d2a0fc36ff
Filenames that MacOS sees as ending with .rdump or .idump are reserved for resource fork and Finder info dumps. They are ignored on the HFS side and complained about on the local side. This also applies to files named underscore (_), which are reserved for directory Finder info. Dotfiles are ignored on both sides (but warned about on the HFS side) to make some modern tooling invisible to the MacOS. |
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|---|---|---|
| bin | ||
| machfs | ||
| .gitignore | ||
| LICENSE | ||
| README.md | ||
| setup.cfg | ||
| setup.py | ||
| test_all.py | ||
| upload.sh | ||
This is a library for creating and inspecting HFS-format disk images. Mac-specific concepts like resource forks and type/creator codes are first-class citizens.
Python interface
The Python API is simple. The contents of a Volume or a Folder are
accessed using the index operator []. While working on a filesystem,
its entire high-level contents are stored in memory as a Python object.
from machfs import Volume, Folder, File
v = Volume()
v['Folder'] = Folder()
v['Folder']['File'] = File()
v['Folder']['File'].data = b'Hello from Python!\r'
v['Folder']['File'].rsrc = b'' # Use the macresources library to work with resource forks
v['Folder']['File'].type = b'TEXT'
v['Folder']['File'].creator = b'ttxt' # Teach Text/SimpleText
with open('FloppyImage.dsk', 'wb') as f:
flat = v.write(
size=1440*1024, # "High Density" floppy
align=512, # Allocation block alignment modulus (2048 for CDs)
desktopdb=True, # Create a dummy Desktop Database to prevent a rebuild on boot
bootable=True, # This requires a folder with a ZSYS and a FNDR file
startapp=('Folder','File'), # Path (as tuple) to an app to open at boot
)
f.write(flat)
with open('FloppyImage.dsk', 'rb') as f:
flat = f.read()
v = Volume()
v.read(flat) # And you can read an image back!
Command-line interface
This package also installs the MakeHFS and DumpHFS utilities, for
working with folders on your native filesystem. Briefly, resource forks
are stored in Rez-formatted .rdump files, and type and creator codes
are stored in 8-byte .idump files. Admittedly this method of storage
is not pretty, but it exposes changes to resource files without
requiring Mac-specific software. For example, Git can track the addition
and removal of resources. Files with a TEXT type are assumed to be
UTF-8 encoded with Unix-style (LF) line endings, and are converted to
Mac OS Roman encoding with Mac-style (CR) line endings.
Both commands have a --help argument to display their options.
Why?
I want an automated, reproducible way to compile legacy MacOS software.
Without any current operating system fully supporting HFS,
libhfs/hfsutils (a C library
and command-line wrapper) is the most capable implementation. The
implementor chose to emulate POSIX I/O on a fake "mounted" filesystem.
While this is important for machines with very limited RAM, the
maintenance of consistent HFS data structures across incremental
operations is a complicated task requiring a large amount of low-level
code. Frequent I/O to the real filesystem also occurs. Current machines
have memory and cycles to burn, so an in-memory implementation in a
high-level programming language seemed like a reasonable tradeoff. As a
result, machfs has nearly an order of magnitude fewer lines than
libhfs, and is more maintainable, at a nearly negligible cost in
performance.