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I'm having a bit of trouble with my cookie generation/verification callbacks in a multithreaded server (connection per thread). The DTLS stuff requires these callbacks as far as I can tell; my worry is the example code uses global vars for the cookies, and if there are a lot of connections incoming then I'd prefer to have a hash of cookies and connections.

I have two questions:

  1. Should I do it this way or is there a better, easier more-OpenSSL way?
  2. What do I use to identify a callback/cookie as belonging to a particular connection?

With regard to (2), the callbacks (see below) happen a different thread than the connections, so I cannot use the thread id as the hash key. The callbacks are given an SSL* param, and I bet there is someway to get a unique session/connection id from this, but I have no idea how to get it. I've looked at the docs but don't see anything that takes an SSL* object and gives a unique number, at least from what I can tell of the method names. What is the best to identify a unique cookie with a connection, given the parameters these callbacks are passed?

I'm working with code based off Robin Seggelmann's examples. My stuff is here.


2 global vars:

unsigned char cookie_secret[COOKIE_SECRET_LENGTH];
int cookie_initialized=0;

2 callbacks use these variables:

int generate_cookie(SSL *ssl, unsigned char *cookie, unsigned int *cookie_len) {
    ...
    /* Initialize a random secret */
    if (!cookie_initialized) {
        if (!RAND_bytes(cookie_secret, COOKIE_SECRET_LENGTH))
            ...

and

int verify_cookie(SSL *ssl, unsigned char *cookie, unsigned int cookie_len) {
    ...
    /* If secret isn't initialized yet, the cookie can't be valid */
    if (!cookie_initialized) return 0;

The main server loop sets these callbacks and opens up a new thread for each client connection:

void start_server(int port, char *local_address) {
    ...
    SSL_CTX_set_cookie_generate_cb(ctx, generate_cookie);
    SSL_CTX_set_cookie_verify_cb(ctx, verify_cookie);
    ...
    while (1) {
        // accept new conns
        ...
        if (pthread_create( &tid, NULL, connection_handle, info) != 0) {
            perror("pthread_create");
            exit(-1);
        }
share|improve this question

Just store a simple map of SSL pointers to cookies.

struct cookie_entry { SSL *ssl; unsigned char cookie[COOKIE_SECRET_LENGTH]; }
struct cookie_entry cookie_tbl[100];

struct cookie_entry* find_cookie(SSL *ssl)
{
  for (int i = 0; i < 100; i++)
    if (ssl == cookie_tbl[i].ssl)
       return &cookie_tbl[i];
  return NULL;
}

int generate_cookie(SSL *ssl, unsigned char *cookie, unsigned int *cookie_len) {

    /* Initialize a random secret */
    if (!find_cookie(ssl)) {
        struct cookie_entry ce* = find_cookie(NULL); 
        if (!RAND_bytes(ce->cookie, COOKIE_SECRET_LENGTH))
}

int verify_cookie(SSL *ssl, unsigned char *cookie, unsigned int cookie_len) {
    /* find_cookie and compare.. */

Hope that makes sense. Obviously could be modified to dynamically resize, or use a hash table implementation such as hcreate(3).

share|improve this answer
    
That certainly works. With regards to using the SSL object as a hash key, at least using UTHash I cannot use the object directly, and the address appears to change, so I cannot go after that either. If the SSL object had a unqiue ID, that would be ideal. – nflacco Jan 23 '13 at 4:21

While @matt_h' solution works, you should be aware of the consequences that may arise.

As stated in #rfc4347:


4.2. The DTLS Handshake Protocol

  1. A stateless cookie exchange has been added to prevent denial of service attacks.

4.2.1. Denial of Service Countermeasures

Datagram security protocols are extremely susceptible to a variety of denial of service (DoS) attacks. Two attacks are of particular concern:

  1. An attacker can consume excessive resources on the server by transmitting a series of handshake initiation requests, causing the server to allocate state and potentially to perform expensive cryptographic operations.

  2. An attacker can use the server as an amplifier by sending connection initiation messages with a forged source of the victim. The server then sends its next message (in DTLS, a Certificate message, which can be quite large) to the victim machine, thus flooding it.

[...]

When the client sends its ClientHello message to the server, the server MAY respond with a HelloVerifyRequest message. This message contains a stateless cookie generated using the technique of [PHOTURIS]. The client MUST retransmit the ClientHello with the cookie added. The server then verifies the cookie and proceeds with the handshake only if it is valid. This mechanism forces the attacker/client to be able to receive the cookie, which makes DoS attacks with spoofed IP addresses difficult. This mechanism does not provide any defense against DoS attacks mounted from valid IP addresses.

The most important part:

The DTLS server SHOULD generate cookies in such a way that they can be verified without retaining any per-client state on the server.


So in theory, you should not store any cookies at all. This also defeats the overall security-concept of DTLS' DOS-countermeasures. The goal is not to allocate additional ressources, until the peer is authenticated.

An attacker could easily fill up your data-store (table, database, ...) when using fake-IP addresses.


Conclusion: Instead of storing cookies or using the same secret over and over again, we simply generate a specific amount of secrets, store them inside a vault and randomly pick one upon cookie-creation. Later then we match the cookie against our secrets in that vault.

Here is my solution (tested and works):

Project: https://github.com/Burnett01/openssl-cookie-secret-vault

API:

//Maximum amount of secrets our vault can hold
#define CK_SECRET_MAX 20

//Length of a secret
#define CK_SECRET_LENGTH 16

//Storage of secrets
unsigned char ck_secrets_vault[CK_SECRET_MAX][CK_SECRET_LENGTH]; 

 //Pick a random secret
unsigned char *ck_secrets_random();

//Generate an amount of secrets
int ck_secrets_generate(int amount); 

//Count secrets inside vault
int ck_secrets_count();

//Check whether secret for a cookie exist (matches)
int ck_secrets_exist(unsigned char* peer, unsigned int peer_len, unsigned char *cookie, unsigned int cookie_len);

Generate 20 secrets:

printf("Generated %d cookie-secrets.\n", ck_secrets_generate(20));

Generate a cookie with a random secret:

HMAC(EVP_sha256(), (const void*) ck_secrets_random(), CK_SECRET_LENGTH,
        (const unsigned char*) buffer, length, result, &resultlength);

Test whether cookie matches one of our secrets:

if(ck_secrets_exist(buffer, length, cookie, cookie_len) == 1)
   //exists
else
   //negative
share|improve this answer

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