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6176538d |
| 19-Nov-2023 |
Niels Dossche <7771979+nielsdos@users.noreply.github.com> |
Fix GH-11992: utf_encodings.phpt fails on Windows 32-bit Similar bug as before in #10776, but now in other code. Closes GH-12726.
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6b74f1f7 |
| 03-Sep-2023 |
Ilija Tovilo |
xfail mbstring test on Windows 32-bit
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c4fb049b |
| 24-Mar-2023 |
Alex Dowad |
For UTF-7, emit error marker if Base64 section ends abruptly after first half of surrogate pair This (rare) situation was already handled correctly for the 1st and 2nd of every 3 codepoi
For UTF-7, emit error marker if Base64 section ends abruptly after first half of surrogate pair This (rare) situation was already handled correctly for the 1st and 2nd of every 3 codepoints in a Base64-encoded section of a UTF-7 string. However, it was not handled correctly if it happened on the 3rd, 6th, 9th, etc. codepoint of such a Base64-encoded section.
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b721d0f7 |
| 10-Mar-2023 |
pakutoma |
Fix phpGH-10648: add check function pointer into mbfl_encoding Previously, mbstring used the same logic for encoding validation as for encoding conversion. However, there are ca
Fix phpGH-10648: add check function pointer into mbfl_encoding Previously, mbstring used the same logic for encoding validation as for encoding conversion. However, there are cases where we want to use different logic for validation and conversion. For example, if a string ends up with missing input required by the encoding, or if a character is input that is invalid as an encoding but can be converted, the conversion should succeed and the validation should fail. To achieve this, a function pointer mb_check_fn has been added to struct mbfl_encoding to implement the logic used for validation. Also, added implementation of validation logic for UTF-7, UTF7-IMAP, ISO-2022-JP and JIS. (The same change has already been made to PHP 8.2 and 8.3; see 6fc8d014df. This commit is backporting the change to PHP 8.1.)
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6fc8d014 |
| 21-Mar-2023 |
pakutoma |
Fix phpGH-10648: add check function pointer into mbfl_encoding Previously, mbstring used the same logic for encoding validation as for encoding conversion. However, there are ca
Fix phpGH-10648: add check function pointer into mbfl_encoding Previously, mbstring used the same logic for encoding validation as for encoding conversion. However, there are cases where we want to use different logic for validation and conversion. For example, if a string ends up with missing input required by the encoding, or if a character is input that is invalid as an encoding but can be converted, the conversion should succeed and the validation should fail. To achieve this, a function pointer mb_check_fn has been added to struct mbfl_encoding to implement the logic used for validation. Also, added implementation of validation logic for UTF-7, UTF7-IMAP, ISO-2022-JP and JIS.
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86ec0bc5 |
| 04-Mar-2023 |
Alex Dowad |
Fix failure of AVX2-accelerated mb_check_encoding on 32-bit MS Windows Thanks to Ilija Tovilo for noticing and reporting this problem. Thanks also to Michael Voříšek for finding the Stac
Fix failure of AVX2-accelerated mb_check_encoding on 32-bit MS Windows Thanks to Ilija Tovilo for noticing and reporting this problem. Thanks also to Michael Voříšek for finding the StackOverflow post which explained the reason for the failure.
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4ea86990 |
| 01-Mar-2023 |
Ilija Tovilo |
[skip ci] Skip failing mbstring test on Windows x86 32-bit
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c8ec2ed7 |
| 25-Jan-2023 |
Alex Dowad |
Add AVX2-accelerated UTF-16 decoding/encoding routines As with other SIMD-accelerated functions in php-src, the new UTF-16 encoding and decoding routines can be compiled either with AVX2
Add AVX2-accelerated UTF-16 decoding/encoding routines As with other SIMD-accelerated functions in php-src, the new UTF-16 encoding and decoding routines can be compiled either with AVX2 acceleration "always on", "always off", or else with runtime detection of AVX2 support. With the new UTF-16 decoder/encoder, conversion of extremely short strings (as in several bytes) has the same performance as before, and conversion of medium-length (~100 character) strings is about 65% faster, but conversion of long (~10,000 character) strings is around 6 times faster. Many other mbstring functions will also be faster now when handling UTF-16; for example, mb_strlen is almost 3 times faster on medium strings, and almost 9 times faster on long strings. (Why does mb_strlen benefit more from AVX2 acceleration than mb_convert_encoding? It's because mb_strlen only needs to decode, but not re-encode, the input string, and the UTF-16 decoder benefits much more from SIMD acceleration than the UTF-16 encoder.)
