You can use mb_convert_encoding() or htmlspecialchars()'s ENT_SUBSTITUTE option since PHP 5.4. Of cource you can use preg_match() too. If you use intl, you can use UConverter since PHP 5.5.
Recommended substitute character for invalid byte sequence is U+FFFD. see "3.1.2 Substituting for Ill-Formed Subsequences" in UTR #36: Unicode Security Considerations for the details.
When using mb_convert_encoding(), you can specify a substitute character by passing Unicode code point to mb_substitute_character() or mbstring.substitute_character directive. The default character for substitution is ? (QUESTION MARK - U+003F).
// REPLACEMENT CHARACTER (U+FFFD)
mb_substitute_character(0xFFFD);
function replace_invalid_byte_sequence($str)
{
return mb_convert_encoding($str, 'UTF-8', 'UTF-8');
}
function replace_invalid_byte_sequence2($str)
{
return htmlspecialchars_decode(htmlspecialchars($str, ENT_SUBSTITUTE, 'UTF-8'));
}
UConverter offers both procedual and object-oriented API.
function replace_invalid_byte_sequence3($str)
{
return UConverter::transcode($str, 'UTF-8', 'UTF-8');
}
function replace_invalid_byte_sequence4($str)
{
return (new UConverter('UTF-8', 'UTF-8'))->convert($str);
}
When using preg_match(), you need pay attention to the range of bytes for avoiding the vulnerability of UTF-8 non-shortest form. the range of trail bytes change depending on the range of lead bytes.
lead byte: 0x00 - 0x7F, 0xC2 - 0xF4
trail byte: 0x80(or 0x90 or 0xA0) - 0xBF(or 0x8F)
you can refer to the following resources for checking the byte range.
- "Syntax of UTF-8 Byte Sequences" in RFC 3629
- "Table 3-7. Well-Formed UTF-8 Byte Sequences" in the Unicode Standard 6.1
- "Multilingual form encoding" in W3C Internationalization"
The byte range table is the below.
Code Points First Byte Second Byte Third Byte Fourth Byte
U+0000 - U+007F 00 - 7F
U+0080 - U+07FF C2 - DF 80 - BF
U+0800 - U+0FFF E0 A0 - BF 80 - BF
U+1000 - U+CFFF E1 - EC 80 - BF 80 - BF
U+D000 - U+D7FF ED 80 - 9F 80 - BF
U+E000 - U+FFFF EE - EF 80 - BF 80 - BF
U+10000 - U+3FFFF F0 90 - BF 80 - BF 80 - BF
U+40000 - U+FFFFF F1 - F3 80 - BF 80 - BF 80 - BF
U+100000 - U+10FFFF F4 80 - 8F 80 - BF 80 - BF
How to replace invalid byte sequence without breaking valid characters is shown in "3.1.1 Ill-Formed Subsequences" in UTR #36: Unicode Security Considerations and "Table 3-8. Use of U+FFFD in UTF-8 Conversion" in The Unicode Standard.
The Unicode Standard shows an example:
before: <61 F1 80 80 E1 80 C2 62 80 63 80 BF 64 >
after: <0061 FFFD FFFD FFFD 0062 FFFD 0063 FFFD FFFD 0064>
Here is the implementation by preg_replace_callback() according to the above rule.
function replace_invalid_byte_sequence5($str)
{
// REPLACEMENT CHARACTER (U+FFFD)
$substitute = "xEFxBFxBD";
$regex = '/
([x00-x7F] # U+0000 - U+007F
|[xC2-xDF][x80-xBF] # U+0080 - U+07FF
| xE0[xA0-xBF][x80-xBF] # U+0800 - U+0FFF
|[xE1-xECxEExEF][x80-xBF]{2} # U+1000 - U+CFFF
| xED[x80-x9F][x80-xBF] # U+D000 - U+D7FF
| xF0[x90-xBF][x80-xBF]{2} # U+10000 - U+3FFFF
|[xF1-xF3][x80-xBF]{3} # U+40000 - U+FFFFF
| xF4[x80-x8F][x80-xBF]{2}) # U+100000 - U+10FFFF
|(xE0[xA0-xBF] # U+0800 - U+0FFF (invalid)
|[xE1-xECxEExEF][x80-xBF] # U+1000 - U+CFFF (invalid)
| xED[x80-x9F] # U+D000 - U+D7FF (invalid)
| xF0[x90-xBF][x80-xBF]? # U+10000 - U+3FFFF (invalid)
|[xF1-xF3][x80-xBF]{1,2} # U+40000 - U+FFFFF (invalid)
| xF4[x80-x8F][x80-xBF]?) # U+100000 - U+10FFFF (invalid)
|(.) # invalid 1-byte
/xs';
// $matches[1]: valid character
// $matches[2]: invalid 3-byte or 4-byte character
// $matches[3]: invalid 1-byte
$ret = preg_replace_callback($regex, function($matches) use($substitute) {
if (isset($matches[2]) || isset($matches[3])) {
return $substitute;
}
return $matches[1];
}, $str);
return $ret;
}
You can compare byte directly and avoid preg_match's restriction about byte size by this way.
