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#270 in Text processing
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ARF strings
ARF is the Alternative Representation for Filenames, an encoding for representing NUL-terminated non-UTF-8 strings as valid (and non-NUL-terminated) UTF-8 strings. It's intended for use in environments that need a way to represent POSIX-compatible and Windows-compatible path names within UTF-8 string types.
This is an experiment, and the Windows encoding scheme is particularly experimental.
Description
ARF strings have the following form:
arf-string ::= U+FEFF lossy-portion U+0000 NUL-escaped-portion
U+FEFF
is the Byte Order Mark (BOM) code point.
The lossy-portion
consists of the original string data (excluding the
terminating NUL) with any unencodable bytes replaced by U+FFFD
, the Unicode
replacement character.
U+0000
is the NULL (NUL) code point.
The NUL-escaped-portion
of an ARF string consists of the original string
data (again, excluding the terminating NUL) with any unencodable bytes replaced
by U+0000
followed by:
- On POSIX-ish platforms, the invalid byte with the most significant bit set to 0.
- On Windows, a Unicode scalar value between
U+0
andU+7FF
, representing the offset in the surrogate codepoint space (U+D800
throughU+DFFF
).
Example
The ARF encoding of "foo\xffbar"
on POSIX-ish platforms is "\xef\xbb\xbffoo\xef\xbf\xbdbar\x00foo\x00\x7fbar"
:
"\xef\xbb\xbf"
is the UTF-8 encoding ofU+FEFF
."foo\xef\xbf\xbdbar"
is the string with the unencodable byte replaced by the UTF-8 encoding forU+FFFD
."\x00"
is the UTF-8 encoding forU+0000
."foo\0\x7fbar"
is the string with the unencodable byte replaced by aNUL
followed by the invalid byte with the most significant bit set to 0.
Rationale
Unencodable pathnames are very rare in practice, so this design doesn't attempt to make them efficient. In the worst cases, ARF strings may be several times the size of the corresponding input strings (though they're still O(n)). The redundancy is used to protect against accidental misuse by code not aware of ARF strings.
C and POSIX code represent paths as NUL-terminated strings. When given an ARF string,
such code will only see the BOM and the lossy portion containing replacement characters.
In most cases, attempts to open such a pathname will produce ENOENT
errors, since the
leading UTF-8 BOM and UTF-8 replacement byte sequences are unlikely to appear in
non-UTF-8 filenames. Typical application error messages will include the pathname,
where the replacement characters will serve as a hint as to the nature of the problem.
Consequently, by default, ARF-unaware C and POSIX code will not be able to open unencodable pathnames. For many applications, this limitation is worth the advantage of being able to assume that all pathnames are UTF-8. Applications that wish to work with unencodable pathnames can opt in by being explicitly aware of ARF strings, optionally with the help of the Rust and C libraries in this repository.
Another tricky case is code which modifies paths. ARF-unaware code may modify ARF strings without being aware of the ARF encoding. Such code won't know to update the NUL-escaped portion of the ARF string, and the resulting ARF string will subsequently be detected as invalid, leading to errors rather than surprising behavior.
Dependencies
~1–10MB
~110K SLoC