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I have a MySQL database which contains some bad data.

I start with this Unicode string:


Encoding to UTF-8 for the database yields:

'TECNOLOG\xc3\x8dA Y EDUCACI\xc3\x93N'

When I send these bytes to the database, using connection charset latin1 and database charset utf8 (yes, I know this is wrong, but this has already happened, many, many times, and the goal now is to figure out the exact process of corruption so it can be reversed), the data is converted to this (checked using BINARY()):

'TECNOLOG\xc3\x83\xc2\x8dA Y EDUCACI\xc3\x83\xe2\x80\x9cN'

Double-encoding aside, the result I'd expect here is:

'TECNOLOG\xc3\x83\xc2\x8dA Y EDUCACI\xc3\x83\xc2\x93N'

Most of this makes sense, as it is interpreting the multi-byte UTF-8 chars as latin1, and encoding each byte as an individual char, but the conversion of \x93 -> \xe2\x80\x9c makes no sense. latin1's \x93 does not convert to UTF-8 \xe2\x80\x9c, although \xe2\x80\x9c can be converted to Unicode, yielding u'\u201c', which is codepoint \x93 in the CP-1252 charset.

Is mysql combining latin1 and CP-1252 when it handles conversions? How can I replicate the conversion process entirely in python? I've iterated through every encoding on the system and none of them work for the entire string. How, in python, can I get from 'TECNOLOG\xc3\x83\xc2\x8dA Y EDUCACI\xc3\x83\xe2\x80\x9cN' back to 'TECNOLOG\xc3\x8dA Y EDUCACI\xc3\x93N'? Decoding as UTF-8 will handle the first 3/4ths correctly, but that last one is just wrong, and nothing I've tried will return the correct results.

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1 Answer 1

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  1. the goal now is to figure out the exact process of corruption so it can be reversed

    As documented under ALTER TABLE Syntax:


    The CONVERT TO operation converts column values between the character sets. This is not what you want if you have a column in one character set (like latin1) but the stored values actually use some other, incompatible character set (like utf8). In this case, you have to do the following for each such column:


    The reason this works is that there is no conversion when you convert to or from BLOB columns.

    In your case:

    1. change the column's encoding to the connection character set that was used on insertion (i.e. latin1), so that the stored bytes become the same as those that were originally received:

      ALTER TABLE my_table MODIFY my_column TEXT CHARACTER SET latin1;
    2. then drop the encoding information (by modifying the column so that it becomes a binary string):

      ALTER TABLE my_table MODIFY my_column BLOB;
    3. then apply the correct encoding information (by modifying the column so that it becomes a character string in the utf8 character set):

      ALTER TABLE my_table MODIFY my_column TEXT CHARACTER SET utf8;

    Be careful to use datatypes of sufficient length to avoid data truncation. Also be careful to ensure that application code thenceforth uses the correct connection character set (or else you may end up with a table where some records are encoded in one manner and others in another, which can be a nightmare to resolve).

    If you cannot modify the database just yet, simply fetching data whilst the connection character is set to latin1 (but with your application expecting UTF-8) will yield correct data. Or else, use CONVERT():

    FROM   my_table
  2. Is mysql combining latin1 and cp1252 when it handles conversions?

    As documented under West European Character Sets:

    MySQL's latin1 is the same as the Windows cp1252 character set. This means it is the same as the official ISO 8859-1 or IANA (Internet Assigned Numbers Authority) latin1, except that IANA latin1 treats the code points between 0x80 and 0x9f as “undefined,” whereas cp1252, and therefore MySQL's latin1, assign characters for those positions. For example, 0x80 is the Euro sign. For the “undefined” entries in cp1252, MySQL translates 0x81 to Unicode 0x0081, 0x8d to 0x008d, 0x8f to 0x008f, 0x90 to 0x0090, and 0x9d to 0x009d.

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Thank you so much! I was wondering, because the \x8d in my example above was preventing me from decoding, so I assumed it was some sort of frankenstein charset. Looks like I was right. Thanks for the amazingly fast response! –  Gerald Thibault Aug 15 '13 at 0:55
If mysql thinks it can convert \x8d, and python thinks it can't, then that's enough additions for me to consider it a frankenstein. That \x8d was the only thing making me think it wasn't cp1252, because every other record was reversible using cp1252. If mysql didn't have those additions, this question would never have been posted. :D –  Gerald Thibault Aug 15 '13 at 2:27
@GeraldThibault: Ah yes, quite right. Still, one can perform the conversion in MySQL as shown under point #1 in my answer above. –  eggyal Aug 15 '13 at 7:42

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