/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * lofiadm - administer lofi(7d). Very simple, add and remove file<->device * associations, and display status. All the ioctls are private between * lofi and lofiadm, and so are very simple - device information is * communicated via a minor number. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "utils.h" static const char USAGE[] = "Usage: %s -a file [ device ]\n" " %s -d file | device\n" " %s -C [algorithm] [-s segment_size] file\n" " %s -U file\n" " %s [ file | device ]\n"; static const char *pname; static int addflag = 0; static int deleteflag = 0; static int errflag = 0; static int compressflag = 0; static int uncompressflag = 0; static int gzip_compress(void *src, size_t srclen, void *dst, size_t *destlen, int level); lofi_compress_info_t lofi_compress_table[LOFI_COMPRESS_FUNCTIONS] = { {NULL, gzip_compress, 6, "gzip"}, /* default */ {NULL, gzip_compress, 6, "gzip-6"}, {NULL, gzip_compress, 9, "gzip-9"} }; #define FORMAT "%-20s %-30s %s\n" #define NONE "-" #define COMPRESS "Compressed" #define COMPRESS_ALGORITHM "gzip" #define COMPRESS_THRESHOLD 2048 #define SEGSIZE 131072 #define BLOCK_SIZE 512 #define KILOBYTE 1024 #define MEGABYTE (KILOBYTE * KILOBYTE) #define GIGABYTE (KILOBYTE * MEGABYTE) #define LIBZ "libz.so" static int (*compress2p)(void *, ulong_t *, void *, size_t, int) = NULL; static int gzip_compress(void *src, size_t srclen, void *dst, size_t *dstlen, int level) { void *libz_hdl = NULL; /* * The first time we are called, attempt to dlopen() * libz.so and get a pointer to the compress2() function */ if (compress2p == NULL) { if ((libz_hdl = openlib(LIBZ)) == NULL) die(gettext("could not find %s. " "gzip compression unavailable\n"), LIBZ); if ((compress2p = (int (*)(void *, ulong_t *, void *, size_t, int)) dlsym(libz_hdl, "compress2")) == NULL) { closelib(); die(gettext("could not find the correct %s. " "gzip compression unavailable\n"), LIBZ); } } if ((*compress2p)(dst, (ulong_t *)dstlen, src, srclen, level) != 0) return (-1); return (0); } /* * Print the list of all the mappings. Including a header. */ static void print_mappings(int fd) { struct lofi_ioctl li; int minor; int maxminor; char path[MAXPATHLEN]; char options[MAXPATHLEN]; li.li_minor = 0; if (ioctl(fd, LOFI_GET_MAXMINOR, &li) == -1) { perror("ioctl"); exit(E_ERROR); } maxminor = li.li_minor; (void) printf(FORMAT, "Block Device", "File", "Options"); for (minor = 1; minor <= maxminor; minor++) { li.li_minor = minor; if (ioctl(fd, LOFI_GET_FILENAME, &li) == -1) { if (errno == ENXIO) continue; perror("ioctl"); break; } (void) snprintf(path, sizeof (path), "/dev/%s/%d", LOFI_BLOCK_NAME, minor); if (li.li_algorithm[0] == '\0') (void) snprintf(options, sizeof (options), "%s", NONE); else (void) snprintf(options, sizeof (options), COMPRESS "(%s)", li.li_algorithm); (void) printf(FORMAT, path, li.li_filename, options); } } static void usage(void) { (void) fprintf(stderr, gettext(USAGE), pname, pname, pname, pname, pname); exit(E_USAGE); } /* * Translate a lofi device name to a minor number. We might be asked * to do this when there is no association (such as when the user specifies * a particular device), so we can only look at the string. */ static int name_to_minor(const char *devicename) { int minor; if (sscanf(devicename, "/dev/" LOFI_BLOCK_NAME "/%d", &minor) == 1) { return (minor); } if (sscanf(devicename, "/dev/" LOFI_CHAR_NAME "/%d", &minor) == 1) { return (minor); } return (0); } /* * This might be the first time we've used this minor number. If so, * it might also be that the /dev links are in the process of being created * by devfsadmd (or that they'll be created "soon"). We cannot return * until they're there or the invoker of lofiadm might try to use them * and not find them. This can happen if a shell script is running on * an MP. */ static int sleeptime = 2; /* number of seconds to sleep