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man pages section 4: File Formats Oracle Solaris 11.1 Information Library |
- incremental dump format
#include <sys/types.h>
#include <sys/inode.h>
#include <protocols/dumprestore.h>
/etc/dumpdates
Tapes used by ufsdump(1M) and ufsrestore(1M) contain:
a header record
two groups of bit map records
a group of records describing directories
a group of records describing files
The format of the header record and the format of the first record of each description in the <protocols/dumprestore.h> include file are:
#define TP_BSIZE_MAX 65536 #define TP_BSIZE_MIN 1024 #define ESIZE_SHIFT_MAX 6 #ifdef SUPPORTS_MTB_TAPE_FORMAT #define TP_BUFSIZE TP_BSIZE_MAX #else #define TP_BSIZE 1024 #define TP_BUFSIZE TP_BSIZE #endif /* SUPPORTS_MTB_TAPE_FORMAT */ #define NTREC 10 #define HIGHDENSITYTREC 32 #define CARTRIDGETREC 63 #define TP_NINDIR (TP_BSIZE_MIN/2) #define TP_NINOS (TP_NINDIR / sizeof (long)) #define LBLSIZE 16 #define NAMELEN 64 #define OFS_MAGIC (int)60011 #define NFS_MAGIC (int)60012 #define MTB_MAGIC (int)60013 #define CHECKSUM (int)84446
union u_data { char s_addrs[TP_NINDIR]; int32_t s_inos[TP_NINOS]; }; union u_shadow { struct s_nonsh { int32_t c_level; char c_filesys[NAMELEN]; char c_dev[NAMELEN]; char c_host[NAMELEN]; } c_nonsh; char c_shadow[1]; }; union u_spcl { char dummy[TP_BUFSIZE]; struct s_spcl { int32_t c_type; time32_t c_date; time32_t c_ddate; int32_t c_volume; daddr32_t c_tapea; ino32_t c_inumber; int32_t c_magic; int32_t c_checksum; struct dinode c_dinode; int32_t c_count; union u_data c_data; char c_label[LBLSIZE]; union u_shadow c_shadow; int32_t c_flags; int32_t c_firstrec; #ifdef SUPPORTS_MTB_TAPE_FORMAT int32_t c_tpbsize; int32_t c_spare[31]; #else int32_t c_spare[32]; #endif /* SUPPORTS_MTB_TAPE_FORMAT */ } s_spcl; } u_spcl;
int32_t c_type; time32_t c_date; time32_t c_ddate; int32_t c_volume; daddr32_t c_tapea; ino32_t c_inumber; int32_t c_magic; int32_t c_checksum; struct dinode c_dinode; int32_t c_count; union u_data c_data; char c_label[LBLSIZE]; union u_shadow c_shadow; int32_t c_flags; int32_t c_firstrec; #ifdef SUPPORTS_MTB_TAPE_FORMAT int32_t c_tpbsize; int32_t c_spare[31]; #else int32_t c_spare[32]; #endif /* SUPPORTS_MTB_TAPE_FORMAT */
} s_spcl; } u_spcl; #define spcl u_spcl.s_spcl #define c_addr c_data.s_addrs #define c_inos c_data.s_inos #define c_level c_shadow.c_nonsh.c_level #define c_filesys c_shadow.c_nonsh.c_filesys #define c_dev c_shadow.c_nonsh.c_dev #define c_host c_shadow.c_nonsh.c_host
#define TS_TAPE 1 #define TS_INODE 2 #define TS_ADDR 4 #define TS_BITS 3 #define TS_CLRI 6 #define TS_END 5 #define TS_EOM 7 #define DR_NEWHEADER 1 #define DR_INODEINFO 2 #define DR_REDUMP 4 #define DR_TRUEINC 8 #define DR_HASMETA 16
This header describes three formats for the ufsdump/ufsrestore interface:
An old format, non-MTB, that supports dump sizes of less than 2 terabytes. This format is represented by NFS_MAGIC.
