 4 }}}, #endif { "linux_lseek", 2, 3, { { Int, 0 }, {Int, 1 }, { Whence, 2 }}}, { "mmap", 2, 6, #ifdef __LP64__ { { Ptr, 0 }, {Int, 1}, {Mprot, 2}, {Mmapflags, 3}, {Int, 4}, {Quad, 5}}}, #else { { Ptr, 0 }, {Int, 1}, {Mprot, 2}, {Mmapflags, 3}, {Int, 4}, {Quad, 6}}}, #endif { "mprotect", 1, 3, { { Ptr, 0 }, {Int, 1}, {Mprot, 2}}}, { "open", 1, 3, { { String | IN, 0} , { Hex, 1}, {Octal, 2}}}, { "linux_open", 1, 3, { { String, 0 }, { Hex, 1}, { Octal, 2 }}}, { "close", 1, 1, { { Int, 0 } } }, { "link", 0, 2, { { String, 0 }, { String, 1 }}}, { "unlink", 0, 1, { { String, 0 }}}, { "chdir", 0, 1, { { String, 0 }}}, { "mknod", 0, 3, { { String, 0 }, { Octal, 1 }, { Int, 3 }}}, { "chmod", 0, 2, { { String, 0 }, { Octal, 1 }}}, { "chown", 0, 3, { { String, 0 }, { Int, 1 }, { Int, 2 }}}, { "mount", 0, 4, { { String, 0 }, { String, 1 }, { Int, 2 }, { Ptr, 3 }}}, { "umount", 0, 2, { { String, 0 }, { Int, 2 }}}, { "fstat", 1, 2, { { Int, 0}, {Ptr | OUT , 1 }}}, { "stat", 1, 2, { { String | IN, 0 }, { Ptr | OUT, 1 }}}, { "lstat", 1, 2, { { String | IN, 0 }, { Ptr | OUT, 1 }}}, { "linux_newstat", 1, 2, { { String | IN, 0 }, { Ptr | OUT, 1 }}}, { "linux_newfstat", 1, 2, { { Int, 0 }, { Ptr | OUT, 1 }}}, { "write", 1, 3, { { Int, 0 }, { Ptr | IN, 1 }, { Int, 2 }}}, { "ioctl", 1, 3, { { Int, 0 }, { Ioctl, 1 }, { Hex, 2 }}}, { "break", 1, 1, { { Hex, 0 }}}, { "exit", 0, 1, { { Hex, 0 }}}, { "access", 1, 2, { { String | IN, 0 }, { Int, 1 }}}, { "sigaction", 1, 3, { { Signal, 0 }, { Sigaction | IN, 1 }, { Sigaction | OUT, 2 }}}, { "accept", 1, 3, { { Hex, 0 }, { Sockaddr | OUT, 1 }, { Ptr | OUT, 2 } } }, { "bind", 1, 3, { { Hex, 0 }, { Sockaddr | IN, 1 }, { Int, 2 } } }, { "connect", 1, 3, { { Hex, 0 }, { Sockaddr | IN, 1 }, { Int, 2 } } }, { "getpeername", 1, 3, { { Hex, 0 }, { Sockaddr | OUT, 1 }, { Ptr | OUT, 2 } } }, { "getsockname", 1, 3, { { Hex, 0 }, { Sockaddr | OUT, 1 }, { Ptr | OUT, 2 } } }, { "recvfrom", 1, 6, { { Hex, 0 }, { Ptr | IN, 1 }, { Int, 3 }, { Hex, 3 }, { Sockaddr | OUT, 4 }, { Ptr | OUT, 5 } } }, { "sendto", 1, 6, { { Hex, 0 }, { Ptr | IN, 1 }, { Int, 3 }, { Hex, 3 }, { Sockaddr | IN, 4 }, { Ptr | IN, 5 } } }, { "execve", 1, 3, { { String | IN, 0 }, { StringArray | IN, 1 }, { StringArray | IN, 2 } } }, { "linux_execve", 1, 3, { { String | IN, 0 }, { StringArray | IN, 1 }, { StringArray | IN, 2 } } }, { "kldload", 0, 1, { { String | IN, 0 }}}, { "kldunload", 0, 1, { { Int, 0 }}}, { "kldfind", 0, 1, { { String | IN, 0 }}}, { "kldnext", 0, 1, { { Int, 0 }}}, { "kldstat", 0, 2, { { Int, 0 }, { Ptr, 1 }}}, { "kldfirstmod", 0, 1, { { Int, 0 }}}, { "nanosleep", 0, 1, { { Timespec, 0 }}}, { "select", 1, 5, { { Int, 0 }, { Fd_set, 1 }, { Fd_set, 2 }, { Fd_set, 3 }, { Timeval, 4 }}}, { "poll", 1, 3, { { Pollfd, 0 }, { Int, 1 }, { Int, 2 }}}, { "gettimeofday", 1, 2, { { Timeval | OUT, 0 }, { Ptr, 1 }}}, { "clock_gettime", 1, 2, { { Int, 0 }, { Timeval | OUT, 1 }}}, { "recvfrom", 1, 6, { { Int, 0 }, { Ptr | OUT, 1 }, { Int, 2 }, { Int, 3 }, { Sockaddr | OUT, 4}, {Ptr | OUT, 5}}}, { "getitimer", 1, 2, { { Int, 0 }, { Itimerval | OUT, 2 }}}, { "setitimer", 1, 