-- Copyright 2008 Steven Barth -- Copyright 2010 Jo-Philipp Wich -- Licensed to the public under the Apache License 2.0. require("luci.tools.webadmin") local fs = require "nixio.fs" local util = require "luci.util" local ip = require "luci.ip" local has_ipip = fs.glob("/etc/modules.d/[0-9]*-ipip")() m = Map("olsrd", translate("OLSR Daemon"), translate("The OLSR daemon is an implementation of the Optimized Link State Routing protocol. ".. "As such it allows mesh routing for any network equipment. ".. "It runs on any wifi card that supports ad-hoc mode and of course on any ethernet device. ".. "Visit olsrd.org for help and documentation.")) function m.on_parse() local has_defaults = false m.uci:foreach("olsrd", "InterfaceDefaults", function(s) has_defaults = true return false end) if not has_defaults then m.uci:section("olsrd", "InterfaceDefaults") end end function write_float(self, section, value) local n = tonumber(value) if n ~= nil then return Value.write(self, section, "%.1f" % n) end end s = m:section(TypedSection, "olsrd", translate("General settings")) s.anonymous = true s:tab("general", translate("General Settings")) s:tab("lquality", translate("Link Quality Settings")) s:tab("smartgw", translate("SmartGW"), not has_ipip and translate("Warning: kmod-ipip is not installed. Without kmod-ipip SmartGateway will not work, please install it.")) s:tab("advanced", translate("Advanced Settings")) ipv = s:taboption("general", ListValue, "IpVersion", translate("Internet protocol"), translate("IP-version to use. If 6and4 is selected then one olsrd instance is started for each protocol.")) ipv:value("4", "IPv4") ipv:value("6and4", "6and4") poll = s:taboption("advanced", Value, "Pollrate", translate("Pollrate"), translate("Polling rate for OLSR sockets in seconds. Default is 0.05.")) poll.optional = true poll.datatype = "ufloat" poll.placeholder = "0.05" nicc = s:taboption("advanced", Value, "NicChgsPollInt", translate("Nic changes poll interval"), translate("Interval to poll network interfaces for configuration changes (in seconds). Default is \"2.5\".")) nicc.optional = true nicc.datatype = "ufloat" nicc.placeholder = "2.5" tos = s:taboption("advanced", Value, "TosValue", translate("TOS value"), translate("Type of service value for the IP header of control traffic. Default is \"16\".")) tos.optional = true tos.datatype = "uinteger" tos.placeholder = "16" fib = s:taboption("general", ListValue, "FIBMetric", translate("FIB metric"), translate ("FIBMetric controls the metric value of the host-routes OLSRd sets. ".. "\"flat\" means that the metric value is always 2. This is the preferred value ".. "because it helps the linux kernel routing to clean up older routes. ".. "\"correct\" uses the hopcount as the metric value. ".. "\"approx\" use the hopcount as the metric value too, but does only update the hopcount if the nexthop changes too. ".. "Default is \"flat\".")) fib:value("flat") fib:value("correct") fib:value("approx") lql = s:taboption("lquality", ListValue, "LinkQualityLevel", translate("LQ level"), translate("Link quality level switch between hopcount and cost-based (mostly ETX) routing.
".. "0 = do not use link quality
".. "2 = use link quality for MPR selection and routing
".. "Default is \"2\"")) lql:value("2") lql:value("0") lqage = s:taboption("lquality", Value, "LinkQualityAging", translate("LQ aging"), translate("Link quality aging factor (only for lq level 2). Tuning parameter for etx_float and etx_fpm, smaller values ".. "mean slower changes of ETX value. (allowed values are between 0.01 and 1.0)")) lqage.optional = true lqage:depends("LinkQualityLevel", "2") lqa = s:taboption("lquality", ListValue, "LinkQualityAlgorithm", translate("LQ algorithm"), translate("Link quality algorithm (only for lq level 2).
".. "etx_float: floating point ETX with exponential aging
".. "etx_fpm : same as etx_float, but with integer arithmetic
".. "etx_ff : ETX freifunk, an etx variant which use all OLSR traffic (instead of only hellos) for ETX calculation
".. "etx_ffeth: incompatible variant of etx_ff that allows ethernet links with ETX 0.1.