between stat's */ static int maxsleep = 120; /* maximum number of seconds to sleep */ static void wait_until_dev_complete(int minor) { struct stat64 buf; int cursleep; char blkpath[MAXPATHLEN]; char charpath[MAXPATHLEN]; di_devlink_handle_t hdl; (void) snprintf(blkpath, sizeof (blkpath), "/dev/%s/%d", LOFI_BLOCK_NAME, minor); (void) snprintf(charpath, sizeof (charpath), "/dev/%s/%d", LOFI_CHAR_NAME, minor); /* Check if links already present */ if (stat64(blkpath, &buf) == 0 && stat64(charpath, &buf) == 0) return; /* First use di_devlink_init() */ if (hdl = di_devlink_init("lofi", DI_MAKE_LINK)) { (void) di_devlink_fini(&hdl); goto out; } /* * Under normal conditions, di_devlink_init(DI_MAKE_LINK) above will * only fail if the caller is non-root. In that case, wait for * link creation via sysevents. */ cursleep = 0; while (cursleep < maxsleep) { if ((stat64(blkpath, &buf) == -1) || (stat64(charpath, &buf) == -1)) { (void) sleep(sleeptime); cursleep += sleeptime; continue; } return; } /* one last try */ out: if (stat64(blkpath, &buf) == -1) { die(gettext("%s was not created"), blkpath); } if (stat64(charpath, &buf) == -1) { die(gettext("%s was not created"), charpath); } } /* * Add a device association. If devicename is NULL, let the driver * pick a device. */ static void add_mapping(int lfd, const char *devicename, const char *filename, int *minor_created, int suppress) { struct lofi_ioctl li; int minor; if (devicename == NULL) { /* pick one */ li.li_minor = 0; (void) strlcpy(li.li_filename, filename, sizeof (li.li_filename)); minor = ioctl(lfd, LOFI_MAP_FILE, &li); if (minor == -1) { die(gettext("could not map file %s"), filename); } wait_until_dev_complete(minor); /* print one picked */ if (!suppress) (void) printf("/dev/%s/%d\n", LOFI_BLOCK_NAME, minor); /* fill in the minor if needed */ if (minor_created != NULL) { *minor_created = minor; } return; } /* use device we were given */ minor = name_to_minor(devicename); if (minor == 0) { die(gettext("malformed device name %s\n"), devicename); } (void) strlcpy(li.li_filename, filename, sizeof (li.li_filename)); li.li_minor = minor; if (ioctl(lfd, LOFI_MAP_FILE_MINOR, &li) == -1) { die(gettext("could not map file %s to %s"), filename, devicename); } wait_until_dev_complete(minor); } /* * Remove an association. Delete by device name if non-NULL, or by * filename otherwise. */ static void delete_mapping(int lfd, const char *devicename, const char *filename, boolean_t force) { struct lofi_ioctl li; li.li_force = force; li.li_cleanup = B_FALSE; if (devicename == NULL) { /* delete by filename */ (void) strlcpy(li.li_filename, filename, sizeof (li.li_filename)); li.li_minor = 0; if (ioctl(lfd, LOFI_UNMAP_FILE, &li) == -1) { die(gettext("could not unmap file %s"), filename); } return; } /* delete by device */ li.li_minor = name_to_minor(devicename); if (li.li_minor == 0) { die(gettext("malformed device name %s\n"), devicename); } if (ioctl(lfd, LOFI_UNMAP_FILE_MINOR, &li) == -1) { die(gettext("could not unmap device %s"), devicename); } } static void print_one_mapping(int lfd, const char *devicename, const char *filename) { struct lofi_ioctl li; if (devicename == NULL) { /* given filename, print devicename */ li.li_minor = 0; (void) strlcpy(li.li_filename, filename, sizeof (li.li_filename)); if (ioctl(lfd, LOFI_GET_MINOR, &li) == -1) { die(gettext("could not find device for %s"), filename); } (void) printf("/dev/%s/%d\n", LOFI_BLOCK_NAME, li.li_minor); return; } /* given devicename, print filename */ li.li_minor = name_to_minor(devicename); if (li.li_minor == 0) { die(gettext("malformed device name %s\n"), devicename); } if (ioctl(lfd, LOFI_GET_FILENAME, &li) == -1) { die(gettext("could not find filename for %s"), devicename); } (void) printf("%s\n", li.li_filename); } /* * Uncompress a file. * * First map the file in to establish a device * association, then read from it. On-the-fly * decompression