3, { { Int, 0 }, { Itimerval, 1} , { Itimerval | OUT, 2 }}}, { 0, 0, 0, { { 0, 0 }}}, }; /* * If/when the list gets big, it might be desirable to do it * as a hash table or binary search. */ struct syscall * get_syscall(const char *name) { struct syscall *sc = syscalls; if (name == NULL) return (NULL); while (sc->name) { if (!strcmp(name, sc->name)) return sc; sc++; } return NULL; } /* * get_struct * * Copy a fixed amount of bytes from the process. */ static int get_struct(int procfd, void *offset, void *buf, int len) { if (pread(procfd, buf, len, (uintptr_t)offset) != len) return -1; return 0; } /* * get_string * Copy a string from the process. Note that it is * expected to be a C string, but if max is set, it will * only get that much. */ char * get_string(int procfd, void *offset, int max) { char *buf; int size, len, c, fd; FILE *p; if ((fd = dup(procfd)) == -1) err(1, "dup"); if ((p = fdopen(fd, "r")) == NULL) err(1, "fdopen"); buf = malloc( size = (max ? max : 64 ) ); len = 0; buf[0] = 0; if (fseeko(p, (uintptr_t)offset, SEEK_SET) == 0) { while ((c = fgetc(p)) != EOF) { buf[len++] = c; if (c == 0 || len == max) { buf[len] = 0; break; } if (len == size) { char *tmp; tmp = realloc(buf, size+64); if (tmp == NULL) { buf[len] = 0; break; } size += 64; buf = tmp; } } } fclose(p); return (buf); } /* * Remove a trailing '|' in a string, useful for fixup after decoding * a "flags" argument. */ void remove_trailing_or(char *str) { if (str != NULL && (str = rindex(str, '|')) != NULL && str[1] == '\0') *str = '\0'; } /* * print_arg * Converts a syscall argument into a string. Said string is * allocated via malloc(), so needs to be free()'d. The file * descriptor is for the process' memory (via /proc), and is used * to get any data (where the argument is a pointer). sc is * a pointer to the syscall description (see above); args is * an array of all of the system call arguments. */ char * print_arg(int fd, struct syscall_args *sc, unsigned long *args, long retval) { char *tmp = NULL; switch (sc->type & ARG_MASK) { case Hex: asprintf(&tmp, "0x%lx", args[sc->offset]); break; case Octal: asprintf(&tmp, "0%lo", args[sc->offset]); break; case Int: asprintf(&tmp, "%ld", args[sc->offset]); break; case String: { char *tmp2; tmp2 = get_string(fd, (void*)args[sc->offset], 0); asprintf(&tmp, "\"%s\"", tmp2); free(tmp2); } break; case StringArray: { int num, size, i; char *tmp2; char *string; char *strarray[100]; /* XXX This is ugly. */ if (get_struct(fd, (void *)args[sc->offset], (void *)&strarray, sizeof(strarray)) == -1) { err(1, "get_struct %p", (void *)args[sc->offset]); } num = 0; size = 0; /* Find out how large of a buffer we'll need. */ while (strarray[num] != NULL) { string = get_string(fd, (void*)strarray[num], 0); size += strlen(string); free(string); num++; } size += 4 + (num * 4); tmp = (char *)malloc(size); tmp2 = tmp; tmp2 += sprintf(tmp2, " ["); for (i = 0; i < num; i++) { string = get_string(fd, (void*)strarray[i], 0); tmp2 += sprintf(tmp2, " \"%s\"%c", string, (i+1 == num) ? ' ' : ','); free(string); } tmp2 += sprintf(tmp2, "]"); } break; #ifdef __LP64__ case