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I used sqlcipher_export(), exactly as specified here, to encrypt an existing Sqlite database. It all went fine - no errors, the resulting database is created and has a reasonable size. However, I am not able to open the encrypted database, even though I specify the correct key using PRAGMA key. Unencrypted databases open without problems.

Moreover, the encrypted database looks strange; the header seems to be encrypted, but not the data. See, it's an image showing binary comparison between encrypted (left) and unencrypted (right) databases.

In the debugger I can see that, during the encryption, the program goes through sqlcipher_page_cipher(), but most of the time (every time except for 2 invocations) the following clause is executed, and the function returns early:

  /* just copy raw data from in to out when key size is 0
   * i.e. during a rekey of a plaintext database */ 
  if(c_ctx->key_sz == 0) {
    memcpy(out, in, size);
    return SQLITE_OK;

SQL issued during encryption:

ATTACH DATABASE 'encrypted.db' AS encrypted KEY '12345'; 
SELECT sqlcipher_export('encrypted'); 

SQL issued during opening:

// open database
PRAGMA key = '12345'; 
// try to read database - "file is encrypted or not a database"

CODEC_TRACE logs generated during encryption and decryption are here.

(In case it is important how I compiled Sqlcipher: I created an Sqlcipher amalgamation on a Linux machine, copied the resulting C file to a Windows machine, compiled it in Visual C++ Express, and linked to a precompiled OpenSSL DLL.)

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the codec trace shows it processing ~17000 pages. does encrypted.db exist before you start the export? – Stephen Lombardo Apr 20 '12 at 19:57
No, it doesn't exist. (Thanks for the fast response!) – user38329 Apr 20 '12 at 20:03
I just ran through a test with a 138 MB database, exactly as documented on the sqlcipher site on windows. it worked without issues, the resulting database was encrypted. I'm wondering if there is some issue with your build. Can you try using the command line and see if it works? – Stephen Lombardo Apr 20 '12 at 20:32
I corrected the paragraph starting with "In the debugger I can see", please take a look. I use the library as a DLL, so it's not immediately possible to use the command line interpreter, but I can switch over to Linux and compile the interpreter. – user38329 Apr 20 '12 at 20:44
More findings... At the start of encryption, c_ctx->key_sz is initialized to a positive number in sqlcipher_codec_ctx_set_cipher, but then the memory location suddenly changes to zero in here: CODEC2(pPager, pData, pPg->pgno, 7, return SQLITE_NOMEM, pData2); ( function pager_write() ). The stack trace points inside libeay32.dll (the precompiled OpenSSL DLL). OpenSSL seems to corrupt the memory belonging to c_ctx, perhaps due to pData being pretty close in memory. Smells like some binary incompatibility... – user38329 Apr 20 '12 at 21:11

1 Answer 1

up vote 0 down vote accepted

Root cause: Calls to OpenSSL's HMAC_Init_ex() in sqlcipher_page_hmac() corrupted memory that belonged to c_ctx->key_sz, setting it to zero. c_ctx->key_sz was adjacent to a parameter passed to HMAC_Init_ex(). (Details can be found in one of the comments to the original post.) This caused sqlcipher_page_cipher() to write plaintext pages to the encrypted file, instead of encrypted pages. Which didn't make sense and made the resulting database unusable.

Upgrading OpenSSL from 0.9.8k to 1.0.0i fixed the problem.

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