General operation

Tor begins building circuits as soon as it has enough directory information to do so. Some circuits are built preemptively because we expect to need them later (for user traffic), and some are built because of immediate need (for user traffic that no current circuit can handle, for testing the network or our reachability, and so on).

  [Newer versions of Tor ( and later):
   If the consensus contains Exits (the typical case), Tor will build both
   exit and internal circuits. When bootstrap completes, Tor will be ready
   to handle an application requesting an exit circuit to services like the
   World Wide Web.

If the consensus does not contain Exits, Tor will only build internal circuits. In this case, earlier statuses will have included "internal" as indicated above. When bootstrap completes, Tor will be ready to handle an application requesting an internal circuit to hidden services at ".onion" addresses.

If a future consensus contains Exits, exit circuits may become available.]

When a client application creates a new stream (by opening a SOCKS connection or launching a resolve request), we attach it to an appropriate open circuit if one exists, or wait if an appropriate circuit is in-progress. We launch a new circuit only if no current circuit can handle the request. We rotate circuits over time to avoid some profiling attacks.

To build a circuit, we choose all the nodes we want to use, and then construct the circuit. Sometimes, when we want a circuit that ends at a given hop, and we have an appropriate unused circuit, we "cannibalize" the existing circuit and extend it to the new terminus.

These processes are described in more detail below.

This document describes Tor's automatic path selection logic only; path selection can be overridden by a controller (with the EXTENDCIRCUIT and ATTACHSTREAM commands). Paths constructed through these means may violate some constraints given below.


A "path" is an ordered sequence of nodes, not yet built as a circuit.

A "clean" circuit is one that has not yet been used for any traffic.

A "fast" or "stable" or "valid" node is one that has the 'Fast' or 'Stable' or 'Valid' flag set respectively, based on our current directory information. A "fast" or "stable" circuit is one consisting only of "fast" or "stable" nodes.

In an "exit" circuit, the final node is chosen based on waiting stream requests if any, and in any case it avoids nodes with exit policy of "reject :". An "internal" circuit, on the other hand, is one where the final node is chosen just like a middle node (ignoring its exit policy).

A "request" is a client-side stream or DNS resolve that needs to be served by a circuit.

A "pending" circuit is one that we have started to build, but which has not yet completed.

A circuit or path "supports" a request if it is okay to use the circuit/path to fulfill the request, according to the rules given below. A circuit or path "might support" a request if some aspect of the request is unknown (usually its target IP), but we believe the path probably supports the request according to the rules given below.

A relay's bandwidth

Old versions of Tor did not report bandwidths in network status documents, so clients had to learn them from the routers' advertised relay descriptors.

For versions of Tor prior to, everywhere below where we refer to a relay's "bandwidth", we mean its clipped advertised bandwidth, computed by taking the smaller of the 'rate' and 'observed' arguments to the "bandwidth" element in the relay's descriptor. If a router's advertised bandwidth is greater than MAX_BELIEVABLE_BANDWIDTH (currently 10 MB/s), we clipped to that value.

For more recent versions of Tor, we take the bandwidth value declared in the consensus, and fall back to the clipped advertised bandwidth only if the consensus does not have bandwidths listed.