mirror of https://github.com/status-im/nim-eth.git
389 lines
14 KiB
Nim
389 lines
14 KiB
Nim
# Copyright (c) 2019-2024 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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# * MIT license ([LICENSE-MIT](LICENSE-MIT))
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# at your option.
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# This file may not be copied, modified, or distributed except according to
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# those terms.
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{.push raises: [].}
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import
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std/[os, strutils, times],
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results, nat_traversal/[miniupnpc, natpmp],
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chronicles, json_serialization/std/net, chronos,
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../common/utils, ./utils as netutils
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export results
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type
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NatStrategy* = enum
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NatAny
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NatUpnp
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NatPmp
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NatNone
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PrefSrcStatus = enum
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NoRoutingInfo
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PrefSrcIsPublic
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PrefSrcIsPrivate
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BindAddressIsPublic
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BindAddressIsPrivate
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const
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UPNP_TIMEOUT = 200 # ms
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PORT_MAPPING_INTERVAL = 20 * 60 # seconds
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NATPMP_LIFETIME = 60 * 60 # in seconds, must be longer than PORT_MAPPING_INTERVAL
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var
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upnp {.threadvar.}: Miniupnp
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npmp {.threadvar.}: NatPmp
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strategy = NatNone
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internalTcpPort: Port
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externalTcpPort: Port
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internalUdpPort: Port
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externalUdpPort: Port
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logScope:
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topics = "eth net nat"
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## Also does threadvar initialisation.
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## Must be called before redirectPorts() in each thread.
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proc getExternalIP*(natStrategy: NatStrategy, quiet = false): Opt[IpAddress] =
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var externalIP: IpAddress
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if natStrategy == NatAny or natStrategy == NatUpnp:
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if upnp == nil:
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upnp = newMiniupnp()
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upnp.discoverDelay = UPNP_TIMEOUT
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let dres = upnp.discover()
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if dres.isErr:
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debug "UPnP", msg = dres.error
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else:
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var
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msg: cstring
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canContinue = true
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case upnp.selectIGD():
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of IGDNotFound:
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msg = "Internet Gateway Device not found. Giving up."
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canContinue = false
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of IGDFound:
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msg = "Internet Gateway Device found."
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of IGDNotConnected:
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msg = "Internet Gateway Device found but it's not connected. Trying anyway."
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of NotAnIGD:
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msg = "Some device found, but it's not recognised as an Internet Gateway Device. Trying anyway."
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if not quiet:
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debug "UPnP", msg
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if canContinue:
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let ires = upnp.externalIPAddress()
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if ires.isErr:
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debug "UPnP", msg = ires.error
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else:
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# if we got this far, UPnP is working and we don't need to try NAT-PMP
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try:
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externalIP = parseIpAddress(ires.value)
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strategy = NatUpnp
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return Opt.some(externalIP)
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except ValueError as e:
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error "parseIpAddress() exception", err = e.msg
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return
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if natStrategy == NatAny or natStrategy == NatPmp:
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if npmp == nil:
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npmp = newNatPmp()
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let nres = npmp.init()
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if nres.isErr:
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debug "NAT-PMP", msg = nres.error
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else:
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let nires = npmp.externalIPAddress()
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if nires.isErr:
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debug "NAT-PMP", msg = nires.error
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else:
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try:
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externalIP = parseIpAddress($(nires.value))
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strategy = NatPmp
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return Opt.some(externalIP)
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except ValueError as e:
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error "parseIpAddress() exception", err = e.msg
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return
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# This queries the routing table to get the "preferred source" attribute and
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# checks if it's a public IP. If so, then it's our public IP.
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#
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# Further more, we check if the bind address (user provided, or a "0.0.0.0"
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# default) is a public IP. That's a long shot, because code paths involving a
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# user-provided bind address are not supposed to get here.
