| #
a7890885 |
| 26-Apr-2022 |
Alex Dowad |
Add more tests for mbstring encoding conversion
When testing the preceding commits, I used a script to generate a large
number of random strings and try to find strings which would yield
Add more tests for mbstring encoding conversion
When testing the preceding commits, I used a script to generate a large
number of random strings and try to find strings which would yield
different outputs from the new and old encoding conversion code.
Some were found. In most cases, analysis revealed that the new code
was correct and the old code was not.
In all cases where the new code was incorrect, regression tests were
added. However, there may be some value in adding regression tests
for cases where the old code was incorrect as well. That is done here.
This does not cover every case where the new and old code yielded
different results. Some of them were very obscure, and it is proving
difficult even to reproduce them (since I did not keep a record of
all the input strings which triggered the differing output).
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| #
321dbd04 |
| 28-Jan-2022 |
Alex Dowad |
Implement fast text conversion interface for ISO-2022-JP-2004
There were bugs in the legacy implementation. Lots of them.
It did not properly track whether it has switched to JISX 0
Implement fast text conversion interface for ISO-2022-JP-2004
There were bugs in the legacy implementation. Lots of them.
It did not properly track whether it has switched to JISX 0213 plane 1
or plane 2. If it processes a character in plane 1 and then immediately
one in plane 2, it failed to emit the escape code to switch to plane 2.
Further, when converting codepoints from 0x80-0xFF to ISO-2022-JP-2004,
the legacy implementation would totally disregard which mode it was
operating in. Such codepoints would pass through directly to the output
without any escape sequences being emitted.
If that was not enough, all the legacy implementations of JISX 0213:2004
encodings had another common bug; their 'flush function' did not call
the next flush function in the chain of conversion filters. So if any
of these encodings were converted to an encoding where the flush
function was needed to finish the output string, then the output
would be truncated.
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| #
776296e1 |
| 30-Aug-2021 |
Alex Dowad |
mbstring no longer provides 'long' substitutions for erroneous input bytes
Previously, mbstring had a special mode whereby it would convert
erroneous input byte sequences to output like
mbstring no longer provides 'long' substitutions for erroneous input bytes
Previously, mbstring had a special mode whereby it would convert
erroneous input byte sequences to output like "BAD+XXXX", where "XXXX"
would be the erroneous bytes expressed in hexadecimal. This mode could
be enabled by calling `mb_substitute_character("long")`.
However, accurately reproducing input byte sequences from the cached
state of a conversion filter is often tricky, and this significantly
complicates the implementation. Further, the means used for passing
the erroneous bytes through to where the "BAD+XXXX" text is generated
only allows for up to 3 bytes to be passed, meaning that some erroneous
byte sequences are truncated anyways.
More to the point, a search of publically available PHP code indicates
that nobody is really using this feature anyways.
Incidentally, this feature also provided error output like "JIS+XXXX"
if the input 'should have' represented a JISX 0208 codepoint, but it
decodes to a codepoint which does not exist in the JISX 0208 charset.
Similarly, specific error output was provided for non-existent
JISX 0212 codepoints, and likewise for JISX 0213, CP932, and a few
other charsets. All of that is now consigned to the flames.
However, "long" error markers also include a somewhat more useful
"U+XXXX" marker for Unicode codepoints which were successfully
decoded from the input text, but cannot be represented in the output
encoding. Those are still supported.
With this change, there is no need to use a variety of special values
in the high bits of a wchar to represent different types of error
values. We can (and will) just use a single error value. This will be
equal to -1.
One complicating factor: Text conversion functions return an integer to
indicate whether the conversion operation should be immediately
aborted, and the magic 'abort' marker is -1. Also, almost all of these
functions would return the received byte/codepoint to indicate success.
That doesn't work with the new error value; if an input filter detects
an error and passes -1 to the output filter, and the output filter
returns it back, that would be taken to mean 'abort'.
Therefore, amend all these functions to return 0 for success.
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| #
51b9d7a5 |
| 27-Jul-2021 |
Alex Dowad |
Test behavior of 'long' illegal character markers
After mb_substitute_character("long"), mbstring will respond to
erroneous input by inserting 'long' error markers into the output.
D
Test behavior of 'long' illegal character markers
After mb_substitute_character("long"), mbstring will respond to
erroneous input by inserting 'long' error markers into the output.
Depending on the situation, these error markers will either look like
BAD+XXXX (for general bad input), U+XXXX (when the input is OK, but it
converts to Unicode codepoints which cannot be represented in the
output encoding), or an encoding-specific marker like JISX+XXXX or
W932+XXXX.
We have almost no tests for this feature. Add a bunch of tests to
ensure that all our legacy encoding handlers work in a reasonable
way when 'long' error markers are enabled.
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