The zip program is used to package and compress files.
- What Is The Analogous Directory To Etc Environment For Macos Windows 7
- What Is The Analogous Directory To Etc Environment For Macos Mac
- What Is The Analogous Directory To Etc Environment For Macos Free
- What Is The Analogous Directory To Etc Environment For Macos Download
Description
zip is a compression and file packaging utility for Unix, VMS, MSDOS, OS/2, Windows9x/NT/XP, Minix, Atari, Macintosh, Amiga, and Acorn RISCOS. It is analogous to a combination of the Unix commands tar and compress, and it is compatible with PKZIP.
A separate companion program, unzip, unpacks and uncompresses zip archives. The zip and unzip programs can work with archives produced by PKZIP (supporting most PKZIP features up to PKZIP version 4.6), and PKZIP and PKUNZIP can work with archives produced by zip (with some exceptions).
An additional component is a location for 'dockapps' to reside (NouveAUXcs). This is analogous to the old Control Strip in many ways, so we'll refer to it by that name. One big difficulty is that in the MacOS, the menu bar pulls double-duty by providing both application-specific menus as well as system-wide menus. In OS-9/6809 and OS-9/68000, the module directory is flat, but OS-9000 made the module directory tree-structured. The OS-9000 shell looks in one's alternative module directory for a MODPATH environment variable, analogous to the PATH variable in all versions, indicating the sequence of module directories in which to look for pre-loaded modules. Mar 13, 2016 In this environment we have access to Anaconda’s python package installer, conda install, so that we can install packages at will in this “bubble” without messing up dependencies (basically breaking python) in any other environment. Side note: if you want to exit this py27 environment, just enter source deactivate in Terminal.
Zip is a compression and file packaging utility for Unix, VMS, MSDOS, OS/2, Windows 9x/NT/XP, Minix, Atari, Macintosh, Amiga, and Acorn RISC OS.It is analogous to a combination of the Unix commands tar and compress, and it is compatible with PKZIP.
zip supports macOS X, and on that OS, most Unix features are the same.
Usage
zip is useful for packaging a set of files for distribution, for archiving files, and for saving disk space by temporarily compressing unused files or directories.
The zip program puts one or more compressed files into a single zip archive, along with information about the files (name, path, date, time of last modification, protection, and check information to verify file integrity). An entire directory structure can be packed into a zip archive with a single command. Compression ratios of 2:1 to 3:1 are common for text files. zip has one compression method (deflation) and can also store files without compression. (If bzip2 support is added, zip can also compress using bzip2 compression, but such entries require a reasonably modern unzip to decompress. When bzip2 compression is selected, it replaces deflation as the default method.) zip automatically chooses the better of the two (deflation or store or, if bzip2 is selected, bzip2 or store) for each file to be compressed.
Command Format
The basic command format is:
...where archive is a new or existing zip archive and inpath is a directory or file path optionally including wildcards. When given the name of an existing zip archive, zip will replace identically named entries in the zip archive (matching the relative names as stored in the archive) or add entries for new names. For example, if foo.zip exists and contains foo/file1 and foo/file2, and the directory foo contains the files foo/file1 and foo/file3, then:
or more concisely:
...will replace foo/file1 in foo.zip and add foo/file3 to foo.zip. After this, foo.zip contains foo/file1, foo/file2, and foo/file3, with foo/file2 unchanged from before.
So if before the zip command is executed foo.zip has:
and directory foo has:
What Is The Analogous Directory To Etc Environment For Macos Windows 7
then foo.zip will have:
...where foo/file1 is replaced and foo/file3 is new.
File Lists
If a file list is specified as [email protected], zip takes the list of input files from standard input instead of from the command line. For example,
...will store the files listed, one per line on standard input, in the archive foo.zip.
Under Unix, this option can be used to powerful effect in conjunction with the find command. For example, to archive all the Csource files in the current directory and its subdirectories:
(note that the pattern must be quoted to keep the shell from expanding it).
Streaming input and output. zip will also accept a single dash ('-') as the zip file name, in which case it will write the zip file to standard output, allowing the output to be piped to another program. For example:
...would write the zip output directly to a tape with the specified block size for the purpose of backing up the current directory.
zip also accepts a single dash ('-') as the name of a file to be compressed, in which case it will read the file from standard input, allowing zip to take input from another program. For example:
...would compress the output of the tar command for the purpose of backing up the current directory. This generally produces better compression than the previous example using the -r option because zip can take advantage of redundancy between files. The backup can be restored using the command:
When no zip file name is given and stdout is not a terminal, zip acts as a filter, compressing standard input to standard output. For example,
...is equivalent to
zip archives created in this manner can be extracted with the program funzip that is provided in the unzip package, or by gunzip that is provided in the gzip package (but some installations of gunzip may not support this if zip used the Zip64 extensions). For example:
The stream can also be saved to a file and unzip used.
If Zip64 support for large files and archives is enabled and zip is used as a filter, zip creates a Zip64 archive that requires a PKZIP 4.5 or later compatible unzip to read the file. To avoid amgibuities in the zip file structure as defined in the current zip standard (PKWARE AppNote) where the decision to use Zip64 needs to be made before data is written for the entry, but for a stream the size of the data is not known at that point. If the data is known to be smaller than 4 GB, the option -fz- can be used to prevent use of Zip64, but zip will exit with an error if Zip64 was in fact needed. zip 3 and unzip 6 and later can read archives with Zip64 entries. Also, zip removes the Zip64 extensions if not needed when archive entries are copied (see the -U (--copy) option).
When directing the output to another file, note that all options should be before the redirection including -x. For example:
Please note that [email protected] lists do not work on macOS.
Zip Files
When changing an existing zip archive, zip will write a temporary file with the new contents, and only replace the old one when the process of creating the new version has been completed without error.
If the name of the zip archive does not contain an extension, the extension .zip is added. If the name already contains an extension other than .zip, the existing extension is kept unchanged. However, split archives (archives split over multiple files) require the .zip extension on the last split.
Scanning And Reading Files
When zip starts, it scans for files to process (if needed). If this scan takes longer than about 5 seconds, zip displays a 'Scanning files' message and start displaying progress dots every 2 seconds or every so many entries processed, whichever takes longer. If there is more than 2 seconds between dots it could indicate that finding each file is taking time and could mean a slow network connection for example. (Actually the initial file scan is a two-step process where the directory scan is followed by a sort and these two steps are separated with a space in the dots. If updating an existing archive, a space also appears between the existing file scan and the new file scan.) The scanning files dots are not controlled by the -ds dot size option, but the dots are turned off by the -q quiet option. The -sf show files option can be used to scan for files and get the list of files scanned without actually processing them.
If zip is not able to read a file, it issues a warning but continues. See the -MM option below for more on how zip handles patterns that are not matched and files that are not readable. If some files were skipped, a warning is issued at the end of the zip operation noting how many files were read and how many skipped.
What Is The Analogous Directory To Etc Environment For Macos Mac
Command Modes
zip now supports two distinct types of command modes, external and internal. The external modes (add, update, and freshen) read files from the file system (as well as from an existing archive) while the internal modes (delete and copy) operate exclusively on entries in an existing archive.
add | Update existing entries and add new files and create it if the archive does not exist. This option is the default mode. |
update (-u) | Update existing entries if newer on the file system and add new files. If the archive does not exist issue warning then create a new archive. |
freshen (-f) | Update existing entries of an archive if newer on the file system. Does not add new files to the archive. |
delete (-d) | Select entries in an existing archive and delete them. |
copy (-U) | Select entries in an existing archive and copy them to a new archive. This new mode is similar to update but command line patterns select entries in the existing archive rather than files from the file system and it uses the --out option to write the resulting archive to a new file rather than update the existing archive, leaving the original archive unchanged. |
The new File Sync option (-FS) is also considered a new mode, though it is similar to update. This mode synchronizes the archive with the files on the OS, only replacing files in the archive if the file time or size of the OS file is different, adding new files, and deleting entries from the archive where there is no matching file. As this mode can delete entries from the archive, consider making a backup copy of the archive.
Also see -DF for creating difference archives.