function replace_invalid_byte_sequence6($str) {
$size = strlen($str);
$substitute = "xEFxBFxBD";
$ret = '';
$pos = 0;
$char;
$char_size;
$valid;
while (utf8_get_next_char($str, $size, $pos, $char, $char_size, $valid)) {
$ret .= $valid ? $char : $substitute;
}
return $ret;
}
function utf8_get_next_char($str, $str_size, &$pos, &$char, &$char_size, &$valid)
{
$valid = false;
if ($str_size <= $pos) {
return false;
}
if ($str[$pos] < "x80") {
$valid = true;
$char_size = 1;
} else if ($str[$pos] < "xC2") {
$char_size = 1;
} else if ($str[$pos] < "xE0") {
if (!isset($str[$pos+1]) || $str[$pos+1] < "x80" || "xBF" < $str[$pos+1]) {
$char_size = 1;
} else {
$valid = true;
$char_size = 2;
}
} else if ($str[$pos] < "xF0") {
$left = "xE0" === $str[$pos] ? "xA0" : "x80";
$right = "xED" === $str[$pos] ? "x9F" : "xBF";
if (!isset($str[$pos+1]) || $str[$pos+1] < $left || $right < $str[$pos+1]) {
$char_size = 1;
} else if (!isset($str[$pos+2]) || $str[$pos+2] < "x80" || "xBF" < $str[$pos+2]) {
$char_size = 2;
} else {
$valid = true;
$char_size = 3;
}
} else if ($str[$pos] < "xF5") {
$left = "xF0" === $str[$pos] ? "x90" : "x80";
$right = "xF4" === $str[$pos] ? "x8F" : "xBF";
if (!isset($str[$pos+1]) || $str[$pos+1] < $left || $right < $str[$pos+1]) {
$char_size = 1;
} else if (!isset($str[$pos+2]) || $str[$pos+2] < "x80" || "xBF" < $str[$pos+2]) {
$char_size = 2;
} else if (!isset($str[$pos+3]) || $str[$pos+3] < "x80" || "xBF" < $str[$pos+3]) {
$char_size = 3;
} else {
$valid = true;
$char_size = 4;
}
} else {
$char_size = 1;
}
$char = substr($str, $pos, $char_size);
$pos += $char_size;
return true;
}
The test case is here.
function run(array $callables, array $arguments)
{
return array_map(function($callable) use($arguments) {
return array_map($callable, $arguments);
}, $callables);
}
$data = [
// Table 3-8. Use of U+FFFD in UTF-8 Conversion
// http://www.unicode.org/versions/Unicode6.1.0/ch03.pdf)
"x61"."xF1x80x80"."xE1x80"."xC2"."x62"."x80"."x63"
."x80"."xBF"."x64",
// 'FULL MOON SYMBOL' (U+1F315) and invalid byte sequence
"xF0x9Fx8Cx95"."xF0x9Fx8C"."xF0x9Fx8C"
];
var_dump(run([
'replace_invalid_byte_sequence',
'replace_invalid_byte_sequence2',
'replace_invalid_byte_sequence3',
'replace_invalid_byte_sequence4',
'replace_invalid_byte_sequence5',
'replace_invalid_byte_sequence6'
], $data));
As a note, mb_convert_encoding has a bug that breaks s valid character just after invalid byte sequence or remove invalid byte sequence after valid characters without adding U+FFFD.
$data = [
// U+20AC
"xE2x82xAC"."xE2x82xAC"."xE2x82xAC",
"xE2x82" ."xE2x82xAC"."xE2x82xAC",
// U+24B62
"xF0xA4xADxA2"."xF0xA4xADxA2"."xF0xA4xADxA2",
"xF0xA4xAD" ."xF0xA4xADxA2"."xF0xA4xADxA2",
"xA4xADxA2"."xF0xA4xADxA2"."xF0xA4xADxA2",
// 'FULL MOON SYMBOL' (U+1F315)
"xF0x9Fx8Cx95" . "xF0x9Fx8C",
"xF0x9Fx8Cx95" . "xF0x9Fx8C" . "xF0x9Fx8C"
];
Although preg_match() can be used intead of preg_replace_callback, this function has a limition on bytesize. See bug report #36463 for details. You can confirm it by the following test case.
str_repeat('a', 10000)
Finally, the result of my benchmark is following.
mb_convert_encoding()
0.19628190994263
htmlspecialchars()
0.082863092422485
UConverter::transcode()
0.15999984741211
UConverter::convert()
0.29843020439148
preg_replace_callback()
0.63967490196228
direct comparision
0.71933102607727
The benchmark code is here.
function timer(array $callables, array $arguments, $repeat = 10000)
{
$ret = [];
$save = $repeat;
foreach ($callables as $key => $callable) {
$start = microtime(true);
do {
array_map($callable, $arguments);
} while($repeat -= 1);
$stop = microtime(true);
$ret[$key] = $stop - $start;
$repeat = $save;
}
return $ret;
}
$functions = [
'mb_convert_encoding()' => 'replace_invalid_byte_sequence',
'htmlspecialchars()' => 'replace_invalid_byte_sequence2',
'UConverter::transcode()' => 'replace_invalid_byte_sequence3',
'UConverter::convert()' => 'replace_invalid_byte_sequence4',
'preg_replace_callback()' => 'replace_invalid_byte_sequence5',
'direct comparision' => 'replace_invalid_byte_sequence6'
];
foreach (timer($functions, $data) as $description => $time) {
echo $description, PHP_EOL,
$time, PHP_EOL;
}