".. "Defaults to \"etx_ff\"")) lqa.optional = true lqa:value("etx_ff") lqa:value("etx_fpm") lqa:value("etx_float") lqa:value("etx_ffeth") lqa:depends("LinkQualityLevel", "2") lqa.optional = true lqfish = s:taboption("lquality", Flag, "LinkQualityFishEye", translate("LQ fisheye"), translate("Fisheye mechanism for TCs (checked means on). Default is \"on\"")) lqfish.default = "1" lqfish.optional = true hyst = s:taboption("lquality", Flag, "UseHysteresis", translate("Use hysteresis"), translate("Hysteresis for link sensing (only for hopcount metric). Hysteresis adds more robustness to the link sensing ".. "but delays neighbor registration. Defaults is \"yes\"")) hyst.default = "yes" hyst.enabled = "yes" hyst.disabled = "no" hyst:depends("LinkQualityLevel", "0") hyst.optional = true hyst.rmempty = true port = s:taboption("general", Value, "OlsrPort", translate("Port"), translate("The port OLSR uses. This should usually stay at the IANA assigned port 698. It can have a value between 1 and 65535.")) port.optional = true port.default = "698" port.rmempty = true mainip = s:taboption("general", Value, "MainIp", translate("Main IP"), translate("Sets the main IP (originator ip) of the router. This IP will NEVER change during the uptime of olsrd. ".. "Default is 0.0.0.0, which triggers usage of the IP of the first interface.")) mainip.optional = true mainip.rmempty = true mainip.datatype = "ipaddr" mainip.placeholder = "0.0.0.0" sgw = s:taboption("smartgw", Flag, "SmartGateway", translate("Enable"), translate("Enable SmartGateway. If it is disabled, then " .. "all other SmartGateway parameters are ignored. Default is \"no\".")) sgw.default="no" sgw.enabled="yes" sgw.disabled="no" sgw.rmempty = true sgwnat = s:taboption("smartgw", Flag, "SmartGatewayAllowNAT", translate("Allow gateways with NAT"), translate("Allow the selection of an outgoing ipv4 gateway with NAT")) sgwnat:depends("SmartGateway", "yes") sgwnat.default="yes" sgwnat.enabled="yes" sgwnat.disabled="no" sgwnat.optional = true sgwnat.rmempty = true sgwuplink = s:taboption("smartgw", ListValue, "SmartGatewayUplink", translate("Announce uplink"), translate("Which kind of uplink is exported to the other mesh nodes. " .. "An uplink is detected by looking for a local HNA of 0.0.0.0/0, ::ffff:0:0/96 or 2000::/3. Default setting is \"both\".")) sgwuplink:value("none") sgwuplink:value("ipv4") sgwuplink:value("ipv6") sgwuplink:value("both") sgwuplink:depends("SmartGateway", "yes") sgwuplink.default="both" sgwuplink.optional = true sgwuplink.rmempty = true sgwulnat = s:taboption("smartgw", Flag, "SmartGatewayUplinkNAT", translate("Uplink uses NAT"), translate("If this Node uses NAT for connections to the internet. " .. "Default is \"yes\".")) sgwulnat:depends("SmartGatewayUplink", "ipv4") sgwulnat:depends("SmartGatewayUplink", "both") sgwulnat.default="yes" sgwulnat.enabled="yes" sgwulnat.disabled="no" sgwnat.optional = true sgwnat.rmempty = true sgwspeed = s:taboption("smartgw", Value, "SmartGatewaySpeed", translate("Speed of the uplink"), translate("Specifies the speed of ".. "the uplink in kilobits/s. First parameter is upstream, second parameter is downstream. Default is \"128 1024\".")) sgwspeed:depends("SmartGatewayUplink", "ipv4") sgwspeed:depends("SmartGatewayUplink", "ipv6") sgwspeed:depends("SmartGatewayUplink", "both") sgwspeed.optional = true sgwspeed.rmempty = true sgwprefix = s:taboption("smartgw", Value, "SmartGatewayPrefix", translate("IPv6-Prefix of the uplink"), translate("This can be used " .. "to signal the external IPv6 prefix of the uplink to the clients. This might allow a client to change it's local IPv6 address to " .. "use the IPv6 gateway without any kind of address translation. The maximum prefix length is 64 bits. " .. "Default is \"::/0\" (no prefix).")) sgwprefix:depends("SmartGatewayUplink", "ipv6") sgwprefix:depends("SmartGatewayUplink", "both") sgwprefix.optional = true sgwprefix.rmempty = true willingness = s:taboption("advanced", ListValue, "Willingness", translate("Willingness"), translate("The fixed willingness to use. If not set willingness will be calculated dynamically based on battery/power status. Default is \"3\".")) for i=0,7 do willingness:value(i) end willingness.optional = true willingness.default = "3" natthr = s:taboption("advanced", Value, "NatThreshold", translate("NAT threshold"), translate("If the route to the current gateway is to be changed, the ETX value of this gateway is ".. "multiplied with this value before it is compared to the new one. ".. "The parameter can be a value between 0.1 and 1.0, but should be close to 1.0 if changed.
