/***************************************************************************** * * $Id: taskdisk.c,v 1.35 2007/08/26 14:02:28 mbse Exp $ * Purpose ...............: Give status of all filesystems * ***************************************************************************** * Copyright (C) 1997-2007 * * Michiel Broek FIDO: 2:280/2802 * Beekmansbos 10 * 1971 BV IJmuiden * the Netherlands * * This file is part of MBSE BBS. * * This BBS 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. * * MB BBS 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 MB BBS; see the file COPYING. If not, write to the Free * Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. *****************************************************************************/ #include "../config.h" #include "../lib/mbselib.h" #include "taskdisk.h" #include "taskutil.h" typedef struct _mfs_list { struct _mfs_list *next; /* Linked list */ char *mountpoint; /* Mountpoint */ char *fstype; /* FS type */ unsigned int size; /* Size in MB */ unsigned int avail; /* Available in MB */ unsigned ro : 1; /* Read-Only fs. */ } mfs_list; mfs_list *mfs = NULL; /* List of filesystems */ int disk_reread = TRUE; /* Reread tables */ int recursecount = 0; /* Recurse counter */ /* * Internal prototypes */ char *mbt_realpath(const char *, char *); void tidy_mfslist(mfs_list **); int in_mfslist(char *, mfs_list **); void fill_mfslist(mfs_list **, char *, char *); void update_diskstat(void); void add_path(char *); /* * realpath.c -- canonicalize pathname by removing symlinks * Copyright (C) 1993 Rick Sladkey */ #define HAVE_GETCWD /* * This routine is part of libc. We include it nevertheless, * since the libc version has some security flaws. */ #define MAX_READLINKS 32 char *mbt_realpath(const char *path, char *resolved_path) { char copy_path[PATH_MAX], link_path[PATH_MAX], *new_path = resolved_path, *max_path; int readlinks = 0, n; /* Make a copy of the source path since we may need to modify it. */ if (strlen(path) >= PATH_MAX) { errno = ENAMETOOLONG; return NULL; } strcpy(copy_path, path); path = copy_path; max_path = copy_path + PATH_MAX - 2; /* If it's a relative pathname use getwd for starters. */ if (*path != '/') { getcwd(new_path, PATH_MAX - 1); new_path += strlen(new_path); if (new_path[-1] != '/') *new_path++ = '/'; } else { *new_path++ = '/'; path++; } /* Expand each slash-separated pathname component. */ while (*path != '\0') { /* Ignore stray "/". */ if (*path == '/') { path++; continue; } if (*path == '.') { /* Ignore ".". */ if (path[1] == '\0' || path[1] == '/') { path++; continue; } if (path[1] == '.') { if (path[2] == '\0' || path[2] == '/') { path += 2; /* Ignore ".." at root. */ if (new_path == resolved_path + 1) continue; /* Handle ".." by backing up. */ while ((--new_path)[-1] != '/') ; continue; } } } /* Safely copy the next pathname component. */ while (*path != '\0' && *path != '/') { if (path > max_path) { errno = ENAMETOOLONG; return NULL; } *new_path++ = *path++; } #ifdef S_IFLNK /* Protect against infinite loops. */ if (readlinks++ > MAX_READLINKS) { errno = ELOOP; return NULL; } /* See if latest pathname component is a symlink. */ *new_path = '\0'; n = readlink(resolved_path, link_path, PATH_MAX - 1); if (n < 0) { /* EINVAL means the file exists but isn't a symlink. */ if (errno != EINVAL) return