will automatically uncompress * the file if it's compressed * * If the file is mapped and a device association * has been established, disallow uncompressing * the file until it is unmapped. */ static void lofi_uncompress(int lfd, const char *filename) { struct lofi_ioctl li; char buf[MAXBSIZE]; char devicename[32]; char tmpfilename[MAXPATHLEN]; char *dir = NULL; char *file = NULL; int minor = 0; struct stat64 statbuf; int compfd = -1; int uncompfd = -1; ssize_t rbytes; /* * Disallow uncompressing the file if it is * already mapped. */ li.li_minor = 0; (void) strlcpy(li.li_filename, filename, sizeof (li.li_filename)); if (ioctl(lfd, LOFI_GET_MINOR, &li) != -1) die(gettext("%s must be unmapped before uncompressing"), filename); /* Zero length files don't need to be uncompressed */ if (stat64(filename, &statbuf) == -1) die(gettext("stat: %s"), filename); if (statbuf.st_size == 0) return; add_mapping(lfd, NULL, filename, &minor, 1); (void) snprintf(devicename, sizeof (devicename), "/dev/%s/%d", LOFI_BLOCK_NAME, minor); /* If the file isn't compressed, we just return */ if ((ioctl(lfd, LOFI_CHECK_COMPRESSED, &li) == -1) || (li.li_algorithm[0] == '\0')) { delete_mapping(lfd, devicename, filename, B_TRUE); die("%s is not compressed\n", filename); } if ((compfd = open64(devicename, O_RDONLY | O_NONBLOCK)) == -1) { delete_mapping(lfd, devicename, filename, B_TRUE); die(gettext("open: %s"), filename); } /* Create a temp file in the same directory */ dir = strdup(filename); dir = dirname(dir); file = strdup(filename); file = basename(file); (void) snprintf(tmpfilename, sizeof (tmpfilename), "%s/.%sXXXXXX", dir, file); if ((uncompfd = mkstemp64(tmpfilename)) == -1) { (void) close(compfd); delete_mapping(lfd, devicename, filename, B_TRUE); free(dir); free(file); die("%s could not be uncompressed\n", filename); } /* * Set the mode bits and the owner of this temporary * file to be that of the original uncompressed file */ (void) fchmod(uncompfd, statbuf.st_mode); if (fchown(uncompfd, statbuf.st_uid, statbuf.st_gid) == -1) { (void) close(compfd); (void) close(uncompfd); delete_mapping(lfd, devicename, filename, B_TRUE); free(dir); free(file); die("%s could not be uncompressed\n", filename); } /* Now read from the device in MAXBSIZE-sized chunks */ for (;;) { rbytes = read(compfd, buf, sizeof (buf)); if (rbytes <= 0) break; if (write(uncompfd, buf, rbytes) != rbytes) { rbytes = -1; break; } } (void) close(compfd); (void) close(uncompfd); free(dir); free(file); /* Delete the mapping */ delete_mapping(lfd, devicename, filename, B_TRUE); /* * If an error occured while reading or writing, rbytes will * be negative */ if (rbytes < 0) { (void) unlink(tmpfilename); die(gettext("could not read from %s"), filename); } /* Rename the temp file to the actual file */ if (rename(tmpfilename, filename) == -1) (void) unlink(tmpfilename); } /* * Compress a file */ static void lofi_compress(int *lfd, const char *filename, int compress_index, uint32_t segsize) { struct lofi_ioctl lic; lofi_compress_info_t *li; struct flock lock; char tmpfilename[MAXPATHLEN]; char comp_filename[MAXPATHLEN]; char algorithm[MAXALGLEN]; char *dir = NULL, *file = NULL; uchar_t *uncompressed_seg = NULL; uchar_t *compressed_seg = NULL; uint32_t compressed_segsize; uint32_t len_compressed, count; uint32_t index_entries, index_sz; uint64_t *index = NULL; uint64_t offset; size_t real_segsize; struct stat64 statbuf; int compfd = -1, uncompfd = -1; int tfd = -1; ssize_t rbytes, wbytes, lastread; int i, type; /* * Disallow compressing the file if it is * already mapped */ lic.li_minor = 0; (void) strlcpy(lic.li_filename, filename, sizeof (lic.li_filename)); if (ioctl(*lfd, LOFI_GET_MINOR, &lic) != -1) die(gettext("%s must be unmapped before compressing"), filename); /* * Close the control device so other operations * can use it */ (void) close(*lfd); *lfd = -1; li = &lofi_compress_table[compress_index]; /* * The