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654877b2f5
gecko/netwerk/dns/nsHostResolver.cpp
Ryan VanderMeulen 8017b23648 Backed out 7 changesets (bug 939318) for frequent Win7/Win8 xpcshell failures. a=backout 
Backed out changeset 21dcd9e1b607 (bug 939318)
Backed out changeset cc131cf9ef81 (bug 939318)
Backed out changeset 02925699b9bb (bug 939318)
Backed out changeset a2d39ac660a6 (bug 939318)
Backed out changeset eeb8897aaa59 (bug 939318)
Backed out changeset d1e1ca369322 (bug 939318)
Backed out changeset 37bee525b188 (bug 939318)
2014-08-26 15:56:51 -04:00

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/* 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/. */
#if defined(MOZ_LOGGING)
#define FORCE_PR_LOG
#endif
#if defined(HAVE_RES_NINIT)
#include <sys/types.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <arpa/nameser.h>
#include <resolv.h>
#define RES_RETRY_ON_FAILURE
#endif
#include <stdlib.h>
#include "nsHostResolver.h"
#include "nsError.h"
#include "nsISupportsBase.h"
#include "nsISupportsUtils.h"
#include "nsAutoPtr.h"
#include "prthread.h"
#include "prerror.h"
#include "prtime.h"
#include "prlog.h"
#include "pldhash.h"
#include "plstr.h"
#include "nsURLHelper.h"
#include "nsThreadUtils.h"
#include "mozilla/HashFunctions.h"
#include "mozilla/TimeStamp.h"
#include "mozilla/Telemetry.h"
#include "mozilla/VisualEventTracer.h"
using namespace mozilla;
using namespace mozilla::net;
//----------------------------------------------------------------------------
// Use a persistent thread pool in order to avoid spinning up new threads all the time.
// In particular, thread creation results in a res_init() call from libc which is
// quite expensive.
//
// The pool dynamically grows between 0 and MAX_RESOLVER_THREADS in size. New requests
// go first to an idle thread. If that cannot be found and there are fewer than MAX_RESOLVER_THREADS
// currently in the pool a new thread is created for high priority requests. If
// the new request is at a lower priority a new thread will only be created if
// there are fewer than HighThreadThreshold currently outstanding. If a thread cannot be
// created or an idle thread located for the request it is queued.
//
// When the pool is greater than HighThreadThreshold in size a thread will be destroyed after
// ShortIdleTimeoutSeconds of idle time. Smaller pools use LongIdleTimeoutSeconds for a
// timeout period.
#define HighThreadThreshold MAX_RESOLVER_THREADS_FOR_ANY_PRIORITY
#define LongIdleTimeoutSeconds 300 // for threads 1 -> HighThreadThreshold
#define ShortIdleTimeoutSeconds 60 // for threads HighThreadThreshold+1 -> MAX_RESOLVER_THREADS
PR_STATIC_ASSERT (HighThreadThreshold <= MAX_RESOLVER_THREADS);
//----------------------------------------------------------------------------
#if defined(PR_LOGGING)
static PRLogModuleInfo *gHostResolverLog = nullptr;
#define LOG(args) PR_LOG(gHostResolverLog, PR_LOG_DEBUG, args)
#else
#define LOG(args)
#endif
//----------------------------------------------------------------------------
static inline void
MoveCList(PRCList &from, PRCList &to)
{
if (!PR_CLIST_IS_EMPTY(&from)) {
to.next = from.next;
to.prev = from.prev;
to.next->prev = &to;
to.prev->next = &to;
PR_INIT_CLIST(&from);
}
}
//----------------------------------------------------------------------------
#if defined(RES_RETRY_ON_FAILURE)
// this class represents the resolver state for a given thread. if we
// encounter a lookup failure, then we can invoke the Reset method on an
// instance of this class to reset the resolver (in case /etc/resolv.conf
// for example changed). this is mainly an issue on GNU systems since glibc
// only reads in /etc/resolv.conf once per thread. it may be an issue on
// other systems as well.
class nsResState
{
public:
nsResState()
// initialize mLastReset to the time when this object
// is created. this means that a reset will not occur
// if a thread is too young. the alternative would be
// to initialize this to the beginning of time, so that
// the first failure would cause a reset, but since the
// thread would have just started up, it likely would
// already have current /etc/resolv.conf info.
