/* df - summarize free disk space Copyright (C) 91, 95, 1996 Free Software Foundation, 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, 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Written by David MacKenzie . --human-readable and --megabyte options added by lm@sgi.com. */ #include #include #include #include #include #include "mountlist.h" #include "fsusage.h" #include "system.h" #include "error.h" char *xmalloc (); char *xstrdup (); static int selected_fstype __P ((char *fstype)); static int excluded_fstype __P ((char *fstype)); static void add_excluded_fs_type __P ((char *fstype)); static void add_fs_type __P ((char *fstype)); static void print_header __P ((void)); static void show_entry __P ((char *path, struct stat *statp)); static void show_all_entries __P ((void)); static void show_dev __P ((char *disk, char *mount_point, char *fstype)); static void show_disk __P ((char *disk)); static void show_point __P ((char *point, struct stat *statp)); static void usage __P ((int status)); /* The maximum length of a human-readable string. Be pessimistic and assume `int' is 64-bits wide. Converting 2^63 - 1 gives the 14-character string, 8796093022208G. The number being converted is the number of 1024-byte blocks, so we divide by 1024 * 1024. */ #define LONGEST_HUMAN_READABLE_1K_BYTE_BLOCKS 14 /* Name this program was run with. */ char *program_name; /* If nonzero, show inode information. */ static int inode_format; /* If nonzero, show even filesystems with zero size or uninteresting types. */ static int show_all_fs; /* If nonzero, output data for each filesystem corresponding to a command line argument -- even if it's a dummy (automounter) entry. */ static int show_listed_fs; /* If nonzero, use variable sized printouts instead of 512-byte blocks. */ static int human_blocks; /* If nonzero, use 1K blocks instead of 512-byte blocks. */ static int kilobyte_blocks; /* If nonzero, use 1M blocks instead of 512-byte blocks. */ static int megabyte_blocks; /* If nonzero, use the POSIX output format. */ static int posix_format; /* If nonzero, invoke the `sync' system call before getting any usage data. Using this option can make df very slow, especially with many or very busy disks. Note that this may make a difference on some systems -- SunOs4.1.3, for one. I have been assured that it is *not* necessary on Linux. */ static int require_sync = 0; /* Nonzero if errors have occurred. */ static int exit_status; /* A filesystem type to display. */ struct fs_type_list { char *fs_name; struct fs_type_list *fs_next; }; /* Linked list of filesystem types to display. If `fs_select_list' is NULL, list all types. This table is generated dynamically from command-line options, rather than hardcoding into the program what it thinks are the valid filesystem types; let the user specify any filesystem type they want to, and if there are any filesystems of that type, they will be shown. Some filesystem types: 4.2 4.3 ufs nfs swap ignore io vm efs dbg */ static struct fs_type_list *fs_select_list; /* Linked list of filesystem types to omit. If the list is empty, don't exclude any types. */ static struct fs_type_list *fs_exclude_list; /* Linked list of mounted filesystems. */ static struct mount_entry *mount_list; /* If nonzero, display usage information and exit. */ static int show_help; /* If nonzero, print the version on standard output and exit. */ static int show_version; /* If nonzero, print filesystem type as well. */ static int print_type; static struct option const long_options[] = { {"all", no_argument, &show_all_fs, 1}, {"inodes", no_argument, &inode_format, 1}, {"human-readable", no_argument, 0, 'h'}, {"kilobytes", no_argument, 0, 'k'}, {"megabytes", no_argument, 0, 'm'}, {"portability", no_argument, &posix_format, 1}, {"print-type", no_argument, &print_type, 