/* * mkswap.c - set up a linux swap device * * (C) 1991 Linus Torvalds. This file may be redistributed as per * the Linux copyright. */ /* * 20.12.91 - time began. Got VM working yesterday by doing this by hand. * * Usage: mkswap [-c] [-vN] [-f] device [size-in-blocks] * * -c for readability checking. (Use it unless you are SURE!) * -vN for swap areas version N. (Only N=0,1 known today.) * -f for forcing swap creation even if it would smash partition table. * * The device may be a block device or an image of one, but this isn't * enforced (but it's not much fun on a character device :-). * * Patches from jaggy@purplet.demon.co.uk (Mike Jagdis) to make the * size-in-blocks parameter optional added Wed Feb 8 10:33:43 1995. * * Version 1 swap area code (for kernel 2.1.117), aeb, 981010. * * Sparc fixes, jj@ultra.linux.cz (Jakub Jelinek), 981201 - mangled by aeb. * V1_MAX_PAGES fixes, jj, 990325. * sparc64 fixes, jj, 000219. * * 1999-02-22 Arkadiusz Mi¶kiewicz * - added Native Language Support * */ #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_LIBSELINUX #include #include #endif #include "linux_version.h" #include "swapheader.h" #include "xstrncpy.h" #include "nls.h" #include "blkdev.h" #include "pathnames.h" #include "wholedisk.h" #ifdef HAVE_LIBUUID # ifdef HAVE_UUID_UUID_H # include # else # include # endif #endif #ifdef HAVE_LIBBLKID_INTERNAL # include #endif static char * program_name = "mkswap"; static char * device_name = NULL; static int DEV = -1; static unsigned long long PAGES = 0; static unsigned long badpages = 0; static int check = 0; #define SELINUX_SWAPFILE_TYPE "swapfile_t" #ifdef __sparc__ # ifdef __arch64__ # define is_sparc64() 1 # define is_be64() 1 # else /* sparc32 */ static int is_sparc64(void) { struct utsname un; static int sparc64 = -1; if (sparc64 != -1) return sparc64; sparc64 = 0; if (uname(&un) < 0) return 0; if (! strcmp(un.machine, "sparc64")) { sparc64 = 1; return 1; } if (strcmp(un.machine, "sparc")) return 0; /* Should not happen */ #ifdef HAVE_PERSONALITY { extern int personality(unsigned long); int oldpers; #define PERS_LINUX 0x00000000 #define PERS_LINUX_32BIT 0x00800000 #define PERS_LINUX32 0x00000008 oldpers = personality(PERS_LINUX_32BIT); if (oldpers != -1) { if (personality(PERS_LINUX) != -1) { uname(&un); if (! strcmp(un.machine, "sparc64")) { sparc64 = 1; oldpers = PERS_LINUX32; } } personality(oldpers); } } #endif return sparc64; } # define is_be64() is_sparc64() # endif /* sparc32 */ #else /* !sparc */ # define is_be64() 0 #endif /* * The definition of the union swap_header uses the kernel constant PAGE_SIZE. * Unfortunately, on some architectures this depends on the hardware model, and * can only be found at run time -- we use getpagesize(), so that we do not * need separate binaries e.g. for sun4, sun4c/d/m and sun4u. * * Even more unfortunately, getpagesize() does not always return the right * information. For example, libc4, libc5 and glibc 2.0 do not use the system * call but invent a value themselves (EXEC_PAGESIZE or NBPG * CLSIZE or NBPC), * and thus it may happen that e.g. on a sparc kernel PAGE_SIZE=4096 and * getpagesize() returns 8192. * * What to do? Let us allow the user to specify the pagesize explicitly. * */ static int user_pagesize; static int pagesize; static unsigned long *signature_page = NULL; struct swap_header_v1 *p; static void init_signature_page(void) { int kernel_pagesize = pagesize = getpagesize(); if (user_pagesize) { if ((user_pagesize & (user_pagesize-1)) || user_pagesize < 1024) { fprintf(stderr, _("Bad user-specified page size %d\n"), user_pagesize); exit(1); } pagesize = user_pagesize; } if (user_pagesize && user_pagesize != kernel_pagesize) fprintf(stderr, _("Using user-specified page size %d, " "instead of the system value %d\n"), pagesize, kernel_pagesize); signature_page = (unsigned long *) malloc(pagesize); memset(signature_page, 0, pagesize); p = (struct swap_header_v1 *) signature_page; } static void deinit_signature_page(void) { free(signature_page); } static void write_signature(char *sig) { char *sp = (char *) signature_page; strncpy(sp+pagesize-10, sig, 10); } static void write_uuid_and_label(unsigned char *uuid, char *volume_name) { struct swap_header_v1_2 *h; /* Sanity check */ if (sizeof(struct swap_header_v1) != sizeof(struct swap_header_v1_2)) { fprintf(stderr, _("Bad swap header size, no label written.\n")); return; } h = (struct swap_header_v1_2 *) signature_page; if (uuid) memcpy(h->uuid, uuid, sizeof(h->uuid)); if (volume_name) { xstrncpy(h->volume_name, volume_name, sizeof(h->volume_name)); if (strlen(volume_name) > strlen(h->volume_name)) fprintf(stderr, _("Label was truncated.\n")); } if (uuid || volume_name) { if (volume_name) printf("LABEL=%s, ", h->volume_name); else printf(_("no label, ")); #ifdef HAVE_LIBUUID if (uuid) { char uuid_string[37]; uuid_unparse(uuid, uuid_string); printf("UUID=%s\n", uuid_string); } else #endif printf(_("no uuid\n")); } } /* * Find out what the maximum amount of swap space is that the kernel will * handle. This wouldn't matter if the kernel just used as much of the * swap space as it can handle, but until 2.3.4 it would return an error * to swapon() if the swapspace was too large. */ /* Before 2.2.0pre9 */ #define V1_OLD_MAX_PAGES ((0x7fffffff / pagesize) - 1) /* Since 2.2.0pre9, before 2.3.4: error if nr of pages >= SWP_OFFSET(SWP_ENTRY(0,~0UL)) with variations on #define SWP_ENTRY(type,offset) (((type) << 1) | ((offset) << 8)) #define SWP_OFFSET(entry) ((entry) >> 8) on the various architectures. Below the result - yuk. Machine pagesize SWP_ENTRY SWP_OFFSET bound+1 oldbound+2 i386 2^12 o<<8 e>>8 1<<24 1<<19 mips 2^12 o<<15 e>>15 1<<17 1<<19 alpha 2^13 o<<40 e>>40 1<<24 1<<18 m68k 2^12 o<<12 e>>12 1<<20 1<<19 sparc 2^{12,13} (o&0x3ffff)<<9 (e>>9)&0x3ffff 1<<18 1<<{19,18} sparc64 2^13 o<<13 e>>13 1<<51 1<<18 ppc 2^12 o<<8 e>>8 1<<24 1<<19 armo 2^{13,14,15} o<<8 e>>8 1<<24 1<<{18,17,16} armv 2^12 o<<9 e>>9 1<<23 1<<19 assuming that longs have 64 bits on alpha and sparc64 and 32 bits elsewhere. The bad part is that we need to know this since the kernel will refuse a swap space if it is too large. */ /* patch from jj - why does this differ from the above? */ /* 32bit kernels have a second limitation of 2GB, sparc64 is limited by the size of virtual address space allocation for vmalloc */ #if defined(__alpha__) #define V1_MAX_PAGES ((1 << 24) - 1) #elif defined(__mips__) #define V1_MAX_PAGES ((1 << 17) - 1) #elif defined(__sparc__) #define V1_MAX_PAGES (is_sparc64() ? ((3 << 29) - 1) : ((1 << 18) - 1)) #elif defined(__ia64__) /* * The actual size will depend on the amount of virtual address space * available to vmalloc the swap map. */ #define V1_MAX_PAGES ((1UL << 54) - 1) #else #define V1_MAX_PAGES V1_OLD_MAX_PAGES #endif /* man page now says: The maximum useful size of a swap area now depends on the architecture. It is roughly 2GB on i386, PPC, m68k, ARM, 1GB on sparc, 512MB on mips, 128GB on alpha and 3TB on sparc64. */ #define MAX_BADPAGES ((pagesize-1024-128*sizeof(int)-10)/sizeof(int)) #define MIN_GOODPAGES 10 static void usage(void) { fprintf(stderr, _("Usage: %s [-c] [-pPAGESZ] [-L label] [-U UUID] /dev/name [blocks]\n"), program_name); exit(1); } static void