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3ae47793 |
| 13-Jan-2023 |
Alex Dowad |
Add accelerated (SIMD-based) implementation of mb_check_encoding for UTF-8 The new SSE2-based implementation of mb_check_encoding for UTF-8 is about 10% faster for 0-5 byte strings, more
Add accelerated (SIMD-based) implementation of mb_check_encoding for UTF-8 The new SSE2-based implementation of mb_check_encoding for UTF-8 is about 10% faster for 0-5 byte strings, more than 3 times faster for ~100-byte strings, and just under 4 times faster for ~10,000-byte strings. I believe it may be possible to make this function much faster again. Some possible directions for further performance optimization include: • If other ISA extensions like AVX or AVX-512 are available, use a similar algorithm, but process text in blocks of 32 or 64 bytes (instead of 16 bytes). • If other SIMD ISA extensions are available, use the greater variety of available instructions to make some of the checks tighter. • Even if only SSE/SSE2 are available, find clever ways to squeeze instructions out of the hot path. This would probably require a lot of perusing instruction mauals and thinking hard about which SIMD instructions could be used to perform the same checks with fewer instructions. • Find a better algorithm, possibly one where more checks could be combined (just as the current algorithm combines the checks for certain overlong code units and reserved codepoints).
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a6186823 |
| 19-Nov-2022 |
Alex Dowad |
For UTF-7, flag unnecessary extra trailing byte in Base64 section as error This bug was found when I was fuzzing a patch related to mb_strpos. In some cases, the legacy text conversion c
For UTF-7, flag unnecessary extra trailing byte in Base64 section as error This bug was found when I was fuzzing a patch related to mb_strpos. In some cases, the legacy text conversion code for UTF-7 (and UTF7-IMAP) would correctly recognize an error for a Base64-encoded section which was not correctly padded with zero bits, but the new (and faster) text conversion code would not. Specifically, if the input string ended abruptly after the 4th or 7th byte of a Base64-encoded section, the new conversion code would confirm that the trailing padding bits from the previous byte (3rd or 6th) were zeroes, but would not check whether the 4th or 7th byte itself encoded any non-zero bits. The legacy conversion code did perform this check and would treat the input string as invalid. Actually, even if the 4th or 7th byte does encode only (padding) zero bits, this is still a problem, because there is no reason to have a 4th (or 7th) byte in that case. The UTF-7 string should have ended on the previous byte instead. Apply the same fix for both UTF-7 and UTF7-IMAP.
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Revision tags: php-8.2.0RC1, php-8.1.10, php-8.0.23, php-8.0.23RC1, php-8.1.10RC1, php-8.2.0beta3 |
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128768a4 |
| 05-Aug-2022 |
Alex Dowad |
Adjust number of error markers emitted for truncated UTF-8 code units In 04e59c916f, I amended the UTF-8 conversion code, so that when given invalid input, it would emit a number of erro
Adjust number of error markers emitted for truncated UTF-8 code units In 04e59c916f, I amended the UTF-8 conversion code, so that when given invalid input, it would emit a number of errors markers harmonizing with the WHATWG's specification of the standard UTF-8 decoding algorithm. (Which, gentle reader of commit logs, you can find online at https://encoding.spec.whatwg.org/#utf-8-decoder.) However, the code in 04e59c916f was faulty in the case that a truncated UTF-8 code unit starts with 0xF1. Then, in dc1ba61d09, when making a small refactoring to a different part of the UTF-8 conversion code, I inexplicably broke part of the working code, causing the same fault which was already present with truncated UTF-8 code units starting with 0xF1 to also occur with 0xF2 and 0xF3 as well. I don't remember what inane thoughts I was thinking when I pulled off this feat of utter mental confusion. None of these cases were covered by unit tests, by the way. Thankfully, my trusty fuzzer picked up on this when testing the new implementation of mb_parse_str (since the legacy UTF-8 conversion filter did not suffer from the same problem, and I was fuzzing to find any differences in behavior between the old and new implementations). Fortuitously, the fuzzer also picked up another issue which was present in 04e59c916f. I was emitting only one error marker for truncated code units starting with 0xE0 or 0xED, in cases where the WHATWG standard indicates two should be emitted. Examples are 0xE0 0x9F <END OF STRING> or 0xED 0xA0 <END OF STRING>. Code units starting with 0xE0-0xED should have 3 bytes. If the first byte is 0xE0, the second MUST be 0xA0 or greater. (Otherwise, the codepoint could have fit in a two-byte code unit.) And if the first byte is 0xED, the second MUST be 0x9F or less. According to the WHATWG algorithm, step 4, if the second byte is outside the legal range, then the decoder should emit an error... AND reprocess the out-of-range byte. The reprocessing will then cause another error. That's why the decoder should indicate two errors and not one.
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Revision tags: php-8.2.0beta2, php-8.1.9, php-8.0.22, php-8.1.9RC1, php-8.2.0beta1, php-8.0.22RC1, php-8.0.21, php-8.1.8, php-8.2.0alpha3, php-8.1.8RC1, php-8.2.0alpha2, php-8.0.21RC1, php-8.0.20, php-8.1.7, php-8.2.0alpha1, php-7.4.30, php-8.1.7RC1, php-8.0.20RC1, php-8.1.6, php-8.0.19, php-8.1.6RC1, php-8.0.19RC1 |
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04e59c91 |
| 15-Apr-2022 |
Alex Dowad |
Error handling for UTF-8 complies with WHATWG specification In 7502c86342, I adjusted the number of error markers emitted on invalid UTF-8 text to be more consistent with mbstring's beha
Error handling for UTF-8 complies with WHATWG specification In 7502c86342, I adjusted the number of error markers emitted on invalid UTF-8 text to be more consistent with mbstring's behavior on other text encodings (generally, it emits one error marker for one unexpected byte). I didn't expect that anybody would actually care one way or the other, but felt that it was better to be consistent than not. Later, Martin Auswöger kindly pointed out that the WHATWG encoding specification, which governs how various text encodings are handled by web browsers, does actually specify how many error markers should be generated for any given piece of invalid UTF-8 text. Until now, we have never really paid much attention to the WHATWG specification, but we do want to comply with as many relevant specifications as possible. And since PHP is commonly used for web applications, compatibility with the behavior of web browsers is obviously a good thing.
