Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am using Protocol Buffers and OpensSSL to generate, HMACs and then CBC encrypt the two fields to obfuscate the session cookies -- similar Kerberos tokens.

Protocol Buffers' API communicates with std::strings and has a buffer caching mechanism; I exploit the caching mechanism, for successive calls in the the same thread, by placing it in thread local memory; additionally the OpenSSL HMAC and EVP CTX's are also placed in the same thread local memory structure ( see this question for some detail on why I use thread local memory and the massive amount of speedup it enables even with a single thread).

The generation and deserialization, "my algorithms", of these cookie strings uses intermediary void *s and std::strings and since Protocol Buffers has an internal memory retention mechanism I want these characteristics for "my algorithms".

So how do I implement a common scratch memory ? I don't know much about the rdbuf(streambuf - strinbuf ??) of the std::string object. I would presumeably need to grow it to the lowest common size ever encountered during the execution of "my algorithms". Thoughts ?

My question I guess would be: " is the internal buffer of a string re-usable, and if so, how ?"

Edit (new question):

It seems uppon reflection after Vlad's post that I do need a std::string as well a void * c-style scratch buffer. My question would then be: do popular stl's string implementations retain memory when they dont need it ? (my needs will probably stay between 128-bytes to 10-KB).

share|improve this question

1 Answer 1

up vote 2 down vote accepted

You shouldn't expect the whole content of your std::string to reside in TLS, since std::string makes allocations and reallocations for data on its own. A simple idea would be to allocate a structure on heap and store a pointer to it in the TLS.

AFAIK rdbuf is a feature of streams, not of string (see here and here).

I would suggest using std::vector instead of string, it should be contiguous. Again, it's perhaps better to put just a pointer to the vector into TLS. The comments to the same article say that the standard requires even string to be contiguous, starting from &(str[0]) char.

share|improve this answer
I hope to retain the string object for its active reference to the memory it retains on the heap :D. Yes I think you might be right, I will probably need to manage a separate scratch buffer for the c-style calls and grow it when needed. Especially since some calls will require both a "to" element and a "from" element. –  Hassan Syed Apr 20 '10 at 12:53
I wonder if retaining a string whilst also retaining a seperate scratch buffer will still mean a lower chance of allocations --i.e., does the average string object keep around memory when it doesn't need it ? –  Hassan Syed Apr 20 '10 at 12:57
ok, ok, vector it is :D –  Hassan Syed Apr 20 '10 at 13:31
ok so I'm using vector and resize, and vector tends not to return memory; and I am using string -- hoping that it doesn't return memory either :D –  Hassan Syed Apr 20 '10 at 19:35
@Hassan: The std::vector must retain the memory if you are not using it, because you can potentially access it at any time. If you however are expanding the vector, it may possibly change the memory location (if the current memory block it uses is not big enough). Hope that clarifies the problem. –  Vlad Apr 21 '10 at 11:53

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.