Quad: asprintf(&tmp, "0x%lx", args[sc->offset]); break; #else case Quad: { unsigned long long ll; ll = *(unsigned long long *)(args + sc->offset); asprintf(&tmp, "0x%llx", ll); break; } #endif case Ptr: asprintf(&tmp, "0x%lx", args[sc->offset]); break; case Readlinkres: { char *tmp2; if (retval == -1) { tmp = strdup(""); break; } tmp2 = get_string(fd, (void*)args[sc->offset], retval); asprintf(&tmp, "\"%s\"", tmp2); free(tmp2); } break; case Ioctl: { const char *temp = ioctlname(args[sc->offset]); if (temp) tmp = strdup(temp); else asprintf(&tmp, "0x%lx", args[sc->offset]); } break; case Timespec: { struct timespec ts; if (get_struct(fd, (void *)args[sc->offset], &ts, sizeof(ts)) != -1) asprintf(&tmp, "{%jd %jd}", (intmax_t)ts.tv_sec, (intmax_t)ts.tv_nsec); else asprintf(&tmp, "0x%lx", args[sc->offset]); } break; case Timeval: { struct timeval tv; if (get_struct(fd, (void *)args[sc->offset], &tv, sizeof(tv)) != -1) asprintf(&tmp, "{%jd %jd}", (intmax_t)tv.tv_sec, (intmax_t)tv.tv_usec); else asprintf(&tmp, "0x%lx", args[sc->offset]); } break; case Itimerval: { struct itimerval itv; if (get_struct(fd, (void *)args[sc->offset], &itv, sizeof(itv)) != -1) asprintf(&tmp, "{%jd %jd, %jd %jd}", (intmax_t)itv.it_interval.tv_sec, (intmax_t)itv.it_interval.tv_usec, (intmax_t)itv.it_value.tv_sec, (intmax_t)itv.it_value.tv_usec); else asprintf(&tmp, "0x%lx", args[sc->offset]); } break; case Pollfd: { /* * XXX: A Pollfd argument expects the /next/ syscall argument to be * the number of fds in the array. This matches the poll syscall. */ struct pollfd *pfd; int numfds = args[sc->offset+1]; int bytes = sizeof(struct pollfd) * numfds; int i, tmpsize, u, used; const int per_fd = 100; if ((pfd = malloc(bytes)) == NULL) err(1, "Cannot malloc %d bytes for pollfd array", bytes); if (get_struct(fd, (void *)args[sc->offset], pfd, bytes) != -1) { used = 0; tmpsize = 1 + per_fd * numfds + 2; if ((tmp = malloc(tmpsize)) == NULL) err(1, "Cannot alloc %d bytes for poll output", tmpsize); tmp[used++] = '{'; for (i = 0; i < numfds; i++) { #define POLLKNOWN_EVENTS \ (POLLIN | POLLPRI | POLLOUT | POLLERR | POLLHUP | POLLNVAL | \ POLLRDNORM |POLLRDBAND | POLLWRBAND | POLLINIGNEOF) u = snprintf(tmp + used, per_fd, "%s%d 0x%hx%s%s%s%s%s%s%s%s%s ", i > 0 ? " " : "", pfd[i].fd, pfd[i].events & ~POLLKNOWN_EVENTS, pfd[i].events & POLLIN ? "" : "|IN", pfd[i].events & POLLPRI ? "" : "|PRI", pfd[i].events & POLLOUT ? "" : "|OUT", pfd[i].events & POLLERR ? "" : "|ERR", pfd[i].events & POLLHUP ? "" : "|HUP", pfd[i].events & POLLNVAL ? "" : "|NVAL", pfd[i].events & POLLRDNORM ? "" : "|RDNORM", pfd[i].events & POLLRDBAND ? "" : "|RDBAND", pfd[i].events & POLLWRBAND ? "" : "|WRBAND"); if (u > 0) used += u < per_fd ? u : per_fd; } tmp[used++] = '}'; tmp[used++] = '\0'; } else asprintf(&tmp, "0x%lx", args[sc->offset]); free(pfd); } break; case Fd_set: { /* * XXX: A Fd_set argument expects the /first/ syscall argument to be * the number of fds in the array. This matches the select syscall. */ fd_set *fds; int numfds = args[0]; int bytes = _howmany(numfds, _NFDBITS) * _NFDBITS; int i, tmpsize, u, used; const