-- SPDX-License-Identifier: GPL-3.0-or-later local kres = require('kres') local ffi = require('ffi') local todname = kres.str2dname -- not available during module load otherwise -- Counter of unique rules local nextid = 0 local function getruleid() local newid = nextid nextid = nextid + 1 return newid end -- Support for client sockets from inside policy actions local socket_client = function () return error("missing lua-cqueues library, can't create socket client") end local has_socket, socket = pcall(require, 'cqueues.socket') if has_socket then socket_client = function (host, port) local s, err, status s = socket.connect({ host = host, port = port, type = socket.SOCK_DGRAM }) s:setmode('bn', 'bn') status, err = pcall(s.connect, s) if not status then return status, err end return s end end -- Split address and port from a combined string. local function addr_split_port(target, default_port) assert(default_port and type(default_port) == 'number') local port = ffi.new('uint16_t[1]', default_port) local addr = ffi.new('char[47]') -- INET6_ADDRSTRLEN + 1 local ret = ffi.C.kr_straddr_split(target, addr, port) if ret ~= 0 then error('failed to parse address ' .. target) end return addr, tonumber(port[0]) end -- String address@port -> sockaddr. local function addr2sock(target, default_port) local addr, port = addr_split_port(target, default_port) local sock = ffi.gc(ffi.C.kr_straddr_socket(addr, port, nil), ffi.C.free); if sock == nil then error("target '"..target..'" is not a valid IP address') end return sock end -- policy functions are defined below local policy = {} function policy.PASS(state, _) return state end -- Mirror request elsewhere, and continue solving function policy.MIRROR(target) local addr, port = addr_split_port(target, 53) local sink, err = socket_client(ffi.string(addr), port) if not sink then panic('MIRROR target %s is not a valid: %s', target, err) end return function(state, req) if state == kres.FAIL then return state end local query = req.qsource.packet if query ~= nil then sink:send(ffi.string(query.wire, query.size), 1, tonumber(query.size)) end return -- Chain action to next end end -- Override the list of nameservers (forwarders) local function set_nslist(req, list) local ns_i = 0 for _, ns in ipairs(list) do if ffi.C.kr_forward_add_target(req, ns) == 0 then ns_i = ns_i + 1 end end if ns_i == 0 then -- would use assert() but don't want to compose the message if not triggered error('no usable address in NS set (check net.ipv4 and ' .. 'net.ipv6 config):\n' .. table_print(list, 2)) end end -- Forward request, and solve as stub query function policy.STUB(target) local list = {} if type(target) == 'table' then for _, v in pairs(target) do table.insert(list, addr2sock(v, 53)) end else table.insert(list, addr2sock(target, 53)) end return function(state, req) local qry = req:current() -- Switch mode to stub resolver, do not track origin zone cut since it's not real authority NS qry.flags.STUB = true qry.flags.ALWAYS_CUT = false set_nslist(req, list) return state end end -- Forward request and all subrequests to upstream; validate answers function policy.FORWARD(target) local list = {} if type(target) == 'table' then for _, v in pairs(target) do table.insert(list, addr2sock(v, 53)) end else table.insert(list, addr2sock(target, 53)) end return function(state, req) local qry = req:current() req.options.FORWARD = true req.options.NO_MINIMIZE = true qry.flags.FORWARD = true qry.flags.ALWAYS_CUT = false qry.flags.NO_MINIMIZE = true qry.flags.AWAIT_CUT = true set_nslist(req, list) return state end end -- Forward request and all subrequests to upstream over TLS; validate answers function policy.TLS_FORWARD(targets) if type(targets) ~= 'table' or #targets < 1 then error('TLS_FORWARD argument must be a non-empty table') end local sockaddr_c_set = {} local nslist = {} -- to persist in closure of the returned function for idx, target in pairs(targets) do if type(target) ~= 'table' or