: mLastReset(PR_IntervalNow())
{
}
bool Reset()
{
// reset no more than once per second
if (PR_IntervalToSeconds(PR_IntervalNow() - mLastReset) < 1)
return false;
LOG(("Calling 'res_ninit'.\n"));
mLastReset = PR_IntervalNow();
return (res_ninit(&_res) == 0);
}
private:
PRIntervalTime mLastReset;
};
#endif // RES_RETRY_ON_FAILURE
//----------------------------------------------------------------------------
static inline bool
IsHighPriority(uint16_t flags)
{
return !(flags & (nsHostResolver::RES_PRIORITY_LOW | nsHostResolver::RES_PRIORITY_MEDIUM));
}
static inline bool
IsMediumPriority(uint16_t flags)
{
return flags & nsHostResolver::RES_PRIORITY_MEDIUM;
}
static inline bool
IsLowPriority(uint16_t flags)
{
return flags & nsHostResolver::RES_PRIORITY_LOW;
}
//----------------------------------------------------------------------------
// this macro filters out any flags that are not used when constructing the
// host key. the significant flags are those that would affect the resulting
// host record (i.e., the flags that are passed down to PR_GetAddrInfoByName).
#define RES_KEY_FLAGS(_f) ((_f) & nsHostResolver::RES_CANON_NAME)
nsHostRecord::nsHostRecord(const nsHostKey *key)
: addr_info_lock("nsHostRecord.addr_info_lock")
, addr_info_gencnt(0)
, addr_info(nullptr)
, addr(nullptr)
, negative(false)
, resolving(false)
, onQueue(false)
, usingAnyThread(false)
, mDoomed(false)
{
host = ((char *) this) + sizeof(nsHostRecord);
memcpy((char *) host, key->host, strlen(key->host) + 1);
flags = key->flags;
af = key->af;
expiration = TimeStamp::NowLoRes();
PR_INIT_CLIST(this);
PR_INIT_CLIST(&callbacks);
}
nsresult
nsHostRecord::Create(const nsHostKey *key, nsHostRecord **result)
{
size_t hostLen = strlen(key->host) + 1;
size_t size = hostLen + sizeof(nsHostRecord);
// Use placement new to create the object with room for the hostname
// allocated after it.
void *place = ::operator new(size);
*result = new(place) nsHostRecord(key);
NS_ADDREF(*result);
MOZ_EVENT_TRACER_NAME_OBJECT(*result, key->host);
return NS_OK;
}
nsHostRecord::~nsHostRecord()
{
delete addr_info;
delete addr;
}
bool
nsHostRecord::Blacklisted(NetAddr *aQuery)
{
// must call locked
LOG(("Checking blacklist for host [%s], host record [%p].\n", host, this));
// skip the string conversion for the common case of no blacklist
if (!mBlacklistedItems.Length()) {
return false;
}
char buf[kIPv6CStrBufSize];
if (!NetAddrToString(aQuery, buf, sizeof(buf))) {
return false;
}
nsDependentCString strQuery(buf);
for (uint32_t i = 0; i < mBlacklistedItems.Length(); i++) {
if (mBlacklistedItems.ElementAt(i).Equals(strQuery)) {
LOG(("Address [%s] is blacklisted for host [%s].\n", buf, host));
return true;
}
}
return false;
}
void
nsHostRecord::ReportUnusable(NetAddr *aAddress)
{
// must call locked
LOG(("Adding address to blacklist for host [%s], host record [%p].\n", host, this));
if (negative)
mDoomed = true;
char buf[kIPv6CStrBufSize];
if (NetAddrToString(aAddress, buf, sizeof(buf))) {
LOG(("Successfully adding address [%s] to blacklist for host [%s].\n", buf, host));
mBlacklistedItems.AppendElement(nsCString(buf));
}
}
void
nsHostRecord::ResetBlacklist()
{
// must call locked
LOG(("Resetting blacklist for host [%s], host record [%p].\n", host, this));
mBlacklistedItems.Clear();
}
bool
nsHostRecord::HasUsableResult(uint16_t queryFlags) const
{
if (mDoomed)
return false;
// don't use cached negative results for high priority queries.
if (negative && IsHighPriority(queryFlags))
return false;
return addr_info || addr || negative;
}
static size_t
SizeOfResolveHostCallbackListExcludingHead(const PRCList *head,
MallocSizeOf mallocSizeOf)
{
size_t n = 0;
PRCList *curr = head->next;
while (curr != head) {
nsResolveHostCallback *callback =
static_cast<nsResolveHostCallback*>(curr);
n += callback->SizeOfIncludingThis(mallocSizeOf);
curr = curr->next;
}
return n;
}
size_t
nsHostRecord::SizeOfIncludingThis(MallocSizeOf mallocSizeOf) const
{
size_t n = mallocSizeOf(this);
// The |host| field (inherited from nsHostKey) actually points to extra
// memory that is allocated beyond the end of the nsHostRecord (see
// nsHostRecord::Create()). So it will be included in the
// |mallocSizeOf(this)| call above.
