-- libunbound based net.adns replacement for Prosody IM -- Copyright (C) 2012-2015 Kim Alvefur -- Copyright (C) 2012 Waqas Hussain -- -- This file is MIT licensed. local setmetatable = setmetatable; local table = table; local t_concat = table.concat; local t_insert = table.insert; local s_byte = string.byte; local s_char = string.char; local s_format = string.format; local s_gsub = string.gsub; local s_sub = string.sub; local s_match = string.match; local s_gmatch = string.gmatch; local have_net, net_util = pcall(require, "util.net"); if have_net and not net_util.ntop then -- Added in Prosody 0.11 have_net = false; end local chartohex = {}; for c = 0, 255 do chartohex[s_char(c)] = s_format("%02X", c); end local function tohex(s) return (s_gsub(s, ".", chartohex)); end -- Converted from -- http://www.iana.org/assignments/dns-parameters -- 2020-06-25 local classes = { IN = 1; "IN"; nil; CH = 3; "CH"; HS = 4; "HS"; }; local types = { "A";"NS";"MD";"MF";"CNAME";"SOA";"MB";"MG";"MR";"NULL";"WKS";"PTR";"HINFO"; "MINFO";"MX";"TXT";"RP";"AFSDB";"X25";"ISDN";"RT";"NSAP";"NSAP-PTR";"SIG"; "KEY";"PX";"GPOS";"AAAA";"LOC";"NXT";"EID";"NIMLOC";"SRV";"ATMA";"NAPTR"; "KX";"CERT";"A6";"DNAME";"SINK";"OPT";"APL";"DS";"SSHFP";"IPSECKEY";"RRSIG"; "NSEC";"DNSKEY";"DHCID";"NSEC3";"NSEC3PARAM";"TLSA";"SMIMEA";[55]="HIP"; [56]="NINFO";[57]="RKEY";[58]="TALINK";[59]="CDS";[60]="CDNSKEY";[61]="OPENPGPKEY"; [62]="CSYNC";[63]="ZONEMD";[99]="SPF";[100]="UINFO";[101]="UID";[102]="GID"; [103]="UNSPEC";[104]="NID";[105]="L32";[106]="L64";[107]="LP";[108]="EUI48"; [109]="EUI64";["CSYNC"]=62;["TXT"]=16;["NAPTR"]=35;["A6"]=38;["RP"]=17; ["TALINK"]=58;["NXT"]=30;["MR"]=9;["UINFO"]=100;["X25"]=19;["TKEY"]=249; ["CERT"]=37;["SMIMEA"]=53;[252]="AXFR";[253]="MAILB";["CDS"]=59;[32769]="DLV"; ["RT"]=21;["WKS"]=11;[249]="TKEY";["LP"]=107;[250]="TSIG";["SSHFP"]=44;["DS"]=43; ["ISDN"]=20;["ATMA"]=34;["NS"]=2;[257]="CAA";["PX"]=26;["MX"]=15;["TSIG"]=250; ["EID"]=31;["TLSA"]=52;["GID"]=102;["KX"]=36;["SPF"]=99;["DOA"]=259;["GPOS"]=27; ["IPSECKEY"]=45;["NIMLOC"]=32;["RRSIG"]=46;["UID"]=101;["DNAME"]=39;["NSAP"]=22; ["DNSKEY"]=48;["SINK"]=40;["DHCID"]=49;[32768]="TA";["NSAP-PTR"]=23;["AAAA"]=28; ["PTR"]=12;["MINFO"]=14;["TA"]=32768;["EUI64"]=109;[260]="AMTRELAY"; ["AMTRELAY"]=260;["CDNSKEY"]=60;[259]="DOA";["LOC"]=29;[258]="AVC";["AVC"]=258; ["CAA"]=257;["MB"]=7;["*"]=255;[256]="URI";["URI"]=256;["SRV"]=33;["EUI48"]=108; [255]="*";[254]="MAILA";["MAILA"]=254;["MAILB"]=253;["CNAME"]=5;[251]="IXFR"; ["APL"]=42;["OPENPGPKEY"]=61;["MD"]=3;["NINFO"]=56;["ZONEMD"]=63;["RKEY"]=57; ["L32"]=105;["NID"]=104;["HIP"]=55;["NSEC"]=47;["DLV"]=32769;["UNSPEC"]=103; ["NSEC3PARAM"]=51;["MF"]=4;["MG"]=8;["AFSDB"]=18;["A"]=1;["SIG"]=24;["NSEC3"]=50; ["HINFO"]=13;["IXFR"]=251;["NULL"]=10;["AXFR"]=252;["KEY"]=25;["OPT"]=41; ["SOA"]=6;["L64"]=106; } local errors = { NoError = "No Error"; [0] = "NoError"; FormErr = "Format Error"; "FormErr"; ServFail = "Server Failure"; "ServFail"; NXDomain = "Non-Existent Domain"; "NXDomain"; NotImp = "Not Implemented"; "NotImp"; Refused = "Query Refused"; "Refused"; YXDomain = "Name Exists when it should not"; "YXDomain"; YXRRSet = "RR Set Exists when it should not"; "YXRRSet"; NXRRSet = "RR Set that should exist does not"; "NXRRSet"; NotAuth = "Server Not Authoritative for zone"; "NotAuth"; NotZone = "Name not contained in zone"; "NotZone"; }; -- Simplified versions of Waqas DNS parsers -- Only the per RR parsers are needed and only feed a single RR local parsers = {}; -- No support for pointers, but libunbound appears to take care of that. local function readDnsName(packet, pos) if s_byte(packet, pos) == 0 then return "."; end local pack_len, r, len = #packet, {}; pos = pos or 1; repeat len = s_byte(packet, pos) or 0; t_insert(r, s_sub(packet, pos + 1, pos + len)); pos = pos + len + 1; until len == 0 or pos >= pack_len; return t_concat(r, "."), pos; end -- These are just simple