NULL; } else { /* Note: readlink doesn't add the null byte. */ link_path[n] = '\0'; if (*link_path == '/') /* Start over for an absolute symlink. */ new_path = resolved_path; else /* Otherwise back up over this component. */ while (*(--new_path) != '/') ; /* Safe sex check. */ if (strlen(path) + n >= PATH_MAX) { errno = ENAMETOOLONG; return NULL; } /* Insert symlink contents into path. */ strcat(link_path, path); strcpy(copy_path, link_path); path = copy_path; } #endif /* S_IFLNK */ *new_path++ = '/'; } /* Delete trailing slash but don't whomp a lone slash. */ if (new_path != resolved_path + 1 && new_path[-1] == '/') new_path--; /* Make sure it's null terminated. */ *new_path = '\0'; return resolved_path; } /* * Reset mounted filesystems array */ void tidy_mfslist(mfs_list **fap) { mfs_list *tmp, *old; for (tmp = *fap; tmp; tmp = old) { old = tmp->next; free(tmp->mountpoint); free(tmp->fstype); free(tmp); } *fap = NULL; } int in_mfslist(char *mountpoint, mfs_list **fap) { mfs_list *tmp; for (tmp = *fap; tmp; tmp = tmp->next) if (strcmp(tmp->mountpoint, mountpoint) == 0) return TRUE; return FALSE; } void fill_mfslist(mfs_list **fap, char *mountpoint, char *fstype) { mfs_list *tmp; if (in_mfslist(mountpoint, fap)) return; tmp = (mfs_list *)malloc(sizeof(mfs_list)); tmp->next = *fap; tmp->mountpoint = xstrcpy(mountpoint); tmp->fstype = xstrcpy(fstype); tmp->size = 0L; tmp->avail = 0L; tmp->ro = TRUE; // Read-only, statfs will set real value. *fap = tmp; } /* * This function signals the diskwatcher to reread the tables. */ char *disk_reset(void) { disk_reread = TRUE; return (char *)"100:0;"; } /* * Check free diskspace on all by mbse used filesystems. * The amount of needed space is given in MBytes. */ void disk_check_r(char *token, char *buf) { mfs_list *tmp; unsigned int needed, lowest = 0xffffffff; strtok(token, ","); needed = atol(strtok(NULL, ";")); if (mfs == NULL) { /* * Answer Error */ snprintf(buf, SS_BUFSIZE, "100:1,3"); return; } for (tmp = mfs; tmp; tmp = tmp->next) { if (!tmp->ro && (tmp->avail < lowest)) lowest = tmp->avail; } if (lowest < needed) { snprintf(buf, SS_BUFSIZE, "100:2,0,%d;", lowest); } else { snprintf(buf, SS_BUFSIZE, "100:2,1,%d;", lowest); } return; } /* * This function returns the information of all mounted filesystems, * but no more then 10 filesystems. */ void disk_getfs_r(char *buf) { char tt[80], *ans = NULL; mfs_list *tmp; int i = 0; buf[0] = '\0'; if (mfs == NULL) { snprintf(buf, SS_BUFSIZE, "100:0;"); return; } for (tmp = mfs; tmp; tmp = tmp->next) { i++; if (ans == NULL) ans = xstrcpy((char *)","); else ans = xstrcat(ans, (char *)","); tt[0] = '\0'; snprintf(tt, 80, "%u %u %s %s %d", tmp->size, tmp->avail, tmp->mountpoint, tmp->fstype, tmp->ro); ans = xstrcat(ans, tt); if (i == 10) /* No more then 10 filesystems */ break; } if (strlen(ans) > (SS_BUFSIZE - 8)) snprintf(buf, SS_BUFSIZE, "100:0;"); else snprintf(buf, SS_BUFSIZE, "100:%d%s;", i, ans); if (ans != NULL) free(ans); ans = NULL; return; } /* * Update disk useage status. */ void update_diskstat(void) { #ifdef __NetBSD__ struct statvfs sfs; #else struct statfs sfs; #endif unsigned int temp; mfs_list *tmp; for (tmp = mfs; tmp; tmp = tmp->next) { #ifdef __NetBSD__ if (statvfs(tmp->mountpoint, &sfs) == 0) { #else if (statfs(tmp->mountpoint, &sfs) == 0) { #endif temp = (unsigned int)(sfs.f_bsize / 512L); tmp->size = (unsigned int)(sfs.f_blocks * temp) / 2048L; tmp->avail = (unsigned int)(sfs.f_bavail * temp) / 2048L; #if defined(__linux__) /* * The struct statfs (or statvfs) seems to have no information * about read-only filesystems, so we guess it based on fstype. * See man 2 statvfs about what approximately is defined. */ tmp->ro = (strstr(tmp->fstype, "iso") != NULL); #elif defined(__FreeBSD__) || defined(__OpenBSD__) /* * XxxxBSD has the info in the statfs structure. */ tmp->ro = (sfs.f_flags & MNT_RDONLY); #elif defined(__NetBSD__) /* * NetBSD 3.1 is a bit different again */ tmp->ro = (sfs.f_flag & ST_RDONLY); #else #error "Don't know how to get sfs read-only status" #endif } } } /* * Add path to table. * Find out if the parameter is a path or a file on a path. */ void add_path(char *lpath) { struct stat sb; char *p, fsname[PATH_MAX], fstype[PATH_MAX], *rpath; #if defined(__linux__) char *mtab, *fs; FILE *fp; #elif defined(__FreeBSD__) || defined(__OpenBSD__) struct statfs *mntbuf; int mntsize; int i; #elif defined(__NetBSD__) struct statvfs *mntbuf; int mntsize; int i; #else #error "Don't know how to get mount paths" #endif if (strlen(lpath) == 0) { return; } /* * Safety recursive call count. */ recursecount++; if (recursecount > 2) { Syslog('!', "add_path(%s), too many recursive calls", lpath); recursecount--; return; } rpath = calloc(PATH_MAX, sizeof(char)); mbt_realpath(lpath, rpath); if (lstat(rpath, &sb) == 0) { if (S_ISDIR(sb.st_mode)) { #if defined(__linux__) if ((fp = fopen((char *)"/etc/mtab", "r"))) { mtab = calloc(PATH_MAX, sizeof(char)); fsname[0] = '\0'; while (fgets(mtab, PATH_MAX -1, fp)) { fs = strtok(mtab, " \t"); fs = strtok(NULL, " \t"); /* * Overwrite fsname each time a match is found, the last * mounted filesystem that matches must be the one we seek. */ if (strncmp(fs, rpath, strlen(fs)) == 0) { snprintf(fsname, PATH_MAX, "%s", fs); fs = strtok(NULL, " \t"); snprintf(fstype, PATH_MAX, "%s", fs); } } fclose(fp); free(mtab); fill_mfslist(&mfs, fsname, fstype); } #elif defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__) if ((mntsize = getmntinfo(&mntbuf, MNT_NOWAIT))) { for (i = 0; i < mntsize; i++) { if (strncmp(mntbuf[i].f_mntonname, rpath, strlen(mntbuf[i].f_mntonname)) == 0) { snprintf(fsname, PATH_MAX, "%s", mntbuf[i].f_mntonname); snprintf(fstype, PATH_MAX, "%s", mntbuf[i].f_fstypename); } } fill_mfslist(&mfs, fsname, fstype); } #else #error "Unknown OS - don't know what to do" #endif } else { /* * Not a directory, maybe a file. */ if ((p = strrchr(rpath, '/'))) *p = '\0'; add_path(rpath); } } else { /* * Possible cause, we were given a filename that * may not be present because this is a temporary file. * Strip the last part of the name and try again. */ if ((p = strrchr(rpath, '/'))) *p = '\0'; add_path(rpath); } recursecount--; free(rpath); } /* * Diskwatch */ void diskwatch(void) { FILE *fp; char *temp = NULL; mfs_list *tmp; if (disk_reread) { disk_reread = FALSE; Syslog('+', "Reread disk filesystems"); tidy_mfslist(&mfs); add_path(getenv("MBSE_ROOT")); add_path(CFG.alists_path); add_path(CFG.req_magic); add_path(CFG.bbs_usersdir); add_path(CFG.nodelists); add_path(CFG.inbound); add_path(CFG.pinbound); add_path(CFG.outbound); add_path(CFG.ftp_base); add_path(CFG.out_queue); add_path(CFG.rulesdir); add_path(CFG.tmailshort); add_path(CFG.tmaillong); temp = calloc(PATH_MAX, sizeof(char )); snprintf(temp, PATH_MAX, "%s/etc/fareas.data", getenv("MBSE_ROOT")); if ((fp = fopen(temp, "r"))) { fread(&areahdr, sizeof(areahdr), 1, fp); fseek(fp, areahdr.hdrsize, SEEK_SET); while (fread(&area, areahdr.recsize, 1, fp)) { if (area.Available) { add_path(area.Path); } } fclose(fp); } snprintf(temp, PATH_MAX, "%s/etc/mareas.data", getenv("MBSE_ROOT")); if ((fp = fopen(temp, "r"))) { fread(&msgshdr, sizeof(msgshdr), 1, fp); fseek(fp, msgshdr.hdrsize, SEEK_SET); while (fread(&msgs, msgshdr.recsize, 1, fp)) { if (msgs.Active) add_path(msgs.Base); fseek(fp, msgshdr.syssize, SEEK_CUR); } fclose(fp); } snprintf(temp, PATH_MAX, "%s/etc/language.data", getenv("MBSE_ROOT")); if ((fp = fopen(temp, "r"))) { fread(&langhdr, sizeof(langhdr), 1, fp); fseek(fp, langhdr.hdrsize, SEEK_SET); while (fread(&lang, langhdr.recsize, 1, fp)) { if (lang.Available) { snprintf(temp, PATH_MAX, "%s/share/int/menus/%s", getenv("MBSE_ROOT"), lang.lc); add_path(temp); snprintf(temp, PATH_MAX, "%s/share/int/txtfiles/%s", getenv("MBSE_ROOT"), lang.lc); add_path(temp); snprintf(temp, PATH_MAX, "%s/share/int/macro/%s", getenv("MBSE_ROOT"), lang.lc); add_path(temp); } } fclose(fp); } snprintf(temp, PATH_MAX, "%s/etc/nodes.data", getenv("MBSE_ROOT")); if ((fp = fopen(temp, "r"))) { fread(&nodeshdr, sizeof(nodeshdr), 1, fp); fseek(fp, nodeshdr.hdrsize, SEEK_SET); while (fread(&nodes, nodeshdr.recsize, 1, fp)) { if (nodes.Session_in == S_DIR) add_path(nodes.Dir_in_path); if (nodes.Session_out == S_DIR) add_path(nodes.Dir_out_path); add_path(nodes.OutBox); fseek(fp, nodeshdr.filegrp + nodeshdr.mailgrp, SEEK_CUR); } fclose(fp); } snprintf(temp, PATH_MAX, "%s/etc/fgroups.data", getenv("MBSE_ROOT")); if ((fp = fopen(temp, "r"))) { fread(&fgrouphdr, sizeof(fgrouphdr), 1, fp); fseek(fp, fgrouphdr.hdrsize, SEEK_SET); while (fread(&fgroup, fgrouphdr.recsize, 1, fp)) { if (fgroup.Active) add_path(fgroup.BasePath); } fclose(fp); } snprintf(temp, PATH_MAX, "%s/etc/mgroups.data", getenv("MBSE_ROOT")); if ((fp = fopen(temp, "r"))) { fread(&mgrouphdr, sizeof(mgrouphdr), 1, fp); fseek(fp, mgrouphdr.hdrsize, SEEK_SET); while (fread(&mgroup, mgrouphdr.recsize, 1, fp)) { if (mgroup.Active) add_path(mgroup.BasePath); } fclose(fp); } snprintf(temp, PATH_MAX, "%s/etc/hatch.data", getenv("MBSE_ROOT")); if ((fp = fopen(temp, "r"))) { fread(&hatchhdr, sizeof(hatchhdr), 1, fp); fseek(fp, hatchhdr.hdrsize, SEEK_SET); while (fread(&hatch, hatchhdr.recsize, 1, fp)) { if (hatch.Active) add_path(hatch.Spec); } fclose(fp); } snprintf(temp, PATH_MAX, "%s/etc/magic.data", getenv("MBSE_ROOT")); if ((fp = fopen(temp, "r"))) { fread(&magichdr, sizeof(magichdr), 1, fp); fseek(fp, magichdr.hdrsize, SEEK_SET); while (fread(&magic, magichdr.recsize, 1, fp)) { if (magic.Active && ((magic.Attrib == MG_COPY) || (magic.Attrib == MG_UNPACK))) add_path(magic.Path); } fclose(fp); } free(temp); temp = NULL; /* * Now update the new table with filesystems information. */ update_diskstat(); for (tmp = mfs; tmp; tmp = tmp->next) { Syslog('+', "Found filesystem: %s type: %s status: %s", tmp->mountpoint, tmp->fstype, tmp->ro ?"RO":"RW"); } } else { update_diskstat(); } } void deinit_diskwatch() { Syslog('d', "De-init diskwatch done"); tidy_mfslist(&mfs); }