8

I've been having this dilemma for a while and couldn't find any hints to it, although it seems that someone outha have done it already.

What I need is to replace sequential AUTO_INCREMENT (or equivalent) primary keys with criptographically secure (i.e. non-consecutive!) ids, but at the same time I want to keep the performance advantage of sequential PKs: guaranteed unused next ID, clusterability, etc.

A simple approach would seem to implement a cryptographic pseudo-random permutation generator to uniquely map the 2^N space to 2^N without collisions and with an initialisation vector (IV).

While this could be implemented externally, this does need to store and atomically access state (the permutation position or last id), which means implementing externally would be grossly inefficient (it's the equivalent of running a subsequent UPDATE table SET crypto_id = FN_CRYPTO(autoincrement_id) WHERE autoincrement_id=LAST_INSERT_ID() for every INSERT).

Do you know of any such implementation as described above in a database in commercial use?

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  • why dont you just use uniqueidentifier? is this not secure enough? see example B here in the link below:
    – DaFi4
    Jul 20, 2019 at 2:27
  • @DaFi4 Thanks for that, I didn't know that existed; there seem to be however a few quirks with that: 1) It's a long alphanumeric sausage, much slower to deal with than a numeric ID PK. 2) Reading RFC 4122, there are 2 implementations for the UUIDS: one is random (which will generate collisions), and the other is the timestamp, in 0.1us increments, in clear (not hashed or anything). So not secure enough is understated... not secure at all. It keeps ids in increasing order at close enough distances. Also the MS doc doesn't state which algorithm it is. 3) Does this scale to distributed DBs?
    – Dinu
    Jul 20, 2019 at 7:17
  • 4) How to get the last inserted ID?
    – Dinu
    Jul 20, 2019 at 7:20
  • 1. its not really slower, its designed to be fast 2. its designed so that collisions do not occur. ive never seen one in 22 years. 3. yes, in fact, a primary function of using this approach is to solve problems that arise from distributed DB and data
    – DaFi4
    Jul 20, 2019 at 11:13

2 Answers 2

1

While this could be implemented externally, this does need to store and atomically access state (the permutation position or last id), which means implementing externally would be grossly inefficient (it's the equivalent of running a subsequent

 UPDATE table SET crypto_id = FN_CRYPTO(autoincrement_id) 
 WHERE autoincrement_id=LAST_INSERT_ID()

You could use generated/virtual column to avoid running proposed UPDATE for every insert:

-- pseudocode
CREATE TABLE tab(
   autoincrement_id INT AUTO_INCREMENT,
   crypto_id <type> GENERATED ALWAYS AS (FN_CRYPTO(autoincrement_id)) STORED
);

-- SQL Server example, SHA function is an example and should be replaced
CREATE TABLE tab(
 autoincrement_id INT IDENTITY(1,1),
 crypto_id AS (HASHBYTES('SHA2_256',CAST(autoincrement_id AS NVARCHAR(MAX))))     PERSISTED
);

db<>fiddle demo


More info:


EDIT by Dinu

If you use SHA, don't forget to concatenate a secret salt to the autoincrement_id; alternately, you could use i.e. AES128 to encrypt the autoincrement_id with a secret password and IV.

Also worth noting: any DB user with access to the table DDL will have access to your secret salt/key/iv. If this is of concern to you, you can use a parameterized stored procedure i.e. FN_CRYPTO(id,key,iv) instead and send them along with every insert.

To retrieve the crypto_id on the app-side without needing a subsequent query, you would need to replicate the encryption function app-side to run on the returned autoincrement_id. Note: if using autoincrement_id as byte array for AES128, be very careful about endianness, it may differ DB and app-side. The only alternative is to use the OUTPUT syntax of mssql, but that is specific to mssql and it requires running the ExecuteScalar API instead of ExecuteNonQuery.

10
  • Thanks, this looks on the right track, but how to get the generated crypto_id as a result of an INSERT? Do note we are using an ORM app-side so masquerading a stored procedure as an INSERT wrapper would be a terrible idea as it would mean massive code changes.
    – Dinu
    Jul 20, 2019 at 15:16
  • Maybe replicate the generation function app-side based on the identity id would work to get the crypto ID? I would use AES128 instead of hasing as it would guarantee no collision and I see it implemented elsewhere, but it's doable with most RDBs.
    – Dinu
    Jul 20, 2019 at 15:30
  • @Dinu how to get the generated crypto_id as a result of an INSERT You could create a user-defined function in your RDBMS and set as calculated column expression. Jul 21, 2019 at 7:43
  • 1
    I think I know the answer to this: use OUTPUT combined WITH SCHEMABINDING : stackoverflow.com/questions/6354894/…
    – DaFi4
    Jul 24, 2019 at 14:24
  • 1
    @Lukasz Szozda I accepted the answer, I couldn't find any better implementation as much as I researched. I also proposed an edit to add more info about SHA salt, AES alternative and how to retrieve the crypto id app-side.
    – Dinu
    Aug 2, 2019 at 6:26
-1

Just a thought... Is the DB itself secure? If so, you might consider a "key pool" table that holds a list of pseudo-random keys and a "status" column for each key in the table. Then you could assign the next key when required. The key pool can get populated during idle times and/or based on a trigger if the available keys drops below a set threshold.

Again, this method would depend on being able to secure the key pool table, but it would assure that the keys assigned would be random and unique.

Also, you would need to be sure that you don't create concurrency issues, but this could be done with a stored procedure, and still should be faster than generating the secure IDs on demand.

3
  • 1
    No, searching a "key pool" then updating said key pool is not faster than generating a crypto id on-the-fly. You are suggesting something even more inefficient than what I alreadly listed as unacceptably inefficient (INSERT/UPDATE).
    – Dinu
    Jul 26, 2019 at 14:40
  • I agree that on a whole, the key pool is less efficient. But I was thinking that the pool could be repopulated during idle times, so that the overhead is distributed to less critical time periods. Of course, I don't know the specifics of your application, so I understand that this might not be a practical option for you.
    – daShier
    Jul 26, 2019 at 14:56
  • The key pool still needs to be updated after you pull each ID, to mark it gone. There is absolutely no reason to create the key pool, key generation is not slow. Database operation to do repeated search/insert/updates with corresponding mutexes is slow.
    – Dinu
    Jul 26, 2019 at 15:01

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