int per_fd = 20; if ((fds = malloc(bytes)) == NULL) err(1, "Cannot malloc %d bytes for fd_set array", bytes); if (get_struct(fd, (void *)args[sc->offset], fds, bytes) != -1) { used = 0; tmpsize = 1 + numfds * per_fd + 2; if ((tmp = malloc(tmpsize)) == NULL) err(1, "Cannot alloc %d bytes for fd_set output", tmpsize); tmp[used++] = '{'; for (i = 0; i < numfds; i++) { if (FD_ISSET(i, fds)) { u = snprintf(tmp + used, per_fd, "%d ", i); if (u > 0) used += u < per_fd ? u : per_fd; } } if (tmp[used-1] == ' ') used--; tmp[used++] = '}'; tmp[used++] = '\0'; } else asprintf(&tmp, "0x%lx", args[sc->offset]); free(fds); } break; case Signal: { long sig; sig = args[sc->offset]; tmp = strsig(sig); if (tmp == NULL) asprintf(&tmp, "%ld", sig); } break; case Fcntl: { switch (args[sc->offset]) { #define S(a) case a: tmp = strdup(#a); break; S(F_DUPFD); S(F_GETFD); S(F_SETFD); S(F_GETFL); S(F_SETFL); S(F_GETOWN); S(F_SETOWN); S(F_GETLK); S(F_SETLK); S(F_SETLKW); #undef S } if (tmp == NULL) asprintf(&tmp, "0x%lx", args[sc->offset]); } break; case Mprot: { #define S(a) ((args[sc->offset] & a) ? #a "|" : "") asprintf(&tmp, "(0x%lx)%s%s%s%s", args[sc->offset], S(PROT_NONE), S(PROT_READ), S(PROT_WRITE), S(PROT_EXEC)); #undef S remove_trailing_or(tmp); } break; case Mmapflags: { #define S(a) ((args[sc->offset] & a) ? #a "|" : "") asprintf(&tmp, "(0x%lx)%s%s%s%s%s%s%s%s", args[sc->offset], S(MAP_ANON), S(MAP_FIXED), S(MAP_HASSEMAPHORE), S(MAP_NOCORE), S(MAP_NOSYNC), S(MAP_PRIVATE), S(MAP_SHARED), S(MAP_STACK)); #undef S remove_trailing_or(tmp); } break; case Whence: { switch (args[sc->offset]) { #define S(a) case a: tmp = strdup(#a); break; S(SEEK_SET); S(SEEK_CUR); S(SEEK_END); #undef S default: asprintf(&tmp, "0x%lx", args[sc->offset]); break; } } break; case Sockaddr: { struct sockaddr_storage ss; char addr[64]; struct sockaddr_in *lsin; struct sockaddr_in6 *lsin6; struct sockaddr_un *sun; struct sockaddr *sa; char *p; u_char *q; int i; if (args[sc->offset] == 0) { asprintf(&tmp, "NULL"); break; } /* yuck: get ss_len */ if (get_struct(fd, (void *)args[sc->offset], (void *)&ss, sizeof(ss.ss_len) + sizeof(ss.ss_family)) == -1) err(1, "get_struct %p", (void *)args[sc->offset]); /* sockaddr_un never have the length filled in! */ if (ss.ss_family == AF_UNIX) { if (get_struct(fd, (void *)args[sc->offset], (void *)&ss, sizeof(*sun)) == -1) err(2, "get_struct %p", (void *)args[sc->offset]); } else { if (get_struct(fd, (void *)args[sc->offset], (void *)&ss, ss.ss_len) == -1) err(2, "get_struct %p", (void *)args[sc->offset]); } switch (ss.ss_family) { case AF_INET: lsin = (struct sockaddr_in *)&ss; inet_ntop(AF_INET, &lsin->sin_addr, addr, sizeof addr); asprintf(&tmp, "{ AF_INET %s:%d }", addr, htons(lsin->sin_port)); break; case AF_INET6: lsin6 = (struct sockaddr_in6 *)&ss; inet_ntop(AF_INET6, &lsin6->sin6_addr, addr, sizeof addr); asprintf(&tmp, "{ AF_INET6 [%s]:%d }", addr, htons(lsin6->sin6_port)); break; case AF_UNIX: sun = (struct sockaddr_un *)&ss; asprintf(&tmp, "{ AF_UNIX \"%s\" }", sun->sun_path); break; default: sa = (struct sockaddr *)&ss; asprintf(&tmp, "{ sa_len = %d, sa_family = %d, sa_data = {%n%*s } }", (int)sa->sa_len, (int)sa->sa_family, &i, 6 * (int)(sa->sa_len - ((char *)&sa->sa_data - (char *)sa)), ""); if (tmp != NULL) { p = tmp + i; for (q = (u_char *)&sa->sa_data; q < (u_char *)sa + sa->sa_len; q++) p += sprintf(p, " %#02x,", *q); } } } break; case Sigaction: { struct sigaction sa; char *hand; const char *h; #define SA_KNOWN_FLAGS \ (SA_ONSTACK | SA_RESTART | SA_RESETHAND | SA_NOCLDSTOP | SA_NODEFER | \ SA_NOCLDWAIT | SA_SIGINFO) if (get_struct(fd, (void *)args[sc->offset], &sa, sizeof(sa)) != -1) { asprintf(&hand, "%p", sa.sa_handler); if (sa.sa_handler == SIG_DFL) h = "SIG_DFL"; else if (sa.sa_handler == SIG_IGN) h = "SIG_IGN"; else h = hand; asprintf(&tmp, "{ %s 0x%x%s%s%s%s%s%s%s ss_t }", h, sa.sa_flags & ~SA_KNOWN_FLAGS, sa.sa_flags & SA_ONSTACK ? "" : "|ONSTACK", sa.sa_flags & SA_RESTART ? "" : "|RESTART", sa.sa_flags & SA_RESETHAND ? "" : "|RESETHAND", sa.sa_flags & SA_NOCLDSTOP ? "" : "|NOCLDSTOP", sa.sa_flags & SA_NODEFER ? "" : "|NODEFER", sa.sa_flags & SA_NOCLDWAIT ? "" : "|NOCLDWAIT", sa.sa_flags & SA_SIGINFO ? "" : "|SIGINFO"); free(hand); } else asprintf(&tmp, "0x%lx", args[sc->offset]); } break; } return tmp; } #define timespecsubt(tvp, uvp, vvp) \ do { \ (vvp)->tv_sec = (tvp)->tv_sec - (uvp)->tv_sec; \ (vvp)->tv_nsec = (tvp)->tv_nsec - (uvp)->tv_nsec; \ if ((vvp)->tv_nsec < 0) { \ (vvp)->tv_sec--; \ (vvp)->tv_nsec += 1000000000; \ } \ } while (0) /* * print_syscall * Print (to outfile) the system call and its arguments. Note that * nargs is the number of arguments (not the number of words; this is * potentially confusing, I know). */ void print_syscall(struct trussinfo *trussinfo, const char *name, int nargs, char **s_args) { int i; int len = 0; struct timespec timediff; if (trussinfo->flags & FOLLOWFORKS) len += fprintf(trussinfo->outfile, "%5d: ", trussinfo->pid); if (name != NULL && (!strcmp(name, "execve") || !strcmp(name, "exit"))) { clock_gettime(CLOCK_REALTIME, &trussinfo->after); } if (trussinfo->flags & ABSOLUTETIMESTAMPS) { timespecsubt(&trussinfo->after, &trussinfo->start_time, &timediff); len += fprintf(trussinfo->outfile, "%ld.%09ld ", (long)timediff.tv_sec, timediff.tv_nsec); } if (trussinfo->flags & RELATIVETIMESTAMPS) { timespecsubt(&trussinfo->after, &trussinfo->before, &timediff); len += fprintf(trussinfo->outfile, "%ld.%09ld ", (long)timediff.tv_sec, timediff.tv_nsec); } len += fprintf(trussinfo->outfile, "%s(", name); for (i = 0; i < nargs; i++) { if (s_args[i]) len += fprintf(trussinfo->outfile, "%s", s_args[i]); else len += fprintf(trussinfo->outfile, ""); len += fprintf(trussinfo->outfile, "%s", i < (nargs - 1) ? "," : ""); } len += fprintf(trussinfo->outfile, ")"); for (i = 0; i < 6 - (len / 8); i++) fprintf(trussinfo->outfile, "\t"); } void print_syscall_ret(struct trussinfo *trussinfo, const char *name, int nargs, char **s_args, int errorp, long retval) { print_syscall(trussinfo, name, nargs, s_args); if (errorp) { fprintf(trussinfo->outfile, " ERR#%ld '%s'\n", retval, strerror(retval)); } else { fprintf(trussinfo->outfile, " = %ld (0x%lx)\n", retval, retval); } }