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proc getRoutePrefSrc(bindIp: IpAddress): (Opt[IpAddress], PrefSrcStatus) =
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let bindAddress = initTAddress(bindIp, Port(0))
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if bindAddress.isAnyLocal():
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let ip = getRouteIpv4()
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if ip.isErr():
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# No route was found, log error and continue without IP.
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error "No routable IP address found, check your network connection",
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error = ip.error
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return (Opt.none(IpAddress), NoRoutingInfo)
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elif ip.get().isGlobalUnicast():
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return (Opt.some(ip.get()), PrefSrcIsPublic)
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else:
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return (Opt.none(IpAddress), PrefSrcIsPrivate)
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elif bindAddress.isGlobalUnicast():
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return (Opt.some(bindIp), BindAddressIsPublic)
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else:
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return (Opt.none(IpAddress), BindAddressIsPrivate)
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# Try to detect a public IP assigned to this host, before trying NAT traversal.
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proc getPublicRoutePrefSrcOrExternalIP*(
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natStrategy: NatStrategy, bindIp: IpAddress, quiet = true):
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Opt[IpAddress] =
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let (prefSrcIp, prefSrcStatus) = getRoutePrefSrc(bindIp)
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case prefSrcStatus:
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of NoRoutingInfo, PrefSrcIsPublic, BindAddressIsPublic:
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return prefSrcIp
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of PrefSrcIsPrivate, BindAddressIsPrivate:
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let extIp = getExternalIP(natStrategy, quiet)
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if extIp.isSome:
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return Opt.some(extIp.get)
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proc doPortMapping(tcpPort, udpPort: Port, description: string): Opt[(Port, Port)] {.gcsafe.} =
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var
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extTcpPort: Port
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extUdpPort: Port
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if strategy == NatUpnp:
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for t in [(tcpPort, UPNPProtocol.TCP), (udpPort, UPNPProtocol.UDP)]:
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let
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(port, protocol) = t
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pmres = upnp.addPortMapping(externalPort = $port,
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protocol = protocol,
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internalHost = upnp.lanAddr,
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internalPort = $port,
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desc = description,
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leaseDuration = 0)
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if pmres.isErr:
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error "UPnP port mapping", msg = pmres.error, port
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return
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else:
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# let's check it
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let cres = upnp.getSpecificPortMapping(externalPort = $port,
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protocol = protocol)
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if cres.isErr:
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warn "UPnP port mapping check failed. Assuming the check itself is broken and the port mapping was done.", msg = cres.error
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info "UPnP: added port mapping", externalPort = port, internalPort = port, protocol = protocol
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case protocol:
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of UPNPProtocol.TCP:
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extTcpPort = port
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of UPNPProtocol.UDP:
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extUdpPort = port
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elif strategy == NatPmp:
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for t in [(tcpPort, NatPmpProtocol.TCP), (udpPort, NatPmpProtocol.UDP)]:
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let
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(port, protocol) = t
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pmres = npmp.addPortMapping(eport = port.cushort,
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iport = port.cushort,
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protocol = protocol,
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lifetime = NATPMP_LIFETIME)
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if pmres.isErr:
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error "NAT-PMP port mapping", msg = pmres.error, port
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return
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else:
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let extPort = Port(pmres.value)
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info "NAT-PMP: added port mapping", externalPort = extPort, internalPort = port, protocol = protocol
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case protocol:
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of NatPmpProtocol.TCP:
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extTcpPort = extPort
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of NatPmpProtocol.UDP:
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extUdpPort = extPort
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return Opt.some((extTcpPort, extUdpPort))
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type PortMappingArgs = tuple[tcpPort, udpPort: Port, description: string]
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var
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natThread: Thread[PortMappingArgs]
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natCloseChan: Channel[bool]
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proc repeatPortMapping(args: PortMappingArgs) {.thread, raises: [ValueError].} =
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ignoreSignalsInThread()
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let
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(tcpPort, udpPort, description) = args
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interval = initDuration(seconds = PORT_MAPPING_INTERVAL)
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sleepDuration = 1_000 # in ms, also the maximum delay after pressing Ctrl-C
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var lastUpdate = now()
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# We can't use copies of Miniupnp and NatPmp objects in this thread, because they share
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# C pointers with other instances that have already been garbage collected, so
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# we use threadvars instead and initialise them again with getExternalIP(),
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# even though we don't need the external IP's value.
