/*@-mods@*/ /** * \file lib/fs.c */ #include "system.h" #include #include /* XXX for rpmGetPath */ #include "debug.h" /*@-usereleased -onlytrans@*/ struct fsinfo { /*@only@*/ const char * mntPoint; /*!< path to mount point. */ dev_t dev; /*!< devno for mount point. */ int rdonly; /*!< is mount point read only? */ }; /*@unchecked@*/ /*@only@*/ /*@null@*/ static struct fsinfo * filesystems = NULL; /*@unchecked@*/ /*@only@*/ /*@null@*/ static const char ** fsnames = NULL; /*@unchecked@*/ static int numFilesystems = 0; void freeFilesystems(void) { if (filesystems) { int i; /*@-boundswrite@*/ for (i = 0; i < numFilesystems; i++) filesystems[i].mntPoint = _free(filesystems[i].mntPoint); /*@=boundswrite@*/ filesystems = _free(filesystems); } if (fsnames) { #if 0 /* XXX leak/segfault on exit of "rpm -qp --qf '%{#fsnames}' pkg" */ free(fsnames); #endif fsnames = NULL; } numFilesystems = 0; } #if HAVE_MNTCTL /* modeled after sample code from Till Bubeck */ #include #include /* * There is NO mntctl prototype in any header file of AIX 3.2.5! * So we have to declare it by ourself... */ int mntctl(int command, int size, char *buffer); /** * Get information for mounted file systems. * @todo determine rdonly for non-linux file systems. * @return 0 on success, 1 on error */ static int getFilesystemList(void) /*@*/ { int size; void * buf; struct vmount * vm; struct stat sb; int rdonly = 0; int num; int fsnameLength; int i; num = mntctl(MCTL_QUERY, sizeof(size), (char *) &size); if (num < 0) { rpmError(RPMERR_MTAB, _("mntctl() failed to return size: %s\n"), strerror(errno)); return 1; } /* * Double the needed size, so that even when the user mounts a * filesystem between the previous and the next call to mntctl * the buffer still is large enough. */ size *= 2; buf = alloca(size); num = mntctl(MCTL_QUERY, size, buf); if ( num <= 0 ) { rpmError(RPMERR_MTAB, _("mntctl() failed to return mount points: %s\n"), strerror(errno)); return 1; } numFilesystems = num; filesystems = xcalloc((numFilesystems + 1), sizeof(*filesystems)); fsnames = xcalloc((numFilesystems + 1), sizeof(char *)); for (vm = buf, i = 0; i < num; i++) { char *fsn; fsnameLength = vm->vmt_data[VMT_STUB].vmt_size; fsn = xmalloc(fsnameLength + 1); strncpy(fsn, (char *)vm + vm->vmt_data[VMT_STUB].vmt_off, fsnameLength); filesystems[i].mntPoint = fsnames[i] = fsn; if (stat(filesystems[i].mntPoint, &sb)) { rpmError(RPMERR_STAT, _("failed to stat %s: %s\n"), fsnames[i], strerror(errno)); freeFilesystems(); return 1; } filesystems[i].dev = sb.st_dev; filesystems[i].rdonly = rdonly; /* goto the next vmount structure: */ vm = (struct vmount *)((char *)vm + vm->vmt_length); } filesystems[i].mntPoint = NULL; fsnames[i] = NULL; return 0; } #else /* HAVE_MNTCTL */ /** * Get information for mounted file systems. * @todo determine rdonly for non-linux file systems. * @return 0 on success, 1 on error */ static int getFilesystemList(void) /*@globals fileSystem, internalState@*/ /*@modifies fileSystem, internalState@*/ { int numAlloced = 10; struct stat sb; int i; const char * mntdir; int rdonly = 0; # if GETMNTENT_ONE || GETMNTENT_TWO our_mntent item; FILE * mtab; mtab = fopen(MOUNTED, "r"); if (!mtab) { rpmError(RPMERR_MTAB, _("failed to open %s: %s\n"), MOUNTED, strerror(errno)); return 1; } # elif HAVE_GETMNTINFO_R struct statfs * mounts = NULL; int mntCount = 0, bufSize = 0, flags = MNT_NOWAIT; int nextMount = 0; getmntinfo_r(&mounts, flags, &mntCount, &bufSize); # endif filesystems = xcalloc((numAlloced + 1), sizeof(*filesystems)); /* XXX memory leak */ numFilesystems = 0; while (1) { # if GETMNTENT_ONE /* this is Linux */ /*@-modunconnomods -moduncon @*/ our_mntent * itemptr = getmntent(mtab); if (!itemptr) break; /*@-boundsread@*/ item = *itemptr; /* structure