Split Archives
zip version 3.0 and later can create split archives. A split archive is a standard zip archive split over multiple files. (Note that split archives are not just archives split in to pieces, as the offsets of entries are now based on the start of each split. Concatenating the pieces together will invalidate these offsets, but unzip can usually deal with it. zip will usually refuse to process such a spliced archive unless the -FF fix option is used to fix the offsets.)
One use of split archives is storing a large archive on multiple removable media. For a split archive with 20 split files the files are typically named (replace ARCHIVE with the name of your archive) ARCHIVE.z01, ARCHIVE.z02, ..., ARCHIVE.z19, ARCHIVE.zip. Note that the last file is the .zip file. In contrast, spanned archives are the original multi-disk archive generally requiring floppy disks and using volume labels to store disk numbers. zip supports split archives but not spanned archives, though a procedure exists for converting split archives of the right size to spanned archives. The reverse is also true, where each file of a spanned archive can be copied to files with the above names to create a split archive.
Use -s to set the split size and create a split archive. The size is given as a number followed optionally by one of k (kB), m (MB), g (GB), or t (TB) (the default is m). The -sp option can be used to pause zip between splits to allow changing removable media, for example, but read the descriptions and warnings for both -s and -sp below.
Though zip does not update split archives, zip provides the new option -O (--output-file or --out) to allow split archives to be updated and saved in a new archive. For example,
What Is The Analogous Directory To Etc Environment For Macos Free
...reads archive inarchive.zip, even if split, adds the files foo.c and bar.c, and writes the resulting archive to outarchive.zip. If inarchive.zip is split then outarchive.zip defaults to the same split size. Be aware that if outarchive.zip and any split files that are created with it already exist, these are always overwritten as needed without warning. This may be changed in the future.
Unicode Support
Though the zip standard requires storing paths in an archive using a specific character set, in practice zips have stored paths in archives in whatever the local character set is. Problems can occur when an archive is created or updated on a system using one character set and then extracted on another system using a different character set. When compiled with Unicode support enabled on platforms that support wide characters, zip now stores, in addition to the standard local path for backward compatibility, the UTF-8 translation of the path. This provides a common universal character set for storing paths that allows these paths to be fully extracted on other systems that support Unicode and to match as close as possible on systems that don't.
On Win32 systems where paths are internally stored as Unicode but represented in the local character set, it's possible that some paths will be skipped during a local character set directory scan. zip with Unicode support now can read and store these paths. Note that Win 9x systems and FAT file systems don't fully support Unicode.
Be aware that console windows on Win32 and Unix, for example, sometimes don't accurately show all characters due to how each operating system switches in character sets for display. However, directory navigation tools should show the correct paths if the needed fonts are loaded.
Command Line Format
This version of zip has updated command line processing and support for long options.
Short options take the form:
...where s is a one or two character short option. A short option that takes a value is last in an argument and anything after it is taken as the value. If the option can be negated and '-' immediately follows the option, the option is negated. Short options can also be given as separate arguments
Short options in general take values either as part of the same argument or as the following argument. An optional = is also supported. So -ttmmddyyyy, -tt=mmddyyyy, and -ttmmddyyyy all work. The -x and -i options accept lists of values and use a slightly different format described below. See the -x and -i options.
Long options take the form
where the option starts with --, has a multicharacter name, can include a trailing dash to negate the option (if the option supports it), and can have a value (option argument) specified by preceding it with = (no spaces). Values can also follow the argument. So --before-date=mmddyyyy and --before-datemmddyyyy both work.
Long option names can be shortened to the shortest unique abbreviation. See the option descriptions below for which support long options. To avoid confusion, avoid abbreviating a negatable option with an embedded dash ('-') at the dash if you plan to negate it (the parser would consider a trailing dash, such as for the option --some-option using --some- as the option, as part of the name rather than a negating dash). This may be changed to force the last dash in --some- to be negating in the future.
Syntax
Options
-a, --ascii | On systems using EBCDIC, this option translates files to ASCII format. | ||||||||||||
-A, --adjust-sfx | Adjust self-extracting executable archive. A self-extracting executable archive is created by prepending the 'SFX' stub to an existing archive. The -A option tells zip to adjust the entry offsets stored in the archive to take into account this 'preamble' data. | ||||||||||||
-AC, --archive-clear | This option is a Windows-only option. Once archive is created (and tested if -T is used, which is recommended), clear the archive bits of files processed. Once the bits are cleared they are cleared permanently. You may want to use the -sf (show files) option to store the list of files processed in case the archive operation must be repeated. Also consider using the -MM (must match) option. Be sure to check out -DF as a possibly better way to do incremental backups. | ||||||||||||
-AS, --archive-set | This option is a Windows-only option which only includes files that have the archive bit set. Directories are not stored when -AS is used, though by default the paths of entries, including directories, are stored as usual and can be used by most unzips to recreate directories. The archive bit is set by the operating system when a file is modified and, if used with -AC, -AS can provide an incremental backup capability. However, other applications can modify the archive bit and it may not be a reliable indicator of which files have changed since the last archive operation. Alternative ways to create incremental backups are using -t to use file dates, though this won't catch old files copied to directories being archived, and -DF to create a differential archive. | ||||||||||||
-B, --binary | Force files to be read as binary (default is text). | ||||||||||||
-bpath, --temp-pathpath | Use the specified path for the temporary zip archive. For example: ...will put the temporary zip archive in the directory /tmp, copying over stuff.zip to the current directory when done. This option is useful when updating an existing archive and the file system containing this old archive does not have enough space to hold both old and new archives at the same time. It may also be useful when streaming in some cases to avoid the need for data descriptors. Note that using this option may require zip take additional time to copy the archive file when done to the destination file system. | ||||||||||||
-c, --entry-comments | Add one-line comments for each file. File operations (adding, updating) are done first, and the user is then prompted for a one-line comment for each file. Enter the comment followed by return, or just return for no comment. | ||||||||||||
-d, --delete | Remove (delete) entries from a zip archive. For example: ...will remove the entry foo/tom/junk, all of the files that start with foo/harry/, and all of the files that end with .o (in any path). Note that shell pathname expansion has been inhibited with backslashes, so that zip can see the asterisks, enabling zip to match on the contents of the zip archive instead of the contents of the current directory. (The backslashes are not used on MSDOS-based platforms.) Can also use quotes to escape the asterisks, as in Not escaping the asterisks on a system where the shell expands wildcards could result in the asterisks being converted to a list of files in the current directory and that list used to delete entries from the archive. Under MSDOS, -d is case sensitive when it matches names in the zip archive. This requires that file names be entered in upper case if they were zipped by PKZIP on an MSDOS system. See the option -ic to ignore case in the archive. | ||||||||||||
-db, --display-bytes | Display running byte counts showing the bytes zipped and the bytes to go. | ||||||||||||
-dc, --display-counts | Display a running count of entries zipped and entries still to be processed. | ||||||||||||
-dd, --display-dots | Display dots while each entry is zipped (except on ports that have their own progress indicator). See -ds below for setting dot size. The default is a dot every 10 MB of input file processed. The -v option also displays dots (previously at a much higher rate than this but now -v also defaults to 10 MB) and this rate is also controlled by -ds. | ||||||||||||
-df, --datafork | On MacOS, include only message as zip scans for input files. The dot size for that is fixed at 2 seconds or a fixed number of entries, whichever is longer. | ||||||||||||
-du, --display-usize | Display the uncompressed size of each entry. | ||||||||||||
-dv, --display-volume | Display the volume (disk) number each entry is being read from, if reading an existing archive, and where it's being written. | ||||||||||||
-D, --no-dir-entries | Do not create entries in the zip archive for directories. Directory entries are created by default so that their attributes can be saved in the archive. The environment variableZIPOPT can be used to change the default options. For example under Unix with sh: (The variable ZIPOPT can be used for any option, including -i and -x using a new option format detailed below, and can include several options.) The option -D is a shorthand for -x '*/' but the latter previously could not be set as default in the ZIPOPT environment variable as the contents of ZIPOPT gets inserted near the beginning of the command line and the file list had to end at the end of the line. This version of zip does allow -x and -i options in ZIPOPT if the form ...is used, where the @ (an argument that is just @) terminates the list. | ||||||||||||
