/* libguestfs - the guestfsd daemon * Copyright (C) 2009 Red Hat Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include #include #include #include #include #include "guestfs_protocol.h" #include "daemon.h" #include "actions.h" /* This command exposes debugging information, internals and * status. There is no comprehensive documentation for this * command. You have to look at the source code in this file * to find out what you can do. * * Commands always output a freeform string. * * Since libguestfs 1.5.7, the debug command has been enabled * by default for all builds (previously you had to enable it * in configure). This command is not part of the stable ABI * and may change at any time. */ struct cmd { const char *cmd; char * (*f) (const char *subcmd, size_t argc, char *const *const argv); }; static char *debug_help (const char *subcmd, size_t argc, char *const *const argv); static char *debug_binaries (const char *subcmd, size_t argc, char *const *const argv); static char *debug_core_pattern (const char *subcmd, size_t argc, char *const *const argv); static char *debug_env (const char *subcmd, size_t argc, char *const *const argv); static char *debug_fds (const char *subcmd, size_t argc, char *const *const argv); static char *debug_ldd (const char *subcmd, size_t argc, char *const *const argv); static char *debug_ls (const char *subcmd, size_t argc, char *const *const argv); static char *debug_ll (const char *subcmd, size_t argc, char *const *const argv); static char *debug_progress (const char *subcmd, size_t argc, char *const *const argv); static char *debug_qtrace (const char *subcmd, size_t argc, char *const *const argv); static char *debug_segv (const char *subcmd, size_t argc, char *const *const argv); static char *debug_sh (const char *subcmd, size_t argc, char *const *const argv); static struct cmd cmds[] = { { "help", debug_help }, { "binaries", debug_binaries }, { "core_pattern", debug_core_pattern }, { "env", debug_env }, { "fds", debug_fds }, { "ldd", debug_ldd }, { "ls", debug_ls }, { "ll", debug_ll }, { "progress", debug_progress }, { "qtrace", debug_qtrace }, { "segv", debug_segv }, { "sh", debug_sh }, { NULL, NULL } }; char * do_debug (const char *subcmd, char *const *argv) { size_t argc, i; for (i = argc = 0; argv[i] != NULL; ++i) argc++; for (i = 0; cmds[i].cmd != NULL; ++i) { if (STRCASEEQ (subcmd, cmds[i].cmd)) return cmds[i].f (subcmd, argc, argv); } reply_with_error ("use 'debug help 0' to list the supported commands"); return NULL; } static char * debug_help (const char *subcmd, size_t argc, char *const *const argv) { size_t len, i; char *r, *p; r = strdup ("Commands supported:"); if (!r) { reply_with_perror ("strdup"); return NULL; } len = strlen (r); for (i = 0; cmds[i].cmd != NULL; ++i) { len += strlen (cmds[i].cmd) + 1; /* space + new command */ p = realloc (r, len + 1); /* +1 for the final NUL */ if (p == NULL) { reply_with_perror ("realloc"); free (r); return NULL; } r = p; strcat (r, " "); strcat (r, cmds[i].cmd); } return r; } /* Show open FDs. */ static char * debug_fds (const char *subcmd, size_t argc, char *const *const argv) { int r; char *out; size_t size; FILE *fp; DIR *dir; struct dirent *d; char fname[256], link[256]; struct stat statbuf; fp = open_memstream (&out, &size); if (!fp) { reply_with_perror ("open_memstream"); return NULL; } dir = opendir ("/proc/self/fd"); if (!dir) { reply_with_perror ("opendir: /proc/self/fd"); fclose (fp); return NULL; } while ((d = readdir (dir)) != NULL) { if (STREQ (d->d_name, ".") || STREQ (d->d_name, "..")) continue; snprintf (fname, sizeof fname, "/proc/self/fd/%s", d->d_name); r = lstat (fname, &statbuf); if (r == -1) { reply_with_perror ("stat: %s", fname); fclose (fp); free (out); closedir (dir); return NULL; } if (S_ISLNK (statbuf.st_mode)) { r = readlink (fname, link, sizeof link - 1); if (r == -1) { reply_with_perror ("readline: %s", fname); fclose (fp); free (out); closedir (dir); return NULL; } link[r] = '\0'; fprintf (fp, "%2s %s\n", d->d_name, link); } else fprintf (fp, "%2s 0%o\n", d->d_name, statbuf.st_mode); } fclose (fp); if (closedir (dir) == -1) { reply_with_perror ("closedir"); free (out); return NULL; } return out; } /* Force a segfault in the daemon. */ static char * debug_segv (const char *subcmd, size_t argc, char *const *const argv) { /* http://blog.llvm.org/2011/05/what-every-c-programmer-should-know.html * "Dereferencing a NULL Pointer: contrary to popular belief, * dereferencing a null pointer in C is undefined. It is not defined * to trap [...]" */ volatile int *ptr = NULL; *ptr = 1; return NULL; } /* Run an arbitrary shell command using /bin/sh from the appliance. * * Note this is somewhat different from the ordinary guestfs_sh command * because it's not using the guest shell, and is not chrooted. */ static char * debug_sh (const char *subcmd, size_t argc, char *const *const argv) { char *cmd; size_t len, i, j; if (argc < 1) { reply_with_error ("sh: expecting a command to run"); return NULL; } /* guestfish splits the parameter(s) into a list of strings, * and we have to reassemble them here. Not ideal. XXX */ for (i = len = 0; i < argc; ++i) len += strlen (argv[i]) + 1; cmd = malloc (len); if (!cmd) { reply_with_perror ("malloc"); return NULL; } for (i = j = 0; i < argc; ++i) { len = strlen (argv[i]); memcpy (&cmd[j], argv[i], len); j += len; cmd[j] = ' '; j++; } cmd[j-1] = '\0'; /* Set up some environment variables. */ setenv ("root", sysroot, 1); if (access ("/sys/block/sda", F_OK) == 0) setenv ("sd", "sd", 1); else if (access ("/sys/block/hda", F_OK) == 0) setenv ("sd", "hd", 1); else if (access ("/sys/block/vda", F_OK) == 0) setenv ("sd", "vd", 1); char *err; int r = commandf (NULL, &err, COMMAND_FLAG_FOLD_STDOUT_ON_STDERR, "/bin/sh", "-c", cmd, NULL); free (cmd); if (r == -1) { reply_with_error ("%s", err); free (err); return NULL; } return err; } /* Print the environment that commands get (by running external printenv). */ static char * debug_env (const char *subcmd, size_t argc, char *const *const argv) { int r; char *out, *err; r = command (&out, &err, "printenv", NULL); if (r == -1) { reply_with_error ("printenv: %s", err); free (out); free (err); return NULL; } free (err); return out; } /* Return binaries in the appliance. * See tests/regressions/rhbz727178.sh */ static char * debug_binaries (const char *subcmd, size_t argc, char *const *const argv) { int r; char *out, *err; const char cmd[] = "find / -xdev -type f -executable " "| xargs file -i " "| grep application/x-executable " "| gawk -F: '{print $1}'"; r = command (&out, &err, "sh", "-c", cmd, NULL); if (r == -1) { reply_with_error ("find: %s", err); free (out); free (err); return NULL; } free (err); return out; } /* Run 'ldd' on a file from the appliance. * See tests/regressions/rhbz727178.sh */ static char * debug_ldd (const char *subcmd, size_t argc, char *const *const argv) { int r; char *out, *err, *ret; if (argc != 1) { reply_with_error ("ldd: no file argument"); return NULL; } /* Note that 'ldd' doesn't fail if it finds errors. We have to grep * for errors in the regression test instead. 'ldd' only fails here * if the binary is not a binary at all (eg. for shell scripts). * Also 'ldd' randomly sends messages to stderr and errors to stdout * depending on the phase of the moon. */ r = command (&out, &err, "ldd", "-r", argv[0], NULL); if (r == -1) { reply_with_error ("ldd: %s: %s", argv[0], err); free (out); free (err); return NULL; } /* Concatenate stdout and stderr in the result. */ ret = realloc (out, strlen (out) + strlen (err) + 1); if (ret == NULL) { reply_with_perror ("realloc"); free (out); free (err); return NULL; } strcat (ret, err); free (err); return ret; } /* List files in the appliance. */ static char * debug_ls (const char *subcmd, size_t argc, char *const *const argv) { size_t len = count_strings (argv); const char *cargv[len+3]; size_t i; cargv[0] = "ls"; cargv[1] = "-a"; for (i = 0; i < len; ++i) cargv[2+i] = argv[i]; cargv[2+len] = NULL; int r; char *out, *err; r = commandv (&out, &err, (void *) cargv); if (r == -1) { reply_with_error ("ls: %s", err); free (out); free (err); return NULL; } free (err); return out; } /* List files in the appliance. */ static char * debug_ll (const char *subcmd, size_t argc, char *const *const argv) { size_t len = count_strings (argv); const char *cargv[len+3]; size_t i; cargv[0] = "ls"; cargv[1] = "-la"; for (i = 0; i < len; ++i) cargv[2+i] = argv[i]; cargv[2+len] = NULL; int r; char *out, *err; r = commandv (&out, &err, (void *) cargv); if (r == -1) { reply_with_error ("ll: %s", err); free (out); free (err); return NULL; } free (err); return out; } /* Generate progress notification messages in order to test progress bars. */ static char * debug_progress (const char *subcmd, size_t argc, char *const *const argv) { if (argc < 1) { error: reply_with_error ("progress: expecting arg (time in seconds as string)"); return NULL; } char *secs_str = argv[0]; unsigned secs; if (sscanf (secs_str, "%u", &secs) != 1 || secs == 0) goto error; unsigned i; unsigned tsecs = secs * 10; /* 1/10ths of seconds */ for (i = 1; i <= tsecs; ++i) { usleep (100000); notify_progress ((uint64_t) i, (uint64_t) tsecs); } char *ret = strdup ("ok"); if (ret == NULL) { reply_with_perror ("strdup"); return NULL; } return ret; } /* Enable core dumping to the given core pattern. * Note that this pattern is relative to any chroot of the process which * crashes. This means that if you want to write the core file to the guest's * storage the pattern must start with /sysroot only if the command which * crashes doesn't chroot. */ static char * debug_core_pattern (const char *subcmd, size_t argc, char *const *const argv) { if (argc < 1) { reply_with_error ("core_pattern: expecting a core pattern"); return NULL; } const char *pattern = argv[0]; const size_t pattern_len = strlen(pattern); #define CORE_PATTERN "/proc/sys/kernel/core_pattern" int fd = open (CORE_PATTERN, O_WRONLY|O_CLOEXEC); if (fd == -1) { reply_with_perror ("open: " CORE_PATTERN); return NULL; } if (write (fd, pattern, pattern_len) < (ssize_t) pattern_len) { reply_with_perror ("write: " CORE_PATTERN); close (fd); return NULL; } if (close (fd) == -1) { reply_with_perror ("close: " CORE_PATTERN); return NULL; } struct rlimit limit = { .rlim_cur = RLIM_INFINITY, .rlim_max = RLIM_INFINITY }; if (setrlimit (RLIMIT_CORE, &limit) == -1) { reply_with_perror ("setrlimit (RLIMIT_CORE)"); return NULL; } char *ret = strdup ("ok"); if (NULL == ret) { reply_with_perror ("strdup"); return NULL; } return ret; } static int write_cb (void *fd_ptr, const void *buf, size_t len) { int fd = *(int *)fd_ptr; return xwrite (fd, buf, len); } /* This requires a non-upstream qemu patch. See contrib/visualize-alignment/ * directory in the libguestfs source tree. */ static char * debug_qtrace (const char *subcmd, size_t argc, char *const *const argv) { int enable; if (argc != 2) { bad_args: reply_with_error ("qtrace "); return NULL; } if (STREQ (argv[1], "on")) enable = 1; else if (STREQ (argv[1], "off")) enable = 0; else goto bad_args; /* This does a sync and flushes all caches. */ if (do_drop_caches (3) == -1) return NULL; /* Note this doesn't do device name translation or check this is a device. */ int fd = open (argv[0], O_RDONLY|O_DIRECT|O_CLOEXEC); if (fd == -1) { reply_with_perror ("qtrace: %s: open", argv[0]); return NULL; } /* The pattern of reads is what signals to the analysis program that * tracing should be started or stopped. Note this assumes both 512 * byte sectors, and that O_DIRECT will let us do 512 byte aligned * reads. We ought to read the sector size of the device and use * that instead (XXX). The analysis program currently assumes 512 * byte sectors anyway. */ #define QTRACE_SIZE 512 const int patterns[2][5] = { { 2, 15, 21, 2, -1 }, /* disable trace */ { 2, 21, 15, 2, -1 } /* enable trace */ }; void *buf; size_t i; /* For O_DIRECT, buffer must be aligned too (thanks Matt). * Note posix_memalign has this strange errno behaviour. */ errno = posix_memalign (&buf, QTRACE_SIZE, QTRACE_SIZE); if (errno != 0) { reply_with_perror ("posix_memalign"); close (fd); return NULL; } for (i = 0; patterns[enable][i] >= 0; ++i) { if (lseek (fd, patterns[enable][i]*QTRACE_SIZE, SEEK_SET) == -1) { reply_with_perror ("qtrace: %s: lseek", argv[0]); close (fd); free (buf); return NULL; } if (read (fd, buf, QTRACE_SIZE) == -1) { reply_with_perror ("qtrace: %s: read", argv[0]); close (fd); free (buf); return NULL; } } close (fd); free (buf); /* This does a sync and flushes all caches. */ if (do_drop_caches (3) == -1) return NULL; char *ret = strdup ("ok"); if (NULL == ret) { reply_with_perror ("strdup"); return NULL; } return ret; } /* Has one FileIn parameter. */ int do_debug_upload (const char *filename, int mode) { /* Not chrooted - this command lets you upload a file to anywhere * in the appliance. */ int fd = open (filename, O_WRONLY|O_CREAT|O_TRUNC|O_NOCTTY|O_CLOEXEC, mode); if (fd == -1) { int err = errno; cancel_receive (); errno = err; reply_with_perror ("%s", filename); return -1; } int r = receive_file (write_cb, &fd); if (r == -1) { /* write error */ int err = errno; cancel_receive (); errno = err; reply_with_error ("write error: %s", filename); close (fd); return -1; } if (r == -2) { /* cancellation from library */ /* This error is ignored by the library since it initiated the * cancel. Nevertheless we must send an error reply here. */ reply_with_error ("file upload cancelled"); close (fd); return -1; } if (close (fd) == -1) { reply_with_perror ("close: %s", filename); return -1; } return 0; }