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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 1588 1589 1590 1591 1592 1593 1594 1595 1596 1597 1598 1599 1600 1601 1602 1603 1604 1605 1606 1607 | /* * super.c * * PURPOSE * Super block routines for the OSTA-UDF(tm) filesystem. * * DESCRIPTION * OSTA-UDF(tm) = Optical Storage Technology Association * Universal Disk Format. * * This code is based on version 2.00 of the UDF specification, * and revision 3 of the ECMA 167 standard [equivalent to ISO 13346]. * http://www.osta.org/ * http://www.ecma.ch/ * http://www.iso.org/ * * CONTACTS * E-mail regarding any portion of the Linux UDF file system should be * directed to the development team mailing list (run by majordomo): * linux_udf@hootie.lvld.hp.com * * COPYRIGHT * This file is distributed under the terms of the GNU General Public * License (GPL). Copies of the GPL can be obtained from: * ftp://prep.ai.mit.edu/pub/gnu/GPL * Each contributing author retains all rights to their own work. * * (C) 1998 Dave Boynton * (C) 1998-2000 Ben Fennema * (C) 2000 Stelias Computing Inc * * HISTORY * * 09/24/98 dgb changed to allow compiling outside of kernel, and * added some debugging. * 10/01/98 dgb updated to allow (some) possibility of compiling w/2.0.34 * 10/16/98 attempting some multi-session support * 10/17/98 added freespace count for "df" * 11/11/98 gr added novrs option * 11/26/98 dgb added fileset,anchor mount options * 12/06/98 blf really hosed things royally. vat/sparing support. sequenced vol descs * rewrote option handling based on isofs * 12/20/98 find the free space bitmap (if it exists) */ #include "udfdecl.h" #include <linux/config.h> #include <linux/version.h> #include <linux/blkdev.h> #include <linux/malloc.h> #include <linux/kernel.h> #include <linux/locks.h> #include <linux/module.h> #include <linux/stat.h> #include <linux/cdrom.h> #include <linux/nls.h> #include <asm/byteorder.h> #include <linux/udf_fs.h> #include "udf_sb.h" #include "udf_i.h" #include <linux/init.h> #include <asm/uaccess.h> #define VDS_POS_PRIMARY_VOL_DESC 0 #define VDS_POS_UNALLOC_SPACE_DESC 1 #define VDS_POS_LOGICAL_VOL_DESC 2 #define VDS_POS_PARTITION_DESC 3 #define VDS_POS_IMP_USE_VOL_DESC 4 #define VDS_POS_VOL_DESC_PTR 5 #define VDS_POS_TERMINATING_DESC 6 #define VDS_POS_LENGTH 7 static char error_buf[1024]; /* These are the "meat" - everything else is stuffing */ static struct super_block *udf_read_super(struct super_block *, void *, int); static void udf_put_super(struct super_block *); static void udf_write_super(struct super_block *); static int udf_remount_fs(struct super_block *, int *, char *); static int udf_check_valid(struct super_block *, int, int); static int udf_vrs(struct super_block *sb, int silent); static int udf_load_partition(struct super_block *, lb_addr *); static int udf_load_logicalvol(struct super_block *, struct buffer_head *, lb_addr *); static void udf_load_logicalvolint(struct super_block *, extent_ad); static int udf_find_anchor(struct super_block *, int, int); static int udf_find_fileset(struct super_block *, lb_addr *, lb_addr *); static void udf_load_pvoldesc(struct super_block *, struct buffer_head *); static void udf_load_fileset(struct super_block *, struct buffer_head *, lb_addr *); static void udf_load_partdesc(struct super_block *, struct buffer_head *); static void udf_open_lvid(struct super_block *); static void udf_close_lvid(struct super_block *); static unsigned int udf_count_free(struct super_block *); static int udf_statfs(struct super_block *, struct statfs *); /* UDF filesystem type */ static DECLARE_FSTYPE_DEV(udf_fstype, "udf", udf_read_super); /* Superblock operations */ static struct super_operations udf_sb_ops = { read_inode: udf_read_inode, write_inode: udf_write_inode, put_inode: udf_put_inode, delete_inode: udf_delete_inode, put_super: udf_put_super, write_super: udf_write_super, statfs: udf_statfs, remount_fs: udf_remount_fs, }; struct udf_options { unsigned char novrs; unsigned int blocksize; unsigned int session; unsigned int lastblock; unsigned int anchor; unsigned int volume; unsigned short partition; unsigned int fileset; unsigned int rootdir; unsigned int flags; mode_t umask; gid_t gid; uid_t uid; }; static int __init init_udf_fs(void) { printk(KERN_NOTICE "udf: registering filesystem\n"); return register_filesystem(&udf_fstype); } static void __exit exit_udf_fs(void) { printk(KERN_NOTICE "udf: unregistering filesystem\n"); unregister_filesystem(&udf_fstype); } module_init(init_udf_fs) module_exit(exit_udf_fs) /* * udf_parse_options * * PURPOSE * Parse mount options. * * DESCRIPTION * The following mount options are supported: * * gid= Set the default group. * umask= Set the default umask. * uid= Set the default user. * bs= Set the block size. * unhide Show otherwise hidden files. * undelete Show deleted files in lists. * adinicb Embed data in the inode (default) * noadinicb Don't embed data in the inode * shortad Use short ad's * longad Use long ad's (default) * strict Set strict