-DF, --difference-archive | Create an archive that contains all new and changed files since the original archive was created. For this to work, the input file list and current directory must be the same as during the original zip operation. For example, if the existing archive was created using from the bar directory, then the command ...also from the bar directory creates the archive foonew with just the files not in foofull and the files where the size or file time of the files do not match those in foofull. Note that the timezone environment variable TZ should be set according to the local timezone for this option to work correctly. A change in timezone since the original archive was created could result in no times matching and all files being included. A possible approach to backing up a directory might be to create a normal archive of the contents of the directory as a full backup, then use this option to create incremental backups. | ||||||||||||
-e, --encrypt | Encrypt the contents of the zip archive using a password that is entered on the terminal in response to a prompt (this will not be echoed; if standard error is not a tty, zip will exit with an error). The password prompt is repeated to save the user from typing errors. | ||||||||||||
-E, --longnames | On OS/2, use the .LONGNAME Extended Attribute (if found) as the file name. | ||||||||||||
-f, --freshen | Replace (freshen) an existing entry in the zip archive only if it has been modified more recently than the version already in the zip archive; unlike the update option (-u) this will not add files that are not already in the zip archive. For example: This command should be run from the same directory from which the original zip command was run, since paths stored in zip archives are always relative. Note that the timezone environment variable TZ should be set according to the local timezone for the -f, -u and -o options to work correctly. The reasons behind this are somewhat subtle but have to do with the differences between the Unix-format file times (always in GMT) and most of the other operating systems (always local time) and the necessity to compare the two. A typical TZ value is 'MET-1MEST' (Middle European time with automatic adjustment for 'summertime' or Daylight Savings Time). The format is TTThhDDD, where TTT is the time zone such as PST, hh is the difference between GMT and local time such as -1 above, and DDD is the time zone when daylight savings time is in effect. Leave off the DDD if there is no daylight savings time. For the US Eastern time zone: EST5EDT. | ||||||||||||
-F, --fix, -FF, --fixfix | Fix the zip archive. The -F option can be used if some portions of the archive are missing, but requires a reasonably intact central directory. The input archive is scanned as usual, but zip ignores some problems. The resulting archive should be valid, but any inconsistent entries will be left out. When doubled as in -FF, the archive is scanned from the beginning and zip scans for special signatures to identify the limits between the archive members. The single -F is more reliable if the archive is not too much damaged, so try this option first. If the archive is too damaged or the end has been truncated, you must use -FF. This option is a change from zip 2.32, where the -F option can read a truncated archive. The -F option now more reliably fixes archives with minor damage and the -FF option is needed to fix archives where -F might have been sufficient before. Neither option will recover archives that have been incorrectly transferred in ascii mode instead of binary. After the repair, the -t option of unzip may show that some files have a bad CRC. Such files cannot be recovered; you can remove them from the archive using the -d option of zip. Note that -FF may have trouble fixing archives that include an embedded zip archive that was stored (without compression) in the archive and, depending on the damage, it may find the entries in the embedded archive rather than the archive itself. Try -F first as it does not have this problem. The format of the fix commands have changed. For example, to fix the damaged archive foo.zip, ...tries to read the entries normally, copying good entries to the new archive foofix.zip. If this doesn't work, as when the archive is truncated, or if some entries you know are in the archive are missed, then try ...and compare the resulting archive to the archive created by -F. The -FF option may create an inconsistent archive. Depending on what is damaged, you can then use the -F option to fix that archive. A split archive with missing split files can be fixed using -F if you have the last split of the archive (the .zip file). If this file is missing, you must use -FF to fix the archive, which will prompt you for the splits you have. Currently the fix options can't recover entries that have a bad checksum or are otherwise damaged. | ||||||||||||
-FI, --fifo | On Unix, normally zip skips reading any FIFOs (named pipes) encountered, as zip can hang if the FIFO is not being fed. This option tells zip to read the contents of any FIFO it finds. | ||||||||||||
-FS, --filesync | Synchronize the contents of an archive with the files on the OS. Normally when an archive is updated, new files are added and changed files are updated but files that no longer exist on the OS are not deleted from the archive. This option enables a new mode that checks entries in the archive against the file system. If the file time and file size of the entry matches that of the OS file, the entry is copied from the old archive instead of being read from the file system and compressed. If the OS file has changed, the entry is read and compressed as usual. If the entry in the archive does not match a file on the OS, the entry is deleted. Enabling this option should create archives that are the same as new archives, but since existing entries are copied instead of compressed, updating an existing archive with -FS can be much faster than creating a new archive. Also consider using -u for updating an archive. For this option to work, the archive should be updated from the same directory it was created in so the relative paths match. If few files are being copied from the old archive, it may be faster to create a new archive instead. Note that the timezone environment variable TZ should be set according to the local timezone for this option to work correctly. A change in timezone since the original archive was created could result in no times matching and recompression of all files. This option deletes files from the archive. If you need to preserve the original archive, make a copy of the archive first or use the --out option to output the updated archive to a new file. Even though it may be slower, creating a new archive with a new archive name is safer, avoids mismatches between archive and OS paths, and is preferred. | ||||||||||||
-g, --grow | Grow (append to) the specified zip archive, instead of creating a new one. If this operation fails, zip attempts to restore the archive to its original state. If the restoration fails, the archive might become corrupted. This option is ignored when there's no existing archive or when at least one archive member must be updated or deleted. | ||||||||||||
-h, -?, --help | Display the zip help information (this also appears if zip is run with no arguments). | ||||||||||||
-h2, --more-help | Display extended help including more on command line format, pattern matching, and more obscure options. | ||||||||||||
-ifiles, --includefiles | Include only the specified files, as in: ...which will include only the files that end in .c in the current directory and its subdirectories. (Note for PKZIP users: the equivalent command is PKZIP does not allow recursion in directories other than the current one.) The backslash avoids the shell file name substitution, so that the name matching is performed by zip at all directory levels. [This option is for Unix and other systems where '' escapes the next character.] So to include dir, a directory directly under the current directory, use: or: ...to match paths such as dir/a and dir/b/file.c. Note that currently the trailing / is needed for directories (as in: ...to include directory dir). The long option form of the first example is: ...and does the same thing as the short option form. Though the command syntax used to require -i at the end of the command line, this version actually allows -i (or --include) anywhere. The list of files terminates at the next argument starting with -, the end of the command line, or the list terminator @ (an argument that is just @). So the above can be given as: ...for example. There must be a space between the option and the first file of a list. For just one file you can use the single value form: (no space between option and value) or: ...as additional examples. The single value forms are not recommended because they can be confusing and, in particular, the -ifile format can cause problems if the first letter of file combines with i to form a two-letter option starting with i. Use -sc to see how your command line will be parsed. Also possible: ...which will only include the files in the current directory and its subdirectories that match the patterns in the file include.lst. Files to -i and -x are patterns matching internal archive paths. See -R for more on patterns. | ||||||||||||
-I, --no-image | On Acorn RISC OS, this option instructs zip not to scan through Image files. When used, zip will not consider Image files (eg. DOS partitions or Spark archives when SparkFS is loaded) as directories but will store them as single files. For example, if you have SparkFS loaded, zipping a Spark archive will result in a zipfile containing a directory (and its content) while using the 'I' option will result in a zipfile containing a Spark archive. Obviously this second case will also be obtained (without the 'I' option) if SparkFS isn't loaded. | ||||||||||||
-ic, --ignore-case | On VMS or Windows systems, ignore case when matching archive entries. This option is only available on systems where the case of files is ignored. On systems with case-insensitive file systems, case is normally ignored when matching files on the file system but is not ignored for -f (freshen), -d (delete), -U (copy), and similar modes when matching against archive entries (currently -f ignores case on VMS) because archive entries can be from systems where case does matter and names that are the same except for case can exist in an archive. The -ic option makes all matching case insensitive. This option can result in multiple archive entries matching a command line pattern. | ||||||||||||