type(target[1]) ~= 'string' then error(string.format('TLS_FORWARD configuration at position ' .. '%d must be a table starting with an IP address', idx)) end -- Note: some functions have checks with error() calls inside. local sockaddr_c = addr2sock(target[1], 853) -- Refuse repeated addresses in the same set. local sockaddr_lua = ffi.string(sockaddr_c, ffi.C.kr_sockaddr_len(sockaddr_c)) if sockaddr_c_set[sockaddr_lua] then error('TLS_FORWARD configuration cannot declare two configs for IP address ' .. target[1]) else sockaddr_c_set[sockaddr_lua] = true; end table.insert(nslist, sockaddr_c) net.tls_client(target) end return function(state, req) local qry = req:current() req.options.FORWARD = true req.options.NO_MINIMIZE = true qry.flags.FORWARD = true qry.flags.ALWAYS_CUT = false qry.flags.NO_MINIMIZE = true qry.flags.AWAIT_CUT = true req.options.TCP = true qry.flags.TCP = true set_nslist(req, nslist) return state end end -- Rewrite records in packet function policy.REROUTE(tbl, names) -- Import renumbering rules local ren = require('kres_modules.renumber') local prefixes = {} for from, to in pairs(tbl) do table.insert(prefixes, names and ren.name(from, to) or ren.prefix(from, to)) end -- Return rule closure return ren.rule(prefixes) end -- Set and clear some query flags function policy.FLAGS(opts_set, opts_clear) return function(_, req) local qry = req:current() ffi.C.kr_qflags_set (qry.flags, kres.mk_qflags(opts_set or {})) ffi.C.kr_qflags_clear(qry.flags, kres.mk_qflags(opts_clear or {})) return nil -- chain rule end end local function mkauth_soa(answer, dname, mname, ttl) if mname == nil then mname = dname end return answer:put(dname, ttl or 10800, answer:qclass(), kres.type.SOA, mname .. '\6nobody\7invalid\0\0\0\0\1\0\0\14\16\0\0\4\176\0\9\58\128\0\0\42\48') end -- Create answer with passed arguments function policy.ANSWER(rtable, nodata) return function(_, req) local qry = req:current() local data = rtable[qry.stype] if data == nil and nodata ~= true then return nil end -- now we're certain we want to generate an answer local answer = req:ensure_answer() if answer == nil then return nil end ffi.C.kr_pkt_make_auth_header(answer) local ttl = (data or {}).ttl or 1 answer:rcode(kres.rcode.NOERROR) if data == nil then -- want NODATA, i.e. just a SOA answer:begin(kres.section.AUTHORITY) local soa = rtable[kres.type.SOA] if soa ~= nil then answer:put(qry.sname, soa.ttl or ttl, qry.sclass, kres.type.SOA, soa.rdata[1] or soa.rdata) else mkauth_soa(answer, kres.dname2wire(qry.sname), nil, ttl) end else answer:begin(kres.section.ANSWER) if type(data.rdata) == 'table' then for _, rdato in ipairs(data.rdata) do answer:put(qry.sname, ttl, qry.sclass, qry.stype, rdato) end else answer:put(qry.sname, ttl, qry.sclass, qry.stype, data.rdata) end end return kres.DONE end end local dname_localhost = todname('localhost.') -- Rule for localhost. zone; see RFC6303, sec. 3 local function localhost(_, req) local qry = req:current() local answer = req:ensure_answer() if answer == nil then return nil end ffi.C.kr_pkt_make_auth_header(answer) local is_exact = ffi.C.knot_dname_is_equal(qry.sname, dname_localhost) answer:rcode(kres.rcode.NOERROR) answer:begin(kres.section.ANSWER) if qry.stype == kres.type.AAAA then answer:put(qry.sname, 900, answer:qclass(), kres.type.AAAA, '\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\1') elseif qry.stype == kres.type.A then answer:put(qry.sname, 900, answer:qclass(), kres.type.A, '\127\0\0\1') elseif is_exact and qry.stype == kres.type.SOA then mkauth_soa(answer, dname_localhost) elseif is_exact and qry.stype == kres.type.NS then answer:put(dname_localhost, 900, answer:qclass(), kres.type.NS, dname_localhost) else answer:begin(kres.section.AUTHORITY) mkauth_soa(answer, dname_localhost) end return kres.DONE end local dname_rev4_localhost = todname('1.0.0.127.in-addr.arpa'); local dname_rev4_localhost_apex = todname('127.in-addr.arpa'); -- Rule for reverse