I think this is your problem, but I may be wrong.
You're relying on monkeypatching
socket.socket to force
HTTPConnection to use your SOCKS5 proxy to talk to TOR. But
socket.create_connection, which in turns calls
socket.getaddrinfo to resolve the name before calling
socket.socket to create the socket. And
getaddrinfo doesn't use
socket. So, it's not patched, so it's not talking to your SOCKS5 proxy, so it's using your default name resolver.
This works fine for proxying connections to normal internet hosts, because TOR is going to return the same DNS result for "my-ip.heroku.com" as your normal name resolver. But it won't work for "od6j46sy5zg7aqze.onion", because there is no .onion TLD in your normal name resolver.
If you're curious, you can see the source to
getaddrinfo (the last in C, and scattered throughout the module depending on your platform).
So, how do you solve this? Well, looking at two of the SOCKS5 modules that are called
socks, one has a function that could be directly monkeypatched in place of
create_connection (its API is not identical, but it's close enough for what
HTTPConnection needs); the other doesn't, but you could pretty easily write one (just call
socks.socksocket and then call its
connect method). Or you could modify
HTTPConnection to create a
socket.socket and call its
Finally, you may be wondering why most of the different
socks modules have a
setdefaultproxy function that with a parameter named
remote_dns that specifically claims it causes DNS resolving to be performed remotely, when that doesn't actually work. Well, it does work if you use a
socks.socksocket, but it can't possibly work if you use
By the way, if you haven't read DnsResolver and TorifyHOWTO, read them before going any further, because just trying to slap together code that works without knowing why it works is almost guaranteed to lead to you (or your users) leaking information when you thought you were being anonymous.