-j, --junk-paths | Store just the name of a saved file (without the path), and do not store directory names. By default, zip will store the full path, relative to the current directory. | ||||||||||||
-jj, --absolute-path | On macOS, record Fullpath (+ Volname). The complete path including volume will be stored. By default the relative path will be stored. | ||||||||||||
-J, --junk-sfx | Strip any prepended data (e.g., a SFX stub) from the archive. | ||||||||||||
-k, --DOS-names | Attempt to convert the names and paths to conform to MSDOS, store only the MSDOS attribute (just the user write attribute from Unix), and mark the entry as made under MSDOS (even though it was not); for compatibility with PKUNZIP under MSDOS which cannot handle certain names such as those with two dots. | ||||||||||||
-l, --to-crlf | Translate the Unix end-of-line character LF into the MSDOS convention CR LF. This option should not be used on binary files. This option can be used on Unix if the zip file is intended for PKUNZIP under MSDOS. If the input files already contain CR LF, this option adds an extra CR. This option is to ensure that unzip -a on Unix will get back an exact copy of the original file, to undo the effect of zip -l. See -ll for how binary files are handled. | ||||||||||||
-la, --log-append | Append to existing logfile. Default is to overwrite. | ||||||||||||
-lflogfilepath, --logfile-pathlogfilepath | Open a logfile at the given path. By default any existing file at that location is overwritten, but the -la option will result in an existing file being opened and the new log information appended to any existing information. Only warnings and errors are written to the log unless the -li option is also given, then all information messages are also written to the log. | ||||||||||||
-li, --log-info | Include information messages, such as file names being zipped, in the log. The default is to only include the command line, any warnings and errors, and the final status. | ||||||||||||
-ll, --from-crlf | Translate the MSDOS end-of-line CR LF into Unix LF. This option should not be used on binary files. This option can be used on MSDOS if the zip file is intended for unzip under Unix. If the file is converted and the file is later determined to be binary a warning is issued and the file is probably corrupted. In this release if -ll detects binary in the first buffer read from a file, zip now issues a warning and skips line end conversion on the file. This check seems to catch all binary files tested, but the original check remains and if a converted file is later determined to be binary that warning is still issued. A new algorithm is now being used for binary detection that should allow line end conversion of text files in UTF-8 and similar encodings. | ||||||||||||
-L, --license | Display the zip license. | ||||||||||||
-m, --move | Move the specified files into the zip archive; actually, this deletes the target directories/files after making the specified zip archive. If a directory becomes empty after removal of the files, the directory is also removed. No deletions are done until zip has created the archive without error. This option is useful for conserving disk space, but is potentially dangerous so it is recommended to use it in combination with -T to test the archive before removing all input files. | ||||||||||||
-MM, --must-match | All input patterns must match at least one file and all input files found must be readable. Normally when an input pattern does not match a file the 'name not matched' warning is issued and when an input file has been found but later is missing or not readable a missing or not readable warning is issued. In either case zip continues creating the archive, with missing or unreadable new files being skipped and files already in the archive remaining unchanged. After the archive is created, if any files were not readable, zip returns the OPEN error code (18 on most systems) instead of the normal success return (0 on most systems). With -MM set, zip exits as soon as an input pattern is not matched (whenever the 'name not matched' warning would be issued) or when an input file is not readable. In either case zip exits with an OPEN error and no archive is created. This option is useful when a known list of files is to be zipped so any missing or unreadable files will result in an error. It is less useful when used with wildcards, but zip will still exit with an error if any input pattern doesn't match at least one file and if any matched files are unreadable. If you want to create the archive anyway and only need to know if files were skipped, don't use -MM and just check the return code. Also -lf could be useful. | ||||||||||||
-nsuffixes, --suffixessuffixes | Do not attempt to compress files named with the given suffixes. Such files are stored (0% compression) in the output zip file, so that zip doesn't waste its time trying to compress them. The suffixes are separated by either colons or semicolons. For example: will copy everything from foo into foo.zip, but will store any files that end in .Z, .zip, .tiff, .gif, or .snd without trying to compress them (image and sound files often have their own specialized compression methods). By default, zip does not compress files with extensions in the list .Z:.zip:.zoo:.arc:.lzh:.arj. Such files are stored directly in the output archive. The environment variable ZIPOPT can be used to change the default options. For example under Unix with csh: To attempt compression on all files, use: The maximum compression option -9 also attempts compression on all files regardless of extension. On Acorn RISC OS systems the suffixes are actually filetypes (3 hex digit format). By default, zip does not compress files with filetypes in the list DDC:D96:68E (i.e. Archives, CFS files and PackDir files). | ||||||||||||
-nw, --no-wild | Do not perform internal wildcard processing (shell processing of wildcards is still done by the shell unless the arguments are escaped). Useful if a list of paths is being read and no wildcard substitution is desired. | ||||||||||||
-N, --notes | [Amiga, MacOS] Save Amiga or MacOS filenotes as zipfile comments. They can be restored by using the -N option of unzip. If -c is used also, you are prompted for comments only for those files that do not have filenotes. | ||||||||||||
-o, --latest-time | Set the 'last modified' time of the zip archive to the latest (oldest) 'last modified' time found among the entries in the zip archive. This option can be used without any other operations, if desired. For example: ...will change the last modified time of foo.zip to the latest time of the entries in foo.zip. | ||||||||||||
-Ooutput-file, --output-fileoutput-file | Process the archive changes as usual, but instead of updating the existing archive, output the new archive to output-file. Useful for updating an archive without changing the existing archive and the input archive must be a different file than the output archive. This option can be used to create updated split archives. It can also be used with -U to copy entries from an existing archive to a new archive. Another use is converting zip files from one split size to another. For instance, to convert an archive with 700 MB CD splits to one with 2 GB DVD splits, can use: ...which uses copy mode. See -U below. Also: ...will convert a split archive to a single-file archive. Copy mode will convert stream entries (using data descriptors and which should be compatible with most unzips) to normal entries (which should be compatible with all unzips), except if standard encryption was used. For archives with encrypted entries, zipcloak will decrypt the entries and convert them to normal entries. | ||||||||||||
-p, --paths | Include relative file paths as part of the names of files stored in the archive. This option is the default. The -j option junks the paths and just stores the names of the files. | ||||||||||||
-Ppassword, --passwordpassword | Use password to encrypt zipfile entries (if any). THIS IS INSECURE! Many multi-user operating systems provide ways for any user to see the current command line of any other user; even on stand-alone systems there is always the threat of over-the-shoulder peeking. Storing the plaintext password as part of a command line in an automated script is even worse. Whenever possible, use the non-echoing, interactive prompt to enter passwords. (And where security is truly important, use strong encryption such as Pretty Good Privacy instead of the relatively weak standard encryption provided by zipfile utilities.) | ||||||||||||
-q, --quiet | Quiet mode; eliminate informational messages and comment prompts. (Useful, for example, in shell scripts and background tasks). | ||||||||||||
-r, --recurse-paths | Travel the directory structure recursively; for example: or more concisely In this case, all the files and directories in foo are saved in an archive named foo.zip, including files with names starting with '.', since the recursion does not use the shell's file-name substitution mechanism. If you want to include only a specific subset of the files in directory foo and its subdirectories, use the -i option to specify the pattern of files to be included. You should not use -r with the name '.*', since that matches '..' which will attempt to zip up the parent directory (probably not what was intended). Multiple source directories are allowed: ...which first zips up foo1 and then foo2, going down each directory. Note that while wildcards to -r are typically resolved while recursing down directories in the file system, any -R, -x, and -i wildcards are applied to internal archive pathnames once the directories are scanned. To have wildcards apply to files in subdirectories when recursing on Unix and similar systems where the shell does wildcard substitution, either escape all wildcards or put all arguments with wildcards in quotes. This lets zip see the wildcards and match files in subdirectories using them as it recurses. | ||||||||||||
