ref: 0f3f41fae775b2647cd0cdaf0a9ef395c19b9878
dir: /lib/std/resolve+posixy.myr/
use sys use "alloc" use "chartype" use "die" use "endian" use "extremum" use "hashfuncs" use "htab" use "ipparse" use "now" use "option" use "result" use "slcp" use "sldup" use "sleq" use "slpush" use "slurp" use "strfind" use "strsplit" use "strstrip" use "threadhooks" use "types" use "utf" pkg std = type rectype = union `DnsA /* host address */ `DnsNS /* authoritative name server */ `DnsCNAME /* canonical name for an alias */ `DnsSOA /* marks the start of a zone of authority */ `DnsWKS /* well known service description */ `DnsPTR /* domain name pointer */ `DnsHINFO /* host information */ `DnsMINFO /* mailbox or mail list information */ `DnsMX /* mail exchange */ `DnsTXT /* text strings */ `DnsAAAA /* ipv6 host address */ `DnsInval /* invalid */ ;; type resolveerr = union `Timeout `Badconn `Badhost `Badsrv `Badquery `Badresp ;; type hostinfo = struct fam : sys.sockfam stype : sys.socktype ttl : uint32 addr : netaddr stale : time rtype : rectype ;; const resolve : (host : byte[:] -> result(hostinfo[:], resolveerr)) const resolvemx : (host : byte[:] -> result(hostinfo[:], resolveerr)) const resolverec : (host : byte[:], t : rectype[:] -> result(hostinfo[:], resolveerr)) ;; const Hostfile = "/etc/hosts" const Resolvfile = "/etc/resolv.conf" const Timeout = 2_000 const Maxns = 5 var initdone : bool = false var hostmap : htab(byte[:], hostinfo)# var dnscache : htab(byte[:], hostinfo)# var search : byte[:][:] var nameservers : netaddr[:] const resolve = {host /*TODO: v4 and v6 */ -> resolverec(host, [`DnsA, `DnsAAAA][:]) } const resolvemx = {host -> resolverec(host, [`DnsMX][:]) } const resolverec = {host, tl if !initdone /* avoid extra contention */ lock(netlck) if !initdone hostmap = mkht() dnscache = mkht() loadhosts() loadresolv() initdone = true ;; unlock(netlck) ;; for t : tl match findhost(host, rectype(t)) | `Some hinf: -> `Ok sldup([hinf][:]) | `None: -> dnsresolve(host, rectype(t)) ;; ;; -> `Err `Badquery } const findhost = {host, t var h lock(netlck) match htget(dnscache, host) | `std.Some inf: if rectype(inf.rtype) != t h = `std.None elif inf.stale > std.now() h = `std.Some inf else h = htget(hostmap, host) ;; | `std.None: h = htget(hostmap, host) ;; unlock(netlck) -> h } const loadhosts = { var h var lines match slurp(Hostfile) | `Ok d: h = d | `Err m: -> void ;; lines = strsplit(h, "\n") for l : lines /* trim comment */ match strfind(l, "#") | `Some idx: l = l[:idx] | `None: /* whole line */ ;; match word(l) | `Some (ip, rest): match ipparse(ip) | `Some addr: addhosts(addr, ip, rest) | `None: /* invalid addresses are ignored: we don't want to break stuff with invalid or unsupported addresses */ ;; | `None: ;; ;; slfree(lines) slfree(h) } const addhosts = {addr, as, str var hinf var fam match addr | `Ipv4 _: fam = sys.Afinet | `Ipv6 _: fam = sys.Afinet6 ;; while true match word(str) | `Some (name, rest): str = rest if hthas(hostmap, name) continue ;; hinf = [ .fam=fam, .stype = 0, .ttl = 0, .addr = addr ] htput(hostmap, sldup(name), hinf) | `None: -> void ;; ;; } const loadresolv = { var h var lines match slurp(Resolvfile) | `Ok d: h = d | `Err m: -> void ;; lines = strsplit(h, "\n") for l : lines match strfind(l, "#") | `Some _idx: l = l[:_idx] | `None: ;; match word(l) | `Some ("nameserver", srv): addns(srv) | `Some (_, rest): /* invalid or unrecognized commands */ | `None: /* unrecognized lines */ ;; ;; slfree(lines) slfree(h) } const addns = {rest match word(rest) | `Some (name, _): match ipparse(name) | `Some addr: slpush(&nameservers, addr) | `None: /* nothing */ ;; | `None: /* nothing */ ;; } const word = {s var c, len len = 0 s = strfstrip(s) for c = decode(s[len:]); c != Badchar && !isblank(c); c = decode(s[len:]) len += charlen(c) ;; if len == 0 -> `None else -> `Some (s[:len], s[len:]) ;; } const dnsresolve = {host, rt var srv : sys.pollfd[Maxns] var ret, fd, cutoff if !valid(host) -> `Err (`Badhost) ;; cutoff = std.min(Maxns, nameservers.len) for var i = 0; i < cutoff; i++ fd=dnsconnect(nameservers[i]) if fd != -1 srv[i] = [ .fd=fd, .events=sys.Pollout, .revents=0, ] ;; ;; ret = dnsquery(srv[:cutoff], host, rt) for s : srv[:cutoff] sys.close(s.fd) ;; -> ret } const dnsconnect = {ns var sa4 : sys.sockaddr_in var sa6 : sys.sockaddr_in6 var sa : sys.sockaddr# var sock, sz var status match ns | `Ipv4 bits: sa4=[.fam=sys.Afinet, .addr=bits, .port=hosttonet(53)] sa = (&sa4 : sys.sockaddr#) sz = sizeof(sys.sockaddr_in) | `Ipv6 bits: sa6=[.fam=sys.Afinet6, .addr=bits, .port=hosttonet(53)] sa = (&sa6 : sys.sockaddr#) sz = sizeof(sys.sockaddr_in6) ;; sock = sys.socket(sa.fam, sys.Sockdgram, 0) if sock < 0 -> -1 ;; status = sys.connect(sock, sa, sz) if status < 0 sys.close(sock) -> -1 ;; -> sock } const dnsquery = {srv, host, t var pkt : byte[512] /* big enough */ var id : uint16[Maxns] var query var fail var giveup fail = 0 giveup = now() + 1000*Timeout while true /* all failed */ if fail == srv.len break ;; var r = sys.poll(srv, (giveup - std.now() : int)/1000) if r < 0 -> `Err `Badconn elif r == 0 -> `Err `Timeout ;; for var i = 0; i < srv.len; i++ var s = &srv[i] if (s.revents & sys.Pollout) != 0 (id[i], query) = mkquery(host, t) sys.write(s.fd, query) s.events = sys.Pollin elif (s.revents & sys.Pollin) != 0 var n = sys.read(s.fd, pkt[:]) if n < 0 -> `Err `Badconn ;; var inf = hosts(pkt[:n], host, id[i]) match inf | `std.Err `Badresp: /* continue polling */ | _: -> inf ;; else fail++ ;; ;; ;; -> `Err (`Badsrv) } const Qr : uint16 = 1 << 0 const Aa : uint16 = 1 << 5 const Tc : uint16 = 1 << 6 const Rd : uint16 = 1 << 7 const Ra : uint16 = 1 << 8 var nextid : uint16 = 42 const mkquery = {host, t var pkt : byte[512] /* big enough */ var off : size /* header */ off = 0 nextid++ off += pack16(pkt[:], off, nextid) /* id */ off += pack16(pkt[:], off, Ra) /* flags */ off += pack16(pkt[:], off, 1) /* qdcount */ off += pack16(pkt[:], off, 0) /* ancount */ off += pack16(pkt[:], off, 0) /* nscount */ off += pack16(pkt[:], off, 0) /* arcount */ /* query */ off += packname(pkt[:], off, host) /* host */ off += pack16(pkt[:], off, (t : uint16)) /* qtype: a record */ off += pack16(pkt[:], off, 0x1) /* qclass: inet4 */ -> (nextid, pkt[:off]) } const hosts = {pkt, host, id var off, ni var r, n, q, a, t, ttl var hinf : hostinfo[:] var v6dat : byte[16] off = 0 /* parse header */ (r, off) = unpack16(pkt, off) /* id */ if r != id -> `Err `Badresp ;; (_, off) = unpack16(pkt, off) /* flags */ (q, off) = unpack16(pkt, off) /* qdcount */ (a, off) = unpack16(pkt, off) /* ancount */ (_, off) = unpack16(pkt, off) /* nscount */ (_, off) = unpack16(pkt, off) /* arcount */ /* skip past query records */ for var i = 0; i < q; i++ off = skipname(pkt, off) /* name */ (_, off) = unpack16(pkt, off) /* type */ (_, off) = unpack16(pkt, off) /* class */ ;; /* parse answer records */ ni = 0 hinf = slalloc((a : size)) for var i = 0; i < a; i++ off = skipname(pkt, off) /* name */ (t, off) = unpack16(pkt, off) /* type */ (_, off) = unpack16(pkt, off) /* class */ (ttl, off) = unpack32(pkt, off) /* ttl */ (n, off) = unpack16(pkt, off) /* rdatalen */ hinf[ni].ttl = ttl hinf[ni].stale = (ttl * 1_000_000 : time) + std.now() hinf[ni].rtype = id2type(t) match hinf[ni].rtype | `DnsA: /* the thing we're interested in: our IP address */ hinf[ni].addr = `Ipv4 [pkt[off], pkt[off+1], pkt[off+2], pkt[off+3]] off += 4; ni++ | `DnsAAAA: std.slcp(v6dat[:], pkt[off:off+16]) hinf[ni].addr = `Ipv6 v6dat off += 16 ni++ | _: off += (n : std.size) ;; ;; lock(netlck) if ni != 0 && hinf[0].ttl != 0 std.htput(dnscache, std.sldup(host), hinf[0]) ;; unlock(netlck) -> `Ok hinf[:ni] } const skipname = {pkt, off var sz for sz = (pkt[off] : size); sz != 0; sz = (pkt[off] : size) /* ptr is 2 bytes */ if sz & 0xC0 == 0xC0 -> off + 2 else off += sz + 1 ;; ;; -> off + 1 } const pack16 = {buf, off, v buf[off] = ((v & 0xff00) >> 8 : byte) buf[off+1] = ((v & 0x00ff) >> 0 : byte) -> sizeof(uint16) /* we always write one uint16 */ } const unpack16 = {buf, off var v v = 0 v |= (buf[off + 0] : uint16) << 8 v |= (buf[off + 1] : uint16) << 0 -> (v, off+sizeof(uint16)) } const unpack32 = {buf, off var v v = (buf[off] : uint32) << 24 v |= (buf[off+1] : uint32) << 32 v |= (buf[off+2] : uint32) << 8 v |= (buf[off+3] : uint32) -> (v, off+sizeof(uint32)) } const packname = {buf, off : size, host var start var last start = off last = 0 for var i = 0; i < host.len; i++ if host[i] == ('.' : byte) off += addseg(buf, off, host[last:i]) last = i + 1 ;; ;; if host[host.len - 1] != ('.' : byte) off += addseg(buf, off, host[last:]) ;; off += addseg(buf, off, "") /* null terminating segment */ -> off - start } const addseg = {buf, off, str buf[off] = (str.len : byte) slcp(buf[off + 1 : off + str.len + 1], str) -> str.len + 1 } const valid = {host : byte[:] var i var seglen /* maximum length: 255 chars */ if host.len > 255 -> false ;; seglen = 0 for i = 0; i < host.len; i++ if host[i] == ('.' : byte) seglen = 0 ;; if seglen > 63 -> false ;; if host[i] & 0x80 != 0 -> false ;; ;; -> true } const id2type = {rtype match rtype | 1: -> `DnsA | 2: -> `DnsNS | 5: -> `DnsCNAME | 6: -> `DnsSOA | 11: -> `DnsWKS | 12: -> `DnsPTR | 13: -> `DnsHINFO | 14: -> `DnsMINFO | 15: -> `DnsMX | 16: -> `DnsTXT | 28: -> `DnsAAAA | _: -> `DnsInval ;; } const rectype = {rtype match rtype | `DnsA: -> 1 /* host address */ | `DnsNS: -> 2 /* authoritative name server */ | `DnsCNAME: -> 5 /* canonical name for an alias */ | `DnsSOA: -> 6 /* marks the start of a zone of authority */ | `DnsWKS: -> 11 /* well known service description */ | `DnsPTR: -> 12 /* domain name pointer */ | `DnsHINFO: -> 13 /* host information */ | `DnsMINFO: -> 14 /* mailbox or mail list information */ | `DnsMX: -> 15 /* mail exchange */ | `DnsTXT: -> 16 /* text strings */ | `DnsAAAA: -> 28 /* ipv6 host address */ | `DnsInval: -> -1 ;; }