/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "GetAddrInfo.h" #ifdef DNSQUERY_AVAILABLE // There is a bug in windns.h where the type of parameter ppQueryResultsSet for // DnsQuery_A is dependent on UNICODE being set. It should *always* be // PDNS_RECORDA, but if UNICODE is set it is PDNS_RECORDW. To get around this // we make sure that UNICODE is unset. # undef UNICODE # include # undef GetAddrInfo # include #endif // DNSQUERY_AVAILABLE #include "mozilla/ClearOnShutdown.h" #include "mozilla/net/DNS.h" #include "NativeDNSResolverOverrideParent.h" #include "prnetdb.h" #include "nsIOService.h" #include "nsHostResolver.h" #include "nsError.h" #include "mozilla/net/DNS.h" #include #include "prerror.h" #include "mozilla/Logging.h" #include "mozilla/StaticPrefs_network.h" namespace mozilla { namespace net { static StaticRefPtr gOverrideService; static LazyLogModule gGetAddrInfoLog("GetAddrInfo"); #define LOG(msg, ...) \ MOZ_LOG(gGetAddrInfoLog, LogLevel::Debug, ("[DNS]: " msg, ##__VA_ARGS__)) #define LOG_WARNING(msg, ...) \ MOZ_LOG(gGetAddrInfoLog, LogLevel::Warning, ("[DNS]: " msg, ##__VA_ARGS__)) #ifdef DNSQUERY_AVAILABLE # define COMPUTER_NAME_BUFFER_SIZE 100 static char sDNSComputerName[COMPUTER_NAME_BUFFER_SIZE]; static char sNETBIOSComputerName[MAX_COMPUTERNAME_LENGTH + 1]; //////////////////////////// // WINDOWS IMPLEMENTATION // //////////////////////////// // Ensure consistency of PR_* and AF_* constants to allow for legacy usage of // PR_* constants with this API. static_assert(PR_AF_INET == AF_INET && PR_AF_INET6 == AF_INET6 && PR_AF_UNSPEC == AF_UNSPEC, "PR_AF_* must match AF_*"); // If successful, returns in aResult a TTL value that is smaller or // equal with the one already there. Gets the TTL value by calling // to DnsQuery_A and iterating through the returned // records to find the one with the smallest TTL value. static MOZ_ALWAYS_INLINE nsresult _CallDnsQuery_A_Windows( const nsACString& aHost, uint16_t aAddressFamily, DWORD aFlags, std::function aCallback) { NS_ConvertASCIItoUTF16 name(aHost); auto callDnsQuery_A = [&](uint16_t reqFamily) { PDNS_RECORDA dnsData = nullptr; DNS_STATUS status = DnsQuery_A(aHost.BeginReading(), reqFamily, aFlags, nullptr, &dnsData, nullptr); if (status == DNS_INFO_NO_RECORDS || status == DNS_ERROR_RCODE_NAME_ERROR || !dnsData) { LOG("No DNS records found for %s. status=%X. reqFamily = %X\n", aHost.BeginReading(), status, reqFamily); return NS_ERROR_FAILURE; } else if (status != NOERROR) { LOG_WARNING("DnsQuery_A failed with status %X.\n", status); return NS_ERROR_UNEXPECTED; } for (PDNS_RECORDA curRecord = dnsData; curRecord; curRecord = curRecord->pNext) { // Only records in the answer section are important if (curRecord->Flags.S.Section != DnsSectionAnswer) { continue; } if (curRecord->wType != reqFamily) { continue; } aCallback(curRecord); } DnsFree(dnsData, DNS_FREE_TYPE::DnsFreeRecordList); return NS_OK; }; if (aAddressFamily == PR_AF_UNSPEC || aAddressFamily == PR_AF_INET) { callDnsQuery_A(DNS_TYPE_A); } if (aAddressFamily == PR_AF_UNSPEC || aAddressFamily == PR_AF_INET6) { callDnsQuery_A(DNS_TYPE_AAAA); } return