".. "WARNING: This parameter should not be used together with the etx_ffeth metric!
".. "Defaults to \"1.0\".")) for i=1,0.1,-0.1 do natthr:value(i) end natthr:depends("LinkQualityAlgorithm", "etx_ff") natthr:depends("LinkQualityAlgorithm", "etx_float") natthr:depends("LinkQualityAlgorithm", "etx_fpm") natthr.default = "1.0" natthr.optional = true natthr.write = write_float i = m:section(TypedSection, "InterfaceDefaults", translate("Interfaces Defaults")) i.anonymous = true i.addremove = false i:tab("general", translate("General Settings")) i:tab("addrs", translate("IP Addresses")) i:tab("timing", translate("Timing and Validity")) mode = i:taboption("general", ListValue, "Mode", translate("Mode"), translate("Interface Mode is used to prevent unnecessary packet forwarding on switched ethernet interfaces. ".. "valid Modes are \"mesh\" and \"ether\". Default is \"mesh\".")) mode:value("mesh") mode:value("ether") mode.optional = true mode.rmempty = true weight = i:taboption("general", Value, "Weight", translate("Weight"), translate("When multiple links exist between hosts the weight of interface is used to determine the link to use. ".. "Normally the weight is automatically calculated by olsrd based on the characteristics of the interface, ".. "but here you can specify a fixed value. Olsrd will choose links with the lowest value.
".. "Note: Interface weight is used only when LinkQualityLevel is set to 0. ".. "For any other value of LinkQualityLevel, the interface ETX value is used instead.")) weight.optional = true weight.datatype = "uinteger" weight.placeholder = "0" lqmult = i:taboption("general", DynamicList, "LinkQualityMult", translate("LinkQuality Multiplicator"), translate("Multiply routes with the factor given here. Allowed values are between 0.01 and 1.0. ".. "It is only used when LQ-Level is greater than 0. Examples:
".. "reduce LQ to 192.168.0.1 by half: 192.168.0.1 0.5
".. "reduce LQ to all nodes on this interface by 20%: default 0.8")) lqmult.optional = true lqmult.rmempty = true lqmult.cast = "table" lqmult.placeholder = "default 1.0" function lqmult.validate(self, value) for _, v in pairs(value) do if v ~= "" then local val = util.split(v, " ") local host = val[1] local mult = val[2] if not host or not mult then return nil, translate("LQMult requires two values (IP address or 'default' and multiplicator) seperated by space.") end if not (host == "default" or ip.IPv4(host) or ip.IPv6(host)) then return nil, translate("Can only be a valid IPv4 or IPv6 address or 'default'") end if not tonumber(mult) or tonumber(mult) > 1 or tonumber(mult) < 0.01 then return nil, translate("Invalid Value for LQMult-Value. Must be between 0.01 and 1.0.") end if not mult:match("[0-1]%.[0-9]+") then return nil, translate("Invalid Value for LQMult-Value. You must use a decimal number between 0.01 and 1.0 here.") end end end return value end ip4b = i:taboption("addrs", Value, "Ip4Broadcast", translate("IPv4 broadcast"), translate("IPv4 broadcast address for outgoing OLSR packets. One useful example would be 255.255.255.255. ".. "Default is \"0.0.0.0\", which triggers the usage of the interface broadcast IP.")) ip4b.optional = true ip4b.datatype = "ip4addr" ip4b.placeholder = "0.0.0.0" ip6m = i:taboption("addrs", Value, "IPv6Multicast", translate("IPv6 multicast"), translate("IPv6 multicast address. Default is \"FF02::6D\", the manet-router linklocal multicast.")) ip6m.optional = true ip6m.datatype = "ip6addr" ip6m.placeholder = "FF02::6D" ip4s = i:taboption("addrs", Value, "IPv4Src", translate("IPv4 source"), translate("IPv4 src address for outgoing OLSR packages. Default is \"0.0.0.0\", which triggers usage of the interface IP.")) ip4s.optional = true ip4s.datatype = "ip4addr" ip4s.placeholder = "0.0.0.0" ip6s = i:taboption("addrs", Value, "IPv6Src", translate("IPv6 source"), translate("IPv6 src prefix. OLSRd will choose one of the interface IPs which matches the prefix of this parameter. ".. "Default is \"0::/0\", which triggers