conformance (unused) * * The remaining are for debugging and disaster recovery: * * novrs Skip volume sequence recognition * * The following expect a offset from 0. * * session= Set the CDROM session (default= last session) * anchor= Override standard anchor location. (default= 256) * volume= Override the VolumeDesc location. (unused) * partition= Override the PartitionDesc location. (unused) * lastblock= Set the last block of the filesystem/ * * The following expect a offset from the partition root. * * fileset= Override the fileset block location. (unused) * rootdir= Override the root directory location. (unused) * WARNING: overriding the rootdir to a non-directory may * yield highly unpredictable results. * * PRE-CONDITIONS * options Pointer to mount options string. * uopts Pointer to mount options variable. * * POST-CONDITIONS * <return> 0 Mount options parsed okay. * <return> -1 Error parsing mount options. * * HISTORY * July 1, 1997 - Andrew E. Mileski * Written, tested, and released. */ static int udf_parse_options(char *options, struct udf_options *uopt) { char *opt, *val; uopt->novrs = 0; uopt->blocksize = 512; uopt->partition = 0xFFFF; uopt->session = 0xFFFFFFFF; uopt->lastblock = 0xFFFFFFFF; uopt->anchor = 0xFFFFFFFF; uopt->volume = 0xFFFFFFFF; uopt->rootdir = 0xFFFFFFFF; uopt->fileset = 0xFFFFFFFF; if (!options) return 1; for (opt = strtok(options, ","); opt; opt = strtok(NULL, ",")) { /* Make "opt=val" into two strings */ val = strchr(opt, '='); if (val) *(val++) = 0; if (!strcmp(opt, "novrs") && !val) uopt->novrs = 1; else if (!strcmp(opt, "bs") && val) uopt->blocksize = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "unhide") && !val) uopt->flags |= (1 << UDF_FLAG_UNHIDE); else if (!strcmp(opt, "undelete") && !val) uopt->flags |= (1 << UDF_FLAG_UNDELETE); else if (!strcmp(opt, "noadinicb") && !val) uopt->flags &= ~(1 << UDF_FLAG_USE_AD_IN_ICB); else if (!strcmp(opt, "adinicb") && !val) uopt->flags |= (1 << UDF_FLAG_USE_AD_IN_ICB); else if (!strcmp(opt, "shortad") && !val) uopt->flags |= (1 << UDF_FLAG_USE_SHORT_AD); else if (!strcmp(opt, "longad") && !val) uopt->flags &= ~(1 << UDF_FLAG_USE_SHORT_AD); else if (!strcmp(opt, "gid") && val) uopt->gid = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "umask") && val) uopt->umask = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "strict") && !val) uopt->flags |= (1 << UDF_FLAG_STRICT); else if (!strcmp(opt, "uid") && val) uopt->uid = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "session") && val) uopt->session = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "lastblock") && val) uopt->lastblock = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "anchor") && val) uopt->anchor = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "volume") && val) uopt->volume = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "partition") && val) uopt->partition = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "fileset") && val) uopt->fileset = simple_strtoul(val, NULL, 0); else if (!strcmp(opt, "rootdir") && val) uopt->rootdir = simple_strtoul(val, NULL, 0); else if (val) { printk(KERN_ERR "udf: bad mount option \"%s=%s\"\n", opt, val); return 0; } else { printk(KERN_ERR "udf: bad mount option \"%s\"\n", opt); return 0; } } return 1; } void udf_write_super(struct super_block *sb) { if (!(sb->s_flags & MS_RDONLY)) udf_open_lvid(sb); sb->s_dirt = 0; } static int udf_remount_fs(struct super_block *sb, int *flags, char *options) { struct udf_options uopt; uopt.flags = UDF_SB(sb)->s_flags ; uopt.uid = UDF_SB(sb)->s_uid ; uopt.gid = UDF_SB(sb)->s_gid ; uopt.umask = UDF_SB(sb)->s_umask ; if ( !udf_parse_options(options, &uopt) ) return -EINVAL; UDF_SB(sb)->s_flags = uopt.flags; UDF_SB(sb)->s_uid = uopt.uid; UDF_SB(sb)->s_gid = uopt.gid; UDF_SB(sb)->s_umask = uopt.umask; #if CONFIG_UDF_RW != 1 *flags |= MS_RDONLY; #endif if ((*flags & MS_RDONLY) == (sb->s_flags & MS_RDONLY)) return 0; if (*flags & MS_RDONLY) udf_close_lvid(sb); else udf_open_lvid(sb); return 0; } /* * udf_set_blocksize * * PURPOSE * Set the block size to be used in all transfers. * * DESCRIPTION * To allow room for a DMA transfer, it is best to guess big when unsure. * This routine picks 2048 bytes as the blocksize when guessing. This * should be adequate until devices with larger block sizes become common. * * Note that the Linux kernel can currently only deal with blocksizes of * 512, 1024, 2048, 4096, and 8192 bytes. * * PRE-CONDITIONS * sb Pointer to _locked_ superblock. * * POST-CONDITIONS * sb->s_blocksize Blocksize. * sb->s_blocksize_bits log2 of blocksize. * <return> 0 Blocksize is valid. * <return> 1 Blocksize is invalid. * * HISTORY * July 1, 1997 - Andrew E. Mileski * Written, tested, and released. */ static int udf_set_blocksize(struct super_block *sb, int bsize) { /* Use specified block size if specified */ if (!