n += SizeOfResolveHostCallbackListExcludingHead(&callbacks, mallocSizeOf);
n += addr_info ? addr_info->SizeOfIncludingThis(mallocSizeOf) : 0;
n += mallocSizeOf(addr);
n += mBlacklistedItems.SizeOfExcludingThis(mallocSizeOf);
for (size_t i = 0; i < mBlacklistedItems.Length(); i++) {
n += mBlacklistedItems[i].SizeOfExcludingThisMustBeUnshared(mallocSizeOf);
}
return n;
}
//----------------------------------------------------------------------------
struct nsHostDBEnt : PLDHashEntryHdr
{
nsHostRecord *rec;
};
static PLDHashNumber
HostDB_HashKey(PLDHashTable *table, const void *key)
{
const nsHostKey *hk = static_cast<const nsHostKey *>(key);
return AddToHash(HashString(hk->host), RES_KEY_FLAGS(hk->flags), hk->af);
}
static bool
HostDB_MatchEntry(PLDHashTable *table,
const PLDHashEntryHdr *entry,
const void *key)
{
const nsHostDBEnt *he = static_cast<const nsHostDBEnt *>(entry);
const nsHostKey *hk = static_cast<const nsHostKey *>(key);
return !strcmp(he->rec->host, hk->host) &&
RES_KEY_FLAGS (he->rec->flags) == RES_KEY_FLAGS(hk->flags) &&
he->rec->af == hk->af;
}
static void
HostDB_MoveEntry(PLDHashTable *table,
const PLDHashEntryHdr *from,
PLDHashEntryHdr *to)
{
static_cast<nsHostDBEnt *>(to)->rec =
static_cast<const nsHostDBEnt *>(from)->rec;
}
static void
HostDB_ClearEntry(PLDHashTable *table,
PLDHashEntryHdr *entry)
{
nsHostDBEnt *he = static_cast<nsHostDBEnt*>(entry);
MOZ_ASSERT(he, "nsHostDBEnt is null!");
nsHostRecord *hr = he->rec;
MOZ_ASSERT(hr, "nsHostDBEnt has null host record!");
LOG(("Clearing cache db entry for host [%s].\n", hr->host));
#if defined(DEBUG) && defined(PR_LOGGING)
{
MutexAutoLock lock(hr->addr_info_lock);
if (!hr->addr_info) {
LOG(("No address info for host [%s].\n", hr->host));
} else {
TimeDuration diff = hr->expiration - TimeStamp::NowLoRes();
LOG(("Record for [%s] expires in %f seconds.\n", hr->host, diff.ToSeconds()));
NetAddrElement *addrElement = nullptr;
char buf[kIPv6CStrBufSize];
do {
if (!addrElement) {
addrElement = hr->addr_info->mAddresses.getFirst();
} else {
addrElement = addrElement->getNext();
}
if (addrElement) {
NetAddrToString(&addrElement->mAddress, buf, sizeof(buf));
LOG((" [%s]\n", buf));
}
}
while (addrElement);
}
}
#endif
NS_RELEASE(he->rec);
}
static bool
HostDB_InitEntry(PLDHashTable *table,
PLDHashEntryHdr *entry,
const void *key)
{
nsHostDBEnt *he = static_cast<nsHostDBEnt *>(entry);
nsHostRecord::Create(static_cast<const nsHostKey *>(key), &he->rec);
return true;
}
static const PLDHashTableOps gHostDB_ops =
{
PL_DHashAllocTable,
PL_DHashFreeTable,
HostDB_HashKey,
HostDB_MatchEntry,
HostDB_MoveEntry,
HostDB_ClearEntry,
PL_DHashFinalizeStub,
HostDB_InitEntry,
};
static PLDHashOperator
HostDB_RemoveEntry(PLDHashTable *table,
PLDHashEntryHdr *hdr,
uint32_t number,
void *arg)
{
return PL_DHASH_REMOVE;
}
//----------------------------------------------------------------------------
nsHostResolver::nsHostResolver(uint32_t maxCacheEntries,
uint32_t maxCacheLifetime,
uint32_t lifetimeGracePeriod)
: mMaxCacheEntries(maxCacheEntries)
, mMaxCacheLifetime(TimeDuration::FromSeconds(maxCacheLifetime))
, mGracePeriod(TimeDuration::FromSeconds(lifetimeGracePeriod))
, mLock("nsHostResolver.mLock")
, mIdleThreadCV(mLock, "nsHostResolver.mIdleThreadCV")
, mNumIdleThreads(0)
, mThreadCount(0)
, mActiveAnyThreadCount(0)
, mEvictionQSize(0)
, mPendingCount(0)
, mShutdown(true)
{
mCreationTime = PR_Now();
PR_INIT_CLIST(&mHighQ);
PR_INIT_CLIST(&mMediumQ);
PR_INIT_CLIST(&mLowQ);
PR_INIT_CLIST(&mEvictionQ);
mLongIdleTimeout = PR_SecondsToInterval(LongIdleTimeoutSeconds);
mShortIdleTimeout = PR_SecondsToInterval(ShortIdleTimeoutSeconds);
}
nsHostResolver::~nsHostResolver()
{
PL_DHashTableFinish(&mDB);
}
nsresult
nsHostResolver::Init()
{
PL_DHashTableInit(&mDB, &gHostDB_ops, nullptr, sizeof(nsHostDBEnt), 0);
mShutdown = false;
#if defined(HAVE_RES_NINIT)
// We want to make sure the system is using the correct resolver settings,
// so we force it to reload those settings whenever we startup a subsequent
// nsHostResolver instance. We assume that there is no reason to do this
// for the first nsHostResolver instance since that is usually created
// during application startup.
