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I'm building an application in web.py, but am having some trouble when it comes to storing encrypted data in MySQL.

PyCrypto creates cypher text that looks like:'\x06\x7f\x81\xa0\xf4d\x00H\xef\xd0\x18[c\x18Z\xf8', which when printed, shows up as " ôdHïÐ[cZø"

However, MySQL is storing it as: ???d H??[cZ? I'm storing it in the following manner:

query_string = "INSERT INTO %s (%s) VALUES (\"%s\")" % (table, column, value) 

I tried using "SET character_set_connection=utf8" after connecting to the database, but it didn't yield any change in the results.

I'm obviously missing something very important. Any thoughts?

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Don't you have to set a character encoding in the table itself? –  Poodlehat Dec 16 '11 at 15:29

2 Answers 2

up vote 3 down vote accepted

MySQL is trying to store your byte string in a character column. Because the connection character set is UTF-8 but the byte string doesn't represent a valid UTF-8 sequence, it gets mangled.

To get raw bytes into the database properly you need to:

  1. make the column a BINARY type (or generally character type with a binary collation), and

  2. use parameterised queries to get the data into the database instead of interpolating them into the query string where they might mix with non-binary (Unicode) content.

You should use parameterised queries anyway because the string interpolation you're using now, with no escaping, is vulnerable to SQL injection. In web.py that might look like:

query_string= 'INSERT INTO %s (%s) VALUES ($value)' % (table, column)
db.query(query_string, vars= {'value': value})

(assuming that the table and column values are known-good.)

Doing it like this also means you don't have to worry about the dollar sign.

The other approach is to use a normal character string, encoding away the non-ASCII bytes. You're doing this with uucode in your current workaround, but base64 would be a more common alternative that's easier to get to in Python (ciphertext.encode('base64')). Hex encoding (.encode('hex')) is most common for the case of a hash.

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Wow. Thanks for the great explanation. I had tried setting the column to binary, but I did not paramterize the query, so it continued to have problems. I will try what you've given me here! –  Tom Thorogood Dec 19 '11 at 13:50
This worked by using web.db.SQLQuery(['column', web.db.SQLParam(binaryValue)]) to create the query after setting the column once again to binary. Thanks again! –  Tom Thorogood Dec 19 '11 at 14:34

I have figured out a solution. I'm not sure how elegant it is, but it was the best I could figure out.


1) import binascii

2) ciphertext = cipher.encrypt(plaintext)

3) asciitext = binascii.b2a_uu(ciphertext)

4) webpy_workaround = asciitext.replace('$', 'DOLLARSIGN') //if there are dollar signs in the text, webpy will try to use anything afterward, and will complain at you.

5) Store webpy_workaround into sql.


1) Retrieve value from SQL

2) asciitext = sql_value.replace('DOLLARSIGN', '$')

3) ciphertext = binascii.a2b_uu(asciitext)

4) plaintext = cipher.decrypt(ciphertext)

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