/* vim:set ts=4 sw=4 sts=4 et cin: */ /* 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 "nsDNSService2.h" #include "nsIDNSRecord.h" #include "nsIDNSListener.h" #include "nsICancelable.h" #include "nsIPrefService.h" #include "nsIPrefBranch.h" #include "nsIServiceManager.h" #include "nsProxyRelease.h" #include "nsReadableUtils.h" #include "nsString.h" #include "nsAutoPtr.h" #include "nsNetCID.h" #include "nsError.h" #include "nsDNSPrefetch.h" #include "nsThreadUtils.h" #include "nsIProtocolProxyService.h" #include "prsystem.h" #include "prnetdb.h" #include "prmon.h" #include "prio.h" #include "plstr.h" #include "nsIOService.h" #include "nsCharSeparatedTokenizer.h" #include "nsNetAddr.h" #include "mozilla/Attributes.h" using namespace mozilla; using namespace mozilla::net; static const char kPrefDnsCacheEntries[] = "network.dnsCacheEntries"; static const char kPrefDnsCacheExpiration[] = "network.dnsCacheExpiration"; static const char kPrefDnsCacheGrace[] = "network.dnsCacheExpirationGracePeriod"; static const char kPrefIPv4OnlyDomains[] = "network.dns.ipv4OnlyDomains"; static const char kPrefDisableIPv6[] = "network.dns.disableIPv6"; static const char kPrefDisablePrefetch[] = "network.dns.disablePrefetch"; static const char kPrefDnsLocalDomains[] = "network.dns.localDomains"; //----------------------------------------------------------------------------- class nsDNSRecord : public nsIDNSRecord { public: NS_DECL_ISUPPORTS NS_DECL_NSIDNSRECORD nsDNSRecord(nsHostRecord *hostRecord) : mHostRecord(hostRecord) , mIter(nullptr) , mIterGenCnt(-1) , mDone(false) {} private: virtual ~nsDNSRecord() {} nsRefPtr mHostRecord; NetAddrElement *mIter; int mIterGenCnt; // the generation count of // mHostRecord->addr_info when we // start iterating bool mDone; }; NS_IMPL_THREADSAFE_ISUPPORTS1(nsDNSRecord, nsIDNSRecord) NS_IMETHODIMP nsDNSRecord::GetCanonicalName(nsACString &result) { // this method should only be called if we have a CNAME NS_ENSURE_TRUE(mHostRecord->flags & nsHostResolver::RES_CANON_NAME, NS_ERROR_NOT_AVAILABLE); // if the record is for an IP address literal, then the canonical // host name is the IP address literal. const char *cname; { MutexAutoLock lock(mHostRecord->addr_info_lock); if (mHostRecord->addr_info) cname = mHostRecord->addr_info->mHostName; else cname = mHostRecord->host; result.Assign(cname); } return NS_OK; } NS_IMETHODIMP nsDNSRecord::GetNextAddr(uint16_t port, NetAddr *addr) { if (mDone) { return NS_ERROR_NOT_AVAILABLE; } mHostRecord->addr_info_lock.Lock(); if (mHostRecord->addr_info) { if (mIterGenCnt != mHostRecord->addr_info_gencnt) { // mHostRecord->addr_info has changed, restart the iteration. mIter = nullptr; mIterGenCnt = mHostRecord->addr_info_gencnt; } bool startedFresh = !mIter; do { if (!mIter) { mIter = mHostRecord->addr_info->mAddresses.getFirst(); } else { mIter = mIter->getNext(); } } while (mIter && mHostRecord->Blacklisted(&mIter->mAddress)); if (!mIter && startedFresh) { // If everything was blacklisted we want to reset the blacklist (and // likely relearn it) and return the first address. That is better // than nothing. mHostRecord->ResetBlacklist(); mIter = mHostRecord->addr_info->mAddresses.getFirst(); } if (mIter) { memcpy(addr, &mIter->mAddress, sizeof(NetAddr)); } mHostRecord->addr_info_lock.Unlock(); if (!mIter) { mDone = true; return NS_ERROR_NOT_AVAILABLE; } } else { mHostRecord->addr_info_lock.Unlock(); if (!mHostRecord->addr) { // Both mHostRecord->addr_info and mHostRecord->addr are null. // This can happen if mHostRecord->addr_info expired and the // attempt to reresolve it failed. return NS_ERROR_NOT_AVAILABLE; } memcpy(addr, mHostRecord->addr, sizeof(NetAddr)); mDone = true; } // set given port port = htons(port); if (addr->raw.family == AF_INET) { addr->inet.port = port; } else if (addr->raw.family == AF_INET6) { addr->inet6.port = port; } return NS_OK; } NS_IMETHODIMP nsDNSRecord::GetScriptableNextAddr(uint16_t port, nsINetAddr * *result) { NetAddr addr; nsresult rv = GetNextAddr(port, &addr); if (NS_FAILED(rv)) return rv; NS_ADDREF(*result = new nsNetAddr(&addr)); return NS_OK; } NS_IMETHODIMP nsDNSRecord::GetNextAddrAsString(nsACString &result) { NetAddr addr; nsresult rv = GetNextAddr(0, &addr); if (NS_FAILED(rv)) return rv; char buf[kIPv6CStrBufSize]; if (NetAddrToString(&addr, buf, sizeof(buf))) { result.Assign(buf); return NS_OK; } NS_ERROR("NetAddrToString failed unexpectedly"); return NS_ERROR_FAILURE; // conversion failed for some reason } NS_IMETHODIMP nsDNSRecord::HasMore(bool *result) { if (mDone) { *result = false; return NS_OK; } NetAddrElement *iterCopy = mIter; NetAddr addr; *result = NS_SUCCEEDED(GetNextAddr(0, &addr)); mIter = iterCopy; mDone = false; return NS_OK; } NS_IMETHODIMP nsDNSRecord::Rewind() { mIter = nullptr; mIterGenCnt = -1; mDone = false; return NS_OK; } NS_IMETHODIMP nsDNSRecord::ReportUnusable(uint16_t aPort) { // right now we don't use the port in the blacklist MutexAutoLock lock(mHostRecord->addr_info_lock); // Check that we are using a real addr_info (as opposed to a single // constant address), and that the generation count is valid. Otherwise, // ignore the report. if (mHostRecord->addr_info && mIterGenCnt == mHostRecord->addr_info_gencnt) { mHostRecord->ReportUnusable(&mIter->mAddress); } return NS_OK; } //----------------------------------------------------------------------------- class nsDNSAsyncRequest MOZ_FINAL : public nsResolveHostCallback , public nsICancelable { public: NS_DECL_ISUPPORTS NS_DECL_NSICANCELABLE nsDNSAsyncRequest(nsHostResolver *res, const nsACString &host, nsIDNSListener *listener, uint16_t flags, uint16_t af) : mResolver(res) , mHost(host) , mListener(listener) , mFlags(flags) , mAF(af) {} ~nsDNSAsyncRequest() {} void OnLookupComplete(nsHostResolver *, nsHostRecord *, nsresult); // Returns TRUE if the DNS listener arg is the same as the member listener // Used in Cancellations to remove DNS requests associated with a // particular hostname and nsIDNSListener bool EqualsAsyncListener(nsIDNSListener *aListener); nsRefPtr mResolver; nsCString mHost; // hostname we're resolving nsCOMPtr mListener; uint16_t mFlags; uint16_t mAF; }; void nsDNSAsyncRequest::OnLookupComplete(nsHostResolver *resolver, nsHostRecord *hostRecord, nsresult status) { // need to have an owning ref when we issue the callback to enable // the caller to be able to addref/release multiple times without // destroying the record prematurely. nsCOMPtr rec; if (NS_SUCCEEDED(status)) { NS_ASSERTION(hostRecord, "no host record"); rec = new nsDNSRecord(hostRecord); if (!rec) status = NS_ERROR_OUT_OF_MEMORY; } mListener->OnLookupComplete(this, rec, status); mListener = nullptr; // release the reference to ourselves that was added before we were // handed off to the host resolver. NS_RELEASE_THIS(); } bool nsDNSAsyncRequest::EqualsAsyncListener(nsIDNSListener *aListener) { return (aListener == mListener); } NS_IMPL_THREADSAFE_ISUPPORTS1(nsDNSAsyncRequest, nsICancelable) NS_IMETHODIMP nsDNSAsyncRequest::Cancel(nsresult reason) { NS_ENSURE_ARG(NS_FAILED(reason)); mResolver->DetachCallback(mHost.get(), mFlags, mAF, this, reason); return NS_OK; } //----------------------------------------------------------------------------- class nsDNSSyncRequest : public nsResolveHostCallback { public: nsDNSSyncRequest(PRMonitor *mon) : mDone(false) , mStatus(NS_OK) , mMonitor(mon) {} virtual ~nsDNSSyncRequest() {} void OnLookupComplete(nsHostResolver *, nsHostRecord *, nsresult); bool EqualsAsyncListener(nsIDNSListener *aListener); bool mDone; nsresult mStatus; nsRefPtr mHostRecord; private: PRMonitor *mMonitor; }; void nsDNSSyncRequest::OnLookupComplete(nsHostResolver *resolver, nsHostRecord *hostRecord, nsresult status) { // store results, and wake up nsDNSService::Resolve to process results. PR_EnterMonitor(mMonitor); mDone = true; mStatus = status; mHostRecord = hostRecord; PR_Notify(mMonitor); PR_ExitMonitor(mMonitor); } bool nsDNSSyncRequest::EqualsAsyncListener(nsIDNSListener *aListener) { // Sync request: no listener to compare return false; } //----------------------------------------------------------------------------- nsDNSService::nsDNSService() : mLock("nsDNSServer.mLock") , mFirstTime(true) , mOffline(false) { } nsDNSService::~nsDNSService() { } NS_IMPL_THREADSAFE_ISUPPORTS3(nsDNSService, nsIDNSService, nsPIDNSService, nsIObserver) NS_IMETHODIMP nsDNSService::Init() { if (mResolver) return NS_OK; NS_ENSURE_TRUE(!mResolver, NS_ERROR_ALREADY_INITIALIZED); // prefs uint32_t maxCacheEntries = 400; uint32_t maxCacheLifetime = 2; // minutes uint32_t lifetimeGracePeriod = 1; bool disableIPv6 = false; bool disablePrefetch = false; int proxyType = nsIProtocolProxyService::PROXYCONFIG_DIRECT; nsAdoptingCString ipv4OnlyDomains; nsAdoptingCString localDomains; // read prefs nsCOMPtr prefs = do_GetService(NS_PREFSERVICE_CONTRACTID); if (prefs) { int32_t val; if (NS_SUCCEEDED(prefs->GetIntPref(kPrefDnsCacheEntries, &val))) maxCacheEntries = (uint32_t) val; if (NS_SUCCEEDED(prefs->GetIntPref(kPrefDnsCacheExpiration, &val))) maxCacheLifetime = val / 60; // convert from seconds to minutes if (NS_SUCCEEDED(prefs->GetIntPref(kPrefDnsCacheGrace, &val))) lifetimeGracePeriod = val / 60; // convert from seconds to minutes // ASSUMPTION: pref branch does not modify out params on failure prefs->GetBoolPref(kPrefDisableIPv6, &disableIPv6); prefs->GetCharPref(kPrefIPv4OnlyDomains, getter_Copies(ipv4OnlyDomains)); prefs->GetCharPref(kPrefDnsLocalDomains, getter_Copies(localDomains)); prefs->GetBoolPref(kPrefDisablePrefetch, &disablePrefetch); // If a manual proxy is in use, disable prefetch implicitly prefs->GetIntPref("network.proxy.type", &proxyType); } if (mFirstTime) { mFirstTime = false; mLocalDomains.Init(); // register as prefs observer if (prefs) { prefs->AddObserver(kPrefDnsCacheEntries, this, false); prefs->AddObserver(kPrefDnsCacheExpiration, this, false); prefs->AddObserver(kPrefDnsCacheGrace, this, false); prefs->AddObserver(kPrefIPv4OnlyDomains, this, false); prefs->AddObserver(kPrefDnsLocalDomains, this, false); prefs->AddObserver(kPrefDisableIPv6, this, false); prefs->AddObserver(kPrefDisablePrefetch, this, false); // Monitor these to see if there is a change in proxy configuration // If a manual proxy is in use, disable prefetch implicitly prefs->AddObserver("network.proxy.type", this, false); } } nsDNSPrefetch::Initialize(this); // Don't initialize the resolver if we're in offline mode. // Later on, the IO service will reinitialize us when going online. if (gIOService->IsOffline() && !gIOService->IsComingOnline()) return NS_OK; nsCOMPtr idn = do_GetService(NS_IDNSERVICE_CONTRACTID); nsRefPtr res; nsresult rv = nsHostResolver::Create(maxCacheEntries, maxCacheLifetime, lifetimeGracePeriod, getter_AddRefs(res)); if (NS_SUCCEEDED(rv)) { // now, set all of our member variables while holding the lock MutexAutoLock lock(mLock); mResolver = res; mIDN = idn; mIPv4OnlyDomains = ipv4OnlyDomains; // exchanges buffer ownership mDisableIPv6 = disableIPv6; // Disable prefetching either by explicit preference or if a manual proxy is configured mDisablePrefetch = disablePrefetch || (proxyType == nsIProtocolProxyService::PROXYCONFIG_MANUAL); mLocalDomains.Clear(); if (localDomains) { nsAdoptingString domains; domains.AssignASCII(nsDependentCString(localDomains).get()); nsCharSeparatedTokenizer tokenizer(domains, ',', nsCharSeparatedTokenizerTemplate<>::SEPARATOR_OPTIONAL); while (tokenizer.hasMoreTokens()) { const nsSubstring& domain = tokenizer.nextToken(); mLocalDomains.PutEntry(nsDependentCString(NS_ConvertUTF16toUTF8(domain).get())); } } } return rv; } NS_IMETHODIMP nsDNSService::Shutdown() { nsRefPtr res; { MutexAutoLock lock(mLock); res = mResolver; mResolver = nullptr; } if (res) res->Shutdown(); return NS_OK; } NS_IMETHODIMP nsDNSService::GetOffline(bool *offline) { *offline = mOffline; return NS_OK; } NS_IMETHODIMP nsDNSService::SetOffline(bool offline) { mOffline = offline; return NS_OK; } NS_IMETHODIMP nsDNSService::GetPrefetchEnabled(bool *outVal) { *outVal = !mDisablePrefetch; return NS_OK; } NS_IMETHODIMP nsDNSService::SetPrefetchEnabled(bool inVal) { mDisablePrefetch = !inVal; return NS_OK; } namespace { class DNSListenerProxy MOZ_FINAL : public nsIDNSListener { public: DNSListenerProxy(nsIDNSListener* aListener, nsIEventTarget* aTargetThread) : mListener(aListener) , mTargetThread(aTargetThread) { } ~DNSListenerProxy() { nsCOMPtr mainThread(do_GetMainThread()); NS_ProxyRelease(mainThread, mListener); } NS_DECL_ISUPPORTS NS_DECL_NSIDNSLISTENER class OnLookupCompleteRunnable : public nsRunnable { public: OnLookupCompleteRunnable(nsIDNSListener* aListener, nsICancelable* aRequest, nsIDNSRecord* aRecord, nsresult aStatus) : mListener(aListener) , mRequest(aRequest) , mRecord(aRecord) , mStatus(aStatus) { } ~OnLookupCompleteRunnable() { nsCOMPtr mainThread(do_GetMainThread()); NS_ProxyRelease(mainThread, mListener); } NS_DECL_NSIRUNNABLE private: nsCOMPtr mListener; nsCOMPtr mRequest; nsCOMPtr mRecord; nsresult mStatus; }; private: nsCOMPtr mListener; nsCOMPtr mTargetThread; }; NS_IMPL_THREADSAFE_ISUPPORTS1(DNSListenerProxy, nsIDNSListener) NS_IMETHODIMP