static int initCount = 0;
if (initCount++ > 0) {
LOG(("Calling 'res_ninit'.\n"));
res_ninit(&_res);
}
#endif
return NS_OK;
}
void
nsHostResolver::ClearPendingQueue(PRCList *aPendingQ)
{
// loop through pending queue, erroring out pending lookups.
if (!PR_CLIST_IS_EMPTY(aPendingQ)) {
PRCList *node = aPendingQ->next;
while (node != aPendingQ) {
nsHostRecord *rec = static_cast<nsHostRecord *>(node);
node = node->next;
OnLookupComplete(rec, NS_ERROR_ABORT, nullptr);
}
}
}
void
nsHostResolver::Shutdown()
{
LOG(("Shutting down host resolver.\n"));
PRCList pendingQHigh, pendingQMed, pendingQLow, evictionQ;
PR_INIT_CLIST(&pendingQHigh);
PR_INIT_CLIST(&pendingQMed);
PR_INIT_CLIST(&pendingQLow);
PR_INIT_CLIST(&evictionQ);
{
MutexAutoLock lock(mLock);
mShutdown = true;
MoveCList(mHighQ, pendingQHigh);
MoveCList(mMediumQ, pendingQMed);
MoveCList(mLowQ, pendingQLow);
MoveCList(mEvictionQ, evictionQ);
mEvictionQSize = 0;
mPendingCount = 0;
if (mNumIdleThreads)
mIdleThreadCV.NotifyAll();
// empty host database
PL_DHashTableEnumerate(&mDB, HostDB_RemoveEntry, nullptr);
}
ClearPendingQueue(&pendingQHigh);
ClearPendingQueue(&pendingQMed);
ClearPendingQueue(&pendingQLow);
if (!PR_CLIST_IS_EMPTY(&evictionQ)) {
PRCList *node = evictionQ.next;
while (node != &evictionQ) {
nsHostRecord *rec = static_cast<nsHostRecord *>(node);
node = node->next;
NS_RELEASE(rec);
}
}
#ifdef NS_BUILD_REFCNT_LOGGING
// Logically join the outstanding worker threads with a timeout.
// Use this approach instead of PR_JoinThread() because that does
// not allow a timeout which may be necessary for a semi-responsive
// shutdown if the thread is blocked on a very slow DNS resolution.
// mThreadCount is read outside of mLock, but the worst case
// scenario for that race is one extra 25ms sleep.
PRIntervalTime delay = PR_MillisecondsToInterval(25);
PRIntervalTime stopTime = PR_IntervalNow() + PR_SecondsToInterval(20);
while (mThreadCount && PR_IntervalNow() < stopTime)
PR_Sleep(delay);
#endif
}
void
nsHostResolver::MoveQueue(nsHostRecord *aRec, PRCList &aDestQ)
{
NS_ASSERTION(aRec->onQueue, "Moving Host Record Not Currently Queued");
PR_REMOVE_LINK(aRec);
PR_APPEND_LINK(aRec, &aDestQ);
}
nsresult
nsHostResolver::ResolveHost(const char *host,
uint16_t flags,
uint16_t af,
nsResolveHostCallback *callback)
{
NS_ENSURE_TRUE(host && *host, NS_ERROR_UNEXPECTED);
LOG(("Resolving host [%s]%s.\n",
host, flags & RES_BYPASS_CACHE ? " - bypassing cache" : ""));
// ensure that we are working with a valid hostname before proceeding. see
// bug 304904 for details.
if (!net_IsValidHostName(nsDependentCString(host)))
return NS_ERROR_UNKNOWN_HOST;
// if result is set inside the lock, then we need to issue the
// callback before returning.
nsRefPtr<nsHostRecord> result;
nsresult status = NS_OK, rv = NS_OK;
{
MutexAutoLock lock(mLock);
if (mShutdown)
rv = NS_ERROR_NOT_INITIALIZED;
else {
// Used to try to parse to an IP address literal.
