diff -r ffa851df0825 -r 2fb8b9db1c86 symbian-qemu-0.9.1-12/libsdl-trunk/test/utf8.txt --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/symbian-qemu-0.9.1-12/libsdl-trunk/test/utf8.txt Fri Jul 31 15:01:17 2009 +0100 @@ -0,0 +1,287 @@ +UTF-8 decoder capability and stress test +---------------------------------------- + +Markus Kuhn - 2003-02-19 + +This test file can help you examine, how your UTF-8 decoder handles +various types of correct, malformed, or otherwise interesting UTF-8 +sequences. This file is not meant to be a conformance test. It does +not prescribes any particular outcome and therefore there is no way to +"pass" or "fail" this test file, even though the texts suggests a +preferable decoder behaviour at some places. The aim is instead to +help you think about and test the behaviour of your UTF-8 on a +systematic collection of unusual inputs. Experience so far suggests +that most first-time authors of UTF-8 decoders find at least one +serious problem in their decoder by using this file. + +The test lines below cover boundary conditions, malformed UTF-8 +sequences as well as correctly encoded UTF-8 sequences of Unicode code +points that should never occur in a correct UTF-8 file. + +According to ISO 10646-1:2000, sections D.7 and 2.3c, a device +receiving UTF-8 shall interpret a "malformed sequence in the same way +that it interprets a character that is outside the adopted subset" and +"characters that are not within the adopted subset shall be indicated +to the user" by a receiving device. A quite commonly used approach in +UTF-8 decoders is to replace any malformed UTF-8 sequence by a +replacement character (U+FFFD), which looks a bit like an inverted +question mark, or a similar symbol. It might be a good idea to +visually distinguish a malformed UTF-8 sequence from a correctly +encoded Unicode character that is just not available in the current +font but otherwise fully legal, even though ISO 10646-1 doesn't +mandate this. In any case, just ignoring malformed sequences or +unavailable characters does not conform to ISO 10646, will make +debugging more difficult, and can lead to user confusion. + +Please check, whether a malformed UTF-8 sequence is (1) represented at +all, (2) represented by exactly one single replacement character (or +equivalent signal), and (3) the following quotation mark after an +illegal UTF-8 sequence is correctly displayed, i.e. proper +resynchronization takes place immageately after any malformed +sequence. This file says "THE END" in the last line, so if you don't +see that, your decoder crashed somehow before, which should always be +cause for concern. + +All lines in this file are exactly 79 characters long (plus the line +feed). In addition, all lines end with "|", except for the two test +lines 2.1.1 and 2.2.1, which contain non-printable ASCII controls +U+0000 and U+007F. If you display this file with a fixed-width font, +these "|" characters should all line up in column 79 (right margin). +This allows you to test quickly, whether your UTF-8 decoder finds the +correct number of characters in every line, that is whether each +malformed sequences is replaced by a single replacement character. + +Note that as an alternative to the notion of malformed sequence used +here, it is also a perfectly acceptable (and in some situations even +preferable) solution to represent each individual byte of a malformed +sequence by a replacement character. If you follow this strategy in +your decoder, then please ignore the "|" column. + + +Here come the tests: | + | +1 Some correct UTF-8 text | + | +(The codepoints for this test are: | + U+03BA U+1F79 U+03C3 U+03BC U+03B5 --ryan.) | + | +You should see the Greek word 