-R, --recurse-patterns | Travel the directory structure recursively starting at the current directory; for example: In this case, all the files matching *.c in the tree starting at the current directory are stored into a zip archive named foo.zip. Note that *.c will match file.c, a/file.c and a/b/.c. More than one pattern can be listed as separate arguments. Note for PKZIP users: the equivalent command is Patterns are relative file paths as they appear in the archive, or will after zipping, and can have optional wildcards in them. For example, given the current directory is foo and under it are directories foo1 and foo2 and in foo1 is the file bar.c, ...will zip up foo, foo/foo1, foo/foo1/bar.c, and foo/foo2. ...will zip up foo/foo1/bar.c. See the note for -r on escaping wildcards. | ||||||||||||
-RE, --regex | [WIN32] Before zip 3.0, regular expression list matching was enabled by default on Windows platforms. Because of confusion resulting from the need to escape '[' and ']' in names, it is now off by default for Windows so '[' and ']' are just normal characters in names. This option enables [] matching again. | ||||||||||||
-ssplitsize, --split-sizesplitsize | Enable creating a split archive and set the split size. A split archive is an archive that could be split over many files. As the archive is created, if the size of the archive reaches the specified split size, that split is closed and the next split opened. In general all splits but the last will be the split size and the last will be whatever is left. If the entire archive is smaller than the split size a single-file archive is created. Split archives are stored in numbered files. For example, if the output archive is named archive and three splits are required, the resulting archive will be in the three files archive.z01, archive.z02, and archive.zip. Do not change the numbering of these files or the archive will not be readable as these are used to determine the order the splits are read. Split size is a number optionally followed by a multiplier. Currently the number must be an integer. The multiplier can currently be one of k (kilobytes), m (megabytes), g (gigabytes), or t (terabytes). As 64 k is the minimum split size, numbers without multipliers default to megabytes. For example, to create a split archive called foo with the contents of the bar directory with splits of 670 MB that might be useful for burning on CDs, the command: could be used. Currently the old splits of a split archive are not excluded from a new archive, but they can be specifically excluded. If possible, keep the input and output archives out of the path being zipped when creating split archives. Using -s without -sp as above creates all the splits where foo is being written, in this case the current directory. This split mode updates the splits as the archive is being created, requiring all splits to remain writable, but creates split archives that are readable by any unzip that supports split archives. See -sp below for enabling split pause mode that allows splits to be written directly to removable media. The option -sv can be used to enable verbose splitting and provide details of how the splitting is being done. The -sb option can be used to ring the bell when zip pauses for the next split destination. Split archives cannot be updated, but see the -O (--out) option for how a split archive can be updated as it is copied to a new archive. A split archive can also be converted into a single-file archive using a split size of 0 or negating the -s option: Also see -U (--copy) for more on using copy mode. | ||||||||||||
-sb, --split-bell | If splitting and using split pause mode, ring the bell when zip pauses for each split destination. | ||||||||||||
-sc, --show-command | Show the command line starting zip as processed and exit. The new command parser permutes the arguments, putting all options and any values associated with them before any non-option arguments, which allows an option to appear anywhere in the command line as long as any values that go with the option go with it. This option displays the command line as zip sees it, including any arguments from the environment such as from the ZIPOPT variable. Where allowed, options later in the command line can override options earlier in the command line. | ||||||||||||
-sf, --show-files | Show the files that would be operated on, then exit. For instance, if creating a new archive, this will list the files that would be added. If the option is negated (-sf-), output only to an open log file. Screen display is not recommended for large lists. | ||||||||||||
-so, --show-options | Show all available options supported by zip as compiled on the current system. As this command reads the option table, it should include all options. Each line includes the short option (if defined), the long option (if defined), the format of any value that goes with the option, if the option can be negated, and a small description. The value format can be no value, required value, optional value, single character value, number value, or a list of values. The output of this option is not intended to show how to use any option but only show what options are available. | ||||||||||||
-sp, --split-pause | If splitting is enabled with -s, enable split pause mode. This option creates split archives as -s does, but stream writing is used so each split can be closed as soon as it is written and zip will pause between each split to allow changing split destination or media. Though this split mode allows writing splits directly to removable media, it uses stream archive format that may not be readable by some unzips. Before relying on splits created with -sp, test a split archive with the unzip you will be using. To convert a stream split archive (created with -sp) to a standard archive see the --out option. | ||||||||||||
-su, --show-unicode | As -sf, but also show Unicode version of the path if exists. | ||||||||||||
-sU, --show-just-unicode | As -sf, but only show Unicode version of the path if exists, otherwise show the standard version of the path. | ||||||||||||
-sv, --split-verbose | Enable various verbose messages while splitting, showing how the splitting is being done. | ||||||||||||
-S, --system-hidden | Include system and hidden files. On MacOS, includes finder invisible files, which are ignored otherwise. | ||||||||||||
-tmmddyyyy, --from-datemmddyyyy | Do not operate on files modified prior to the specified date, where mm is the month (00-12), dd is the day of the month (01-31), and yyyy is the year. The ISO 8601 date format yyyy-mm-dd is also accepted. For example: ...will add all the files in foo and its subdirectories that were last modified on or after 7 December 1991, to the zip archive infamy.zip. | ||||||||||||
-ttmmddyyyy, --before-datemmddyyyy | Do not operate on files modified after or at the specified date, where mm is the month (00-12), dd is the day of the month (01-31), and yyyy is the year. The ISO 8601 date format yyyy-mm-dd is also accepted. For example: ...will add all the files in foo and its subdirectories that were last modified before 30 November 1995, to the zip archive infamy.zip. | ||||||||||||
-T, --test | Test the integrity of the new zip file. If the check fails, the old zip file is unchanged and (with the -m option) no input files are removed. | ||||||||||||
-TTcmd, --unzip-commandcmd | Use command cmd instead of 'unzip -tqq' to test an archive when the -T option is used. On Unix, to use a copy of unzip in the current directory instead of the standard system unzip, could use: In cmd, {} is replaced by the name of the temporary archive, otherwise the name of the archive is appended to the end of the command. The return code is checked for success (0 on Unix). | ||||||||||||
-u, --update | Replace (update) an existing entry in the zip archive only if it has been modified more recently than the version already in the zip archive. For example: ...will add any new files in the current directory, and update any files which have been modified since the zip archive stuff.zip was last created/modified (note that zip will not try to pack stuff.zip into itself when you do this). Note that the -u option with no input file arguments acts like the -f (freshen) option. | ||||||||||||
-U, --copy-entries | Copy entries from one archive to another. Requires the --out option to specify a different output file than the input archive. Copy mode is the reverse of -d (delete). When delete is being used with --out, the selected entries are deleted from the archive and all other entries are copied to the new archive, while copy mode selects the files to include in the new archive. Unlike -u (update), input patterns on the command line are matched against archive entries only and not the file system files. For instance, ...copies entries with names ending in .c from inarchive to outarchive. The wildcard must be escaped on some systems to prevent the shell from substituting names of files from the file system which may have no relevance to the entries in the archive. If no input files appear on the command line and --out is used, copy mode is assumed: This option is useful for changing split size, for instance. Encrypting and decrypting entries is not yet supported using copy mode. Use zipcloak for that. | ||||||||||||
-UNv, --unicodev | Determine what zip should do with Unicode file names. zip 3.0, in addition to the standard file path, now includes the UTF-8 translation of the path if the entry path is not entirely 7-bit ASCII. When an entry is missing the Unicode path, zip reverts back to the standard file path. The problem with using the standard path is this path is in the local character set of the zip that created the entry, which may contain characters that are not valid in the character set being used by the unzip. When zip is reading an archive, if an entry also has a Unicode path, zip now defaults to using the Unicode path to recreate the standard path using the current local character set. This option can be used to determine what zip should do with this path if there is a mismatch between the stored standard path and the stored UTF-8 path (which can happen if the standard path was updated). In all cases, if there is a mismatch it is assumed that the standard path is more current and zip uses that. Values for v are
Characters that are not valid in the current character set are escaped as #Uxxxx and #Lxxxxxx, where x is an ASCII character for a hex digit. The first is used if a 16-bit character number is sufficient to represent the Unicode character and the second if the character needs more than 16 bits to represent it's Unicode character code. Setting -UN to