(sb->s_blocksize = get_hardblocksize(sb->s_dev))) sb->s_blocksize = 2048; if (bsize > sb->s_blocksize) sb->s_blocksize = bsize; /* Block size must be an even multiple of 512 */ switch (sb->s_blocksize) { case 512: sb->s_blocksize_bits = 9; break; case 1024: sb->s_blocksize_bits = 10; break; case 2048: sb->s_blocksize_bits = 11; break; case 4096: sb->s_blocksize_bits = 12; break; case 8192: sb->s_blocksize_bits = 13; break; default: { udf_debug("Bad block size (%ld)\n", sb->s_blocksize); printk(KERN_ERR "udf: bad block size (%ld)\n", sb->s_blocksize); return 0; } } /* Set the block size */ set_blocksize(sb->s_dev, sb->s_blocksize); return sb->s_blocksize; } static int udf_vrs(struct super_block *sb, int silent) { struct VolStructDesc *vsd = NULL; int sector = 32768; struct buffer_head *bh = NULL; int iso9660=0; int nsr02=0; int nsr03=0; /* Block size must be a multiple of 512 */ if (sb->s_blocksize & 511) return sector; sector += (UDF_SB_SESSION(sb) << sb->s_blocksize_bits); udf_debug("Starting at sector %u (%ld byte sectors)\n", (sector >> sb->s_blocksize_bits), sb->s_blocksize); /* Process the sequence (if applicable) */ for (;!nsr02 && !nsr03; sector += 2048) { /* Read a block */ bh = udf_tread(sb, sector >> sb->s_blocksize_bits, sb->s_blocksize); if (!bh) break; /* Look for ISO descriptors */ vsd = (struct VolStructDesc *)(bh->b_data + (sector & (sb->s_blocksize - 1))); if (vsd->stdIdent[0] == 0) { udf_release_data(bh); break; } else if (!strncmp(vsd->stdIdent, STD_ID_CD001, STD_ID_LEN)) { iso9660 = sector; switch (vsd->structType) { case 0: udf_debug("ISO9660 Boot Record found\n"); break; case 1: udf_debug("ISO9660 Primary Volume Descriptor found\n"); break; case 2: udf_debug("ISO9660 Supplementary Volume Descriptor found\n"); break; case 3: udf_debug("ISO9660 Volume Partition Descriptor found\n"); break; case 255: udf_debug("ISO9660 Volume Descriptor Set Terminator found\n"); break; default: udf_debug("ISO9660 VRS (%u) found\n", vsd->structType); break; } } else if (!strncmp(vsd->stdIdent, STD_ID_BEA01, STD_ID_LEN)) { } else if (!strncmp(vsd->stdIdent, STD_ID_TEA01, STD_ID_LEN)) { udf_release_data(bh); break; } else if (!strncmp(vsd->stdIdent, STD_ID_NSR02, STD_ID_LEN)) { nsr02 = sector; } else if (!strncmp(vsd->stdIdent, STD_ID_NSR03, STD_ID_LEN)) { nsr03 = sector; } udf_release_data(bh); } if (nsr03) return nsr03; else if (nsr02) return nsr02; else if (sector - (UDF_SB_SESSION(sb) << sb->s_blocksize_bits) == 32768) return -1; else return 0; } /* * udf_find_anchor * * PURPOSE * Find an anchor volume descriptor. * * PRE-CONDITIONS * sb Pointer to _locked_ superblock. * lastblock Last block on media. * * POST-CONDITIONS * <return> 1 if not found, 0 if ok * * HISTORY * July 1, 1997 - Andrew E. Mileski * Written, tested, and released. */ static int udf_find_anchor(struct super_block *sb, int useranchor, int lastblock) { int varlastblock = udf_variable_to_fixed(lastblock); int last[] = { lastblock, lastblock - 2, lastblock - 150, lastblock - 152, varlastblock, varlastblock - 2, varlastblock - 150, varlastblock - 152 }; struct buffer_head *bh = NULL; Uint16 ident; Uint32 location; int i; UDF_SB_ANCHOR(sb)[0] = 0; UDF_SB_ANCHOR(sb)[1] = 0; UDF_SB_ANCHOR(sb)[2] = 0; UDF_SB_ANCHOR(sb)[3] = 256 + UDF_SB_SESSION(sb); lastblock = 0; /* Search for an anchor volume descriptor pointer */ /* according to spec, anchor is in either: * block 256 * lastblock-256 * lastblock * however, if the disc isn't closed, it could be 512 */ for (i=0; (!lastblock && i<sizeof(last)/sizeof(int)); i++) { if (!(bh = bread(sb->s_dev, last[i], sb->s_blocksize))) { ident = location = 0; } else { ident = le16_to_cpu(((tag *)bh->b_data)->tagIdent); location = le32_to_cpu(((tag *)bh->b_data)->tagLocation); udf_release_data(bh); } if (ident == TID_ANCHOR_VOL_DESC_PTR) { if (location == last[i] - UDF_SB_SESSION(sb)) { lastblock = UDF_SB_ANCHOR(sb)[0] = last[i]; UDF_SB_ANCHOR(sb)[1] = last[i] - 256; } else if (location == udf_variable_to_fixed(last[i]) - UDF_SB_SESSION(sb)) { UDF_SET_FLAG(sb, UDF_FLAG_VARCONV); lastblock = UDF_SB_ANCHOR(sb)[0] = udf_variable_to_fixed(last[i]); UDF_SB_ANCHOR(sb)[1] = lastblock - 256; } else udf_debug("Anchor found at block %d, location mismatch %d.\n", last[i], location); } else if (ident == TID_FILE_ENTRY || ident == TID_EXTENDED_FILE_ENTRY) { lastblock = last[i]; UDF_SB_ANCHOR(sb)[2] = 512 + UDF_SB_SESSION(sb); } else { if (!(bh = bread(sb->s_dev, last[i] - 256, sb->s_blocksize))) { ident = location = 0; } else { ident = le16_to_cpu(((tag *)bh->b_data)->tagIdent); location = le32_to_cpu(((tag *)bh->b_data)->tagLocation); udf_release_data(bh); } if (ident == TID_ANCHOR_VOL_DESC_PTR && location == last[i] - 256 - UDF_SB_SESSION(sb)) { lastblock = last[i]; UDF_SB_ANCHOR(sb)[1] = last[i] - 256; } else { if (!