NS_OK; } bool recordTypeMatchesRequest(uint16_t wType, uint16_t aAddressFamily) { if (aAddressFamily == PR_AF_UNSPEC) { return wType == DNS_TYPE_A || wType == DNS_TYPE_AAAA; } if (aAddressFamily == PR_AF_INET) { return wType == DNS_TYPE_A; } if (aAddressFamily == PR_AF_INET6) { return wType == DNS_TYPE_AAAA; } return false; } static MOZ_ALWAYS_INLINE nsresult _GetTTLData_Windows(const nsACString& aHost, uint32_t* aResult, uint16_t aAddressFamily) { MOZ_ASSERT(!aHost.IsEmpty()); MOZ_ASSERT(aResult); if (aAddressFamily != PR_AF_UNSPEC && aAddressFamily != PR_AF_INET && aAddressFamily != PR_AF_INET6) { return NS_ERROR_UNEXPECTED; } // In order to avoid using ANY records which are not always implemented as a // "Gimme what you have" request in hostname resolvers, we should send A // and/or AAAA requests, based on the address family requested. const DWORD ttlFlags = (DNS_QUERY_STANDARD | DNS_QUERY_NO_NETBT | DNS_QUERY_NO_HOSTS_FILE | DNS_QUERY_NO_MULTICAST | DNS_QUERY_ACCEPT_TRUNCATED_RESPONSE | DNS_QUERY_DONT_RESET_TTL_VALUES); unsigned int ttl = (unsigned int)-1; _CallDnsQuery_A_Windows( aHost, aAddressFamily, ttlFlags, [&ttl, &aHost, aAddressFamily](PDNS_RECORDA curRecord) { if (recordTypeMatchesRequest(curRecord->wType, aAddressFamily)) { ttl = std::min(ttl, curRecord->dwTtl); } else { LOG("Received unexpected record type %u in response for %s.\n", curRecord->wType, aHost.BeginReading()); } }); if (ttl == (unsigned int)-1) { LOG("No useable TTL found."); return NS_ERROR_FAILURE; } *aResult = ttl; return NS_OK; } static MOZ_ALWAYS_INLINE nsresult _DNSQuery_A_SingleLabel(const nsACString& aCanonHost, uint16_t aAddressFamily, uint16_t aFlags, AddrInfo** aAddrInfo) { bool setCanonName = aFlags & nsHostResolver::RES_CANON_NAME; nsAutoCString canonName; const DWORD flags = (DNS_QUERY_STANDARD | DNS_QUERY_NO_MULTICAST | DNS_QUERY_ACCEPT_TRUNCATED_RESPONSE); nsTArray addresses; _CallDnsQuery_A_Windows( aCanonHost, aAddressFamily, flags, [&](PDNS_RECORDA curRecord) { MOZ_DIAGNOSTIC_ASSERT(curRecord->wType == DNS_TYPE_A || curRecord->wType == DNS_TYPE_AAAA); if (setCanonName) { canonName.Assign(curRecord->pName); } NetAddr addr{}; addr.inet.family = AF_INET; addr.inet.ip = curRecord->Data.A.IpAddress; addresses.AppendElement(addr); }); LOG("Query for: %s has %u results", aCanonHost.BeginReading(), addresses.Length()); if (addresses.IsEmpty()) { return NS_ERROR_UNKNOWN_HOST; } RefPtr ai( new AddrInfo(aCanonHost, canonName, 0, std::move(addresses))); ai.forget(aAddrInfo); return NS_OK; } #endif //////////////////////////////////// // PORTABLE RUNTIME IMPLEMENTATION// //////////////////////////////////// static MOZ_ALWAYS_INLINE nsresult _GetAddrInfo_Portable(const nsACString& aCanonHost, uint16_t aAddressFamily, uint16_t aFlags, AddrInfo** aAddrInfo) { MOZ_ASSERT(!aCanonHost.IsEmpty()); MOZ_ASSERT(aAddrInfo); // We accept the same aFlags that nsHostResolver::ResolveHost accepts, but we // need to translate the aFlags into a form that PR_GetAddrInfoByName // accepts. int prFlags = PR_AI_ADDRCONFIG; if (!