the usage of a not-linklocal interface IP.")) ip6s.optional = true ip6s.datatype = "ip6addr" ip6s.placeholder = "0::/0" hi = i:taboption("timing", Value, "HelloInterval", translate("Hello interval")) hi.optional = true hi.datatype = "ufloat" hi.placeholder = "5.0" hi.write = write_float hv = i:taboption("timing", Value, "HelloValidityTime", translate("Hello validity time")) hv.optional = true hv.datatype = "ufloat" hv.placeholder = "40.0" hv.write = write_float ti = i:taboption("timing", Value, "TcInterval", translate("TC interval")) ti.optional = true ti.datatype = "ufloat" ti.placeholder = "2.0" ti.write = write_float tv = i:taboption("timing", Value, "TcValidityTime", translate("TC validity time")) tv.optional = true tv.datatype = "ufloat" tv.placeholder = "256.0" tv.write = write_float mi = i:taboption("timing", Value, "MidInterval", translate("MID interval")) mi.optional = true mi.datatype = "ufloat" mi.placeholder = "18.0" mi.write = write_float mv = i:taboption("timing", Value, "MidValidityTime", translate("MID validity time")) mv.optional = true mv.datatype = "ufloat" mv.placeholder = "324.0" mv.write = write_float ai = i:taboption("timing", Value, "HnaInterval", translate("HNA interval")) ai.optional = true ai.datatype = "ufloat" ai.placeholder = "18.0" ai.write = write_float av = i:taboption("timing", Value, "HnaValidityTime", translate("HNA validity time")) av.optional = true av.datatype = "ufloat" av.placeholder = "108.0" av.write = write_float ifs = m:section(TypedSection, "Interface", translate("Interfaces")) ifs.addremove = true ifs.anonymous = true ifs.extedit = luci.dispatcher.build_url("admin/services/olsrd/iface/%s") ifs.template = "cbi/tblsection" function ifs.create(...) local sid = TypedSection.create(...) luci.http.redirect(ifs.extedit % sid) end ign = ifs:option(Flag, "ignore", translate("Enable")) ign.enabled = "0" ign.disabled = "1" ign.rmempty = false function ign.cfgvalue(self, section) return Flag.cfgvalue(self, section) or "0" end network = ifs:option(DummyValue, "interface", translate("Network")) network.template = "cbi/network_netinfo" mode = ifs:option(DummyValue, "Mode", translate("Mode")) function mode.cfgvalue(...) return Value.cfgvalue(...) or m.uci:get_first("olsrd", "InterfaceDefaults", "Mode", "mesh") end hello = ifs:option(DummyValue, "_hello", translate("Hello")) function hello.cfgvalue(self, section) local i = tonumber(m.uci:get("olsrd", section, "HelloInterval")) or tonumber(m.uci:get_first("olsrd", "InterfaceDefaults", "HelloInterval", 5)) local v = tonumber(m.uci:get("olsrd", section, "HelloValidityTime")) or tonumber(m.uci:get_first("olsrd", "InterfaceDefaults", "HelloValidityTime", 40)) return "%.01fs / %.01fs" %{ i, v } end tc = ifs:option(DummyValue, "_tc", translate("TC")) function tc.cfgvalue(self, section) local i = tonumber(m.uci:get("olsrd", section, "TcInterval")) or tonumber(m.uci:get_first("olsrd", "InterfaceDefaults", "TcInterval", 2)) local v = tonumber(m.uci:get("olsrd", section, "TcValidityTime")) or tonumber(m.uci:get_first("olsrd", "InterfaceDefaults", "TcValidityTime", 256)) return "%.01fs / %.01fs" %{ i, v } end mid = ifs:option(DummyValue, "_mid", translate("MID")) function mid.cfgvalue(self, section) local i = tonumber(m.uci:get("olsrd", section, "MidInterval")) or tonumber(m.uci:get_first("olsrd", "InterfaceDefaults", "MidInterval", 18)) local v = tonumber(m.uci:get("olsrd", section, "MidValidityTime")) or tonumber(m.uci:get_first("olsrd", "InterfaceDefaults", "MidValidityTime", 324)) return "%.01fs / %.01fs" %{ i, v } end hna = ifs:option(DummyValue, "_hna", translate("HNA")) function hna.cfgvalue(self, section) local i = tonumber(m.uci:get("olsrd", section, "HnaInterval")) or tonumber(m.uci:get_first("olsrd", "InterfaceDefaults", "HnaInterval", 18)) local v = tonumber(m.uci:get("olsrd", section, "HnaValidityTime")) or tonumber(m.uci:get_first("olsrd", "InterfaceDefaults", "HnaValidityTime", 108)) return "%.01fs / %.01fs" %{ i, v } end return m