localhost. -- Answer with locally served minimal 127.in-addr.arpa domain, only having -- a PTR record in 1.0.0.127.in-addr.arpa, and with 1.0...0.ip6.arpa. zone. -- TODO: much of this would better be left to the hints module (or coordinated). local function localhost_reversed(_, req) local qry = req:current() local answer = req:ensure_answer() if answer == nil then return nil end -- classify qry.sname: local is_exact -- exact dname for localhost local is_apex -- apex of a locally-served localhost zone local is_nonterm -- empty non-terminal name if ffi.C.knot_dname_in_bailiwick(qry.sname, todname('ip6.arpa.')) > 0 then -- exact ::1 query (relying on the calling rule) is_exact = true is_apex = true else -- within 127.in-addr.arpa. local labels = ffi.C.knot_dname_labels(qry.sname, nil) if labels == 3 then is_exact = false is_apex = true elseif labels == 4+2 and ffi.C.knot_dname_is_equal( qry.sname, dname_rev4_localhost) then is_exact = true else is_exact = false is_apex = false is_nonterm = ffi.C.knot_dname_in_bailiwick(dname_rev4_localhost, qry.sname) > 0 end end ffi.C.kr_pkt_make_auth_header(answer) answer:rcode(kres.rcode.NOERROR) answer:begin(kres.section.ANSWER) if is_exact and qry.stype == kres.type.PTR then answer:put(qry.sname, 900, answer:qclass(), kres.type.PTR, dname_localhost) elseif is_apex and qry.stype == kres.type.SOA then mkauth_soa(answer, dname_rev4_localhost_apex, dname_localhost) elseif is_apex and qry.stype == kres.type.NS then answer:put(dname_rev4_localhost_apex, 900, answer:qclass(), kres.type.NS, dname_localhost) else if not is_nonterm then answer:rcode(kres.rcode.NXDOMAIN) end answer:begin(kres.section.AUTHORITY) mkauth_soa(answer, dname_rev4_localhost_apex, dname_localhost) end return kres.DONE end -- All requests function policy.all(action) return function(_, _) return action end end -- Requests which QNAME matches given zone list (i.e. suffix match) function policy.suffix(action, zone_list) local AC = require('ahocorasick') local tree = AC.create(zone_list) return function(_, query) local match = AC.match(tree, query:name(), false) if match ~= nil then return action end return nil end end -- Check for common suffix first, then suffix match (specialized version of suffix match) function policy.suffix_common(action, suffix_list, common_suffix) local common_len = string.len(common_suffix) local suffix_count = #suffix_list return function(_, query) -- Preliminary check local qname = query:name() if not string.find(qname, common_suffix, -common_len, true) then return nil end -- String match for i = 1, suffix_count do local zone = suffix_list[i] if string.find(qname, zone, -string.len(zone), true) then return action end end return nil end end -- Filter QNAME pattern function policy.pattern(action, pattern) return function(_, query) if string.find(query:name(), pattern) then return action end return nil end end local function rpz_parse(action, path) local rules = {} local new_actions = {} local action_map = { -- RPZ Policy Actions ['\0'] = action, ['\1*\0'] = policy.ANSWER({}, true), ['\012rpz-passthru\0'] = policy.PASS, -- the grammar... ['\008rpz-drop\0'] = policy.DROP, ['\012rpz-tcp-only\0'] = policy.TC, -- Policy triggers @NYI@ } -- RR types to be skipped; boolean denoting whether to throw a warning even for RPZ apex. local rrtype_bad = { [kres.type.DNAME] = true, [kres.type.NS] = false, [kres.type.SOA] = false, [kres.type.DNSKEY] = true, [kres.type.DS] = true, [kres.type.RRSIG] = true, [kres.type.NSEC] = true, [kres.type.NSEC3] = true, } local parser = require('zonefile').new() local ok, errstr = parser:open(path) if not ok then error(string.format('failed to parse "%s": %s', path, errstr or "unknown error")) end while true do ok, errstr = parser:parse() if errstr then log('[poli] RPZ %s:%d: %s', path, tonumber(parser.line_counter), errstr) end if not ok then break end local full_name = ffi.gc(ffi.C.knot_dname_copy(parser.r_owner, nil), ffi.C.free) local rdata = ffi.string(parser.r_data, parser.r_data_length) ffi.C.knot_dname_to_lower(full_name) local prefix_labels = ffi.C.knot_dname_in_bailiwick(full_name, parser.zone_origin) if prefix_labels < 0 then log('[poli] RPZ %s:%d: RR owner "%s" outside the zone (ignored)', path, tonumber(parser.line_counter), kres.dname2str(full_name)) goto continue end local bytes = ffi.C.knot_dname_size(full_name) - ffi.C.knot_dname_size(parser.zone_origin) local name = ffi.string(full_name, bytes) .. '\0' if parser.r_type == kres.type.CNAME then if action_map[rdata] then rules[name] = action_map[rdata] else log('[poli] RPZ %s:%d: CNAME with custom target in RPZ is not supported yet (ignored)', path, tonumber(parser.line_counter)) end else if #name then local is_bad = rrtype_bad[parser.r_type] if is_bad == true or (is_bad == false and prefix_labels ~= 0) then log('[poli] RPZ %s:%d warning: RR type %s is not allowed in RPZ (ignored)', path, tonumber(parser.line_counter), kres.tostring.type[parser.r_type]) elseif is_bad == nil then if new_actions[name] == nil then new_actions[name] = {} end local act = new_actions[name][parser.r_type] if act == nil then new_actions[name][parser.r_type] = { ttl=parser.r_ttl, rdata=rdata } else -- mutiple RRs: no reordering or deduplication if type(act.rdata) ~= 'table' then act.rdata = { act.rdata } end table.insert(act.rdata, rdata) if parser.r_ttl ~= act.ttl then -- be conservative log('[poli] RPZ %s:%d warning: different TTLs in a set (minimum taken)', path, tonumber(parser.line_counter)) act.ttl = math.min(act.ttl, parser.r_ttl) end end else assert(is_bad == false and prefix_labels == 0) end end end ::continue:: end collectgarbage() for qname, rrsets in pairs(new_actions) do rules[qname] = policy.ANSWER(rrsets, true) end return rules end -- Split path into dirname and basename (like the shell utilities) local function get_dir_and_file(path) local dir, file = string.match(path, "(.*)/([^/]+)") -- If regex doesn't match then path must be the file directly (i.e. doesn't contain '/') -- This assumes that the file exists (rpz_parse() would fail if it doesn't) if not dir and not file then dir = '.' file = path end return dir, file end -- RPZ policy set -- Create RPZ from zone file and optionally watch the file for changes function policy.rpz(action, path, watch) local rules = rpz_parse(action, path) if watch ~= false then local has_notify, notify = pcall(require, 'cqueues.notify') if has_notify then local bit = require('bit') local dir, file = get_dir_and_file(path) local watcher = notify.opendir(dir) watcher:add(file, bit.bxor(notify.CREATE, notify.MODIFY)) worker.coroutine(function () for _, name in watcher:changes() do -- Limit to changes on file we're interested in -- Watcher will also fire for changes to the directory itself if name == file then -- If the file changes then reparse and replace the existing ruleset if verbose() then log('[poli] RPZ reloading: ' .. name) end rules = rpz_parse(action, path) end end end) elseif watch then -- explicitly requested and failed error('[poli] lua-cqueues required to watch and reload RPZ file') elseif verbose() then log('[poli] lua-cqueues required to watch and reload RPZ file, continuing without watching') end end return function(_, query) local label = query:name() local rule = rules[label] while rule == nil and string.len(label) > 0 do label = string.sub(label, string.byte(label) + 2) rule = rules['\1*'..label] end return rule end end -- Apply an action when query belongs to a slice (determined by slice_func()) function policy.slice(slice_func, ...) local actions = {...