die(const char *str) { fprintf(stderr, "%s: %s\n", program_name, str); exit(1); } static void page_bad(int page) { if (badpages == MAX_BADPAGES) die(_("too many bad pages")); p->badpages[badpages] = page; badpages++; } static void check_blocks(void) { unsigned int current_page; int do_seek = 1; char *buffer; buffer = malloc(pagesize); if (!buffer) die(_("Out of memory")); current_page = 0; while (current_page < PAGES) { if (do_seek && lseek(DEV,current_page*pagesize,SEEK_SET) != current_page*pagesize) die(_("seek failed in check_blocks")); if ((do_seek = (pagesize != read(DEV, buffer, pagesize)))) page_bad(current_page); current_page++; } if (badpages == 1) printf(_("one bad page\n")); else if (badpages > 1) printf(_("%lu bad pages\n"), badpages); free(buffer); } /* return size in pages */ static unsigned long long get_size(const char *file) { int fd; unsigned long long size; fd = open(file, O_RDONLY); if (fd < 0) { perror(file); exit(1); } if (blkdev_get_size(fd, &size) == 0) size /= pagesize; close(fd); return size; } static int isnzdigit(char c) { return (c >= '1' && c <= '9'); } /* * Check to make certain that our new filesystem won't be created on * an already mounted partition. Code adapted from mke2fs, Copyright * (C) 1994 Theodore Ts'o. Also licensed under GPL. * (C) 2006 Karel Zak -- port to mkswap */ static int check_mount(void) { FILE * f; struct mntent * mnt; if ((f = setmntent (_PATH_MOUNTED, "r")) == NULL) return 0; while ((mnt = getmntent (f)) != NULL) if (strcmp (device_name, mnt->mnt_fsname) == 0) break; endmntent (f); if (!mnt) return 0; return 1; } static int write_all(int fd, const void *buf, size_t count) { while(count) { ssize_t tmp; errno = 0; tmp = write(fd, buf, count); if (tmp > 0) { count -= tmp; if (count) buf += tmp; } else if (errno != EINTR && errno != EAGAIN) return -1; } return 0; } static void zap_bootbits(int fd, const char *devname, int force) { char *type = NULL; int whole = 0; int zap = 1; if (!force) { if (lseek(fd, 0, SEEK_SET) != 0) die(_("unable to rewind swap-device")); if (is_whole_disk_fd(fd, devname)) { /* don't zap bootbits on whole disk -- we know nothing * about bootloaders on the device */ whole = 1; zap = 0; } else { #ifdef HAVE_LIBBLKID_INTERNAL blkid_probe pr = blkid_new_probe(); if (!pr) die(_("unable to alloc new libblkid probe")); if (blkid_probe_set_device(pr, fd, 0, 0)) die(_("unable to assign device to liblkid probe")); blkid_probe_enable_partitions(pr, 1); blkid_probe_enable_superblocks(pr, 0); if (blkid_do_fullprobe(pr) == 0) blkid_probe_lookup_value(pr, "PTTYPE", (const char **) &type, NULL); if (type) { type = strdup(type); zap = 0; } blkid_free_probe(pr); #else /* don't zap if compiled without libblkid */ zap = 0; #endif } } if (zap) { char buf[1024]; if (lseek(fd, 0, SEEK_SET) != 0) die(_("unable to rewind swap-device")); memset(buf, 0, sizeof(buf)); if (write_all(fd, buf, sizeof(buf))) die(_("unable to erase bootbits sectors")); return; } fprintf(stderr, _("%s: %s: warning: don't erase bootbits sectors\n"), program_name, devname); if (type) fprintf(stderr, _(" (%s partition table detected). "), type); else if (whole) fprintf(stderr, _(" on whole disk. ")); else fprintf(stderr, _(" (compiled without libblkid). ")); fprintf(stderr, "Use -f to force.