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cpm
Langue: en
Version: November 26, 2007 (debian - 07/07/09)
Section: 5 (Format de fichier)
Sommaire
- NAME cpm - CP/M disk and file system format
- DESCRIPTION
- Characteristic sizes Each CP/M disk format is described by the following specific sizes:
- Device areas A CP/M disk contains three areas:
- Directory entries The directory is a sequence of directory entries (also called extents),
- Time stamps P2DOS and CP/M Plus support time stamps, which are stored in each fourth
- Disc labels CP/M Plus support disc labels, which are stored in an arbitrary directory
- Passwords CP/M Plus supports passwords, which are stored in an arbitrary directory
- SEE ALSO mkfs.cpm(1),
NAME cpm - CP/M disk and file system format
DESCRIPTION
Characteristic sizes Each CP/M disk format is described by the following specific sizes:
Sector size in bytes
Number of tracks
Number of sectors
Block size
Number of directory entries
Logical sector skew
Number of reserved system tracks
Device areas A CP/M disk contains three areas:
System tracks (optional)
Directory
Data
Directory entries The directory is a sequence of directory entries (also called extents),
which contain 32 bytes of the following structure:
St F0 F1 F2 F3 F4 F5 F6 F7 E0 E1 E2 Xl Bc Xh Rc
Al Al Al Al Al Al Al Al Al Al Al Al Al Al AlAl
0-15: used for file, status is the user number
16-31: used for file, status is the user number (P2DOS) or used for password extent (CP/M 3 or higher)
32: disc label
33: time stamp (P2DOS)
0xE5: unused
F0-E2 are the file name and its extension. They may consist of any printable 7 bit ASCII character but: < > . , ; : = ? * [ ]. The file name must not be empty, the extension may be empty. Both are padded with blanks. The highest bit of each character of the file name and extension is used as attribute. The attributes have the following meaning:
F0: requires set wheel byte (Backgrounder II)
F1: public file (P2DOS, ZSDOS), foreground-only command (Backgrounder II)
F2: date stamp (ZSDOS), background-only commands (Backgrounder II)
F7: wheel protect (ZSDOS)
E0: read-only
E1: system file
E2: archived
The wheel byte is (by default) the memory location at 0x4b. If it is zero, only non-privileged commands may be executed.
Xl and Xh store the extent number. A file may use more than one directory entry, if it contains more blocks than an extent can hold. In this case, more extents are allocated and each of them is numbered sequentially with an extent number. If a physical extent stores more than 16k, it is considered to contain multiple logical extents, each pointing to 16k data, and the extent number of the last used logical extent is stored. Note: Some formats decided to always store only one logical extent in a physical extent, thus wasting extent space. CP/M 2.2 allows 512 extents per file, CP/M 3 and higher allow up to 2048. Bit 5-7 of Xl are 0, bit 0-4 store the lower bits of the extent number. Bit 6 and 7 of Xh are 0, bit 0-5 store the higher bits of the extent number.
Rc and Bc determine the length of the data used by this extent. The physical extent is divided into logical extents, each of them being 16k in size (a physical extent must hold at least one logical extent, e.g. a blocksize of 1024 byte with two-byte block pointers is not allowed). Rc stores the number of 128 byte records of the last used logical extent. Bc stores the number of bytes in the last used record. The value 0 means 128 for backward compatibility with CP/M 2.2, which did not support Bc.
Al stores block pointers. If the disk capacity is less than 256 blocks, Al is interpreted as 16 byte-values, otherwise as 8 double-byte-values. A block pointer of 0 marks a hole in the file. If a hole covers the range of a full extent, the extent will not be allocated. In particular, the first extent of a file does not necessarily have extent number 0. A file may not share blocks with other files, as its blocks would be freed if the other files is erased without a following disk system reset. CP/M returns EOF when it reaches a hole, whereas UNIX returns zero-value bytes, which makes holes invisible.
Time stamps P2DOS and CP/M Plus support time stamps, which are stored in each fourth
directory entry. This entry contains the time stamps for the extents using the previous three directory entries. Note that you really have time stamps for each extent, no matter if it is the first extent of a file or not. The structure of time stamp entries is:
1 byte status 0x21
8 bytes time stamp for third-last directory entry
2 bytes unused
8 bytes time stamp for second-last directory entry
2 bytes unused
8 bytes time stamp for last directory entry
2 bytes (little-endian) days starting with 1 at 01-01-1978
1 byte hour in BCD format
1 byte minute in BCD format
Disc labels CP/M Plus support disc labels, which are stored in an arbitrary directory
entry. The structure of disc labels is:
1 byte status 0x20
F0-E2 are the disc label
1 byte mode: bit 7 activates password protection, bit 6 causes time stamps on access, but 5 causes time stamps on modifications, bit 4 causes time stamps on creation and bit 0 is set when a label exists. Bit 4 and 6 are exclusively set.
1 byte password decode byte: To decode the password, xor this byte with the password bytes in reverse order. To encode a password, add its characters to get the decode byte.
2 reserved bytes
8 password bytes
4 bytes label creation time stamp
4 bytes label modification time stamp
Passwords CP/M Plus supports passwords, which are stored in an arbitrary directory
entry. The structure of these entries is:
1 byte status (user number plus 16)
F0-E2 are the file name and its extension.
1 byte password mode: bit 7 means password required for reading, bit 6 for writing and bit 5 for deleting.
1 byte password decode byte: To decode the password, xor this byte with the password bytes in reverse order. To encode a password, add its characters to get the decode byte.
2 reserved bytes
8 password bytes
SEE ALSO mkfs.cpm(1),
fsck.cpm(1), fsed.cpm(1), cpmls(1)Contenus ©2006-2024 Benjamin Poulain
Design ©2006-2024 Maxime Vantorre