} if #actions <= 0 then error('[poli] at least one action must be provided to policy.slice()') end return function(_, query) local index = slice_func(query, #actions) return actions[index] end end -- Initializes slicing function that randomly assigns queries to a slice based on their registrable domain function policy.slice_randomize_psl(seed) local has_psl, psl_lib = pcall(require, 'psl') if not has_psl then error('[poli] lua-psl is required for policy.slice_randomize_psl()') end -- load psl local has_latest, psl = pcall(psl_lib.latest) if not has_latest then -- compatiblity with lua-psl < 0.15 psl = psl_lib.builtin() end if seed == nil then seed = os.time() / (3600 * 24 * 7) end seed = math.floor(seed) -- convert to int return function(query, length) assert(length > 0) local domain = kres.dname2str(query:name()) if domain == nil then -- invalid data: auto-select first action return 1 end if domain:len() > 1 then --remove trailing dot domain = domain:sub(0, -2) end -- do psl lookup for registrable domain local reg_domain = psl:registrable_domain(domain) if reg_domain == nil then -- fallback to unreg. domain reg_domain = psl:unregistrable_domain(domain) if reg_domain == nil then -- shouldn't happen: safe fallback return 1 end end local rand_seed = seed -- create deterministic seed for pseudo-random slice assignment for i = 1, #reg_domain do rand_seed = rand_seed + reg_domain:byte(i) end -- use lineral congruential generator with values from ANSI C rand_seed = rand_seed % 0x80000000 -- ensure seed is positive 32b int local rand = (1103515245 * rand_seed + 12345) % 0x10000 return 1 + rand % length end end -- Prepare for making an answer from scratch. (Return the packet for convenience.) local function answer_clear(req) -- If we're in postrules, previous resolving might have chosen some RRs -- for inclusion in the answer, so we need to avoid those. -- *_selected arrays are in mempool, so explicit deallocation is not necessary. req.answ_selected.len = 0 req.auth_selected.len = 0 req.add_selected.len = 0 -- Let's be defensive and clear the answer, too. local pkt = req:ensure_answer() if pkt == nil then return nil end pkt:clear_payload() return pkt end function policy.DENY_MSG(msg) if msg and (type(msg) ~= 'string' or #msg >= 255) then error('DENY_MSG: optional msg must be string shorter than 256 characters') end return function (_, req) -- Write authority information local answer = answer_clear(req) if answer == nil then return nil end ffi.C.kr_pkt_make_auth_header(answer) answer:rcode(kres.rcode.NXDOMAIN) answer:begin(kres.section.AUTHORITY) mkauth_soa(answer, answer:qname()) if msg then answer:begin(kres.section.ADDITIONAL) answer:put('\11explanation\7invalid', 10800, answer:qclass(), kres.type.TXT, string.char(#msg) .. msg) end return kres.DONE end end local function free_cb(func) func:free() end local debug_logline_cb = ffi.cast('trace_log_f', function (_, msg) jit.off(true, true) -- JIT for (C -> lua)^2 nesting isn't allowed -- msg typically ends with newline io.write(ffi.string(msg)) end) ffi.gc(debug_logline_cb, free_cb) local debug_logfinish_cb = ffi.cast('trace_callback_f', function (req) jit.off(true, true) -- JIT for (C -> lua)^2 nesting isn't allowed ffi.C.kr_log_req(req, 0, 0, 'dbg', 'following rrsets were marked as interesting:\n' .. req:selected_tostring()) if req.answer ~= nil then ffi.C.kr_log_req(req, 0, 0, 'dbg', 'answer packet:\n' .. tostring(req.answer)) else ffi.C.kr_log_req(req, 0, 0, 'dbg', 'answer packet DROPPED\n') end end) ffi.gc(debug_logfinish_cb, free_cb) -- log request packet function policy.REQTRACE(_, req) ffi.C.kr_log_req(req, 0, 0, 'dbg', 'request packet:\n%s', tostring(req.qsource.packet)) end function policy.DEBUG_ALWAYS(state, req) policy.QTRACE(state, req) req:trace_chain_callbacks(debug_logline_cb, debug_logfinish_cb) policy.REQTRACE(state, req) end local debug_stashlog_cb = ffi.cast('trace_log_f', function (req, msg) jit.off(true, true) -- JIT for (C -> lua)^2 nesting isn't allowed -- stash messages for conditional logging in trace_finish local stash = req:vars()['policy_debug_stash'] table.insert(stash, ffi.string(msg)) end) ffi.gc(debug_stashlog_cb, free_cb) -- buffer verbose logs and print then only if test() returns a truthy value function policy.DEBUG_IF(test) local debug_finish_cb = ffi.cast('trace_callback_f', function (cbreq) jit.off(true, true) -- JIT for (C -> lua)^2 nesting isn't allowed if test(cbreq) then debug_logfinish_cb(cbreq) -- unconditional version local stash = cbreq:vars()['policy_debug_stash'] io.write(table.concat(stash, '')) end end) ffi.gc(debug_finish_cb, function (func) func:free() end) return function (state, req) req:vars()['policy_debug_stash'] = {} policy.QTRACE(state, req) req:trace_chain_callbacks(debug_stashlog_cb, debug_finish_cb) policy.REQTRACE(state, req) return end end policy.DEBUG_CACHE_MISS = policy.DEBUG_IF( function(req) return not req:all_from_cache() end ) policy.DENY = policy.DENY_MSG() -- compatibility with < 2.0 function policy.DROP(_, req) local answer = answer_clear(req) if answer == nil then return nil end return kres.FAIL end function policy.REFUSE(_, req) local answer = answer_clear(req) if answer == nil then return nil end answer:rcode(kres.rcode.REFUSED) answer:ad(false) return kres.DONE end function policy.TC(state, req) -- Avoid non-UDP queries if req.qsource.addr == nil or req.qsource.flags.tcp then return state end local answer = answer_clear(req) if answer == nil then return nil end answer:tc(1) answer:ad(false) return kres.DONE end function policy.QTRACE(_, req) local qry = req:current() req.options.TRACE = true qry.flags.TRACE = true return -- this allows to continue iterating over policy list end -- Evaluate packet in given rules to determine policy action function policy.evaluate(rules, req, query, state) for i = 1, #rules do local rule = rules[i] if not rule.suspended then local action = rule.cb(req, query) if action ~= nil then rule.count = rule.count + 1 local next_state = action(state, req) if next_state then -- Not a chain rule, return next_state -- stop on first match end end end end return end -- Add rule to policy list function policy.add(rule, postrule) -- Compatibility with 1.0.0 API -- it will be dropped in 1.2.0 if rule == policy then rule = postrule postrule = nil end -- End of compatibility shim local desc = {id=getruleid(), cb=rule, count=0} table.insert(postrule and policy.postrules or policy.rules, desc) return desc end -- Remove rule from a list local function delrule(rules, id) for i, r in ipairs(rules) do if r.id == id then table.remove(rules, i) return true end end return false end -- Delete rule from policy list function policy.del(id) if not delrule(policy.rules, id) then if not delrule(policy.postrules, id) then return false end end return true end -- Convert list of string names to domain names function policy.todnames(names) for i, v in ipairs(names) do names[i] = kres.str2dname(v) end return names end -- RFC1918 Private, local, broadcast, test and special zones -- Considerations: RFC6761, sec 6.1. -- https://www.iana.org/assignments/locally-served-dns-zones local private_zones = { -- RFC6303 '10.in-addr.arpa.', '16.172.in-addr.arpa.', '17.172.in-addr.arpa.', '18.172.in-addr.arpa.', '19.172.in-addr.arpa.', '20.172.in-addr.arpa.', '21.172.in-addr.arpa.', '22.172.in-addr.arpa.', '23.172.in-addr.arpa.', '24.172.in-addr.arpa.', '25.172.in-addr.arpa.', '26.172.in-addr.arpa.', '27.172.in-addr.arpa.', '28.172.in-addr.arpa.', '29.172.in-addr.arpa.', '30.172.in-addr.arpa.', '31.172.in-addr.arpa.', '168.192.in-addr.arpa.', '0.in-addr.arpa.', '254.169.in-addr.arpa.', '2.0.192.in-addr.arpa.', '100.51.198.in-addr.arpa.', '113.0.203.in-addr.arpa.', '255.255.255.255.in-addr.arpa.', -- RFC7793 '64.100.in-addr.arpa.', '65.100.in-addr.arpa.', '66.100.in-addr.arpa.', '67.100.in-addr.arpa.', '68.100.in-addr.arpa.', '69.100.in-addr.arpa.', '70.100.in-addr.arpa.', '71.100.in-addr.arpa.', '72.100.in-addr.arpa.', '73.100.in-addr.arpa.', '74.100.in-addr.arpa.', '75.100.in-addr.arpa.', '76.100.in-addr.arpa.', '77.100.in-addr.arpa.', '78.100.in-addr.arpa.', '79.100.in-addr.arpa.', '80.100.in-addr.arpa.', '81.100.in-addr.arpa.', '82.100.in-addr.arpa.', '83.100.in-addr.arpa.', '84.100.in-addr.arpa.', '85.100.in-addr.arpa.', '86.100.in-addr.arpa.', '87.100.in-addr.arpa.', '88.100.in-addr.arpa.', '89.100.in-addr.arpa.', '90.100.in-addr.arpa.', '91.100.in-addr.arpa.', '92.100.in-addr.arpa.', '93.100.in-addr.arpa.', '94.100.in-addr.arpa.', '95.100.in-addr.arpa.', '96.100.in-addr.arpa.', '97.100.in-addr.arpa.', '98.100.in-addr.arpa.', '99.100.in-addr.arpa.', '100.100.in-addr.arpa.', '101.100.in-addr.arpa.', '102.100.in-addr.arpa.', '103.100.in-addr.arpa.', '104.100.in-addr.arpa.', '105.100.in-addr.arpa.', '106.100.in-addr.arpa.', '107.100.in-addr.arpa.', '108.100.in-addr.arpa.', '109.100.in-addr.arpa.', '110.100.in-addr.arpa.', '111.100.in-addr.arpa.', '112.100.in-addr.arpa.', '113.100.in-addr.arpa.', '114.100.in-addr.arpa.', '115.100.in-addr.arpa.', '116.100.in-addr.arpa.', '117.100.in-addr.arpa.', '118.100.in-addr.arpa.', '119.100.in-addr.arpa.', '120.100.in-addr.arpa.', '121.100.in-addr.arpa.', '122.100.in-addr.arpa.', '123.100.in-addr.arpa.', '124.100.in-addr.arpa.', '125.100.in-addr.arpa.', '126.100.in-addr.arpa.', '127.100.in-addr.arpa.', -- RFC6303 -- localhost_reversed handles ::1 '0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.ip6.arpa.', 'd.f.ip6.arpa.', '8.e.f.ip6.arpa.', '9.e.f.ip6.arpa.', 'a.e.f.ip6.arpa.', 'b.e.f.ip6.arpa.', '8.b.d.0.1.0.0.2.ip6.arpa.', -- RFC8375 'home.arpa.', } policy.todnames(private_zones) -- @var Default rules policy.rules = {} policy.postrules = {} policy.special_names = { -- XXX: beware of special_names_optim() when modifying these filters { cb=policy.suffix_common(policy.DENY_MSG( 'Blocking is mandated by standards, see references on ' .. 'https://www.iana.org/assignments/' .. 'locally-served-dns-zones/locally-served-dns-zones.xhtml'), private_zones, todname('arpa.')), count=0 }, { cb=policy.suffix(policy.DENY_MSG( 'Blocking is mandated by standards, see references on ' .. 'https://www.iana.org/assignments/' .. 'special-use-domain-names/special-use-domain-names.xhtml'), { todname('test.'), todname('onion.'), todname('invalid.'), todname('local.'), -- RFC 8375.4 }), count=0 }, { cb=policy.suffix(localhost, {dname_localhost}), count=0 }, { cb=policy.suffix_common(localhost_reversed, { todname('127.in-addr.arpa.'), todname('1.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.ip6.arpa.')}, todname('arpa.')), count=0 }, } -- Return boolean; false = no special name may apply, true = some might apply. -- The point is to *efficiently* filter almost all QNAMEs that do not apply. local function special_names_optim(req, sname) local qname_size = req.qsource.packet.qname_size if qname_size < 9 then return true end -- don't want to special-case bad array access local root = sname + qname_size - 1 return -- .a???. or .t???. (root[-5] == 4 and (root[-4] == 97 or root[-4] == 116)) -- .on???. or .in?????. or lo???. or *ost. or (root[-6] == 5 and root[-5] == 111 and root[-4] == 110) or (root[-8] == 7 and root[-7] == 105 and root[-6] == 110) or (root[-6] == 5 and root[-5] == 108 and root[-4] == 111) or (root[-3] == 111 and root[-2] == 115 and root[-1] == 116) end -- Top-down policy list walk until we hit a match -- the caller is responsible for reordering policy list -- from most specific to least specific. -- Some rules may be chained, in this case they are evaluated -- as a dependency chain, e.g. r1,r2,r3 -> r3(r2(r1(state))) policy.layer = { begin = function(state, req) -- Don't act on "finished" cases. if bit.band(state, bit.bor(kres.FAIL, kres.DONE)) ~= 0 then return state end local qry = req:initial() -- same as :current() but more descriptive return policy.evaluate(policy.rules, req, qry, state) or (special_names_optim(req, qry.sname) and policy.evaluate(policy.special_names, req, qry, state)) or state end, finish = function(state, req) -- Optimization for the typical case if #policy.postrules == 0 then return state end -- Don't act on failed cases. if bit.band(state, kres.FAIL) ~= 0 then return state end return policy.evaluate(policy.postrules, req, req:initial(), state) or state end } return policy