'kosme': "κόσμε" | + | + | +2 Boundary condition test cases | + | +2.1 First possible sequence of a certain length | + | +(byte zero skipped...there's a null added at the end of the test. --ryan.) | + | +2.1.2 2 bytes (U-00000080): "€" | +2.1.3 3 bytes (U-00000800): "ࠀ" | +2.1.4 4 bytes (U-00010000): "𐀀" | + | +(5 and 6 byte sequences were made illegal in rfc3629. --ryan.) | +2.1.5 5 bytes (U-00200000): "" | +2.1.6 6 bytes (U-04000000): "" | + | +2.2 Last possible sequence of a certain length | + | +2.2.1 1 byte (U-0000007F): "" | +2.2.2 2 bytes (U-000007FF): "߿" | + | +(Section 5.3.2 below calls this illegal. --ryan.) | +2.2.3 3 bytes (U-0000FFFF): "￿" | + | +(5 and 6 bytes sequences, and 4 bytes sequences > 0x10FFFF were made illegal | + in rfc3629, so these next three should be replaced with a invalid | + character codepoint. --ryan.) | +2.2.4 4 bytes (U-001FFFFF): "" | +2.2.5 5 bytes (U-03FFFFFF): "" | +2.2.6 6 bytes (U-7FFFFFFF): "" | + | +2.3 Other boundary conditions | + | +2.3.1 U-0000D7FF = ed 9f bf = "퟿" | +2.3.2 U-0000E000 = ee 80 80 = "" | +2.3.3 U-0000FFFD = ef bf bd = "�" | +2.3.4 U-0010FFFF = f4 8f bf bf = "􏿿" | + | +(This one is bogus in rfc3629. --ryan.) | +2.3.5 U-00110000 = f4 90 80 80 = "" | + | +3 Malformed sequences | + | +3.1 Unexpected continuation bytes | + | +Each unexpected continuation byte should be separately signalled as a | +malformed sequence of its own. | + | +3.1.1 First continuation byte 0x80: "" | +3.1.2 Last continuation byte 0xbf: "" | + | +3.1.3 2 continuation bytes: "" | +3.1.4 3 continuation bytes: "" | +3.1.5 4 continuation bytes: "" | +3.1.6 5 continuation bytes: "" | +3.1.7 6 continuation bytes: "" | +3.1.8 7 continuation bytes: "" | + | +3.1.9 Sequence of all 64 possible continuation bytes (0x80-0xbf): | + | + " | + | + | + " | + | +3.2 Lonely start characters | + | +3.2.1 All 32 first bytes of 2-byte sequences (0xc0-0xdf), | + each followed by a space character: | + | + " | + " | + | +3.2.2 All 16 first bytes of 3-byte sequences (0xe0-0xef), | + each followed by a space character: | + | + " " | + | +3.2.3 All 8 first bytes of 4-byte sequences (0xf0-0xf7), | + each followed by a space character: | + | + " " | + | +3.2.4 All 4 first bytes of 5-byte sequences (0xf8-0xfb), | + each followed by a space character: | + | + " " | + | +3.2.5 All 2 first bytes of 6-byte sequences (0xfc-0xfd), | + each followed by a space character: | + | + " " | + | +3.3 Sequences with last continuation byte missing | + | +All bytes of an incomplete sequence should be signalled as a single | +malformed sequence, i.e., you should see only a single replacement | +character in each of the next 10 tests. (Characters as in section 2) | + | +3.3.1 2-byte sequence with last byte missing (U+0000): "" | +3.3.2 3-byte sequence with last byte missing (U+0000): "" | +3.3.3 4-byte sequence with last byte missing (U+0000): "" | +3.3.4 5-byte sequence with last byte missing (U+0000): "" | +3.3.5 6-byte sequence with last byte missing (U+0000): "" | +3.3.6 2-byte sequence with last byte missing (U-000007FF): "" | +3.3.7 3-byte sequence with last byte missing (U-0000FFFF): "" | +3.3.8 4-byte sequence with last byte missing (U-001FFFFF): "" | +3.3.9 5-byte sequence with last byte missing (U-03FFFFFF): "" | +3.3.10 6-byte sequence with last byte missing (U-7FFFFFFF): "" | + | +3.4 Concatenation of incomplete sequences | + | +All the 10 sequences of 3.3 concatenated, you should see 10 malformed | +sequences being signalled: | + | + "" | + | +3.5 Impossible bytes | + | +The following two bytes cannot appear in a correct UTF-8 string | + | +3.5.1 fe = "" | +3.5.2 ff = "" | +3.5.3 fe fe ff ff = "" | + | +4 Overlong sequences | + | +The following sequences