(aFlags & nsHostResolver::RES_CANON_NAME)) { prFlags |= PR_AI_NOCANONNAME; } // We need to remove IPv4 records manually because PR_GetAddrInfoByName // doesn't support PR_AF_INET6. bool disableIPv4 = aAddressFamily == PR_AF_INET6; if (disableIPv4) { aAddressFamily = PR_AF_UNSPEC; } #if defined(DNSQUERY_AVAILABLE) if (StaticPrefs::network_dns_dns_query_single_label() && !aCanonHost.Contains('.') && aCanonHost != "localhost"_ns) { // For some reason we can't use DnsQuery_A to get the computer's IP. if (!aCanonHost.Equals(nsDependentCString(sDNSComputerName), nsCaseInsensitiveCStringComparator) && !aCanonHost.Equals(nsDependentCString(sNETBIOSComputerName), nsCaseInsensitiveCStringComparator)) { // This is a single label name resolve without a dot. // We use DNSQuery_A for these. LOG("Resolving %s using DnsQuery_A (computername: %s)\n", aCanonHost.BeginReading(), sDNSComputerName); return _DNSQuery_A_SingleLabel(aCanonHost, aAddressFamily, aFlags, aAddrInfo); } } #endif PRAddrInfo* prai = PR_GetAddrInfoByName(aCanonHost.BeginReading(), aAddressFamily, prFlags); if (!prai) { return NS_ERROR_UNKNOWN_HOST; } nsAutoCString canonName; if (aFlags & nsHostResolver::RES_CANON_NAME) { canonName.Assign(PR_GetCanonNameFromAddrInfo(prai)); } bool filterNameCollision = !(aFlags & nsHostResolver::RES_ALLOW_NAME_COLLISION); RefPtr ai(new AddrInfo(aCanonHost, prai, disableIPv4, filterNameCollision, canonName)); PR_FreeAddrInfo(prai); if (ai->Addresses().IsEmpty()) { return NS_ERROR_UNKNOWN_HOST; } ai.forget(aAddrInfo); return NS_OK; } ////////////////////////////////////// // COMMON/PLATFORM INDEPENDENT CODE // ////////////////////////////////////// nsresult GetAddrInfoInit() { LOG("Initializing GetAddrInfo.\n"); #ifdef DNSQUERY_AVAILABLE DWORD namesize = COMPUTER_NAME_BUFFER_SIZE; if (!GetComputerNameExA(ComputerNameDnsHostname, sDNSComputerName, &namesize)) { sDNSComputerName[0] = 0; } namesize = MAX_COMPUTERNAME_LENGTH + 1; if (!GetComputerNameExA(ComputerNameNetBIOS, sNETBIOSComputerName, &namesize)) { sNETBIOSComputerName[0] = 0; } #endif return NS_OK; } nsresult GetAddrInfoShutdown() { LOG("Shutting down GetAddrInfo.\n"); return NS_OK; } bool FindAddrOverride(const nsACString& aHost, uint16_t aAddressFamily, uint16_t aFlags, AddrInfo** aAddrInfo) { RefPtr overrideService = gOverrideService; if (!overrideService) { return false; } AutoReadLock lock(overrideService->mLock); nsTArray* overrides = overrideService->mOverrides.GetValue(aHost); if (!overrides) { return false; } nsCString* cname = nullptr; if (aFlags & nsHostResolver::RES_CANON_NAME) { cname = overrideService->mCnames.GetValue(aHost); } RefPtr ai; nsTArray addresses; for (const auto& ip : *overrides) { if (aAddressFamily != AF_UNSPEC && ip.raw.family != aAddressFamily) { continue; } NetAddr addr(&ip); addresses.AppendElement(addr); } if (!cname) { ai = new AddrInfo(aHost, 0, std::move(addresses)); } else { ai = new AddrInfo(aHost, *cname, 0, std::move(addresses)); } ai.forget(aAddrInfo); return true; } nsresult GetAddrInfo(const nsACString& aHost, uint16_t aAddressFamily, uint16_t aFlags, AddrInfo** aAddrInfo, bool aGetTtl) { if (NS_WARN_IF(aHost.IsEmpty()) || NS_WARN_IF(!aAddrInfo)) { return