``` Filename: 186-multiple-orports.txt Title: Multiple addresses for one OR or bridge Author: Nick Mathewson Created: 19-Sep-2011 Supersedes: 118 Status: Closed Target: 0.2.4.x+ Status: This proposal is partially implemented to the extent needed to allow nodes to have one IPv4 and one IPv6 address. Overview: This document is a proposal for servers to advertise multiple address/port combinations for their ORPort. It supersedes proposal 118. Motivation: Sometimes servers want to support multiple ports for incoming connections, either in order to support multiple address families (ie, to add IPv6 support), to better use multiple interfaces, or to support a variety of FascistFirewallPorts settings. This is easy to set up now, but there's no way to advertise it to clients. Configuring additional addresses and ports: In consonance with our changes to the (Socks|Trans|NATD|DNS)Port options made in 0.2.3.x for proposal 171, I make a corresponding change to allow multiple ORPort options and deprecate ORListenAddress. The new syntax will be: "ORPort" PortDescription Option* Option = "NoAdvertise" | "NoListen" | "AllAddrs" | "IPV4Only" | "IPV6Only" PortDescription = PORTLIST | ADDRESS ":" PORTLIST | Hostname ":" PORTLIST (PORTLIST and ADDRESS are defined below.) The 'NoAdvertise' option performs the function of the old ORListenAddress option. If it is set, we bind a port, but don't put it in our descriptor. The 'NoListen' option tells Tor to advertise an address, but not bind to it. The operator needs to use some other mechanism to ensure that ports are redirected to ports that _are_ listened on. The 'AllAddrs' option tells Tor that if no address is given in the PortDescription part, we should bind/advertise every one of our publicly visible unicast addresses; and that if a hostname address is given in the PortDescription, we should bind/advertise every publicly visible unicast address that the hostname resolves to. (Q: Should this be on by default?) The 'IPv4Only' and 'IPv6Only' options tell Tor to interpret such situations as applying only to IPv4 addresses or to IPv6 addresses. As with the client *Port options, only the old format or the new format are allowed: either a single numeric ORPort and zero or more ORListenAddress options, or a set of one or more ORPorts in the new extended format. In current operating systems (unless we get into crazy nonportable tricks) we need to use one socket for every address:port that Tor binds on. As a sanity check, we can limit the number of such sockets we use to, say, something between 8 and 64. If you want to bind lots of address:port combinations, you'll want to do it at the firewall/routing level. Example: We want to bind on 0.0.0.0:9001 ORPort 9001 Example: Our firewall is redirecting ports 80, 443, and 7000 on all hosts in 18.244.2.0 onto our port 2929. ORPort 2929 noadvertise ORPort 18.244.2.0:80,443,7000 nolisten Example: We have a dynamic DNS provider that maps tornode.example.com to our current external IPv4 and IPv6 addresses. Our firewall forwards port 443 on those addresses to our port 1337. ORPort 1337 noadvertise alladdrs ORPort tornode.example.com:443 nobind alladdrs Self-testing: Right now, Tor nodes need to check every port that they advertise before they declare themselves reachable. If a Tor has a lot of advertised ports, that could be prohibitive. Instead, it should try a sample of ports for each address. It should not advertise any given ORPort line until it has tried extending to or connecting to a sample of the address/port combinations. It will now be possible for a Tor node to find that some addresses work and others do not. In this case, the node should only advertise ORPort lines that have been checked. (As a consequence, the node should not advertise any address unless at least one ORPort without nolisten has been specified.) {Until support is added for extend cells to IPv6 addresses, it will only be possible to test IPv6 addresses by connecting directly. We might want to just skip self-testing those until we have IPv6 extend support.} New descriptor syntax: We add a new line in the router descriptor, "or-address". This line can occur zero, one, or multiple times. Its format is: or-address SP ADDRESS ":" PORTLIST NL ADDRESS = IPV6ADDR | IPV4ADDR IPV6ADDR = an ipv6 address, surrounded by square brackets. IPV4ADDR = an ipv4 address, represented as a dotted quad. PORTLIST = PORTSPEC | PORTSPEC "," PORTLIST PORTSPEC = PORT PORT = a number between 1 and 65535 inclusive. [This is the regular format for specifying sets of addresses and ports in Tor.] A descriptor should not include an or-address line that does nothing but duplicate the address:port pair from its "router" line. A node must not list more than 8 or-address lines. A PORTLIST must have no more than 16 PORTSPEC entries, and its entries must be disjoint. (Q: Any reason to allow more than 2? Multiple interfaces, I guess.) New authority behavior: The same rationale applies as for self-testing. An authority needs to test the main address:port from the router line, and every or-address line. For or-address lines that contain multiple ports, it needs to test all of them if they are few, or a sample if they are not. An authority