No, you shouldn't reuse the session token as your CSRF token. The OWASP CSRF prevention cheat sheet gives reasons why using the session identifier as a CSRF token is undesirable:
While this approach is effective in mitigating the risk of cross-site request forgery, including authenticated session identifiers in HTTP parameters may increase the overall risk of session hijacking. Architects and developers must ensure that no network appliances or custom application code or modules explicitly log or otherwise disclose HTTP POST parameters.
Inclusion of the session identifier within HTML can also be leveraged by cross-site scripting attacks to bypass HTTPOnly protections. Most modern browsers prevent client-side script from accessing HTTPOnly cookies. However, this protection is lost if HTTPOnly session identifiers are placed within HTML as client-side script can easily traverse and extract the identifier from the DOM. Developers are still encouraged to implement the synchronizer token pattern as described in this article.
Here are some more thoughts about why it might be not such a good idea to use the session id as the CSRF token. This article mentions packet sniffing on plain http connections and the ability to do man-in-the-middle attacks on them as potential risks.
Therefore it is essential that the CSRF token is a different one, otherwise the CSRF token would be trivially guessable if we assume the attacker already knows the session identifier! Put more defensively: It is probably not a good idea to play with fire: there's no need to re-use the session id as CSRF token, by doing so you only open another attack surface that could potentially be exploited. No reuse, no worries about that.
As a consequence, despite the session token being cryptographically secure, it additionally should be independent (also in the probabilistic sense) from the CSRF token for the whole thing to work under the above assumptions. That's also why any of the implementation examples always create their token from scratch.
You could use a cryptographically secure random number generator to create a sequence of bytes, hex- or Base64-encode them to obtain a string that is to be embedded in the page.
OWASP recommends a length of 128 bits where they assume 64 bits of entropy (e.g. 8 random bytes transformed to a 16 byte hex string). The length of that sequence determines the level of security: guessing a 10 byte secure random number (which has 80 bits of entropy) succeeds with probability 2^(-80), which should suffice in most applications. So your final token should have a length of 20 bytes, a 10 byte random number transformed to hex encoding.