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));
// check to see if there is already an entry for this |host|
// in the hash table. if so, then check to see if we can't
// just reuse the lookup result. otherwise, if there are
// any pending callbacks, then add to pending callbacks queue,
// and return. otherwise, add ourselves as first pending
// callback, and proceed to do the lookup.
nsHostKey key = { host, flags, af };
nsHostDBEnt *he = static_cast<nsHostDBEnt *>
(PL_DHashTableOperate(&mDB, &key, PL_DHASH_ADD));
// if the record is null, then HostDB_InitEntry failed.
if (!he || !he->rec) {
LOG((" Out of memory: no cache entry for [%s].\n", host));
rv = NS_ERROR_OUT_OF_MEMORY;
}
// do we have a cached result that we can reuse?
else if (!(flags & RES_BYPASS_CACHE) &&
he->rec->HasUsableResult(flags) &&
TimeStamp::NowLoRes() <= (he->rec->expiration + mGracePeriod)) {
LOG((" Using cached record for host [%s].\n", host));
// put reference to host record on stack...
result = he->rec;
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2, METHOD_HIT);
// For entries that are in the grace period
// or all cached negative entries, use the cache but start a new
// lookup in the background
ConditionallyRefreshRecord(he->rec, host);
if (he->rec->negative) {
LOG((" Negative cache entry for[%s].\n", host));
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_NEGATIVE_HIT);
status = NS_ERROR_UNKNOWN_HOST;
}
}
// if the host name is an IP address literal and has been parsed,
// go ahead and use it.
else if (he->rec->addr) {
LOG((" Using cached address for IP Literal [%s].\n", host));
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_LITERAL);
result = he->rec;
}
// try parsing the host name as an IP address literal to short
// circuit full host resolution. (this is necessary on some
// platforms like Win9x. see bug 219376 for more details.)
else if (PR_StringToNetAddr(host, &tempAddr) == PR_SUCCESS) {
LOG((" Host is IP Literal [%s].\n", host));
// ok, just copy the result into the host record, and be done
// with it! ;-)
he->rec->addr = new NetAddr();
PRNetAddrToNetAddr(&tempAddr, he->rec->addr);
// put reference to host record on stack...
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_LITERAL);
result = he->rec;
}
else if (mPendingCount >= MAX_NON_PRIORITY_REQUESTS &&
!IsHighPriority(flags) &&
!he->rec->resolving) {
LOG((" Lookup queue full: dropping %s priority request for "
"[%s].\n",
IsMediumPriority(flags) ? "medium" : "low", host));
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_OVERFLOW);
// This is a lower priority request and we are swamped, so refuse it.
rv = NS_ERROR_DNS_LOOKUP_QUEUE_FULL;
}
else if (flags & RES_OFFLINE) {
LOG((" Offline request for [%s]; ignoring.\n", host));
rv = NS_ERROR_OFFLINE;
}
// If this is an IPV4 or IPV6 specific request, check if there is
// an AF_UNSPEC entry we can use. Otherwise, hit the resolver...
else if (!he->rec->resolving) {
if (!(flags & RES_BYPASS_CACHE) &&
((af == PR_AF_INET) || (af == PR_AF_INET6))) {
// First, search for an entry with AF_UNSPEC
const nsHostKey unspecKey = { host, flags, PR_AF_UNSPEC };
nsHostDBEnt *unspecHe = static_cast<nsHostDBEnt *>
(PL_DHashTableOperate(&mDB, &unspecKey, PL_DHASH_LOOKUP));
NS_ASSERTION(PL_DHASH_ENTRY_IS_FREE(unspecHe) ||
(PL_DHASH_ENTRY_IS_BUSY(unspecHe) &&
unspecHe->rec),
"Valid host entries should contain a record");
if (PL_DHASH_ENTRY_IS_BUSY(unspecHe) &&
unspecHe->rec &&
unspecHe->rec->HasUsableResult(flags) &&
TimeStamp::NowLoRes() <= (he->rec->expiration + mGracePeriod)) {
MOZ_ASSERT(unspecHe->rec->addr_info || unspecHe->rec->negative,
"Entry should be resolved or negative.");
LOG((" Trying AF_UNSPEC entry for [%s] af: %s.\n",
host, (af == PR_AF_INET) ? "AF_INET" : "AF_INET6"));
he->rec->addr_info = nullptr;
if (unspecHe->rec->negative) {
he->rec->negative = unspecHe->rec->negative;
} else if (unspecHe->rec->addr_info) {
// Search for any valid address in the AF_UNSPEC entry
// in the cache (not blacklisted and from the right
// family).