size of the buffer to hold compressed data must * be slightly larger than the compressed segment size. * * The compress functions use part of the buffer as * scratch space to do calculations. * Ref: http://www.zlib.net/manual.html#compress2 */ compressed_segsize = segsize + (segsize >> 6); compressed_seg = (uchar_t *)malloc(compressed_segsize + SEGHDR); uncompressed_seg = (uchar_t *)malloc(segsize); if (compressed_seg == NULL || uncompressed_seg == NULL) die(gettext("No memory")); if ((uncompfd = open64(filename, O_RDWR|O_LARGEFILE, 0)) == -1) die(gettext("open: %s"), filename); lock.l_type = F_WRLCK; lock.l_whence = SEEK_SET; lock.l_start = 0; lock.l_len = 0; /* * Use an advisory lock to ensure that only a * single lofiadm process compresses a given * file at any given time * * A close on the file descriptor automatically * closes all lock state on the file */ if (fcntl(uncompfd, F_SETLKW, &lock) == -1) die(gettext("fcntl: %s"), filename); if (fstat64(uncompfd, &statbuf) == -1) { (void) close(uncompfd); die(gettext("fstat: %s"), filename); } /* Zero length files don't need to be compressed */ if (statbuf.st_size == 0) { (void) close(uncompfd); return; } /* * Create temporary files in the same directory that * will hold the intermediate data */ dir = strdup(filename); dir = dirname(dir); file = strdup(filename); file = basename(file); (void) snprintf(tmpfilename, sizeof (tmpfilename), "%s/.%sXXXXXX", dir, file); (void) snprintf(comp_filename, sizeof (comp_filename), "%s/.%sXXXXXX", dir, file); if ((tfd = mkstemp64(tmpfilename)) == -1) goto cleanup; if ((compfd = mkstemp64(comp_filename)) == -1) goto cleanup; /* * Set the mode bits and owner of the compressed * file to be that of the original uncompressed file */ (void) fchmod(compfd, statbuf.st_mode); if (fchown(compfd, statbuf.st_uid, statbuf.st_gid) == -1) goto cleanup; /* * Calculate the number of index entries required. * index entries are stored as an array. adding * a '2' here accounts for the fact that the last * segment may not be a multiple of the segment size */ index_sz = (statbuf.st_size / segsize) + 2; index = malloc(sizeof (*index) * index_sz); if (index == NULL) goto cleanup; offset = 0; lastread = segsize; count = 0; /* * Now read from the uncompressed file in 'segsize' * sized chunks, compress what was read in and * write it out to a temporary file */ for (;;) { rbytes = read(uncompfd, uncompressed_seg, segsize); if (rbytes <= 0) break; if (lastread < segsize) goto cleanup; /* * Account for the first byte that * indicates whether a segment is * compressed or not */ real_segsize = segsize - 1; (void) li->l_compress(uncompressed_seg, rbytes, compressed_seg + SEGHDR, &real_segsize, li->l_level); /* * If the length of the compressed data is more * than a threshold then there isn't any benefit * to be had from compressing this segment - leave * it uncompressed. * * NB. In case an error occurs during compression (above) * the 'real_segsize' isn't changed. The logic below * ensures that that segment is left uncompressed. */ len_compressed = real_segsize; if (real_segsize > segsize - COMPRESS_THRESHOLD) { (void) memcpy(compressed_seg + SEGHDR, uncompressed_seg, rbytes); type = UNCOMPRESSED; len_compressed = rbytes; } else { type = COMPRESSED; } /* * Set the first byte or the SEGHDR to * indicate if it's compressed or not */ *compressed_seg = type; wbytes = write(tfd, compressed_seg, len_compressed + SEGHDR); if (wbytes != (len_compressed + SEGHDR)) { rbytes = -1; break; } index[count] = BE_64(offset); offset += wbytes; lastread = rbytes; count++; } (void) close(uncompfd); if (rbytes < 0) goto cleanup; /* * The last index entry is a sentinel entry. It does not point to * an actual compressed segment but helps in computing the size of * the compressed segment. The size of each compressed segment is * computed by subtracting the current index value from