names. parsers.CNAME = readDnsName; parsers.NS = readDnsName parsers.PTR = readDnsName; local soa_mt = { __tostring = function(rr) return s_format("%s %s %d %d %d %d %d", rr.mname, rr.rname, rr.serial, rr.refresh, rr.retry, rr.expire, rr.minimum); end; }; function parsers.SOA(packet) local mname, rname, offset; mname, offset = readDnsName(packet, 1); rname, offset = readDnsName(packet, offset); -- Extract all the bytes of these fields in one call local s1, s2, s3, s4, -- serial r1, r2, r3, r4, -- refresh t1, t2, t3, t4, -- retry e1, e2, e3, e4, -- expire m1, m2, m3, m4 -- minimum = s_byte(packet, offset, offset + 19); return setmetatable({ mname = mname; rname = rname; serial = s1*0x1000000 + s2*0x10000 + s3*0x100 + s4; refresh = r1*0x1000000 + r2*0x10000 + r3*0x100 + r4; retry = t1*0x1000000 + t2*0x10000 + t3*0x100 + t4; expire = e1*0x1000000 + e2*0x10000 + e3*0x100 + e4; minimum = m1*0x1000000 + m2*0x10000 + m3*0x100 + m4; }, soa_mt); end function parsers.A(packet) return s_format("%d.%d.%d.%d", s_byte(packet, 1, 4)); end local aaaa = { nil, nil, nil, nil, nil, nil, nil, nil, }; function parsers.AAAA(packet) local hi, lo, ip, len, token; for i = 1, 8 do hi, lo = s_byte(packet, i * 2 - 1, i * 2); aaaa[i] = s_format("%x", hi * 256 + lo); -- skips leading zeros end ip = t_concat(aaaa, ":", 1, 8); len = (s_match(ip, "^0:[0:]+()") or 1) - 1; for s in s_gmatch(ip, ":0:[0:]+") do if len < #s then len, token = #s, s; end -- find longest sequence of zeros end return (s_gsub(ip, token or "^0:[0:]+", "::", 1)); end if have_net then parsers.A = net_util.ntop; parsers.AAAA = net_util.ntop; end local mx_mt = { __tostring = function(rr) return s_format("%d %s", rr.pref, rr.mx) end }; function parsers.MX(packet) local name = readDnsName(packet, 3); local b1,b2 = s_byte(packet, 1, 2); return setmetatable({ pref = b1*256+b2; mx = name; }, mx_mt); end local srv_mt = { __tostring = function(rr) return s_format("%d %d %d %s", rr.priority, rr.weight, rr.port, rr.target); end }; function parsers.SRV(packet) local name = readDnsName(packet, 7); local b1, b2, b3, b4, b5, b6 = s_byte(packet, 1, 6); return setmetatable({ priority = b1*256+b2; weight = b3*256+b4; port = b5*256+b6; target = name; }, srv_mt); end local txt_mt = { __tostring = t_concat }; function parsers.TXT(packet) local pack_len = #packet; local r, pos, len = {}, 1; repeat len = s_byte(packet, pos) or 0; t_insert(r, s_sub(packet, pos + 1, pos + len)); pos = pos + len + 1; until pos >= pack_len; return setmetatable(r, txt_mt); end parsers.SPF = parsers.TXT; -- Acronyms from RFC 7218 local tlsa_usages = { [0] = "PKIX-CA"; [1] = "PKIX-EE"; [2] = "DANE-TA"; [3] = "DANE-EE"; [255] = "PrivCert"; }; local tlsa_selectors = { [0] = "Cert", [1] = "SPKI", [255] = "PrivSel", }; local tlsa_match_types = { [0] = "Full", [1] = "SHA2-256", [2] = "SHA2-512", [255] = "PrivMatch", }; local tlsa_mt = { __tostring = function(rr) return s_format("%s %s %s %s", tlsa_usages[rr.use] or rr.use, tlsa_selectors[rr.select] or rr.select, tlsa_match_types[rr.match] or rr.match, tohex(rr.data)); end; __index = { getUsage = function(rr) return tlsa_usages[rr.use] end; getSelector = function(rr) return tlsa_selectors[rr.select] end; getMatchType = function(rr) return tlsa_match_types[rr.match] end; } }; function parsers.TLSA(packet) local use, select, match = s_byte(packet, 1,3); return setmetatable({ use = use; select = select; match = match; data = s_sub(packet, 4); }, tlsa_mt); end local params = { TLSA = { use = tlsa_usages; select = tlsa_selectors; match = tlsa_match_types; }; }; local fallback_mt = { __tostring = function(rr) return s_format([[\# %d %s]], #rr.raw, tohex(rr.raw)); end; }; local function fallback_parser(packet) return setmetatable({ raw = packet },fallback_mt); end setmetatable(parsers, { __index = function() return fallback_parser end }); return { parsers = parsers; classes = classes; types = types; errors = errors; params = params; };