assignment */ /*@=boundsread@*/ mntdir = item.our_mntdir; #if defined(MNTOPT_RO) /*@-compdef@*/ if (hasmntopt(itemptr, MNTOPT_RO) != NULL) rdonly = 1; /*@=compdef@*/ #endif /*@=modunconnomods =moduncon @*/ # elif GETMNTENT_TWO /* Solaris, maybe others */ if (getmntent(mtab, &item)) break; mntdir = item.our_mntdir; # elif HAVE_GETMNTINFO_R if (nextMount == mntCount) break; mntdir = mounts[nextMount++].f_mntonname; # endif if (stat(mntdir, &sb)) { rpmError(RPMERR_STAT, _("failed to stat %s: %s\n"), mntdir, strerror(errno)); freeFilesystems(); return 1; } numFilesystems++; if ((numFilesystems + 1) == numAlloced) { numAlloced += 10; filesystems = xrealloc(filesystems, sizeof(*filesystems) * (numAlloced + 1)); } filesystems[numFilesystems-1].dev = sb.st_dev; filesystems[numFilesystems-1].mntPoint = xstrdup(mntdir); filesystems[numFilesystems-1].rdonly = rdonly; } # if GETMNTENT_ONE || GETMNTENT_TWO (void) fclose(mtab); # elif HAVE_GETMNTINFO_R mounts = _free(mounts); # endif filesystems[numFilesystems].dev = 0; filesystems[numFilesystems].mntPoint = NULL; filesystems[numFilesystems].rdonly = 0; /*@-boundswrite@*/ fsnames = xcalloc((numFilesystems + 1), sizeof(*fsnames)); for (i = 0; i < numFilesystems; i++) fsnames[i] = filesystems[i].mntPoint; fsnames[numFilesystems] = NULL; /*@=boundswrite@*/ return 0; } #endif /* HAVE_MNTCTL */ int rpmGetFilesystemList(const char *** listptr, int * num) { if (!fsnames) if (getFilesystemList()) return 1; /*@-boundswrite@*/ if (listptr) *listptr = fsnames; if (num) *num = numFilesystems; /*@=boundswrite@*/ return 0; } int rpmGetFilesystemUsage(const char ** fileList, int_32 * fssizes, int numFiles, uint_32 ** usagesPtr, /*@unused@*/ int flags) { int_32 * usages; int i, len, j; char * buf, * dirName; char * chptr; int maxLen; char * lastDir; const char * sourceDir; int lastfs = 0; int lastDev = -1; /* I hope nobody uses -1 for a st_dev */ struct stat sb; if (!fsnames) if (getFilesystemList()) return 1; usages = xcalloc(numFilesystems, sizeof(usages)); sourceDir = rpmGetPath("%{_sourcedir}", NULL); maxLen = strlen(sourceDir); /*@-boundsread@*/ for (i = 0; i < numFiles; i++) { len = strlen(fileList[i]); if (maxLen < len) maxLen = len; } /*@=boundsread@*/ /*@-boundswrite@*/ buf = alloca(maxLen + 1); lastDir = alloca(maxLen + 1); dirName = alloca(maxLen + 1); *lastDir = '\0'; /* cut off last filename */ for (i = 0; i < numFiles; i++) { if (*fileList[i] == '/') { strcpy(buf, fileList[i]); chptr = buf + strlen(buf) - 1; while (*chptr != '/') chptr--; if (chptr == buf) buf[1] = '\0'; else *chptr-- = '\0'; } else { /* this should only happen for source packages (gulp) */ strcpy(buf, sourceDir); } if (strcmp(lastDir, buf)) { strcpy(dirName, buf); chptr = dirName + strlen(dirName) - 1; while (stat(dirName, &sb)) { if (errno != ENOENT) { rpmError(RPMERR_STAT, _("failed to stat %s: %s\n"), buf, strerror(errno)); sourceDir = _free(sourceDir); usages = _free(usages); return 1; } /* cut off last directory part, because it was not found. */ while (*chptr != '/') chptr--; if (chptr == dirName) dirName[1] = '\0'; else *chptr-- = '\0'; } if (lastDev != sb.st_dev) { for (j = 0; j < numFilesystems; j++) if (filesystems && filesystems[j].dev == sb.st_dev) /*@innerbreak@*/ break; if (j == numFilesystems) { rpmError(RPMERR_BADDEV, _("file %s is on an unknown device\n"), buf); sourceDir = _free(sourceDir); usages = _free(usages); return 1; } lastfs = j; lastDev = sb.st_dev; } } strcpy(lastDir, buf); usages[lastfs] += fssizes[i]; } /*@=boundswrite@*/ sourceDir = _free(sourceDir); /*@-boundswrite@*/ /*@-branchstate@*/ if (usagesPtr) *usagesPtr = usages; else usages = _free(usages); /*@=branchstate@*/ /*@=boundswrite@*/ return 0; } /*@=usereleased =onlytrans@*/ /*@=mods@*/