(bh = bread(sb->s_dev, last[i] - 312 - UDF_SB_SESSION(sb), sb->s_blocksize))) { ident = location = 0; } else { ident = le16_to_cpu(((tag *)bh->b_data)->tagIdent); location = le32_to_cpu(((tag *)bh->b_data)->tagLocation); udf_release_data(bh); } if (ident == TID_ANCHOR_VOL_DESC_PTR && location == udf_variable_to_fixed(last[i]) - 256) { UDF_SET_FLAG(sb, UDF_FLAG_VARCONV); lastblock = udf_variable_to_fixed(last[i]); UDF_SB_ANCHOR(sb)[1] = lastblock - 256; } } } } if (!lastblock) { /* We havn't found the lastblock. check 312 */ if ((bh = bread(sb->s_dev, 312 + UDF_SB_SESSION(sb), sb->s_blocksize))) { ident = le16_to_cpu(((tag *)bh->b_data)->tagIdent); location = le32_to_cpu(((tag *)bh->b_data)->tagLocation); udf_release_data(bh); if (ident == TID_ANCHOR_VOL_DESC_PTR && location == 256) UDF_SET_FLAG(sb, UDF_FLAG_VARCONV); } } for (i=0; i<sizeof(UDF_SB_ANCHOR(sb))/sizeof(int); i++) { if (UDF_SB_ANCHOR(sb)[i]) { if (!(bh = udf_read_tagged(sb, UDF_SB_ANCHOR(sb)[i], UDF_SB_ANCHOR(sb)[i], &ident))) { UDF_SB_ANCHOR(sb)[i] = 0; } else { udf_release_data(bh); if ((ident != TID_ANCHOR_VOL_DESC_PTR) && (i || (ident != TID_FILE_ENTRY && ident != TID_EXTENDED_FILE_ENTRY))) { UDF_SB_ANCHOR(sb)[i] = 0; } } } else if (useranchor != 0xFFFFFFFF) { UDF_SB_ANCHOR(sb)[i] = useranchor; useranchor = 0xFFFFFFFF; i --; } } return lastblock; } static int udf_find_fileset(struct super_block *sb, lb_addr *fileset, lb_addr *root) { struct buffer_head *bh = NULL; long lastblock; Uint16 ident; if (fileset->logicalBlockNum != 0xFFFFFFFF || fileset->partitionReferenceNum != 0xFFFF) { bh = udf_read_ptagged(sb, *fileset, 0, &ident); if (!bh) return 1; else if (ident != TID_FILE_SET_DESC) { udf_release_data(bh); return 1; } } if (!bh) /* Search backwards through the partitions */ { lb_addr newfileset; return 1; for (newfileset.partitionReferenceNum=UDF_SB_NUMPARTS(sb)-1; (newfileset.partitionReferenceNum != 0xFFFF && fileset->logicalBlockNum == 0xFFFFFFFF && fileset->partitionReferenceNum == 0xFFFF); newfileset.partitionReferenceNum--) { lastblock = UDF_SB_PARTLEN(sb, newfileset.partitionReferenceNum); newfileset.logicalBlockNum = 0; do { bh = udf_read_ptagged(sb, newfileset, 0, &ident); if (!bh) { newfileset.logicalBlockNum ++; continue; } switch (ident) { case TID_SPACE_BITMAP_DESC: { struct SpaceBitmapDesc *sp; sp = (struct SpaceBitmapDesc *)bh->b_data; newfileset.logicalBlockNum += 1 + ((le32_to_cpu(sp->numOfBytes) + sizeof(struct SpaceBitmapDesc) - 1) >> sb->s_blocksize_bits); udf_release_data(bh); break; } case TID_FILE_SET_DESC: { *fileset = newfileset; break; } default: { newfileset.logicalBlockNum ++; udf_release_data(bh); bh = NULL; break; } } } while (newfileset.logicalBlockNum < lastblock && fileset->logicalBlockNum == 0xFFFFFFFF && fileset->partitionReferenceNum == 0xFFFF); } } if ((fileset->logicalBlockNum != 0xFFFFFFFF || fileset->partitionReferenceNum != 0xFFFF) && bh) { udf_debug("Fileset at block=%d, partition=%d\n", fileset->logicalBlockNum, fileset->partitionReferenceNum); UDF_SB_PARTITION(sb) = fileset->partitionReferenceNum; udf_load_fileset(sb, bh, root); udf_release_data(bh); return 0; } return 1; } static void udf_load_pvoldesc(struct super_block *sb, struct buffer_head *bh) { struct PrimaryVolDesc *pvoldesc; time_t recording; long recording_usec; struct ustr instr; struct ustr outstr; pvoldesc = (struct PrimaryVolDesc *)bh->b_data; if ( udf_stamp_to_time(&recording, &recording_usec, lets_to_cpu(pvoldesc->recordingDateAndTime)) ) { timestamp ts; ts = lets_to_cpu(pvoldesc->recordingDateAndTime); udf_debug("recording time %ld/%ld, %04u/%02u/%02u %02u:%02u (%x)\n", recording, recording_usec, ts.year, ts.month, ts.day, ts.hour, ts.minute, ts.typeAndTimezone); UDF_SB_RECORDTIME(sb) = recording; } if ( !udf_build_ustr(&instr, pvoldesc->volIdent, 32) ) { if (udf_CS0toUTF8(&outstr, &instr)) { strncpy( UDF_SB_VOLIDENT(sb), outstr.u_name, outstr.u_len > 31 ? 31 : outstr.u_len); udf_debug("volIdent[] = '%s'\n", UDF_SB_VOLIDENT(sb)); } } if ( !udf_build_ustr(&instr, pvoldesc->volSetIdent, 128) ) { if (udf_CS0toUTF8(&outstr, &instr)) udf_debug("volSetIdent[] = '%s'\n", outstr.u_name); } } static void udf_load_fileset(struct super_block *sb, struct buffer_head *bh, lb_addr *root) { struct FileSetDesc *fset; fset = (struct FileSetDesc *)bh->b_data; *root = lelb_to_cpu(fset->rootDirectoryICB.extLocation); UDF_SB_SERIALNUM(sb) = le16_to_cpu(fset->descTag.tagSerialNum); udf_debug("Rootdir at block=%d, partition=%d\n", root->logicalBlockNum, root->partitionReferenceNum); } static void udf_load_partdesc(struct super_block *sb, struct buffer_head *bh) { struct PartitionDesc *p; int i; p=(struct PartitionDesc *)bh->b_data; for (i=0; i<UDF_SB_NUMPARTS(sb); i++) { udf_debug("Searching map: (%d == %d)\n", UDF_SB_PARTMAPS(sb)[i].s_partition_num, le16_to_cpu(p->partitionNumber)); if (UDF_SB_PARTMAPS(sb)[i].s_partition_num == le16_to_cpu(p->partitionNumber)) { UDF_SB_PARTLEN(sb,i) = le32_to_cpu(p->partitionLength); /* blocks */ UDF_SB_PARTROOT(sb,i) = le32_to_cpu(p->partitionStartingLocation) + UDF_SB_SESSION(sb); if (UDF_SB_PARTTYPE(sb,i) == UDF_SPARABLE_MAP15) udf_fill_spartable(sb, &UDF_SB_TYPESPAR(sb,i), UDF_SB_PARTLEN(sb,i)); if (!strcmp(p->partitionContents.ident, PARTITION_CONTENTS_NSR02) || !strcmp(p->partitionContents.ident, PARTITION_CONTENTS_NSR03)) { struct PartitionHeaderDesc *phd; phd = (struct PartitionHeaderDesc *)(p->partitionContentsUse); if (phd->unallocatedSpaceTable.extLength) udf_debug("unallocatedSpaceTable (part %d)\n", i); if (phd->unallocatedSpaceBitmap.extLength) { UDF_SB_PARTMAPS(sb)[i].s_uspace.bitmap = le32_to_cpu(phd->unallocatedSpaceBitmap.extPosition); UDF_SB_PARTFLAGS(sb,i) |= UDF_PART_FLAG_UNALLOC_BITMAP; udf_debug("unallocatedSpaceBitmap (part %d) @ %d\n", i, UDF_SB_PARTMAPS(sb)[i].s_uspace.bitmap); } if (phd->partitionIntegrityTable.extLength) udf_debug("partitionIntegrityTable (part %d)\n", i); if (phd->freedSpaceTable.extLength) udf_debug("freedSpaceTable (part %d)\n", i); if (phd->freedSpaceBitmap.extLength) { UDF_SB_PARTMAPS(sb)[i].s_fspace.bitmap = le32_to_cpu(phd->freedSpaceBitmap.extPosition); UDF_SB_PARTFLAGS(sb,i) |= UDF_PART_FLAG_FREED_BITMAP; udf_debug("freedSpaceBitmap (part %d) @ %d\n", i, UDF_SB_PARTMAPS(sb)[i].s_fspace.bitmap); } } break; } } if (i == UDF_SB_NUMPARTS(sb)) { udf_debug("Partition (%d) not found in partition map\n", le16_to_cpu(p->partitionNumber)); } else { udf_debug("Partition (%d:%d type %x) starts at physical %d, block length %d\n", le16_to_cpu(p->partitionNumber), i, UDF_SB_PARTTYPE(sb,i), UDF_SB_PARTROOT(sb,i), UDF_SB_PARTLEN(sb,i)); } } static int udf_load_logicalvol(struct super_block *sb, struct buffer_head * bh, lb_addr *fileset) { struct LogicalVolDesc *lvd; int i, j, offset; Uint8 type; lvd = (struct LogicalVolDesc *)bh->b_data; UDF_SB_NUMPARTS(sb) = le32_to_cpu(lvd->numPartitionMaps); UDF_SB_ALLOC_PARTMAPS(sb, UDF_SB_NUMPARTS(sb)); for (i=0,offset=0; i<UDF_SB_NUMPARTS(sb) && offset<le32_to_cpu(lvd->mapTableLength); i++,offset+=((struct GenericPartitionMap *)&(lvd->partitionMaps[offset]))->partitionMapLength) { type = ((struct GenericPartitionMap *)&(lvd->partitionMaps[offset]))->partitionMapType; udf_debug("Partition (%d) type %d\n", i, type); if (type == 1) { struct GenericPartitionMap1 *gpm1 = (struct GenericPartitionMap1 *)&(lvd->partitionMaps[offset]); UDF_SB_PARTTYPE(sb,i) = UDF_TYPE1_MAP15; UDF_SB_PARTVSN(sb,i) = le16_to_cpu(gpm1->volSeqNum); UDF_SB_PARTNUM(sb,i) = le16_to_cpu(gpm1->partitionNum); UDF_SB_PARTFUNC(sb,i) = NULL; } else if (type == 2) { struct UdfPartitionMap2 *upm2 = (struct UdfPartitionMap2 *)&(lvd->partitionMaps[offset]); if (!strncmp(upm2->partIdent.ident, UDF_ID_VIRTUAL, strlen(UDF_ID_VIRTUAL))) { if (le16_to_cpu(((Uint16 *)upm2->partIdent.identSuffix)[0]) == 0x0150) { UDF_SB_PARTTYPE(sb,i) = UDF_VIRTUAL_MAP15; UDF_SB_PARTFUNC(sb,i) = udf_get_pblock_virt15; } else if (le16_to_cpu(((Uint16 *)upm2->partIdent.identSuffix)[0]) == 0x0200) { UDF_SB_PARTTYPE(sb,i) = UDF_VIRTUAL_MAP20; UDF_SB_PARTFUNC(sb,i) = udf_get_pblock_virt20; } } else if (!strncmp(upm2->partIdent.ident, UDF_ID_SPARABLE, strlen(UDF_ID_SPARABLE))) { int plen; struct SparablePartitionMap *spm = (struct SparablePartitionMap *)&(lvd->partitionMaps[offset]); UDF_SB_PARTTYPE(sb,i) = UDF_SPARABLE_MAP15; plen = le16_to_cpu(spm->packetLength); UDF_SB_TYPESPAR(sb,i).s_spar_pshift = 0; while (plen >>= 1) UDF_SB_TYPESPAR(sb,i).s_spar_pshift ++; for (j=0; j<spm->numSparingTables; j++) UDF_SB_TYPESPAR(sb,i).s_spar_loc[j] = le32_to_cpu(spm->locSparingTable[j]); UDF_SB_PARTFUNC(sb,i) = udf_get_pblock_spar15; } else { udf_debug("Unknown ident: %s\n", upm2->partIdent.ident); continue; } UDF_SB_PARTVSN(sb,i) = le16_to_cpu(upm2->volSeqNum); UDF_SB_PARTNUM(sb,i) = le16_to_cpu(upm2->partitionNum); } } if (fileset) { long_ad *la = (long_ad *)&(lvd->logicalVolContentsUse[0]); *fileset = lelb_to_cpu(la->extLocation); udf_debug("FileSet found in LogicalVolDesc at block=%d, partition=%d\n", fileset->logicalBlockNum, fileset->partitionReferenceNum); } if (lvd->integritySeqExt.extLength) udf_load_logicalvolint(sb, leea_to_cpu(lvd->integritySeqExt)); return 0; } /* * udf_load_logicalvolint * */ static void udf_load_logicalvolint(struct super_block *sb, extent_ad loc) { struct buffer_head *bh = NULL; Uint16 ident; while ((bh = udf_read_tagged(sb, loc.extLocation, loc.extLocation, &ident)) && ident == TID_LOGICAL_VOL_INTEGRITY_DESC && loc.extLength > 0) { UDF_SB_LVIDBH(sb) = bh; if (UDF_SB_LVID(sb)->nextIntegrityExt.extLength) udf_load_logicalvolint(sb, leea_to_cpu(UDF_SB_LVID(sb)->nextIntegrityExt)); if (UDF_SB_LVIDBH(sb) != bh) udf_release_data(bh); loc.extLength -= sb->s_blocksize; loc.extLocation ++; } if (UDF_SB_LVIDBH(sb) != bh) udf_release_data(bh); } /* * udf_process_sequence * * PURPOSE * Process a main/reserve volume descriptor sequence. * * PRE-CONDITIONS * sb Pointer to _locked_ superblock. * block First block of first extent of the sequence. * lastblock Lastblock of first extent of the sequence. * * HISTORY * July 1, 1997 - Andrew E. Mileski * Written, tested, and released. */ static int udf_process_sequence(struct super_block *sb, long block, long lastblock, lb_addr *fileset) { struct buffer_head *bh = NULL; struct udf_vds_record vds[VDS_POS_LENGTH]; struct GenericDesc *gd; int done=0; int i,j; Uint32 vdsn; Uint16 ident; memset(vds, 0, sizeof(struct udf_vds_record) * VDS_POS_LENGTH); /* Read the main descriptor sequence */ for (;(!done && block <= lastblock); block++) { bh = udf_read_tagged(sb, block, block, &ident); if (!bh) break; /* Process each descriptor (ISO 13346 3/8.3-8.4) */ gd = (struct GenericDesc *)bh->b_data; vdsn = le32_to_cpu(gd->volDescSeqNum); switch (ident) { case TID_PRIMARY_VOL_DESC: /* ISO 13346 3/10.1 */ if (vdsn >= vds[VDS_POS_PRIMARY_VOL_DESC].volDescSeqNum) { vds[VDS_POS_PRIMARY_VOL_DESC].volDescSeqNum = vdsn; vds[VDS_POS_PRIMARY_VOL_DESC].block = block; } break; case TID_VOL_DESC_PTR: /* ISO 13346 3/10.3 */ if (vdsn >= vds[VDS_POS_VOL_DESC_PTR].volDescSeqNum) { vds[VDS_POS_VOL_DESC_PTR].volDescSeqNum = vdsn; vds[VDS_POS_VOL_DESC_PTR].block = block; } break; case TID_IMP_USE_VOL_DESC: /* ISO 13346 3/10.4 */ if (vdsn >= vds[VDS_POS_IMP_USE_VOL_DESC].volDescSeqNum) { vds[VDS_POS_IMP_USE_VOL_DESC].volDescSeqNum = vdsn; vds[VDS_POS_IMP_USE_VOL_DESC].block = block; } break; case TID_PARTITION_DESC: /* ISO 13346 3/10.5 */ if (!vds[VDS_POS_PARTITION_DESC].block) vds[VDS_POS_PARTITION_DESC].block = block; break; case TID_LOGICAL_VOL_DESC: /* ISO 13346 3/10.6 */ if (vdsn >= vds[VDS_POS_LOGICAL_VOL_DESC].volDescSeqNum) { vds[VDS_POS_LOGICAL_VOL_DESC].volDescSeqNum = vdsn; vds[VDS_POS_LOGICAL_VOL_DESC].block = block; } break; case TID_UNALLOC_SPACE_DESC: /* ISO 13346 3/10.8 */ if (vdsn >= vds[VDS_POS_UNALLOC_SPACE_DESC].volDescSeqNum) { vds[VDS_POS_UNALLOC_SPACE_DESC].volDescSeqNum = vdsn; vds[VDS_POS_UNALLOC_SPACE_DESC].block = block; } break; case TID_TERMINATING_DESC: /* ISO 13346 3/10.9 */ vds[VDS_POS_TERMINATING_DESC].block = block; done = 1; break; } udf_release_data(bh); } for (i=0; i<VDS_POS_LENGTH; i++) { if (vds[i].block) { bh = udf_read_tagged(sb, vds[i].block, vds[i].block, &ident); if (i == VDS_POS_PRIMARY_VOL_DESC) udf_load_pvoldesc(sb, bh); else if (i == VDS_POS_LOGICAL_VOL_DESC) udf_load_logicalvol(sb, bh, fileset); else if (i == VDS_POS_PARTITION_DESC) { struct buffer_head *bh2 = NULL; udf_load_partdesc(sb, bh); for (j=vds[i].block+1; j<vds[VDS_POS_TERMINATING_DESC].block; j++) { bh2 = udf_read_tagged(sb, j, j, &ident); gd = (struct GenericDesc *)bh2->b_data; if (ident == TID_PARTITION_DESC) udf_load_partdesc(sb, bh2); udf_release_data(bh2); } } udf_release_data(bh); } } return 0; } /* * udf_check_valid() */ static int udf_check_valid(struct super_block *sb, int novrs, int silent) { long block; if (novrs) { udf_debug("Validity check skipped because of novrs option\n"); return 0; } /* Check that it is NSR02 compliant */ /* Process any "CD-ROM Volume Descriptor Set" (ECMA 167 2/8.3.1) */ else if ((block = udf_vrs(sb, silent)) == -1) { udf_debug("Failed to read byte 32768. Assuming open disc. Skipping validity check\n"); return 0; } else return !block; } static int udf_load_partition(struct super_block *sb, lb_addr *fileset) { struct AnchorVolDescPtr *anchor; Uint16 ident; struct buffer_head *bh; long main_s, main_e, reserve_s, reserve_e; int i, j; if (!sb) return 1; for (i=0; i<sizeof(UDF_SB_ANCHOR(sb))/sizeof(int); i++) { if (UDF_SB_ANCHOR(sb)[i] && (bh = udf_read_tagged(sb, UDF_SB_ANCHOR(sb)[i], UDF_SB_ANCHOR(sb)[i] - UDF_SB_SESSION(sb), &ident))) { anchor = (struct AnchorVolDescPtr *)bh->b_data; /* Locate the main sequence */ main_s = le32_to_cpu( anchor->mainVolDescSeqExt.extLocation ); main_e = le32_to_cpu( anchor->mainVolDescSeqExt.extLength ); main_e = main_e >> sb->s_blocksize_bits; main_e += main_s; /* Locate the reserve sequence */ reserve_s = le32_to_cpu(anchor->reserveVolDescSeqExt.extLocation); reserve_e = le32_to_cpu(anchor->reserveVolDescSeqExt.extLength); reserve_e = reserve_e >> sb->s_blocksize_bits; reserve_e += reserve_s; udf_release_data(bh); /* Process the main & reserve sequences */ /* responsible for finding the PartitionDesc(s) */ if (!(udf_process_sequence(sb, main_s, main_e, fileset) && udf_process_sequence(sb, reserve_s, reserve_e, fileset))) { break; } } } if (i == sizeof(UDF_SB_ANCHOR(sb))/sizeof(int)) { udf_debug("No Anchor block found\n"); return 1; } else udf_debug("Using anchor in block %d\n", UDF_SB_ANCHOR(sb)[i]); for (i=0; i<UDF_SB_NUMPARTS(sb); i++) { switch UDF_SB_PARTTYPE(sb, i) { case UDF_VIRTUAL_MAP15: case UDF_VIRTUAL_MAP20: { lb_addr ino; if (!UDF_SB_LASTBLOCK(sb)) { udf_debug("Unable to determine Lastblock (For Virtual Partition)\n"); return 1; } for (j=0; j<UDF_SB_NUMPARTS(sb); j++) { if (j != i && UDF_SB_PARTVSN(sb,i) == UDF_SB_PARTVSN(sb,j) && UDF_SB_PARTNUM(sb,i) == UDF_SB_PARTNUM(sb,j)) { ino.partitionReferenceNum = j; ino.logicalBlockNum = UDF_SB_LASTBLOCK(sb) - UDF_SB_PARTROOT(sb,j); break; } } if (j == UDF_SB_NUMPARTS(sb)) return 1; if (!