are not malformed according to the letter of | +the Unicode 2.0 standard. However, they are longer then necessary and | +a correct UTF-8 encoder is not allowed to produce them. A "safe UTF-8 | +decoder" should reject them just like malformed sequences for two | +reasons: (1) It helps to debug applications if overlong sequences are | +not treated as valid representations of characters, because this helps | +to spot problems more quickly. (2) Overlong sequences provide | +alternative representations of characters, that could maliciously be | +used to bypass filters that check only for ASCII characters. For | +instance, a 2-byte encoded line feed (LF) would not be caught by a | +line counter that counts only 0x0a bytes, but it would still be | +processed as a line feed by an unsafe UTF-8 decoder later in the | +pipeline. From a security point of view, ASCII compatibility of UTF-8 | +sequences means also, that ASCII characters are *only* allowed to be | +represented by ASCII bytes in the range 0x00-0x7f. To ensure this | +aspect of ASCII compatibility, use only "safe UTF-8 decoders" that | +reject overlong UTF-8 sequences for which a shorter encoding exists. | + | +4.1 Examples of an overlong ASCII character | + | +With a safe UTF-8 decoder, all of the following five overlong | +representations of the ASCII character slash ("/") should be rejected | +like a malformed UTF-8 sequence, for instance by substituting it with | +a replacement character. If you see a slash below, you do not have a | +safe UTF-8 decoder! | + | +4.1.1 U+002F = c0 af = "" | +4.1.2 U+002F = e0 80 af = "" | +4.1.3 U+002F = f0 80 80 af = "" | +4.1.4 U+002F = f8 80 80 80 af = "" | +4.1.5 U+002F = fc 80 80 80 80 af = "" | + | +4.2 Maximum overlong sequences | + | +Below you see the highest Unicode value that is still resulting in an | +overlong sequence if represented with the given number of bytes. This | +is a boundary test for safe UTF-8 decoders. All five characters should | +be rejected like malformed UTF-8 sequences. | + | +4.2.1 U-0000007F = c1 bf = "" | +4.2.2 U-000007FF = e0 9f bf = "" | +4.2.3 U-0000FFFF = f0 8f bf bf = "" | +4.2.4 U-001FFFFF = f8 87 bf bf bf = "" | +4.2.5 U-03FFFFFF = fc 83 bf bf bf bf = "" | + | +4.3 Overlong representation of the NUL character | + | +The following five sequences should also be rejected like malformed | +UTF-8 sequences and should not be treated like the ASCII NUL | +character. | + | +4.3.1 U+0000 = c0 80 = "" | +4.3.2 U+0000 = e0 80 80 = "" | +4.3.3 U+0000 = f0 80 80 80 = "" | +4.3.4 U+0000 = f8 80 80 80 80 = "" | +4.3.5 U+0000 = fc 80 80 80 80 80 = "" | + | +5 Illegal code positions | + | +The following UTF-8 sequences should be rejected like malformed | +sequences, because they never represent valid ISO 10646 characters and | +a UTF-8 decoder that accepts them might introduce security problems | +comparable to overlong UTF-8 sequences. | + | +5.1 Single UTF-16 surrogates | + | +5.1.1 U+D800 = ed a0 80 = "" | +5.1.2 U+DB7F = ed ad bf = "" | +5.1.3 U+DB80 = ed ae 80 = "" | +5.1.4 U+DBFF = ed af bf = "" | +5.1.5 U+DC00 = ed b0 80 = "" | +5.1.6 U+DF80 = ed be 80 = "" | +5.1.7 U+DFFF = ed bf bf = "" | + | +5.2 Paired UTF-16 surrogates | + | +5.2.1 U+D800 U+DC00 = ed a0 80 ed b0 80 = "" | +5.2.2 U+D800 U+DFFF = ed a0 80 ed bf bf = "" | +5.2.3 U+DB7F U+DC00 = ed ad bf ed b0 80 = "" | +5.2.4 U+DB7F U+DFFF = ed ad bf ed bf bf = "" | +5.2.5 U+DB80 U+DC00 = ed ae 80 ed b0 80 = "" | +5.2.6 U+DB80 U+DFFF = ed ae 80 ed bf bf = "" | +5.2.7 U+DBFF U+DC00 = ed af bf ed b0 80 = "" | +5.2.8 U+DBFF U+DFFF = ed af bf ed bf bf = "" | + | +5.3 Other illegal code positions | + | +5.3.1 U+FFFE = ef bf be = "￾" | +5.3.2 U+FFFF = ef bf bf = "￿" | + | +THE END | +