1}, {"sync", no_argument, 0, 129}, {"no-sync", no_argument, 0, 130}, {"type", required_argument, 0, 't'}, {"exclude-type", required_argument, 0, 'x'}, {"help", no_argument, &show_help, 1}, {"version", no_argument, &show_version, 1}, {NULL, 0, NULL, 0} }; int main (int argc, char **argv) { int i; struct stat *stats; program_name = argv[0]; setlocale (LC_ALL, ""); bindtextdomain (PACKAGE, LOCALEDIR); textdomain (PACKAGE); fs_select_list = NULL; fs_exclude_list = NULL; inode_format = 0; show_all_fs = 0; show_listed_fs = 0; if (getenv ("POSIXLY_CORRECT")) kilobyte_blocks = 0; else { char *bs; kilobyte_blocks = 1; if ((bs = getenv ("BLOCKSIZE")) && strncmp (bs, "HUMAN", sizeof ("HUMAN") - 1) == 0) human_blocks = 1; } print_type = 0; posix_format = 0; exit_status = 0; while ((i = getopt_long (argc, argv, "aihkmPTt:vx:", long_options, NULL)) != EOF) { switch (i) { case 0: /* Long option. */ break; case 'a': show_all_fs = 1; break; case 'i': inode_format = 1; break; case 'h': human_blocks = 1; kilobyte_blocks = 1; megabyte_blocks = 0; break; case 'k': human_blocks = 0; kilobyte_blocks = 1; megabyte_blocks = 0; break; case 'm': human_blocks = 0; kilobyte_blocks = 0; megabyte_blocks = 1; break; case 'T': print_type = 1; break; case 'P': posix_format = 1; break; case 129: require_sync = 1; break; case 130: require_sync = 0; break; case 't': add_fs_type (optarg); break; case 'v': /* For SysV compatibility. */ break; case 'x': add_excluded_fs_type (optarg); break; default: usage (1); } } if (show_version) { printf ("df - %s\n", PACKAGE_VERSION); exit (0); } if (show_help) usage (0); /* Fail if the same file system type was both selected and excluded. */ { int match = 0; struct fs_type_list *i; for (i = fs_select_list; i; i = i->fs_next) { struct fs_type_list *j; for (j = fs_exclude_list; j; j = j->fs_next) { if (strcmp (i->fs_name, j->fs_name) == 0) { error (0, 0, _("file system type `%s' both selected and excluded"), i->fs_name); match = 1; break; } } } if (match) exit (1); } if (optind == argc) { #ifdef lint /* Suppress `used before initialized' warning. */ stats = NULL; #endif } else { /* stat all the given entries to make sure they get automounted, if necessary, before reading the filesystem table. */ stats = (struct stat *) xmalloc ((argc - optind) * sizeof (struct stat)); for (i = optind; i < argc; ++i) if (stat (argv[i], &stats[i - optind])) { error (0, errno, "%s", argv[i]); exit_status = 1; argv[i] = NULL; } } mount_list = read_filesystem_list ((fs_select_list != NULL || fs_exclude_list != NULL || print_type), show_all_fs); if (mount_list == NULL) error (1, errno, _("cannot read table of mounted filesystems")); print_header (); if (require_sync) sync (); if (optind == argc) show_all_entries (); else { /* Display explicitly requested empty filesystems. */ show_listed_fs = 1; for (i = optind; i < argc; ++i) if (argv[i]) show_entry (argv[i], &stats[i - optind]); } exit (exit_status); } static void print_header (void) { printf ("Filesystem "); if (print_type) printf (" Type"); else printf (" "); if (inode_format) printf (" Inodes IUsed IFree %%IUsed"); else if (megabyte_blocks) printf (" MB-blocks Used Available Capacity"); else if (human_blocks) printf (" Size Used Avail Capacity"); else printf (" %s Used Available Capacity", kilobyte_blocks ? "1024-blocks" : " 512-blocks"); printf (" Mounted on\n"); } /* Show all mounted filesystems, except perhaps those that are of an unselected type or are empty. */ static void show_all_entries (void) { struct mount_entry *me; for (me = mount_list; me; me = me->me_next) show_dev (me->me_devname, me->me_mountdir, me->me_type); } /* Determine what kind of node PATH is and show the disk usage for it. STATP is the results of `stat' on PATH. */ static void show_entry (char *path, struct stat *statp) { if (S_ISBLK (statp->st_mode) || S_ISCHR (statp->st_mode)) show_disk (path); else show_point (path, statp); } /* Identify the directory, if any, that device DISK is mounted on, and show its disk usage. */ static void show_disk (char *disk) { struct mount_entry *me; for (me = mount_list; me; me = me->me_next) if (!strcmp (disk, me->me_devname)) { show_dev (me->me_devname, me->me_mountdir, me->me_type); return; } /* No filesystem is mounted on DISK. */ show_dev (disk, (char *) NULL, (char *) NULL); } /* Figure out which device file or directory POINT is mounted on and show its disk usage. STATP is the results of `stat' on POINT. */ static void show_point (char *point, struct stat *statp) { struct stat disk_stats; struct mount_entry *me; for (me = mount_list; me; me = me->me_next) { if (me->me_dev == (dev_t) -1) { if (stat (me->me_mountdir, &disk_stats) == 0) me->me_dev = disk_stats.st_dev; else { error (0, errno, "%s", me->me_mountdir); exit_status = 1; /* So we won't try and fail repeatedly. */ me->me_dev = (dev_t) -2; } } if (statp->st_dev == me->me_dev) { /* Skip bogus mtab entries. */ if (stat (me->me_mountdir, &disk_stats) != 0 || disk_stats.st_dev != me->me_dev) continue; show_dev (me->me_devname, me->me_mountdir, me->me_type); return; } } error (0, 0, _("cannot find mount point for %s"), point); exit_status = 1; } /* Convert N_1K_BYTE_BLOCKS to a more readable string than %d would. Most people visually process strings of 3-4 digits effectively, but longer strings of digits are more prone to misinterpretation. Hence, converting to an abbreviated form usually improves readability. Use a suffix indicating multiples of 1024 (M) and 1024*1024 (G). For example, 8500 would be converted to 8.3M, 133456345 to 127G, and so on. Numbers smaller than 1024 get the `K' suffix. */ static char * human_readable_1k_blocks (int n_1k_byte_blocks, char *buf, int buf_len) { const char *suffix; double amt; char *p; assert (buf_len > LONGEST_HUMAN_READABLE_1K_BYTE_BLOCKS); p = buf; amt = n_1k_byte_blocks; if (amt >= 1024 * 1024) { amt /= (1024 * 1024); suffix = "G"; } else if (amt >= 1024) { amt /= 1024; suffix = "M"; } else { suffix = "K"; } if (amt >= 10) { sprintf (p, "%4.0f%s", amt, suffix); } else if (amt == 0) { strcpy (p, "0"); } else { sprintf (p, "%4.1f%s", amt, suffix); } return (p); } /* Display a space listing for the disk device with absolute path DISK. If MOUNT_POINT is non-NULL, it is the path of the root of the filesystem on DISK. If FSTYPE is non-NULL, it is the type of the filesystem on DISK. */ static void show_dev (char *disk, char *mount_point, char *fstype) { struct fs_usage fsu; long blocks_used; long blocks_percent_used; long inodes_used; long inodes_percent_used; char *stat_file; if (!selected_fstype (fstype) || excluded_fstype (fstype)) return; /* If MOUNT_POINT is NULL, then the filesystem is not mounted, and this program reports on the filesystem that the special file is on. It would be better to report on the unmounted filesystem, but statfs doesn't do that on most systems. */ stat_file = mount_point ? mount_point : disk; if (get_fs_usage (stat_file, disk, &fsu)) { error (0, errno, "%s", stat_file); exit_status = 1; return; } if (megabyte_blocks) { fsu.fsu_blocks /= 2*1024; fsu.fsu_bfree /= 2*1024; fsu.fsu_bavail /= 2*1024; } else if (kilobyte_blocks) { fsu.fsu_blocks /= 2; fsu.fsu_bfree /= 2; fsu.fsu_bavail /= 2; } if (fsu.fsu_blocks == 0) { if (!show_all_fs && !show_listed_fs) return; blocks_used = fsu.fsu_bavail = blocks_percent_used = 0; } else { blocks_used = fsu.fsu_blocks - fsu.fsu_bfree; blocks_percent_used = (long) (blocks_used * 100.0 / (blocks_used + fsu.fsu_bavail) + 0.5); } if (fsu.fsu_files == 0) { inodes_used = fsu.fsu_ffree = inodes_percent_used = 0; } else { inodes_used = fsu.fsu_files - fsu.fsu_ffree; inodes_percent_used = (long) (inodes_used * 100.0 / fsu.fsu_files + 0.5); } printf ((print_type ? "%-13s" : "%-20s"), disk); if (strlen (disk) > (print_type ? 