shouldn't list a node as Running unless every or-address line it advertises looks like it will work. Consensus directories and microdescriptors: We introduce a new line type for microdescriptors and consensuses, "a". Each "a" line has the same format as an or-address line. The "a" lines (if any) appear immediately after the "r" line for a router in the consensus, and immediately after the "onion-key" entry in a microdescriptor. Clients that use microdescriptors should consider a node's addresses to be the address:port listed in the "r" line of a consensus, plus all "a" lines for that node in the consensus, plus all "a" lines for that node in its microdescriptor. Clients that use full descriptors should consider a node's addresses to be everything listed in its descriptor. We will have to define a new voting algorithm version; when using this version or later, votes should include a single "a" line for every relay that has an IPv6 address, to include the first IPv6 line in its descriptor. (If there are no IPv6 or-address lines, then they shouldn't include any "a" lines.) The remaining or-address lines will turn into "a" lines in the microdescriptor. As with other data in the vote derived from the descriptor, the consensus will include whichever set of "a" lines are given by the most authorities who voted for the descriptor digest that will be used for the router. Directory authorities with more addresses: We need a way for a client to configure a TrustedDirServer as having multiple OR addresses, specifically so that we can give at least one default authority an IPv6 address for bootstrapping purposes. (Q: Do any of the current authorities have stable IPv6 addresses?) We will want to allow the address in a "dir-source" line in a vote to contain an IPv6 address, and/or allow voters to list themselves with more addresses in votes/consensuses. But right now, nothing actually uses the addresses listed for voters in dir-source lines for anything besides log messages. Client behavior: I propose that initially we shouldn't change client behavior too much here. (Q: Is there any advantage to having a client choose a random address? If so we can do it later. If not, why list any more than one IPv4 and one IPv6 address?) Tor clients not running with bridges, and running with IPv4 support, should still use the address and ORPort as advertised in the "router" or "r" line of the appropriate directory object. Tor clients not running with bridges, and running without IPv4 support, should use the first listed IPv6 address for a node, using the lowest-numbered listed port for that address. They should only connect to nodes with an IPv6 address. Clients should accept Bridge lines with IPv6 addresses, and address:port sets, in addition to the lines they currently accept. Clients, for now, should only use the address:port from the router line when making EXTEND cells; see below. Nodes without IPv4 addresses: Currently Tor requires every node or bridge to have an IPv4 address. We will want to maintain this property for the foreseeable future, but we should define how a node without an IPv4 address would advertise itself. Right now, there's no way to do that: if anything but an IPv4 address appears in a router line of a routerdesc, or the "r" line of a consensus, then it won't parse. If something that looks like an IPv4 address appears there, clients will (I believe) try to connect to it. We can make this work, though: let's allow nodes to list themselves with a magic IPv4 address (say, 127.1.1.1) if they have or-address entries containing only IPv6 address. We could give these nodes a new flag other than Running to indicate that they're up, and not give them the Running flag. That way, old clients would never try to use them, but new clients could know to treat the new flag as indicating that the node is running, and know not to connect to a node listed with address 127.1.1.1. Interaction with EXTEND and NETINFO: Currently, EXTEND cells only support IPv4 addresses, so we should use only those. There is a proposal draft to support more address types. A server's NETINFO cells must list all configured addresses for a server. Why not extend DirPort this way too? Because clients are all using BEGINDIR these days. That is, clients tunnel their directory requests inside OR connections, and don't generally connect to DirPorts at all. Why not have address and port ranges? Earlier drafts of this proposal suggested that servers should provide ranges of addresses, specified with bitmasks. That's a neat idea for circumvention, but if we did that, you wouldn't want to advertise publicly that you have an entire address range. Port ranges are out because I don't think they would actually get used much, and they add a fair bit of complexity. Coding impact: In addition to the obvious changes, we need to audit everything that looks up or compares OR connections and nodes by address:port under the assumptions that each node has only a single address or ORPort. TODO: * Make it so that authorities can vote on which addresses are working somehow. * Specify some way to say "I only want to connect to v4/v6 addresses". * Come up with a better alternative to running6 for the longterm? ```