(UDF_SB_VAT(sb) = udf_iget(sb, ino))) return 1; if (UDF_SB_PARTTYPE(sb,i) == UDF_VIRTUAL_MAP15) { UDF_SB_TYPEVIRT(sb,i).s_start_offset = udf_ext0_offset(UDF_SB_VAT(sb)); UDF_SB_TYPEVIRT(sb,i).s_num_entries = (UDF_SB_VAT(sb)->i_size - 36) >> 2; } else if (UDF_SB_PARTTYPE(sb,i) == UDF_VIRTUAL_MAP20) { struct buffer_head *bh = NULL; Uint32 pos; pos = udf_block_map(UDF_SB_VAT(sb), 0); bh = bread(sb->s_dev, pos, sb->s_blocksize); UDF_SB_TYPEVIRT(sb,i).s_start_offset = le16_to_cpu(((struct VirtualAllocationTable20 *)bh->b_data + udf_ext0_offset(UDF_SB_VAT(sb)))->lengthHeader) + udf_ext0_offset(UDF_SB_VAT(sb)); UDF_SB_TYPEVIRT(sb,i).s_num_entries = (UDF_SB_VAT(sb)->i_size - UDF_SB_TYPEVIRT(sb,i).s_start_offset) >> 2; udf_release_data(bh); } UDF_SB_PARTROOT(sb,i) = udf_get_pblock(sb, 0, i, 0); UDF_SB_PARTLEN(sb,i) = UDF_SB_PARTLEN(sb,ino.partitionReferenceNum); } } } return 0; } static void udf_open_lvid(struct super_block *sb) { if (UDF_SB_LVIDBH(sb)) { int i; timestamp cpu_time; UDF_SB_LVIDIU(sb)->impIdent.identSuffix[0] = UDF_OS_CLASS_UNIX; UDF_SB_LVIDIU(sb)->impIdent.identSuffix[1] = UDF_OS_ID_LINUX; if (udf_time_to_stamp(&cpu_time, CURRENT_TIME, CURRENT_UTIME)) UDF_SB_LVID(sb)->recordingDateAndTime = cpu_to_lets(cpu_time); UDF_SB_LVID(sb)->integrityType = INTEGRITY_TYPE_OPEN; UDF_SB_LVID(sb)->descTag.descCRC = cpu_to_le16(udf_crc((char *)UDF_SB_LVID(sb) + sizeof(tag), le16_to_cpu(UDF_SB_LVID(sb)->descTag.descCRCLength), 0)); UDF_SB_LVID(sb)->descTag.tagChecksum = 0; for (i=0; i<16; i++) if (i != 4) UDF_SB_LVID(sb)->descTag.tagChecksum += ((Uint8 *)&(UDF_SB_LVID(sb)->descTag))[i]; mark_buffer_dirty(UDF_SB_LVIDBH(sb), 1); sb->s_dirt = 0; } } static void udf_close_lvid(struct super_block *sb) { if (UDF_SB_LVIDBH(sb) && UDF_SB_LVID(sb)->integrityType == INTEGRITY_TYPE_OPEN) { int i; timestamp cpu_time; UDF_SB_LVIDIU(sb)->impIdent.identSuffix[0] = UDF_OS_CLASS_UNIX; UDF_SB_LVIDIU(sb)->impIdent.identSuffix[1] = UDF_OS_ID_LINUX; if (udf_time_to_stamp(&cpu_time, CURRENT_TIME, CURRENT_UTIME)) UDF_SB_LVID(sb)->recordingDateAndTime = cpu_to_lets(cpu_time); if (UDF_MAX_WRITE_VERSION > le16_to_cpu(UDF_SB_LVIDIU(sb)->maxUDFWriteRev)) UDF_SB_LVIDIU(sb)->maxUDFWriteRev = cpu_to_le16(UDF_MAX_WRITE_VERSION); if (UDF_SB_UDFREV(sb) > le16_to_cpu(UDF_SB_LVIDIU(sb)->minUDFReadRev)) UDF_SB_LVIDIU(sb)->minUDFReadRev = cpu_to_le16(UDF_SB_UDFREV(sb)); if (UDF_SB_UDFREV(sb) > le16_to_cpu(UDF_SB_LVIDIU(sb)->minUDFWriteRev)) UDF_SB_LVIDIU(sb)->minUDFWriteRev = cpu_to_le16(UDF_SB_UDFREV(sb)); UDF_SB_LVID(sb)->integrityType = INTEGRITY_TYPE_CLOSE; UDF_SB_LVID(sb)->descTag.descCRC = cpu_to_le16(udf_crc((char *)UDF_SB_LVID(sb) + sizeof(tag), le16_to_cpu(UDF_SB_LVID(sb)->descTag.descCRCLength), 0)); UDF_SB_LVID(sb)->descTag.tagChecksum = 0; for (i=0; i<16; i++) if (i != 4) UDF_SB_LVID(sb)->descTag.tagChecksum += ((Uint8 *)&(UDF_SB_LVID(sb)->descTag))[i]; mark_buffer_dirty(UDF_SB_LVIDBH(sb), 1); } } /* * udf_read_super * * PURPOSE * Complete the specified super block. * * PRE-CONDITIONS * sb Pointer to superblock to complete - never NULL. * sb->s_dev Device to read suberblock from. * options Pointer to mount options. * silent Silent flag. * * HISTORY * July 1, 1997 - Andrew E. Mileski * Written, tested, and released. */ static struct super_block * udf_read_super(struct super_block *sb, void *options, int silent) { struct inode *inode=NULL; struct udf_options uopt; lb_addr rootdir, fileset; int i; uopt.flags = (1 << UDF_FLAG_USE_AD_IN_ICB); uopt.uid = -1; uopt.gid = -1; uopt.umask = 0; memset(UDF_SB(sb), 0x00, sizeof(struct udf_sb_info)); #if CONFIG_UDF_RW != 1 sb->s_flags |= MS_RDONLY; #endif if (!udf_parse_options((char *)options, &uopt)) goto error_out; fileset.logicalBlockNum = 0xFFFFFFFF; fileset.partitionReferenceNum = 0xFFFF; UDF_SB(sb)->s_flags = uopt.flags; UDF_SB(sb)->s_uid = uopt.uid; UDF_SB(sb)->s_gid = uopt.gid; UDF_SB(sb)->s_umask = uopt.umask; /* Set the block size for all transfers */ if (!udf_set_blocksize(sb, uopt.blocksize)) goto error_out; if ( uopt.session == 0xFFFFFFFF ) UDF_SB_SESSION(sb) = udf_get_last_session(sb); else UDF_SB_SESSION(sb) = uopt.session; udf_debug("Multi-session=%d\n", UDF_SB_SESSION(sb)); if ( uopt.lastblock == 0xFFFFFFFF ) UDF_SB_LASTBLOCK(sb) = udf_get_last_block(sb); else UDF_SB_LASTBLOCK(sb) = uopt.lastblock; UDF_SB_LASTBLOCK(sb) = udf_find_anchor(sb, uopt.anchor, UDF_SB_LASTBLOCK(sb)); udf_debug("Lastblock=%d\n", UDF_SB_LASTBLOCK(sb)); if (udf_check_valid(sb, uopt.novrs, silent)) /* read volume recognition sequences */ { printk("UDF-fs: No VRS found\n"); goto error_out; } /* Fill in the rest of the superblock */ sb->s_op = &udf_sb_ops; sb->dq_op = NULL; sb->s_dirt = 0; sb->s_magic = UDF_SUPER_MAGIC; for (i=0; i<UDF_MAX_BLOCK_LOADED; i++) { UDF_SB_BLOCK_BITMAP_NUMBER(sb,i) = 0; UDF_SB_BLOCK_BITMAP(sb,i) = NULL; } UDF_SB_LOADED_BLOCK_BITMAPS(sb) = 0; if (udf_load_partition(sb, &fileset)) { printk("UDF-fs: No partition found (1)\n"); goto error_out; } if ( UDF_SB_LVIDBH(sb) ) { Uint16 minUDFReadRev = le16_to_cpu(UDF_SB_LVIDIU(sb)->minUDFReadRev); Uint16 minUDFWriteRev = le16_to_cpu(UDF_SB_LVIDIU(sb)->minUDFWriteRev); /* Uint16 maxUDFWriteRev = le16_to_cpu(UDF_SB_LVIDIU(sb)->maxUDFWriteRev); */ if (minUDFReadRev > UDF_MAX_READ_VERSION) { printk("UDF-fs: minUDFReadRev=%x (max is %x)\n", UDF_SB_LVIDIU(sb)->minUDFReadRev, UDF_MAX_READ_VERSION); goto error_out; } else if (minUDFWriteRev > UDF_MAX_WRITE_VERSION) { sb->s_flags |= MS_RDONLY; } if (minUDFReadRev >= UDF_VERS_USE_EXTENDED_FE) UDF_SET_FLAG(sb, UDF_FLAG_USE_EXTENDED_FE); if (minUDFReadRev >= UDF_VERS_USE_STREAMS) UDF_SET_FLAG(sb, UDF_FLAG_USE_STREAMS); } if ( !UDF_SB_NUMPARTS(sb) ) { printk("UDF-fs: No partition found (2)\n"); goto error_out; } if ( udf_find_fileset(sb, &fileset, &rootdir) ) { printk("UDF-fs: No fileset found\n"); goto error_out; } if (!silent) { timestamp ts; udf_time_to_stamp(&ts, UDF_SB_RECORDTIME(sb), 0); udf_info("UDF %s (%s) Mounting volume '%s', timestamp %04u/%02u/%02u %02u:%02u (%x)\n", UDFFS_VERSION, UDFFS_DATE, UDF_SB_VOLIDENT(sb), ts.year, ts.month, ts.day, ts.hour, ts.minute, ts.typeAndTimezone); } if (!