the next * one (the compressed blocks are stored sequentially) */ index[count++] = BE_64(offset); /* * Now write the compressed data along with the * header information to this file which will * later be renamed to the original uncompressed * file name * * The header is as follows - * * Signature (name of the compression algorithm) * Compression segment size (a multiple of 512) * Number of index entries * Size of the last block * The array containing the index entries * * the header is always stored in network byte * order */ (void) bzero(algorithm, sizeof (algorithm)); (void) strlcpy(algorithm, li->l_name, sizeof (algorithm)); if (write(compfd, algorithm, sizeof (algorithm)) != sizeof (algorithm)) goto cleanup; segsize = htonl(segsize); if (write(compfd, &segsize, sizeof (segsize)) != sizeof (segsize)) goto cleanup; index_entries = htonl(count); if (write(compfd, &index_entries, sizeof (index_entries)) != sizeof (index_entries)) goto cleanup; lastread = htonl(lastread); if (write(compfd, &lastread, sizeof (lastread)) != sizeof (lastread)) goto cleanup; for (i = 0; i < count; i++) { if (write(compfd, index + i, sizeof (*index)) != sizeof (*index)) goto cleanup; } /* Header is written, now write the compressed data */ if (lseek(tfd, 0, SEEK_SET) != 0) goto cleanup; rbytes = wbytes = 0; for (;;) { rbytes = read(tfd, compressed_seg, compressed_segsize + SEGHDR); if (rbytes <= 0) break; if (write(compfd, compressed_seg, rbytes) != rbytes) goto cleanup; } if (fstat64(compfd, &statbuf) == -1) goto cleanup; /* * Round up the compressed file size to be a multiple of * DEV_BSIZE. lofi(7D) likes it that way. */ if ((offset = statbuf.st_size % DEV_BSIZE) > 0) { offset = DEV_BSIZE - offset; for (i = 0; i < offset; i++) uncompressed_seg[i] = '\0'; if (write(compfd, uncompressed_seg, offset) != offset) goto cleanup; } (void) close(compfd); (void) close(tfd); (void) unlink(tmpfilename); cleanup: if (rbytes < 0) { if (tfd != -1) (void) unlink(tmpfilename); if (compfd != -1) (void) unlink(comp_filename); die(gettext("error compressing file %s"), filename); } else { /* Rename the compressed file to the actual file */ if (rename(comp_filename, filename) == -1) { (void) unlink(comp_filename); die(gettext("error compressing file %s"), filename); } } if (compressed_seg != NULL) free(compressed_seg); if (uncompressed_seg != NULL) free(uncompressed_seg); if (dir != NULL) free(dir); if (file != NULL) free(file); if (index != NULL) free(index); if (compfd != -1) (void) close(compfd); if (uncompfd != -1) (void) close(uncompfd); if (tfd != -1) (void) close(tfd); } static int lofi_compress_select(const char *algname) { int i; for (i = 0; i < LOFI_COMPRESS_FUNCTIONS; i++) { if (strcmp(lofi_compress_table[i].l_name, algname) == 0) return (i); } return (-1); } static void check_algorithm_validity(const char *algname, int *compress_index) { *compress_index = lofi_compress_select(algname); if (*compress_index < 0) die(gettext("invalid algorithm name: %s\n"), algname); } static void check_file_validity(const char *filename) { struct stat64 buf; int error; int fd = -1; fd = open64(filename, O_RDONLY); if (fd == -1) { die(gettext("open: %s"), filename); } error = fstat64(fd, &buf); if (error == -1) { die(gettext("fstat: %s"), filename); } else if (!S_ISLOFIABLE(buf.st_mode)) { die(gettext("%s is not a regular file, " "block, or character device\n"), filename); } else if ((buf.st_size % DEV_BSIZE) != 0) { die(gettext("size of %s is not a multiple of %d\n"), filename, DEV_BSIZE); } (void) close(fd); if (name_to_minor(filename) != 0) { die(gettext("cannot use %s on itself\n"), LOFI_DRIVER_NAME); } } static uint32_t convert_to_num(const char *str) { int len; uint32_t segsize, mult = 1; len = strlen(str); if (len && isalpha(str[len - 1])) { switch (str[len - 1]) { case 'k': case 'K': mult = KILOBYTE; break; case 'b': case 'B': mult = BLOCK_SIZE; break; case 'm': case 