DNSListenerProxy::OnLookupComplete(nsICancelable* aRequest, nsIDNSRecord* aRecord, nsresult aStatus) { nsRefPtr r = new OnLookupCompleteRunnable(mListener, aRequest, aRecord, aStatus); return mTargetThread->Dispatch(r, NS_DISPATCH_NORMAL); } NS_IMETHODIMP DNSListenerProxy::OnLookupCompleteRunnable::Run() { mListener->OnLookupComplete(mRequest, mRecord, mStatus); return NS_OK; } } // anonymous namespace NS_IMETHODIMP nsDNSService::AsyncResolve(const nsACString &hostname, uint32_t flags, nsIDNSListener *listener, nsIEventTarget *target, nsICancelable **result) { // grab reference to global host resolver and IDN service. beware // simultaneous shutdown!! nsRefPtr res; nsCOMPtr idn; bool localDomain = false; { MutexAutoLock lock(mLock); if (mDisablePrefetch && (flags & RESOLVE_SPECULATE)) return NS_ERROR_DNS_LOOKUP_QUEUE_FULL; res = mResolver; idn = mIDN; localDomain = mLocalDomains.GetEntry(hostname); } if (!res) return NS_ERROR_OFFLINE; if (mOffline) flags |= RESOLVE_OFFLINE; const nsACString *hostPtr = &hostname; if (localDomain) { hostPtr = &(NS_LITERAL_CSTRING("localhost")); } nsresult rv; nsAutoCString hostACE; if (idn && !IsASCII(*hostPtr)) { if (NS_SUCCEEDED(idn->ConvertUTF8toACE(*hostPtr, hostACE))) hostPtr = &hostACE; } if (target) { listener = new DNSListenerProxy(listener, target); } uint16_t af = GetAFForLookup(*hostPtr, flags); nsDNSAsyncRequest *req = new nsDNSAsyncRequest(res, *hostPtr, listener, flags, af); if (!req) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(*result = req); // addref for resolver; will be released when OnLookupComplete is called. NS_ADDREF(req); rv = res->ResolveHost(req->mHost.get(), flags, af, req); if (NS_FAILED(rv)) { NS_RELEASE(req); NS_RELEASE(*result); } return rv; } NS_IMETHODIMP nsDNSService::CancelAsyncResolve(const nsACString &aHostname, uint32_t aFlags, nsIDNSListener *aListener, nsresult aReason) { // grab reference to global host resolver and IDN service. beware // simultaneous shutdown!! nsRefPtr res; nsCOMPtr idn; { MutexAutoLock lock(mLock); if (mDisablePrefetch && (aFlags & RESOLVE_SPECULATE)) return NS_ERROR_DNS_LOOKUP_QUEUE_FULL; res = mResolver; idn = mIDN; } if (!res) return NS_ERROR_OFFLINE; nsCString hostname(aHostname); nsAutoCString hostACE; if (idn && !IsASCII(aHostname)) { if (NS_SUCCEEDED(idn->ConvertUTF8toACE(aHostname, hostACE))) hostname = hostACE; } uint16_t af = GetAFForLookup(hostname, aFlags); res->CancelAsyncRequest(hostname.get(), aFlags, af, aListener, aReason); return NS_OK; } NS_IMETHODIMP nsDNSService::Resolve(const nsACString &hostname, uint32_t flags, nsIDNSRecord **result) { // grab reference to global host resolver and IDN service. beware // simultaneous shutdown!! nsRefPtr res; nsCOMPtr idn; bool localDomain = false; { MutexAutoLock lock(mLock); res = mResolver; idn = mIDN; localDomain = mLocalDomains.GetEntry(hostname); } NS_ENSURE_TRUE(res, NS_ERROR_OFFLINE); if (mOffline) flags |= RESOLVE_OFFLINE; const nsACString *hostPtr = &hostname; if (localDomain) { hostPtr = &(NS_LITERAL_CSTRING("localhost")); } nsresult rv; nsAutoCString hostACE; if (idn && !IsASCII(*hostPtr)) { if (NS_SUCCEEDED(idn->ConvertUTF8toACE(*hostPtr, hostACE))) hostPtr = &hostACE; } // // sync resolve: since the host resolver only works asynchronously, we need // to use a mutex and a condvar to wait for the result. however, since the // result may be in the resolvers cache, we might get called back recursively // on the same thread. so, our mutex needs to be re-entrant. in other words, // we need to use a monitor! ;-) // PRMonitor *mon = PR_NewMonitor(); if (!mon) return NS_ERROR_OUT_OF_MEMORY; PR_EnterMonitor(mon); nsDNSSyncRequest syncReq(mon); uint16_t af = GetAFForLookup(*hostPtr, flags); rv = res->ResolveHost(PromiseFlatCString(*hostPtr).get(), flags, af, &syncReq); if (NS_SUCCEEDED(rv)) { // wait for result while (!syncReq.mDone) PR_Wait(mon, PR_INTERVAL_NO_TIMEOUT); if (NS_FAILED(syncReq.mStatus)) rv = syncReq.mStatus; else { NS_ASSERTION(syncReq.mHostRecord, "no host record"); nsDNSRecord *rec = new nsDNSRecord(syncReq.mHostRecord); if (!rec) rv = NS_ERROR_OUT_OF_MEMORY; else NS_ADDREF(*result = rec); } } PR_ExitMonitor(mon); PR_DestroyMonitor(mon); return rv; } NS_IMETHODIMP nsDNSService::GetMyHostName(nsACString &result) { char name[100]; if (PR_GetSystemInfo(PR_SI_HOSTNAME, name, sizeof(name)) == PR_SUCCESS) { result = name; return NS_OK; } return NS_ERROR_FAILURE; } NS_IMETHODIMP nsDNSService::Observe(nsISupports *subject, const char *topic, const PRUnichar *data) { // we are only getting called if a preference has changed. NS_ASSERTION(strcmp(topic, NS_PREFBRANCH_PREFCHANGE_TOPIC_ID) == 0, "unexpected observe call"); // // Shutdown and this function are both only called on the UI thread, so we don't // have to worry about mResolver being cleared out from under us. // // NOTE Shutting down and reinitializing the service like this is obviously // suboptimal if Observe gets called several times in a row, but we don't // expect that to be the case. // if (mResolver) { Shutdown(); } Init(); return NS_OK; } uint16_t nsDNSService::GetAFForLookup(const nsACString &host, uint32_t flags) { if (mDisableIPv6 || (flags & RESOLVE_DISABLE_IPV6)) return PR_AF_INET; MutexAutoLock lock(mLock); uint16_t af = PR_AF_UNSPEC; if (!mIPv4OnlyDomains.IsEmpty()) { const char *domain, *domainEnd, *end; uint32_t hostLen, domainLen; // see if host is in one of the IPv4-only domains domain = mIPv4OnlyDomains.BeginReading(); domainEnd = mIPv4OnlyDomains.EndReading(); nsACString::const_iterator hostStart; host.BeginReading(hostStart); hostLen = host.Length(); do { // skip any whitespace while (*domain == ' ' || *domain == '\t') ++domain; // find end of this domain in the string end = strchr(domain, ','); if (!end) end = domainEnd; // to see if the hostname is in the domain, check if the domain // matches the end of the hostname. domainLen = end - domain; if (domainLen && hostLen >= domainLen) { const char *hostTail = hostStart.get() + hostLen - domainLen; if (PL_strncasecmp(domain, hostTail, domainLen) == 0) { // now, make sure either that the hostname is a direct match or // that the hostname begins with a dot. if (hostLen == domainLen || *hostTail == '.' || *(hostTail - 1) == '.') { af = PR_AF_INET; break; } } } domain = end + 1; } while (*end); } if ((af != PR_AF_INET) && (flags & RESOLVE_DISABLE_IPV4)) af = PR_AF_INET6; return af; } NS_IMETHODIMP nsDNSService::GetDNSCacheEntries(nsTArray *args) { NS_ENSURE_TRUE(mResolver, NS_ERROR_NOT_INITIALIZED); mResolver->GetDNSCacheEntries(args); return NS_OK; }