NetAddrElement *addrIter =
unspecHe->rec->addr_info->mAddresses.getFirst();
while (addrIter) {
if ((af == addrIter->mAddress.inet.family) &&
!unspecHe->rec->Blacklisted(&addrIter->mAddress)) {
if (!he->rec->addr_info) {
he->rec->addr_info = new AddrInfo(
unspecHe->rec->addr_info->mHostName,
unspecHe->rec->addr_info->mCanonicalName);
}
he->rec->addr_info->AddAddress(
new NetAddrElement(*addrIter));
}
addrIter = addrIter->getNext();
}
}
if (he->rec->HasUsableResult(flags)) {
result = he->rec;
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_HIT);
ConditionallyRefreshRecord(he->rec, host);
}
// For AF_INET6, a new lookup means another AF_UNSPEC
// lookup. We have already iterated through the
// AF_UNSPEC addresses, so we mark this record as
// negative.
else if (af == PR_AF_INET6) {
LOG((" No AF_INET6 in AF_UNSPEC entry: "
"[%s] unknown host", host));
result = he->rec;
he->rec->negative = true;
status = NS_ERROR_UNKNOWN_HOST;
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_NEGATIVE_HIT);
}
}
}
// If no valid address was found in the cache or this is an
// AF_UNSPEC request, then start a new lookup.
if (!result) {
LOG((" No usable address in cache for [%s]", host));
// Add callback to the list of pending callbacks.
PR_APPEND_LINK(callback, &he->rec->callbacks);
he->rec->flags = flags;
rv = IssueLookup(he->rec);
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_NETWORK_FIRST);
if (NS_FAILED(rv)) {
PR_REMOVE_AND_INIT_LINK(callback);
}
else {
LOG((" DNS lookup for host [%s] blocking pending "
"'getaddrinfo' query: callback [%p]",
host, callback));
}
}
}
else {
LOG((" Host [%s] is being resolved. Appending callback [%p].",
host, callback));
PR_APPEND_LINK(callback, &he->rec->callbacks);
if (he->rec->onQueue) {
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_NETWORK_SHARED);
// Consider the case where we are on a pending queue of
// lower priority than the request is being made at.
// In that case we should upgrade to the higher queue.
if (IsHighPriority(flags) &&
!IsHighPriority(he->rec->flags)) {
// Move from (low|med) to high.
MoveQueue(he->rec, mHighQ);
he->rec->flags = flags;
ConditionallyCreateThread(he->rec);
} else if (IsMediumPriority(flags) &&
IsLowPriority(he->rec->flags)) {
// Move from low to med.
MoveQueue(he->rec, mMediumQ);
he->rec->flags = flags;
mIdleThreadCV.Notify();
}
}
}
}
}
if (result)
callback->OnLookupComplete(this, result, status);
return rv;
}
void
nsHostResolver::DetachCallback(const char *host,
uint16_t flags,
uint16_t af,
nsResolveHostCallback *callback,
nsresult status)
{
nsRefPtr<nsHostRecord> rec;
{
MutexAutoLock lock(mLock);
nsHostKey key = { host, flags, af };
nsHostDBEnt *he = static_cast<nsHostDBEnt *>
(PL_DHashTableOperate(&mDB, &key, PL_DHASH_LOOKUP));
if (he && he->rec) {
// walk list looking for |callback|... we cannot assume
// that it will be there!
PRCList *node = he->rec->callbacks.next;
while (node != &he->rec->callbacks) {
if (static_cast<nsResolveHostCallback *>(node) == callback) {
PR_REMOVE_LINK(callback);
rec = he->rec;
break;
}
node = node->next;
}
}
}
// complete callback with the given status code; this would only be done if
// the record was in the process of being resolved.
if (rec)
callback->OnLookupComplete(this, rec, status);
}
nsresult
nsHostResolver::ConditionallyCreateThread(nsHostRecord *rec)
{
if (mNumIdleThreads) {
// wake up idle thread to process this lookup
mIdleThreadCV.Notify();
}
else if ((mThreadCount < HighThreadThreshold) ||
(IsHighPriority(rec->flags) && mThreadCount < MAX_RESOLVER_THREADS)) {
// dispatch new worker thread
NS_ADDREF_THIS(); // owning reference passed to thread
mThreadCount++;
PRThread *thr = PR_CreateThread(PR_SYSTEM_THREAD,
ThreadFunc,
this,
PR_PRIORITY_NORMAL,
PR_GLOBAL_THREAD,
PR_UNJOINABLE_THREAD,
0);
if (!thr) {
mThreadCount--;
NS_RELEASE_THIS();
return NS_ERROR_OUT_OF_MEMORY;
}
}
#if defined(PR_LOGGING)
else
LOG((" Unable to find a thread for looking up host [%s].\n", rec->host));
#endif
return NS_OK;
}
nsresult
nsHostResolver::IssueLookup(nsHostRecord *rec)
{
MOZ_EVENT_TRACER_WAIT(rec, "net::dns::resolve");
nsresult rv = NS_OK;
NS_ASSERTION(!rec->resolving, "record is already being resolved");
// Add rec to one of the pending queues, possibly removing it from mEvictionQ.