...forces zip to escape all characters that are not printable 7-bit ASCII. Normally zip stores UTF-8 directly in the standard path field on systems where UTF-8 is the current character set and stores the UTF-8 in the new extra fields otherwise. The option
...forces zip to store UTF-8 as native in the archive. Note that storing UTF-8 directly is the default on Unix systems that support it. This option could be useful on Windows systems where the escaped path is too large to be a valid path and the UTF-8 version of the path is smaller, but native UTF-8 is not backward compatible on Windows systems. | ||||||||||||
-v, --verbose | Verbose mode or print diagnostic version info. Normally, when applied to real operations, this option enables the display of a progress indicator during compression (see -dd for more on dots) and requests verbose diagnostic info about zipfile structure oddities. However, when -v is the only command line argument a diagnostic screen is printed instead. This should now work even if stdout is redirected to a file, allowing easy saving of the information for sending with bug reports to Info-ZIP. The version screen provides the help screen header with program name, version, and release date, some pointers to the Info-ZIP home and distribution sites, and shows information about the target environment (compiler type and version, OS version, compilation date and the enabled optional features used to create the zip executable). | ||||||||||||
-V, --VMS-portable | On VMS, save VMS file attributes. (Files are truncated at EOF.) When a -V archive is unpacked on a non-VMS system, some file types (notably Stream_LF text files and pure binary files like fixed-512) should be extracted intact. Indexed files and file types with embedded record sizes (notably variable-length record types) will probably be seen as corrupt elsewhere. | ||||||||||||
-VV, --VMS-specific | On VMS, save VMS file attributes, and all allocated blocks in a file, including any data beyond EOF. Useful for moving ill-formed files among VMS systems. When a -VV archive is unpacked on a non-VMS system, almost all files will appear corrupt. | ||||||||||||
-w, --VMS-versions | On VMS, append the version number of the files to the name, including multiple versions of files. Default is to use only the most recent version of a specified file. | ||||||||||||
-ww, --VMS-dot-versions | On VMS, append the version number of the files to the name, including multiple versions of files, using the .nnn format. Default is to use only the most recent version of a specified file. | ||||||||||||
-ws, --wild-stop-dirs | Wildcards match only at a directory level. Normally zip handles paths as strings and given the paths an input pattern such as Normally would match both paths, the * matching dir/file1.c and file2.c. Note that in the first case a directory boundary (/) was crossed in the match. With -ws no directory bounds will be included in the match, making wildcards local to a specific directory level. So, with -ws enabled, only the second path would be matched. When using -ws, use ** to match across directory boundaries as * does normally. | ||||||||||||
-xfiles, --excludefiles | Explicitly exclude the specified files, as in: ...which will include the contents of foo in foo.zip while excluding all the files that end in .o. The backslash avoids the shell file name substitution, so that the name matching is performed by zip at all directory levels. Also possible: ...which will include the contents of foo in foo.zip while excluding all the files that match the patterns in the file exclude.lst. The long option forms of the above are and Multiple patterns can be specified, as in: If there is no space between -x and the pattern, just one value is assumed (no list): See -i for more on include and exclude. | ||||||||||||
-X, --no-extra | Do not save extra file attributes (Extended Attributes on OS/2, uid/gid and file times on Unix). The zip format uses extra fields to include additional information for each entry. Some extra fields are specific to particular systems while others are applicable to all systems. Normally when zip reads entries from an existing archive, it reads the extra fields it knows, strips the rest, and adds the extra fields applicable to that system. With -X, zip strips all old fields and only includes the Unicode and Zip64 extra fields (currently these two extra fields cannot be disabled). Negating this option, -X-, includes all the default extra fields, but also copies over any unrecognized extra fields. | ||||||||||||
-y, --symlinks | For UNIX and VMS (V8.3 and later), store symbolic links as such in the zip archive, instead of compressing and storing the file referred to by the link. This option can avoid multiple copies of files being included in the archive as zip recurses the directory trees and accesses files directly and by links. | ||||||||||||
-z, --archive-comment | Prompt for a multi-line comment for the entire zip archive. The comment is ended by a line containing just a period, or an end of file condition (^D on Unix, ^Z on MSDOS, OS/2, and VMS). The comment can be taken from a file: | ||||||||||||
-Zcm, --compression-methodcm | Set the default compression method. Currently the main methods supported by zip are store and deflate. Compression method can be set to:
The compression method can be abbreviated: | ||||||||||||
-# | Regulate the speed of compression using the specified digit #, between 0 and 9, where -0 indicates no compression (store all files), -1 indicates the fastest compression speed (less compression) and -9 indicates the slowest compression speed (optimal compression, ignores the suffix list). The default compression level is -6. Though still being worked, the intention is this setting will control compression speed for all compression methods. Currently only deflation is controlled. | ||||||||||||
-!, --use-privileges | On Windows, use privileges (if granted) to obtain all aspects of WinNT security. | ||||||||||||
[email protected], --names-stdin | Take the list of input files from standard input. Only one file name per line. | ||||||||||||
-$, --volume-label | Include the volume label for the drive holding the first file to be compressed. If you want to include only the volume label or to force a specific drive, use the drive name as first file name, as in: |
Environment
zip uses the following environment variables:
ZIPOPT | Contains default options that will be used when running zip. The contents of this environment variable will get added to the command line just after the zip command. |
ZIP | An alias for ZIPOPT, except on RISC OS and VMS. |
On Risc and VMS, there are additional special environment variables; consult your documentation for details.
Examples
Creates the archive stuff.zip (assuming it does not exist) and puts all the files in the current directory in it, in compressed form (the .zip suffix is added automatically, unless the archive name contains a dot already; this allows the explicit specification of other suffixes).
The same as the above command, but also includes files beginning with a dot (except for the special directory names '.' and '..'.
Zips the entire subdirectory foo into an archive, foo.zip, and records the name of the directory with each file.
Same as the above command, but unlike -r, the -j option will not record the name of the directory, just the names of the files themselves.
Creates a split archive of the directory foo with splits no bigger than 2 GB each. If foo contained 5 GB of contents and the contents were stored in the split archive without compression (to make this example simple), this would create three splits, split.z01 at 2 GB, split.z02 at 2 GB, and split.zip at a little over 1 GB.
Related commands
compress — Compress a file or files.
tar — Create, modify, list the contents of, and extract files from tar archives.
unzip — List, test and extract compressed files in a zip archive.
gzip, gunzip, zcat — Create, modify, list the contents of, and extract files from GNU zip archives.
zipinfo — Display technical information about a zip file.
tar — Create, modify, list the contents of, and extract files from tar archives.
unzip — List, test and extract compressed files in a zip archive.
gzip, gunzip, zcat — Create, modify, list the contents of, and extract files from GNU zip archives.
zipinfo — Display technical information about a zip file.
![What is the analogous directory to etc environment for macos download What is the analogous directory to etc environment for macos download](/uploads/1/2/6/6/126615606/322883154.jpg)
Developer | Microware bought by Radisys in 2001 (now owned by Microware LP since 2013) |
---|---|
Written in | C, Assembly language |
Working state | Current |
Source model | Closed source |
Initial release | 1979; 41 years ago |
Latest release | 6.1 / 14 November 2017; 2 years ago |
Marketing target | high-performance, high-availability real-time software solution for advanced industrial automation & control, medical instrumentation, aerospace and transportation systems |
Available in | English |
Platforms | Motorola 6809, Motorola 680x0 CPUs, ColdFire, SuperH, ARM/XScale, MIPS, PowerPC, Intelx86 architecture |
Kernel type | Real-time kernel |
Default user interface | CLI in all versions, some platforms support a GUI |
License | Proprietary |
Official website | www.microware.com |
OS-9 is a family of real-time, process-based, multitasking, multi-useroperating systems, developed in the 1980s, originally by Microware Systems Corporation for the Motorola 6809microprocessor. It was purchased by Radisys Corp in 2001, and was purchased again in 2013 by its current owner Microware LP.
The OS-9 family was popular for general-purpose computing and remains in use in commercial embedded systems and amongst hobbyists. Today, OS-9 is a product name used by both a Motorola 68000-series machine language OS and a portable (PowerPC, x86, ARM, MIPS, SH4, etc.) version written in C, originally known as OS-9000.
History[edit]
The first version ('OS-9 Level One'), which dates back to 1979–1980, was written in assembly language for the Motorola 6809 CPU, and all of its processes ran within the 64KB address space of the CPU without a memory management unit. It was developed as a supporting operating system for the BASIC09 project, contracted for by Motorola as part of the 6809 development. A later 6809 version ('Level Two') takes advantage of memory mapping hardware, supported up to 2 MB of memory (ca. 1980) in most implementations, and included a GUI on some platforms.