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let ipres = getExternalIP(strategy, quiet = true)
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if ipres.isSome:
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while true:
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# we're being silly here with this channel polling because we can't
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# select on Nim channels like on Go ones
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let (dataAvailable, _) = try: natCloseChan.tryRecv()
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except Exception: (false, false)
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if dataAvailable:
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return
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else:
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let currTime = now()
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if currTime >= (lastUpdate + interval):
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discard doPortMapping(tcpPort, udpPort, description)
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lastUpdate = currTime
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sleep(sleepDuration)
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proc stopNatThread() {.noconv.} =
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# stop the thread
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try:
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natCloseChan.send(true)
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natThread.joinThread()
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natCloseChan.close()
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except Exception as exc:
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warn "Failed to stop NAT port mapping renewal thread", exc = exc.msg
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# delete our port mappings
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# FIXME: if the initial port mapping failed because it already existed for the
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# required external port, we should not delete it. It might have been set up
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# by another program.
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# In Windows, a new thread is created for the signal handler, so we need to
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# initialise our threadvars again.
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let ipres = getExternalIP(strategy, quiet = true)
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if ipres.isSome:
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if strategy == NatUpnp:
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for t in [(externalTcpPort, internalTcpPort, UPNPProtocol.TCP), (externalUdpPort, internalUdpPort, UPNPProtocol.UDP)]:
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let
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(eport, iport, protocol) = t
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pmres = upnp.deletePortMapping(externalPort = $eport,
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protocol = protocol)
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if pmres.isErr:
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error "UPnP port mapping deletion", msg = pmres.error
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else:
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debug "UPnP: deleted port mapping", externalPort = eport, internalPort = iport, protocol = protocol
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elif strategy == NatPmp:
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for t in [(externalTcpPort, internalTcpPort, NatPmpProtocol.TCP), (externalUdpPort, internalUdpPort, NatPmpProtocol.UDP)]:
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let
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(eport, iport, protocol) = t
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pmres = npmp.deletePortMapping(eport = eport.cushort,
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iport = iport.cushort,
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protocol = protocol)
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if pmres.isErr:
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error "NAT-PMP port mapping deletion", msg = pmres.error
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else:
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debug "NAT-PMP: deleted port mapping", externalPort = eport, internalPort = iport, protocol = protocol
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proc redirectPorts*(tcpPort, udpPort: Port, description: string): Opt[(Port, Port)] =
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result = doPortMapping(tcpPort, udpPort, description)
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if result.isSome:
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(externalTcpPort, externalUdpPort) = result.get()
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# needed by NAT-PMP on port mapping deletion
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internalTcpPort = tcpPort
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internalUdpPort = udpPort
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# Port mapping works. Let's launch a thread that repeats it, in case the
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# NAT-PMP lease expires or the router is rebooted and forgets all about
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# these mappings.
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natCloseChan.open()
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try:
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natThread.createThread(repeatPortMapping, (externalTcpPort, externalUdpPort, description))
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# atexit() in disguise
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addQuitProc(stopNatThread)
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except Exception as exc:
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warn "Failed to create NAT port mapping renewal thread", exc = exc.msg
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proc setupNat*(natStrategy: NatStrategy, tcpPort, udpPort: Port,
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clientId: string):
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tuple[ip: Opt[IpAddress], tcpPort, udpPort: Opt[Port]] =
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## Setup NAT port mapping and get external IP address.
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## If any of this fails, we don't return any IP address but do return the
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## original ports as best effort.
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## TODO: Allow for tcp or udp port mapping to be optional.