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Revision tags: php-8.0.18, php-8.1.5, php-7.4.29, php-8.1.5RC1, php-8.0.18RC1, php-8.1.4, php-8.0.17, php-8.1.4RC1, php-8.0.17RC1, php-8.1.3, php-8.0.16, php-7.4.28, php-8.1.3RC1, php-8.0.16RC1, php-8.1.2, php-8.0.15, php-8.1.2RC1, php-8.0.15RC1, php-8.0.14, php-8.1.1, php-7.4.27, php-8.1.1RC1, php-8.0.14RC1, php-7.4.27RC1, php-8.1.0, php-8.0.13, php-7.4.26, php-7.3.33, php-8.1.0RC6, php-7.4.26RC1, php-8.0.13RC1, php-8.1.0RC5, php-7.3.32, php-7.4.25, php-8.0.12, php-8.1.0RC4, php-8.0.12RC1, php-7.4.25RC1, php-8.1.0RC3, php-8.0.11, php-7.4.24, php-7.3.31, php-8.1.0RC2, php-7.4.24RC1, php-8.0.11RC1, php-8.1.0RC1, php-7.4.23, php-8.0.10, php-7.3.30, php-8.1.0beta3, php-8.0.10RC1, php-7.4.23RC1, php-8.1.0beta2, php-8.0.9, php-7.4.22 |
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3c732251 |
| 21-Jul-2021 |
Alex Dowad |
New internal interface for fast text conversion in mbstring When converting text to/from wchars, mbstring makes one function call for each and every byte or wchar to be converted. Typica
New internal interface for fast text conversion in mbstring When converting text to/from wchars, mbstring makes one function call for each and every byte or wchar to be converted. Typically, each of these conversion functions contains a state machine, and its state has to be restored and then saved for every single one of these calls. It doesn't take much to see that this is grossly inefficient. Instead of converting one byte or wchar on each call, the new conversion functions will either fill up or drain a whole buffer of wchars on each call. In benchmarks, this is about 3-10× faster. Adding the new, faster conversion functions for all supported legacy text encodings still needs some work. Also, all the code which uses the old-style conversion functions needs to be converted to use the new ones. After that, the old code can be dropped. (The mailparse extension will also have to be fixed up so it will still compile.)
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32df61c5 |
| 03-Sep-2021 |
Alex Dowad |
Add more tests for UTF-7 text conversion
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35546493 |
| 27-Aug-2021 |
Alex Dowad |
Add another test for UTF-7 text conversion
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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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15ba73ce |
| 27-Aug-2021 |
Alex Dowad |
Add more tests for UTF-8 text conversion
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51a32cca |
| 25-Aug-2021 |
Alex Dowad |
Add another test for UTF-16LE
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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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Revision tags: php-8.1.0beta1, php-7.4.22RC1, php-8.0.9RC1, php-8.1.0alpha3, php-7.4.21, php-7.3.29, php-8.0.8, php-8.1.0alpha2, php-7.4.21RC1, php-8.0.8RC1, php-8.1.0alpha1, php-8.0.7, php-7.4.20, php-8.0.7RC1, php-7.4.20RC1, php-8.0.6, php-7.4.19, php-7.4.18, php-7.3.28, php-8.0.5, php-8.0.5RC1, php-7.4.18RC1, php-8.0.4RC1, php-7.4.17RC1, php-8.0.3, php-7.4.16, php-8.0.3RC1, php-7.4.16RC1, php-8.0.2, php-7.4.15, php-7.3.27, php-8.0.2RC1, php-7.4.15RC2, php-7.4.15RC1, php-8.0.1, php-7.4.14, php-7.3.26, php-7.4.14RC1, php-8.0.1RC1, php-7.3.26RC1, php-8.0.0, php-7.3.25, php-7.4.13, php-8.0.0RC5, php-7.4.13RC1, php-8.0.0RC4, php-7.3.25RC1, php-7.4.12, php-8.0.0RC3, php-7.3.24, php-8.0.0RC2 |
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7502c863 |
| 13-Oct-2020 |
Alex Dowad |
Add test suite for UTF-{7,8,16,32} Also fix a couple small problems with UTF-32 and UTF-8 support: - UTF-32 would pass very large codepoints (>= 0x80000000), which are not val
Add test suite for UTF-{7,8,16,32} Also fix a couple small problems with UTF-32 and UTF-8 support: - UTF-32 would pass very large codepoints (>= 0x80000000), which are not valid. - UTF-8 would sometimes emit two error marker characters for a single bad input byte.
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