'M': mult = MEGABYTE; break; case 'g': case 'G': mult = GIGABYTE; break; default: die(gettext("invalid segment size %s\n"), str); } } segsize = atol(str); segsize *= mult; return (segsize); } int main(int argc, char *argv[]) { int lfd; int c; const char *devicename = NULL; const char *filename = NULL; const char *algname = COMPRESS_ALGORITHM; int openflag; int minor; int compress_index; uint32_t segsize = SEGSIZE; static char *lofictl = "/dev/" LOFI_CTL_NAME; boolean_t force = B_FALSE; char realfilename[MAXPATHLEN]; pname = getpname(argv[0]); (void) setlocale(LC_ALL, ""); (void) textdomain(TEXT_DOMAIN); while ((c = getopt(argc, argv, "a:C:d:s:U:f")) != EOF) { switch (c) { case 'a': addflag = 1; if ((filename = realpath(optarg, realfilename)) == NULL) die("%s", optarg); check_file_validity(filename); if (((argc - optind) > 0) && (*argv[optind] != '-')) { /* optional device */ devicename = argv[optind]; optind++; } break; case 'C': compressflag = 1; if (((argc - optind) > 0) && (*optarg == '-')) { check_algorithm_validity(algname, &compress_index); optind--; break; } else if (((argc - optind) == 1) && (*argv[optind] != '-')) { algname = optarg; if ((filename = realpath(argv[optind], realfilename)) == NULL) die("%s", argv[optind]); optind++; } else if (((argc - optind) > 1) && (*argv[optind] == '-')) { algname = optarg; check_algorithm_validity(algname, &compress_index); break; } else { if ((filename = realpath(optarg, realfilename)) == NULL) die("%s", optarg); } check_file_validity(filename); check_algorithm_validity(algname, &compress_index); break; case 'd': deleteflag = 1; minor = name_to_minor(optarg); if (minor != 0) devicename = optarg; else { if ((filename = realpath(optarg, realfilename)) == NULL) die("%s", optarg); } break; case 'f': force = B_TRUE; break; case 's': segsize = convert_to_num(optarg); if (segsize == 0 || segsize % DEV_BSIZE) die(gettext("segment size %s is invalid " "or not a multiple of minimum block " "size %ld\n"), optarg, DEV_BSIZE); if ((filename = realpath(argv[optind], realfilename)) == NULL) die("%s", argv[optind]); check_file_validity(filename); optind++; break; case 'U': uncompressflag = 1; if ((filename = realpath(optarg, realfilename)) == NULL) die("%s", optarg); check_file_validity(filename); break; case '?': default: errflag = 1; break; } } if (errflag || (addflag && deleteflag) || ((compressflag || uncompressflag) && (addflag || deleteflag))) usage(); switch (argc - optind) { case 0: /* no more args */ break; case 1: /* one arg without options means print the association */ if (addflag || deleteflag) usage(); if (compressflag || uncompressflag) usage(); minor = name_to_minor(argv[optind]); if (minor != 0) devicename = argv[optind]; else { if ((filename = realpath(argv[optind], realfilename)) == NULL) die("%s", argv[optind]); } break; default: usage(); break; } if (filename && !valid_abspath(filename)) exit(E_ERROR); /* * Here, we know the arguments are correct, the filename is an * absolute path, it exists and is a regular file. We don't yet * know that the device name is ok or not. */ /* * Now to the real work. */ openflag = O_EXCL; if (addflag || deleteflag || compressflag || uncompressflag) openflag |= O_RDWR; else openflag |= O_RDONLY; lfd = open(lofictl, openflag); if (lfd == -1) { if ((errno == EPERM) || (errno == EACCES)) { die(gettext("you do not have permission to perform " "that operation.\n")); } else { die(gettext("open: %s"), lofictl); } /*NOTREACHED*/ } if (addflag) add_mapping(lfd, devicename, filename, NULL, 0); else if (compressflag) lofi_compress(&lfd, filename, compress_index, segsize); else if (uncompressflag) lofi_uncompress(lfd, filename); else if (deleteflag) delete_mapping(lfd, devicename, filename, force); else if (filename || devicename) print_one_mapping(lfd, devicename, filename); else print_mappings(lfd); if (lfd != -1) (void) close(lfd); closelib(); return (E_SUCCESS); }