In 1983, OS-9/6809 was ported to Motorola 68000 assembly language and extended (called OS-9/68K); and a still later (1989) version was rewritten mostly in C for further portability. The portable version was initially called OS-9000 and was released for 80386 PC systems around 1989, then ported to PowerPC around 1995. These later versions lack the memory mapping facilities of OS-9/6809 Level Two simply because they do not need them. They used a single flat address space that all processes share; memory mapping hardware, if present, is mostly used to ensure that processes access only that memory they have the right to access. The 680x0 and 80386 (and later) MPUs all directly support far more than 1 MB of memory in any case.
As a consequence of early pervasive design decisions taking advantage of the easily used reentrant object code capabilities of the 6809 processor, programs intended for OS-9 are required to be reentrant; compilers produce reentrant code automatically and assemblers for OS-9 offer considerable support for it. OS-9 also uses position-independent code and data because the 6809 also supports it directly; compilers and assemblers support position independence. The OS-9 kernel loads programs (including shared code), and allocates data, wherever sufficient free space is available in the memory map. This allows the entire OS and all applications to be placed in ROM or Flash memory, and eases memory management requirements when programs are loaded into RAM and run. Programs, device drivers, and I/O managers under OS-9 are all 'modules' and can be dynamically loaded and unloaded (subject to link counts) as needed.
OS-9/6809 runs on MotorolaEXORbus systems using the Motorola 6809, SS-50 Bus and SS-50C bus systems from companies such as SWTPC, Tano, Gimix, Midwest Scientific, and Smoke Signal Broadcasting, STD-bus 6809 systems from several suppliers, personal computers such as the FujitsuFM-11, FM-8, FM-7 and FM-77, Hitachi MB-S1, and many others.
System Industries, a third-party provider of DEC compatible equipment, used a 68B09E processor running OS9 in its QIC (quarter inch cartridge) tape backup controllers in VAX installations.
The best known hardware (due to its low price and broad distribution) was the TRS-80 Color Computer (CoCo) and the similar Dragon series. Even on the CoCo, a quite minimalist hardware platform, it was possible under OS-9/6809 Level One to have more than one interactive user running concurrently (for example, one on the console keyboard, another in the background, and perhaps a third interactively via a serial connection) as well as several other non-interactive processes. A second processor implementation for the BBC Micro was produced by Cumana. It included on-board RAM, SCSI hard disk interface and a MC68008 processor.[1]
OS-9 was also ported to the Commodore SP-9000 or SuperPET, which had a 6809 in addition to the 6502 of the base 8032 model, as well as 64 KB more. The Toronto PET Users Group sponsored a HW/SW project which included a daughter board with an MMU as well as the OS-9 distribution disks. With two processors, 96 KB, a 25×80 screen and serial, parallel and IEEE-488 ports and many peripherals this was one of the most capable OS-9 systems available.
On a computer like an SS-50, machines which had more memory (for example, those from Gimix, Southwest Technical Products, etc.), and I/O controllers that did not load the CPU as did the CoCo, multiple users were common, even with only 64 KB of RAM (i.e., Level One). With hardware supporting memory management circuits (that is, address translation) and OS-9 Level 2, GUI use was successfully routine, even on the minimal resourced CoCo. This was several years prior to successful GUIs on the 16-bit IBM PC class machines, and many years prior to properly working multi-tasking, multi-user, access-controlled operating systems on IBM PC type machines or on any of Apple's machines.[citation needed]
OS-9's multi-user and multi-tasking capabilities make it usable as a general-purpose interactive computer system. Many third-party interactive applications have been written for it, such as the Dynacalcspreadsheet, the VED text formatter, and the Stylograph and Screditor-3 WYSIWYGword processors. TSC's nroff emulating formatter was ported to OS-9 by MicroWay, as well.
In mid 1980s, OS-9 was selected for the CD-i operating system. Around the same time, Microsoft approached Microware for acquisition of the company primarily because it was attracted by CD-RTOS, the CD-i operating system. The negotiation failed and no deal was made; Microware decided to remain independent.
In late 1980s, Microware released OS-9000, a more portable version of the operating system. The vast majority of the operating system kernel was rewritten in C leaving a handful of hardware-dependent parts in assembly language. A few 'more advanced features' were added such as tree-like kernel module name space. OS-9000 was initially ported to the Motorola 680x0 family CPUs, Intel 80386, and PowerPC. The OS-9000/680x0 was a marketing failure and withdrawn very quickly, probably because few customers wanted to try the fatter and slower operating system over the existing OS-9/680x0 proven record of stability. That the Motorola 680x0 family and VME board computer system vendors were nearing their end of life might have affected the unpopularity of OS-9000/680x0. Microware later started calling all of its operating systems — including what had been originally called OS-9000 — simply OS-9, and started shifting its business interest towards portable consumer device markets such as cellphones, car navigation, and multimedia.
What Is The Analogous Directory To Etc Environment For Macos Download
In late 1980s and early 1990s, the Character Generators computers used in Broadcast Systems used OS-9 and OS-9000 extensively. The now defunct Pesa Electronica used OS-9 on their CGs such as CG 4722 and CG4733.
Name conflicts and court decisions[edit]
In 1999, nineteen years after the first release of OS-9, Apple Computer released Mac OS 9. Microware sued Apple that year for trademark infringement,[2] although a judge ruled that there would be little chance for confusion between the two. Some Macintosh users who are unaware of Microware's lesser known OS-9 have posted to the comp.os.os9 newsgroup not realizing what OS-9 is.
In 2001, RadiSys purchased Microware to acquire the Intel IXP-1200 network processor resources. This acquisition infused Microware with capital and allowed Microware to continue OS-9 development and support.
On 21 February 2013, Microware LP (a partnership formed by Freestation of Japan, Microsys Electronics of Germany and RTSI LLC of the USA) announced that they signed an Asset Purchase Agreement to buy the rights to the names Microware, OS-9 and all assets from RadiSys.
Technology[edit]
Modern and archaic design[edit]
OS-9 (especially the 68k version and thereafter) clearly distinguishes itself from the prior generation of embedded operating systems in many aspects.
- Runs on 8-bit, 16-bit, and 32-bit CPUs.
- Clear separation between user mode and supervisor (kernel) mode.
- Dynamic use of individually and separately built software components (executable program images and kernel modules) rather than a statically linked single monolithic image.
- Unix-like process name-space model (not memory model) and user shell program.
- Clear separation between hardware independent (e.g. file managers) and hardware dependent (e.g. device drivers) layers.
When compared with more modern operating systems.
- Kernel is entirely written in assembly language (OS-9/68K version only) as well as C (portable version to other architectures) using simple internal data structures, reducing flexibility and improvement scope while improving determinability required for Real-time operating systems.
- Performance was also affected for some operations, but assembly language helped with the speed issue.
- Systems without MMU have no memory protection against illegal access, nor per process memory protection while systems with MMU can have memory protection enabled. The module controlling the MMU can be included or omitted by the system integrator to enable or disable memory protection. This allows OS-9 to run on older systems which do not include an MMU.
- Older versions of OS-9 do not support POSIX threads while all OS-9 supported processors support POSIX threads.
- No SMP support for multiple sockets, cores, or hardware threads in the same OS-9 instance (can run as a RTOS on one of the cores of dual core processors like Core Duo and Core 2 Duo, when Linux is running on the other core doing general purpose tasks)
Task scheduling[edit]
OS-9’s real-time kernel allows multiple independent applications to execute simultaneously through task switching and inter-process communication facilities. All OS-9 programs run as processes containing at least one lightweight process (thread) but may contain an effectively unlimited number of threads. Within a process, these lightweight processes share memory, I/O paths, and other resources in accordance with the POSIX threads specification and API. OS-9 schedules the threads using a fixed-priority preemptive scheduling algorithm with round-robin scheduling within each priority. Time slicing is supported. The priority levels can be divided into a range that supports aging and a higher-priority range that uses strict priority scheduling. Each process can access any system resource by issuing the appropriate OS-9 service request. At every scheduling point, OS-9 compares the priority of the thread at the head of the active queue to the priority of the current thread. It context switches to the thread on the active queue if its priority is higher than the current processes’ priority. Aging artificially increases the effective priority of threads in the active queue as time passes. At defined intervals, time slicing returns the current thread to the active queue behind other threads at the same priority.
Kernel modules[edit]
- Kernel - Contains Task switch, Memory allocation, and most non-I/O calls
- IOMAN - Handles I/O calls to various File Managers and drivers.