// If rec is on mEvictionQ, then we can just move the owning
// reference over to the new active queue.
if (rec->next == rec)
NS_ADDREF(rec);
else {
PR_REMOVE_LINK(rec);
mEvictionQSize--;
}
if (IsHighPriority(rec->flags))
PR_APPEND_LINK(rec, &mHighQ);
else if (IsMediumPriority(rec->flags))
PR_APPEND_LINK(rec, &mMediumQ);
else
PR_APPEND_LINK(rec, &mLowQ);
mPendingCount++;
rec->resolving = true;
rec->onQueue = true;
rv = ConditionallyCreateThread(rec);
LOG ((" DNS thread counters: total=%d any-live=%d idle=%d pending=%d\n",
mThreadCount,
mActiveAnyThreadCount,
mNumIdleThreads,
mPendingCount));
return rv;
}
nsresult
nsHostResolver::ConditionallyRefreshRecord(nsHostRecord *rec, const char *host)
{
if (((TimeStamp::NowLoRes() > rec->expiration) || rec->negative) &&
!rec->resolving) {
LOG((" Using %s cache entry for host [%s] but starting async renewal.",
rec->negative ? "negative" :"positive", host));
IssueLookup(rec);
if (!rec->negative) {
// negative entries are constantly being refreshed, only
// track positive grace period induced renewals
Telemetry::Accumulate(Telemetry::DNS_LOOKUP_METHOD2,
METHOD_RENEWAL);
}
}
return NS_OK;
}
void
nsHostResolver::DeQueue(PRCList &aQ, nsHostRecord **aResult)
{
*aResult = static_cast<nsHostRecord *>(aQ.next);
PR_REMOVE_AND_INIT_LINK(*aResult);
mPendingCount--;
(*aResult)->onQueue = false;
}
bool
nsHostResolver::GetHostToLookup(nsHostRecord **result)
{
bool timedOut = false;
PRIntervalTime epoch, now, timeout;
MutexAutoLock lock(mLock);
timeout = (mNumIdleThreads >= HighThreadThreshold) ? mShortIdleTimeout : mLongIdleTimeout;
epoch = PR_IntervalNow();
while (!mShutdown) {
// remove next record from Q; hand over owning reference. Check high, then med, then low
if (!PR_CLIST_IS_EMPTY(&mHighQ)) {
DeQueue (mHighQ, result);
return true;
}
if (mActiveAnyThreadCount < HighThreadThreshold) {
if (!PR_CLIST_IS_EMPTY(&mMediumQ)) {
DeQueue (mMediumQ, result);
mActiveAnyThreadCount++;
(*result)->usingAnyThread = true;
return true;
}
if (!PR_CLIST_IS_EMPTY(&mLowQ)) {
DeQueue (mLowQ, result);
mActiveAnyThreadCount++;
(*result)->usingAnyThread = true;
return true;
}
}
// Determining timeout is racy, so allow one cycle through checking the queues
// before exiting.
if (timedOut)
break;
// wait for one or more of the following to occur:
// (1) the pending queue has a host record to process
// (2) the shutdown flag has been set
// (3) the thread has been idle for too long
mNumIdleThreads++;
mIdleThreadCV.Wait(timeout);
mNumIdleThreads--;
now = PR_IntervalNow();
if ((PRIntervalTime)(now - epoch) >= timeout)
timedOut = true;
else {
// It is possible that PR_WaitCondVar() was interrupted and returned early,
// in which case we will loop back and re-enter it. In that case we want to
// do so with the new timeout reduced to reflect time already spent waiting.
timeout -= (PRIntervalTime)(now - epoch);
epoch = now;
}
}
// tell thread to exit...
mThreadCount--;
return false;
}
void
nsHostResolver::OnLookupComplete(nsHostRecord *rec, nsresult status, AddrInfo *result)
{
// get the list of pending callbacks for this lookup, and notify
// them that the lookup is complete.
PRCList cbs;
PR_INIT_CLIST(&cbs);
{
MutexAutoLock lock(mLock);
// grab list of callbacks to notify
MoveCList(rec->callbacks, cbs);
// update record fields. We might have a rec->addr_info already if a
// previous lookup result expired and we're reresolving it..