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let extIp = getExternalIP(natStrategy)
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if extIp.isSome:
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let ip = extIp.get
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let extPorts = ({.gcsafe.}:
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redirectPorts(tcpPort = tcpPort,
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udpPort = udpPort,
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description = clientId))
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if extPorts.isSome:
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let (extTcpPort, extUdpPort) = extPorts.get()
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(ip: Opt.some(ip), tcpPort: Opt.some(extTcpPort), udpPort: Opt.some(extUdpPort))
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else:
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warn "UPnP/NAT-PMP available but port forwarding failed"
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(ip: Opt.none(IpAddress), tcpPort: Opt.some(tcpPort), udpPort: Opt.some(udpPort))
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else:
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warn "UPnP/NAT-PMP not available"
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(ip: Opt.none(IpAddress), tcpPort: Opt.some(tcpPort), udpPort: Opt.some(udpPort))
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type
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NatConfig* = object
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case hasExtIp*: bool
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of true: extIp*: IpAddress
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of false: nat*: NatStrategy
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func parseCmdArg*(T: type NatConfig, p: string): T {.raises: [ValueError].} =
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case p.toLowerAscii:
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of "any":
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NatConfig(hasExtIp: false, nat: NatAny)
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of "none":
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NatConfig(hasExtIp: false, nat: NatNone)
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of "upnp":
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NatConfig(hasExtIp: false, nat: NatUpnp)
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of "pmp":
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NatConfig(hasExtIp: false, nat: NatPmp)
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else:
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if p.startsWith("extip:"):
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try:
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let ip = parseIpAddress(p[6..^1])
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NatConfig(hasExtIp: true, extIp: ip)
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except ValueError:
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let error = "Not a valid IP address: " & p[6..^1]
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raise newException(ValueError, error)
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else:
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let error = "Not a valid NAT option: " & p
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raise newException(ValueError, error)
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func completeCmdArg*(T: type NatConfig, val: string): seq[string] =
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return @[]
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proc setupAddress*(natConfig: NatConfig, bindIp: IpAddress,
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tcpPort, udpPort: Port, clientId: string):
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tuple[ip: Opt[IpAddress], tcpPort, udpPort: Opt[Port]]
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{.gcsafe.} =
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## Set-up of the external address via any of the ways as configured in
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## `NatConfig`. In case all fails an error is logged and the bind ports are
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## selected also as external ports, as best effort and in hope that the
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## external IP can be figured out by other means at a later stage.
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## TODO: Allow for tcp or udp bind ports to be optional.
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if natConfig.hasExtIp:
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# any required port redirection must be done by hand
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return (Opt.some(natConfig.extIp), Opt.some(tcpPort), Opt.some(udpPort))
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case natConfig.nat:
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of NatAny:
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let (prefSrcIp, prefSrcStatus) = getRoutePrefSrc(bindIp)
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case prefSrcStatus:
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of NoRoutingInfo, PrefSrcIsPublic, BindAddressIsPublic:
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return (prefSrcIp, Opt.some(tcpPort), Opt.some(udpPort))
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of PrefSrcIsPrivate, BindAddressIsPrivate:
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return setupNat(natConfig.nat, tcpPort, udpPort, clientId)
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of NatNone:
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let (prefSrcIp, prefSrcStatus) = getRoutePrefSrc(bindIp)
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case prefSrcStatus:
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of NoRoutingInfo, PrefSrcIsPublic, BindAddressIsPublic:
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return (prefSrcIp, Opt.some(tcpPort), Opt.some(udpPort))
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of PrefSrcIsPrivate:
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error "No public IP address found. Should not use --nat:none option"
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return (Opt.none(IpAddress), Opt.some(tcpPort), Opt.some(udpPort))
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of BindAddressIsPrivate:
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error "Bind IP is not a public IP address. Should not use --nat:none option"
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return (Opt.none(IpAddress), Opt.some(tcpPort), Opt.some(udpPort))
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of NatUpnp, NatPmp:
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return setupNat(natConfig.nat, tcpPort, udpPort, clientId)
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