NS_ERROR_NULL_POINTER; } *aAddrInfo = nullptr; if (StaticPrefs::network_dns_disabled()) { return NS_ERROR_UNKNOWN_HOST; } #ifdef DNSQUERY_AVAILABLE // The GetTTLData needs the canonical name to function properly if (aGetTtl) { aFlags |= nsHostResolver::RES_CANON_NAME; } #endif // If there is an override for this host, then we synthetize a result. if (gOverrideService && FindAddrOverride(aHost, aAddressFamily, aFlags, aAddrInfo)) { return NS_OK; } nsAutoCString host(aHost); if (gNativeIsLocalhost) { // pretend we use the given host but use IPv4 localhost instead! host = "localhost"_ns; aAddressFamily = PR_AF_INET; } RefPtr info; nsresult rv = _GetAddrInfo_Portable(host, aAddressFamily, aFlags, getter_AddRefs(info)); #ifdef DNSQUERY_AVAILABLE if (aGetTtl && NS_SUCCEEDED(rv)) { // Figure out the canonical name, or if that fails, just use the host name // we have. nsAutoCString name; if (info && !info->CanonicalHostname().IsEmpty()) { name = info->CanonicalHostname(); } else { name = host; } LOG("Getting TTL for %s (cname = %s).", host.get(), name.get()); uint32_t ttl = 0; nsresult ttlRv = _GetTTLData_Windows(name, &ttl, aAddressFamily); if (NS_SUCCEEDED(ttlRv)) { auto builder = info->Build(); builder.SetTTL(ttl); info = builder.Finish(); LOG("Got TTL %u for %s (name = %s).", ttl, host.get(), name.get()); } else { LOG_WARNING("Could not get TTL for %s (cname = %s).", host.get(), name.get()); } } #endif info.forget(aAddrInfo); return rv; } // static already_AddRefed NativeDNSResolverOverride::GetSingleton() { if (nsIOService::UseSocketProcess() && XRE_IsParentProcess()) { return NativeDNSResolverOverrideParent::GetSingleton(); } if (gOverrideService) { return do_AddRef(gOverrideService); } gOverrideService = new NativeDNSResolverOverride(); ClearOnShutdown(&gOverrideService); return do_AddRef(gOverrideService); } NS_IMPL_ISUPPORTS(NativeDNSResolverOverride, nsINativeDNSResolverOverride) NS_IMETHODIMP NativeDNSResolverOverride::AddIPOverride( const nsACString& aHost, const nsACString& aIPLiteral) { PRNetAddr tempAddr; // Unfortunately, PR_StringToNetAddr does not properly initialize // the output buffer in the case of IPv6 input. See bug 223145. memset(&tempAddr, 0, sizeof(PRNetAddr)); if (PR_StringToNetAddr(nsCString(aIPLiteral).get(), &tempAddr) != PR_SUCCESS) { return NS_ERROR_UNEXPECTED; } AutoWriteLock lock(mLock); auto& overrides = mOverrides.GetOrInsert(aHost); overrides.AppendElement(tempAddr); return NS_OK; } NS_IMETHODIMP NativeDNSResolverOverride::SetCnameOverride( const nsACString& aHost, const nsACString& aCNAME) { if (aCNAME.IsEmpty()) { return NS_ERROR_UNEXPECTED; } AutoWriteLock lock(mLock); mCnames.Put(aHost, nsCString(aCNAME)); return NS_OK; } NS_IMETHODIMP NativeDNSResolverOverride::ClearHostOverride( const nsACString& aHost) { AutoWriteLock lock(mLock); mCnames.Remove(aHost); auto overrides = mOverrides.GetAndRemove(aHost); if (!overrides) { return NS_OK; } overrides->Clear(); return NS_OK; } NS_IMETHODIMP NativeDNSResolverOverride::ClearOverrides() { AutoWriteLock lock(mLock); mOverrides.Clear(); mCnames.Clear(); return NS_OK; } } // namespace net } // namespace mozilla