A new format, MTB, that supports dump sizes of greater than 2 terabytes using a variable block size and 2 new constants: TP_BSIZE_MIN and TP_BSIZE_MAX. This format is represented by MTB_MAGIC.
A much older format that might be found on existing backup tapes. The ufsrestore command can restore tapes of this format, but no longer generates tapes of this format. Backups in this format have the OFS_MAGIC magic number in their tape headers.
The constants are described as follows:
Size of file blocks on the dump tapes for the old format. Note that TP_BSIZE must be a multiple of DEV_BSIZE This is applicable for dumps of type NFS_MAGIC or OFS_MAGIC, but is not applicable for dumps of type MTB_MAGIC.
Minimum size of file blocks on the dump tapes for the new MTB format (MTB_MAGIC) only.
Maximum size of file blocks on the dump tapes for the new MTB format (MTB_MAGIC) only.
Number of TP_BSIZE blocks that are written in each tape record.
Number of TP_BSIZE blocks that are written in each tape record on 6250 BPI or higher density tapes.
Number of TP_BSIZE blocks that are written in each tape record on cartridge tapes.
Number of indirect pointers in a TS_INODE or TS_ADDR record. It must be a power of 2.
The maximum number of volumes on a tape.
The maximum size of a volume label.
The maximum size of a host's name.
Magic number that is used for the very old format.
Magic number that is used for the non-MTB format.
Magic number that is used for the MTB format.
Header records checksum to this value.
The TS_ entries are used in the c_type field to indicate what sort of header this is. The types and their meanings are as follows:
Tape volume label.
A file or directory follows. The c_dinode field is a copy of the disk inode and contains bits telling what sort of file this is.
A subrecord of a file description. See s_addrs below.
A bit map follows. This bit map has a one bit for each inode that was dumped.
A bit map follows. This bit map contains a zero bit for all inodes that were empty on the file system when dumped.
End of tape record.
The flags are described as follows:
New format tape header.
Header contains starting inode info.
Dump contains recopies of active files.
Dump is a “true incremental”.
The metadata in this header.
Name, incon, and ctime (date) for printf.
Inverse for scanf.
The fields of the header structure are as follows:
An array of bytes describing the blocks of the dumped file. A byte is zero if the block associated with that byte was not present on the file system; otherwise, the byte is non-zero. If the block was not present on the file lsystem, no block was dumped; the block will be stored as a hole in the file. If there is not sufficient space in this record to describe all the blocks in a file, TS_ADDR records will be scattered through the file, each one picking up where the last left off
The starting inodes on tape.
The type of the record.
The date of the previous dump.
The date of this dump.
The current volume number of the dump.
The logical block of this record.
The number of the inode being dumped if this is of type TS_INODE.
This contains the value MAGIC above, truncated as needed.
This contains whatever value is needed to make the record sum to CHECKSUM.
This is a copy of the inode as it appears on the file system.
The count of bytes in s_addrs.
The union of either u_data c_data The union of either s_addrs or s_inos.
Label for this dump.
Level of this dump.
Name of dumped file system.
Name of dumped service.
Name of dumped host.
Additional information.
First record on volume.
Reserved for future uses.
Tape block size for MTB format only.
Each volume except the last ends with a tapemark (read as an end of file). The last volume ends with a TS_END record and then the tapemark.
The dump history is kept in the file /etc/dumpdates. It is an ASCII file with three fields separated by white space:
The name of the device on which the dumped file system resides.
The level number of the dump tape; see ufsdump(1M).
The date of the incremental dump in the format generated by ctime(3C).
DUMPOUTFMT is the format to use when using printf(3C) to write an entry to /etc/dumpdates; DUMPINFMT is the format to use when using scanf(3C) to read an entry from /etc/dumpdates.
See attributes(5) for a description of the following attributes:
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ufsdump(1M), ufsrestore(1M), ctime(3C), printf(3C), scanf(3C), types.h(3HEAD), attributes(5),