13 : 20) && !posix_format) printf ((print_type ? "\n%13s" : "\n%20s"), ""); if (print_type) printf (" %-5s ", fstype); if (inode_format) printf (" %7ld %7ld %7ld %5ld%%", fsu.fsu_files, inodes_used, fsu.fsu_ffree, inodes_percent_used); else if (human_blocks) { char buf[3][LONGEST_HUMAN_READABLE_1K_BYTE_BLOCKS + 1]; printf (" %4s %4s %5s %5ld%% ", human_readable_1k_blocks (fsu.fsu_blocks, buf[0], LONGEST_HUMAN_READABLE_1K_BYTE_BLOCKS + 1), human_readable_1k_blocks (blocks_used, buf[1], LONGEST_HUMAN_READABLE_1K_BYTE_BLOCKS + 1), human_readable_1k_blocks (fsu.fsu_bavail, buf[2], LONGEST_HUMAN_READABLE_1K_BYTE_BLOCKS + 1), blocks_percent_used); } else printf (" %7ld %7ld %7ld %5ld%% ", fsu.fsu_blocks, blocks_used, fsu.fsu_bavail, blocks_percent_used); if (mount_point) { #ifdef HIDE_AUTOMOUNT_PREFIX /* Don't print the first directory name in MOUNT_POINT if it's an artifact of an automounter. This is a bit too aggressive to be the default. */ if (strncmp ("/auto/", mount_point, 6) == 0) mount_point += 5; else if (strncmp ("/tmp_mnt/", mount_point, 9) == 0) mount_point += 8; #endif printf (" %s", mount_point); } putchar ('\n'); } /* Add FSTYPE to the list of filesystem types to display. */ static void add_fs_type (char *fstype) { struct fs_type_list *fsp; fsp = (struct fs_type_list *) xmalloc (sizeof (struct fs_type_list)); fsp->fs_name = fstype; fsp->fs_next = fs_select_list; fs_select_list = fsp; } /* Add FSTYPE to the list of filesystem types to be omitted. */ static void add_excluded_fs_type (char *fstype) { struct fs_type_list *fsp; fsp = (struct fs_type_list *) xmalloc (sizeof (struct fs_type_list)); fsp->fs_name = fstype; fsp->fs_next = fs_exclude_list; fs_exclude_list = fsp; } /* If FSTYPE is a type of filesystem that should be listed, return nonzero, else zero. */ static int selected_fstype (char *fstype) { struct fs_type_list *fsp; if (fs_select_list == NULL || fstype == NULL) return 1; for (fsp = fs_select_list; fsp; fsp = fsp->fs_next) if (!strcmp (fstype, fsp->fs_name)) return 1; return 0; } /* If FSTYPE is a type of filesystem that should be omitted, return nonzero, else zero. */ static int excluded_fstype (char *fstype) { struct fs_type_list *fsp; if (fs_exclude_list == NULL || fstype == NULL) return 0; for (fsp = fs_exclude_list; fsp; fsp = fsp->fs_next) if (!strcmp (fstype, fsp->fs_name)) return 1; return 0; } static void usage (int status) { if (status != 0) fprintf (stderr, _("Try `%s --help' for more information.\n"), program_name); else { printf (_("Usage: %s [OPTION]... [FILE]...\n"), program_name); printf (_("\ Show information about the filesystem on which each FILE resides,\n\ or all filesystems by default.\n\ \n\ -a, --all include filesystems having 0 blocks\n\ -h, --human-readable print sizes in human readable format (e.g. 1K 234M 2G)\n\ -i, --inodes list inode information instead of block usage\n\ -k, --kilobytes use 1024-byte blocks, not 512 despite POSIXLY_CORRECT\n\ -m, --megabytes use 1024K-byte blocks, not 512 despite POSIXLY_CORRECT\n\ --no-sync do not invoke sync before getting usage info (default)\n\ --sync invoke sync before getting usage info\n\ -t, --type=TYPE limit listing to filesystems of type TYPE\n\ -x, --exclude-type=TYPE limit listing to filesystems not of type TYPE\n\ -v (ignored)\n\ -P, --portability use the POSIX output format\n\ FIXME: this should override or conflict with --human and --megabytes\n\ FIXME-bug: currently, even with --portability, blocksize is 1024 bytes\n\ FIXME-bug: make sure that's allowed by POSIX.\n\ -T, --print-type print filesystem type\n\ --help display this help and exit\n\ --version output version information and exit\n")); } exit (status); }