\n"); } int main(int argc, char ** argv) { struct stat statbuf; int i; unsigned long long maxpages; unsigned long long goodpages; unsigned long long sz; off_t offset; int force = 0; int version = 1; char *block_count = 0; char *pp; char *opt_label = NULL; unsigned char *uuid = NULL; #ifdef HAVE_LIBUUID const char *opt_uuid = NULL; uuid_t uuid_dat; #endif program_name = (argc && *argv) ? argv[0] : "mkswap"; if ((pp = strrchr(program_name, '/')) != NULL) program_name = pp+1; setlocale(LC_ALL, ""); bindtextdomain(PACKAGE, LOCALEDIR); textdomain(PACKAGE); if (argc == 2 && (!strcmp(argv[1], "-V") || !strcmp(argv[1], "--version"))) { printf(_("%s (%s)\n"), program_name, PACKAGE_STRING); exit(0); } for (i=1; i sz && !force) { fprintf(stderr, _("%s: error: " "size %llu KiB is larger than device size %llu KiB\n"), program_name, PAGES*(pagesize/1024), sz*(pagesize/1024)); exit(1); } if (PAGES < MIN_GOODPAGES) { fprintf(stderr, _("%s: error: swap area needs to be at least %ld KiB\n"), program_name, (long)(MIN_GOODPAGES * pagesize/1024)); usage(); } #ifdef __linux__ if (get_linux_version() >= KERNEL_VERSION(2,3,4)) maxpages = UINT_MAX + 1ULL; else if (get_linux_version() >= KERNEL_VERSION(2,2,1)) maxpages = V1_MAX_PAGES; else #endif maxpages = V1_OLD_MAX_PAGES; if (PAGES > maxpages) { PAGES = maxpages; fprintf(stderr, _("%s: warning: truncating swap area to %llu KiB\n"), program_name, PAGES * pagesize / 1024); } if (stat(device_name, &statbuf) < 0) { perror(device_name); exit(EXIT_FAILURE); } if (S_ISBLK(statbuf.st_mode)) DEV = open(device_name, O_RDWR | O_EXCL); else DEV = open(device_name, O_RDWR); if (DEV < 0) { perror(device_name); exit(1); } /* Want a block device. Probably not /dev/hda or /dev/hdb. */ if (!S_ISBLK(statbuf.st_mode)) check=0; else if (statbuf.st_rdev == 0x0300 || statbuf.st_rdev == 0x0340) { fprintf(stderr, _("%s: error: " "will not try to make swapdevice on '%s'\n"), program_name, device_name); exit(1); } else if (check_mount()) { fprintf(stderr, _("%s: error: " "%s is mounted; will not make swapspace.\n"), program_name, device_name); exit(1); } if (check) check_blocks(); zap_bootbits(DEV, device_name, force); p->version = 1; p->last_page = PAGES-1; p->nr_badpages = badpages; if (badpages > PAGES - MIN_GOODPAGES) die(_("Unable to set up swap-space: unreadable")); goodpages = PAGES - badpages - 1; printf(_("Setting up swapspace version 1, size = %llu KiB\n"), goodpages * pagesize / 1024); write_signature("SWAPSPACE2"); write_uuid_and_label(uuid, opt_label); offset = 1024; if (lseek(DEV, offset, SEEK_SET) != offset) die(_("unable to rewind swap-device")); if (write_all(DEV, (char *) signature_page + offset, pagesize - offset) == -1) { fprintf(stderr, _("%s: %s: unable to write signature page: %s"), program_name, device_name, strerror(errno)); exit(1); } /* * A subsequent swapon() will fail if the signature * is not actually on disk. (This is a kernel bug.) */ #ifdef HAVE_FSYNC if (fsync(DEV)) die(_("fsync failed")); #endif #ifdef HAVE_LIBSELINUX if (S_ISREG(statbuf.st_mode) && is_selinux_enabled() > 0) { security_context_t context_string; security_context_t oldcontext; context_t newcontext; if (fgetfilecon(DEV, &oldcontext) < 0) { if (errno != ENODATA) { fprintf(stderr, _("%s: %s: unable to obtain selinux file label: %s\n"), program_name, device_name, strerror(errno)); exit(1); } if (matchpathcon(device_name, statbuf.st_mode, &oldcontext)) die(_("unable to matchpathcon()")); } if (!(newcontext = context_new(oldcontext))) die(_("unable to create new selinux context")); if (context_type_set(newcontext, SELINUX_SWAPFILE_TYPE)) die(_("couldn't compute selinux context")); context_string = context_str(newcontext); if (strcmp(context_string, oldcontext)!=0) { if (fsetfilecon(DEV, context_string)) { fprintf(stderr, _("%s: unable to relabel %s to %s: %s\n"), program_name, device_name, context_string, strerror(errno)); exit(1); } } context_free(newcontext); freecon(oldcontext); } #endif return 0; }