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I'm using MongoDB, and I would like to generate unique and cryptical IDs for blog posts (that will be used in restful URLS) such as s52ruf6wst or xR2ru286zjI.

What do you think is best and the more scalable way to generate these IDs ?

I was thinking of following architecture :

  • a periodic (daily?) batch running to generate a lot of random and uniques IDs and insert them in a dedicated MongoDB collection with InsertIfNotPresent
  • and each time I want to generate a new blog post, I take an ID from this collection and mark it as "taken" with UpdateIfCurrent atomic operation

WDYT ?

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4 Answers

up vote 24 down vote accepted

This is exactly why the developers of MongoDB constructed their ObjectID's (the _id) the way they did ... to scale across nodes, etc.

A BSON ObjectID is a 12-byte value consisting of a 4-byte timestamp (seconds since epoch), a 3-byte machine id, a 2-byte process id, and a 3-byte counter. Note that the timestamp and counter fields must be stored big endian unlike the rest of BSON. This is because they are compared byte-by-byte and we want to ensure a mostly increasing order. Here's the schema:

0123   456      78    91011
time   machine  pid   inc

Traditional databases often use monotonically increasing sequence numbers for primary keys. In MongoDB, the preferred approach is to use Object IDs instead. Object IDs are more synergistic with sharding and distribution.

http://www.mongodb.org/display/DOCS/Object+IDs

So I'd say just use the ObjectID's

They are not that bad when converted to a string (these were inserted right after each other) ...

For example:

4d128b6ea794fc13a8000001
4d128e88a794fc13a8000002

They look at first glance to be "guessable" but they really aren't that easy to guess ...

4d128 b6e a794fc13a8000001
4d128 e88 a794fc13a8000002

And for a blog, I don't think it's that big of a deal ... we use it production all over the place.

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4  
You can also base64 encode, to have around 16 characters. Or base85 to have around 12. –  Tower Apr 19 '12 at 6:17
3  
Whether ObjectIds are "easy" to guess or not depends entirely on who's doing the guessing. To a casual web browser, no, but to any hacker worth their salt these are trivial to guess. If you need ids which are secure, please don't use ObjectIds, basewhatever-encoded or otherwise -- use something truly random like securely generated UUIDs. –  Leopd Apr 9 '13 at 16:07
1  
If the RESTful URLs mentioned in the OP are public, then as Leopd stressed, don't use ObjectIDs. You don't ever want to expose your db keys to the world. –  Mark Phillips Apr 20 at 8:51
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What about using UUIDs?

http://www.famkruithof.net/uuid/uuidgen as an example.

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Make a web service that returns a globally-unique ID so that you can have many webservers participate and know you won't hit any duplicates?

If your daily batch didn't allocate enough items? Do you run it midday?

I would implement the web-service client as a queue that can be looked at by a local process and refilled as needed (when server is slower) and could keep enough items in queue not to need to run during peak usage. Makes sense?

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It does make some sense, but I'm note quite sure it's the definite answer :)If I want to ensure ID unicity, only one instance of this web service must be running, making it a real SPOF (cannot create any more blog post if down). –  Chris Jan 10 '11 at 19:12
    
Well, yeah, you should only have one instance of the service running. If many, you could have a system prefix, or you could have the different systems be aware of each other and allocate in a way that works. –  Christopher Mahan Jan 10 '11 at 20:53
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This is an old question but for anyone who could be searching for another solution.

One way is to use simple and fast substitution cipher. (The code below is based on someone else's code -- I forgot where I took it from so cannot give proper credit.)

class Array
  def shuffle_with_seed!(seed)
    prng = (seed.nil?) ? Random.new() : Random.new(seed)
    size = self.size

    while size > 1
      # random index
      a = prng.rand(size)

      # last index
      b = size - 1

      # switch last element with random element
      self[a], self[b] = self[b], self[a]

      # reduce size and do it again
      size = b;
    end

    self
  end

  def shuffle_with_seed(seed)
    self.dup.shuffle_with_seed!(seed)  
  end
end

class SubstitutionCipher

  def initialize(seed)
    normal = ('a'..'z').to_a + ('A'..'Z').to_a + ('0'..'9').to_a + [' ']
    shuffled = normal.shuffle_with_seed(seed)
    @map = normal.zip(shuffled).inject(:encrypt => {} , :decrypt => {}) do |hash,(a,b)|
      hash[:encrypt][a] = b
      hash[:decrypt][b] = a
      hash
    end
  end

  def encrypt(str)
    str.split(//).map { |char| @map[:encrypt][char] || char }.join
  end

  def decrypt(str)
    str.split(//).map { |char| @map[:decrypt][char] || char }.join
  end

end

You use it like this:

MY_SECRET_SEED = 3429824

cipher = SubstitutionCipher.new(MY_SECRET_SEED)

id = hash["_id"].to_s
encrypted_id = cipher.encrypt(id)
decrypted_id = cipher.decrypt(encrypted_id)

Note that it'll only encrypt a-z, A-Z, 0-9 and a space leaving other chars intact. It's sufficient for BSON ids.

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