- SCF, Serial Files (Serial devices)
- RBF, Random Block (Disk devices)
- SBF, Sequential Block (Tape Devices)
- NFM, NULL devices (USB and other devices)
- MFM, Message
- PCF, PC FAT files
- PIPEMAN, Pipe Manager
- Modman Memory Module Directories
- SSM - System Security (MMU handling)
- Cache - Cache handling,
- VectXXX - Vector/ PIC handler
- FPU - Floating point emulation
- Align - Address Alignment Fault handler
Commands[edit]
The following list of commands is supported by the OS-9 shell.
Shell built-in commands
- chd
- chx
- w
- setenv
- unsetenv
- setpr
- profile
- ex
- -e
- -ne
- -p
- -p=<str>
- -np
- -t
- -nt
- -v
- -nv
- -x
- -nx
Utilities for operating system functions
- attr
- deiniz
- deldir
- dsave
- dump
- fixmod
- free
- ident
- iniz
- link
- list
- load
- makdir
- mdir
- merge
- mfree
- pd
- printenv
- procs
- save
- shell
- setime
- tmode
- unlink
System management utilities
- dcheck
- devs
- frestore
- fsave
- irqs
- os9gen
- tsmon
- xmode
General utilities
- binex
- build
- cfp
- code
- count
- edt
- exbin
- expand
Comparisons with Unix[edit]
OS-9's notion of processes and I/O paths is quite similar to that of Unix in nearly all respects, but there are some significant differences. Firstly, the file system is not a single tree, but instead is a forest with each tree corresponding to a device. Second, OS-9 does not have a Unix-style fork() system call—instead it has a system call which creates a process running a specified program, performing much the same function as a fork-exec or a spawn. Additionally, OS-9 processes keep track of two 'current directories' rather than just one; the 'current execution directory' is where it will by default look first to load programs to run (which is similar to the use of PATH environment variable under UNIX). The other is the current data directory.
Another difference is that in OS-9, grandparent directories can be indicated by repeating periods three or more times, without any intervening slashes (a feature also found in 4DOS/4OS2/4NT/TC). For example,
..../file
in OS-9, is similar to ../../../file
in Unix. But .
and ..
, with just one or two periods, each work the same in both OS-9 and Unix.OS-9 has had a modular design from the beginning, influenced by notions of the designers of the 6809 and how they expected software would be distributed in the future (see the three-part series of articles in Jan-Mar 1979 Byte by Terry Ritter, et al. of Motorola who designed the CPU).
The module structure requires more explanation:- OS-9 keeps a 'module directory', a memory-resident list of all modules that are in memory either by having been loaded, or by having been found in ROM during an initial scan at boot time.
- When one types a command to the OS-9 shell, it will look first in the current module directory for a module of the specified name and will use it (and increase its link count) if found, or it will look on disk for an appropriately named file if not.
- In OS-9/6809 and OS-9/68000, the module directory is flat, but OS-9000 made the module directory tree-structured. The OS-9000 shell looks in one's alternative module directory for a MODPATH environment variable, analogous to the PATH variable in all versions, indicating the sequence of module directories in which to look for pre-loaded modules.
- Modules are not only used to hold programs, but can also be created on the fly to hold data, and are the way in which OS-9 supports shared memory.
OS-9/non-68000 supports POSIX threads. A single process can start any number of threads.
Status[edit]
OS-9 has faded from popular use, though Microware LP does still support it and it does run on modern architectures such as ARM and x86. The compiler provided, Ultra C/C++, supports C89, but supports neither C99 nor C++98. Ultra C++ does provide limited support for C++ templates. It is also supported by popular SSL/TLS libraries such as wolfSSL.
- A Version of OS-9 running Steve Adams' G-Windows is present on semiconductor wafer scrubbers manufactured by Ontrak Systems / Lam Research. Thousands of these systems are in use today, however, the software running on them dates to 1999 when the last version was created to handle Y2K issues.
- Versions of OS-9/68K ran on a wide variety of 68000 family platforms, including the Sharp X68000 in Japan, some personal computers intended by their designers as upgrades from the Color Computer (e.g., the 68070 and 68340-based MM/1, and on other computers from Frank Hogg Laboratories, PEP Modular Computers, and Delmar Co.) It was also ported to the Atari ST by Recc-o-ware in the early 1990s, and was distributed by Cumana in Europe. A port for 68000-based Apple Macintoshes distributed by Ultrascience exists. A port to the Amiga by Digby Tarvin is also purported to exist.
- OS-9/68K is mandated by Caltrans to be used in the 2070-1B and 2070-1E controller cards, and so ends up being used to run many North American traffic signal control systems.
- OS-9/68K is also found in some other embedded applications, including the Quanta Delta television broadcast character generator, still in production by ScanLine Technologies in Utah. While the user-level interface code on this system started at boot time, there was a hidden, undocumented keyboard sequence that would provide a user with a root shell prompt in a scroll window on the device's edit-channel monitor.
- In the embedded market, where OS-9 has found application in such devices as the Fairlight CMI synthesizers, robotics, in-car navigation systems, and Philips' Compact Disc-Interactive (CD-i) industry standard.
- The TRS-80 Color Computer (and clones) still has users and an annual conference in Chicago; as of 2018 the 27th Annual 'Last' Chicago CoCoFEST[3] was scheduled for 21-22 April 2018. A group of Canadian programmers rewrote OS-9/6809 Level II for the CoCo 3 (w/ address translation hardware) for efficiency, and to take advantage of the native mode of the Hitachi 6309. Today's serious CoCo users now typically have replaced the 68B09E in the CoCo 3 with an Hitachi 63B09E and run the rewrite, called NitrOS9. The combination is surprisingly fast, considering that it runs on an expressly low cost, 8-bit computer system.
- Gary Becker's CoCo3 FPGA is a synthesized TRS-80 Color Computer which runs NitrOS9 on an Altera DE-1 development board. The core 6809 CPU was designed by John Kent and is currently running at 25 MHz.
- OS-9000/80x86 can be run on PC-type machines built around the Intel x86 CPUs. OS-9000 has also been ported to the PowerPC, MIPS, some versions of Advanced RISC Machines' ARM processor, and some of the Hitachi SH family of processors.
- The DigiCart/II Plus audio playback unit runs OS-9/68K. It is a solid state replacement for radio station style cart players. These units are used in radio and at places like Walt Disney World where they play park announcements.
- German electronics manufacturer Eltec has been manufacturing the Eurocom-model CPU boards for industrial purposes since the late 1970s, starting with the 6802 and 6809Eurocom-1 and Eurocom-2, and onwards with 68K, and derivative, CPU boards up to today. The modern boards can be delivered with a range of operating systems, amongst which is OS-9.
- Omron used OS-9 in their NS series HMI panels. However, for their new NA series, Omron selected Windows Embedded Compact 7. Omron indicated that with OS-9 nearly all the drivers, for example for a USB stick, had to be written by Omron. [4]
References[edit]
- ^Vogler, Jon (June 1987). 'Down to Business: Cumana / The upgrade'. A & B Computing. Argus Specialist Publications. pp. 80–86.
- ^Smith, Tony (1999-09-03). 'OS-9 developer sues Apple over MacOS 9'. The Register UK. Situation Publishing. Retrieved 2014-06-01.
- ^CoCoFEST
- ^'NA Training Book 2.4'(PDF). industrial.omron.eu/NA. Retrieved 2019-03-16.
Further reading[edit]
- Paul S. Dayan (1992). The OS-9 Guru - 1 : The Facts. Galactic Industrial Limited. ISBN0-9519228-0-7.
- Mark A. Heilpern (1995). OS-9 Primer. Microware Systems Corp. ISBN0-918035-04-X.
- Peter Dibble (1994). OS-9 Insights. Microware Systems Corp. ISBN0-918035-05-8.
External links[edit]
- Archive of OS-9 information and software, from RTSI LLC.
- OS-9 at Curlie
- Repository for command line tools for manipulating 6809 OS-9 disk images, on SourceForge
- NitrOS-9 official website, on SourceForge
- comp.os.os9 newsgroup via Google groups web interface.
- XiBase9 (a GUI)
Retrieved from 'https://en.wikipedia.org/w/index.php?title=OS-9&oldid=966882124'