(sb->s_flags & MS_RDONLY)) udf_open_lvid(sb); /* Assign the root inode */ /* assign inodes by physical block number */ /* perhaps it's not extensible enough, but for now ... */ inode = udf_iget(sb, rootdir); if (!inode) { printk("UDF-fs: Error in udf_iget, block=%d, partition=%d\n", rootdir.logicalBlockNum, rootdir.partitionReferenceNum); goto error_out; } /* Allocate a dentry for the root inode */ sb->s_root = d_alloc_root(inode); if (!sb->s_root) { printk("UDF-fs: Couldn't allocate root dentry\n"); iput(inode); goto error_out; } return sb; error_out: if (UDF_SB_VAT(sb)) iput(UDF_SB_VAT(sb)); if (!(sb->s_flags & MS_RDONLY)) udf_close_lvid(sb); udf_release_data(UDF_SB_LVIDBH(sb)); UDF_SB_FREE(sb); return NULL; } void udf_error(struct super_block *sb, const char *function, const char *fmt, ...) { va_list args; if (!(sb->s_flags & MS_RDONLY)) { /* mark sb error */ sb->s_dirt = 1; } va_start(args, fmt); vsprintf(error_buf, fmt, args); va_end(args); printk (KERN_CRIT "UDF-fs error (device %s): %s: %s\n", bdevname(sb->s_dev), function, error_buf); } void udf_warning(struct super_block *sb, const char *function, const char *fmt, ...) { va_list args; va_start (args, fmt); vsprintf(error_buf, fmt, args); va_end(args); printk(KERN_WARNING "UDF-fs warning (device %s): %s: %s\n", bdevname(sb->s_dev), function, error_buf); } /* * udf_put_super * * PURPOSE * Prepare for destruction of the superblock. * * DESCRIPTION * Called before the filesystem is unmounted. * * HISTORY * July 1, 1997 - Andrew E. Mileski * Written, tested, and released. */ static void udf_put_super(struct super_block *sb) { int i; if (UDF_SB_VAT(sb)) iput(UDF_SB_VAT(sb)); if (!(sb->s_flags & MS_RDONLY)) udf_close_lvid(sb); udf_release_data(UDF_SB_LVIDBH(sb)); for (i=0; i<UDF_MAX_BLOCK_LOADED; i++) udf_release_data(UDF_SB_BLOCK_BITMAP(sb, i)); UDF_SB_FREE(sb); } /* * udf_stat_fs * * PURPOSE * Return info about the filesystem. * * DESCRIPTION * Called by sys_statfs() * * HISTORY * July 1, 1997 - Andrew E. Mileski * Written, tested, and released. */ static int udf_statfs(struct super_block *sb, struct statfs *buf) { buf->f_type = UDF_SUPER_MAGIC; buf->f_bsize = sb->s_blocksize; buf->f_blocks = UDF_SB_PARTLEN(sb, UDF_SB_PARTITION(sb)); buf->f_bfree = udf_count_free(sb); buf->f_bavail = buf->f_bfree; buf->f_files = (UDF_SB_LVIDBH(sb) ? (le32_to_cpu(UDF_SB_LVIDIU(sb)->numFiles) + le32_to_cpu(UDF_SB_LVIDIU(sb)->numDirs)) : 0) + buf->f_bfree; buf->f_ffree = buf->f_bfree; /* __kernel_fsid_t f_fsid */ buf->f_namelen = UDF_NAME_LEN; return 0; } static unsigned char udf_bitmap_lookup[16] = { 0, 1, 1, 2, 1, 2, 2, 3, 1, 2, 2, 3, 2, 3, 3, 4 }; static unsigned int udf_count_free(struct super_block *sb) { struct buffer_head *bh = NULL; unsigned int accum = 0; lb_addr loc; Uint32 bitmap; if (UDF_SB_PARTFLAGS(sb,UDF_SB_PARTITION(sb)) & UDF_PART_FLAG_UNALLOC_BITMAP) bitmap = UDF_SB_PARTMAPS(sb)[UDF_SB_PARTITION(sb)].s_uspace.bitmap; else if (UDF_SB_PARTFLAGS(sb,UDF_SB_PARTITION(sb)) & UDF_PART_FLAG_FREED_BITMAP) bitmap = UDF_SB_PARTMAPS(sb)[UDF_SB_PARTITION(sb)].s_fspace.bitmap; else bitmap = 0xFFFFFFFF; if (bitmap != 0xFFFFFFFF) { struct SpaceBitmapDesc *bm; int block = 0, newblock, index; Uint16 ident; Uint32 bytes; Uint8 value; Uint8 * ptr; loc.logicalBlockNum = bitmap; loc.partitionReferenceNum = UDF_SB_PARTITION(sb); bh = udf_read_ptagged(sb, loc, 0, &ident); if (!bh) { printk(KERN_ERR "udf: udf_count_free failed\n"); return 0; } else if (ident != TID_SPACE_BITMAP_DESC) { udf_release_data(bh); printk(KERN_ERR "udf: udf_count_free failed\n"); return 0; } bm = (struct SpaceBitmapDesc *)bh->b_data; bytes = bm->numOfBytes; index = sizeof(struct SpaceBitmapDesc); /* offset in first block only */ ptr = (Uint8 *)bh->b_data; while ( bytes > 0 ) { while ((bytes > 0) && (index < sb->s_blocksize)) { value = ptr[index]; accum += udf_bitmap_lookup[ value & 0x0f ]; accum += udf_bitmap_lookup[ value >> 4 ]; index++; bytes--; } if ( bytes ) { udf_release_data(bh); newblock = udf_get_lb_pblock(sb, loc, ++block); bh = udf_tread(sb, newblock, sb->s_blocksize); if (!bh) { udf_debug("read failed\n"); return accum; } index = 0; ptr = (Uint8 *)bh->b_data; } } udf_release_data(bh); } else { if (UDF_SB_LVIDBH(sb)) { if (le32_to_cpu(UDF_SB_LVID(sb)->numOfPartitions) > UDF_SB_PARTITION(sb)) accum = le32_to_cpu(UDF_SB_LVID(sb)->freeSpaceTable[UDF_SB_PARTITION(sb)]); if (accum == 0xFFFFFFFF) accum = 0; } } return accum; } |