AddrInfo *old_addr_info;
{
MutexAutoLock lock(rec->addr_info_lock);
old_addr_info = rec->addr_info;
rec->addr_info = result;
rec->addr_info_gencnt++;
}
delete old_addr_info;
rec->expiration = TimeStamp::NowLoRes();
if (result) {
rec->expiration += mMaxCacheLifetime;
rec->negative = false;
}
else {
rec->expiration += TimeDuration::FromSeconds(60); /* one minute for negative cache */
rec->negative = true;
}
rec->resolving = false;
if (rec->usingAnyThread) {
mActiveAnyThreadCount--;
rec->usingAnyThread = false;
}
if (!mShutdown) {
// add to mEvictionQ
PR_APPEND_LINK(rec, &mEvictionQ);
NS_ADDREF(rec);
if (mEvictionQSize < mMaxCacheEntries)
mEvictionQSize++;
else {
// remove first element on mEvictionQ
nsHostRecord *head =
static_cast<nsHostRecord *>(PR_LIST_HEAD(&mEvictionQ));
PR_REMOVE_AND_INIT_LINK(head);
PL_DHashTableOperate(&mDB, (nsHostKey *) head, PL_DHASH_REMOVE);
if (!head->negative) {
// record the age of the entry upon eviction.
TimeDuration age = TimeStamp::NowLoRes() -
(head->expiration - mMaxCacheLifetime);
Telemetry::Accumulate(Telemetry::DNS_CLEANUP_AGE,
static_cast<uint32_t>(age.ToSeconds() / 60));
}
// release reference to rec owned by mEvictionQ
NS_RELEASE(head);
}
}
}
MOZ_EVENT_TRACER_DONE(rec, "net::dns::resolve");
if (!PR_CLIST_IS_EMPTY(&cbs)) {
PRCList *node = cbs.next;
while (node != &cbs) {
nsResolveHostCallback *callback =
static_cast<nsResolveHostCallback *>(node);
node = node->next;
callback->OnLookupComplete(this, rec, status);
// NOTE: callback must not be dereferenced after this point!!
}
}
NS_RELEASE(rec);
}
void
nsHostResolver::CancelAsyncRequest(const char *host,
uint16_t flags,
uint16_t af,
nsIDNSListener *aListener,
nsresult status)
{
MutexAutoLock lock(mLock);
// Lookup the host record associated with host, flags & address family
nsHostKey key = { host, flags, af };
nsHostDBEnt *he = static_cast<nsHostDBEnt *>
(PL_DHashTableOperate(&mDB, &key, PL_DHASH_LOOKUP));
if (he && he->rec) {
nsHostRecord* recPtr = nullptr;
PRCList *node = he->rec->callbacks.next;
// Remove the first nsDNSAsyncRequest callback which matches the
// supplied listener object
while (node != &he->rec->callbacks) {
nsResolveHostCallback *callback
= static_cast<nsResolveHostCallback *>(node);
if (callback && (callback->EqualsAsyncListener(aListener))) {
// Remove from the list of callbacks
PR_REMOVE_LINK(callback);
recPtr = he->rec;
callback->OnLookupComplete(this, recPtr, status);
break;
}
node = node->next;
}
// If there are no more callbacks, remove the hash table entry
if (recPtr && PR_CLIST_IS_EMPTY(&recPtr->callbacks)) {
PL_DHashTableOperate(&mDB, (nsHostKey *)recPtr, PL_DHASH_REMOVE);
// If record is on a Queue, remove it and then deref it
if (recPtr->next != recPtr) {
PR_REMOVE_LINK(recPtr);
NS_RELEASE(recPtr);
}
}
}
}
static size_t
SizeOfHostDBEntExcludingThis(PLDHashEntryHdr* hdr, MallocSizeOf mallocSizeOf,
void*)
{
nsHostDBEnt* ent = static_cast<nsHostDBEnt*>(hdr);
return ent->rec->SizeOfIncludingThis(mallocSizeOf);
}
size_t
nsHostResolver::SizeOfIncludingThis(MallocSizeOf mallocSizeOf) const
{
MutexAutoLock lock(mLock);
size_t n = mallocSizeOf(this);
n += PL_DHashTableSizeOfExcludingThis(&mDB, SizeOfHostDBEntExcludingThis,
mallocSizeOf);
// The following fields aren't measured.
// - mHighQ, mMediumQ, mLowQ, mEvictionQ, because they just point to
// nsHostRecords that also pointed to by entries |mDB|, and measured when
// |mDB| is measured.
return n;
}
void
nsHostResolver::ThreadFunc(void *arg)
{
LOG(("DNS lookup thread - starting execution.\n"));
static nsThreadPoolNaming naming;
naming.SetThreadPoolName(NS_LITERAL_CSTRING("DNS Resolver"));
#if defined(RES_RETRY_ON_FAILURE)
nsResState rs;
#endif
nsHostResolver *resolver = (nsHostResolver *)arg;
nsHostRecord *rec;
PRAddrInfo *prai = nullptr;
while (resolver->GetHostToLookup(&rec)) {
LOG(("DNS lookup thread - Calling getaddrinfo for host [%s].\n",
rec->host));
int flags = PR_AI_ADDRCONFIG;
if (!(rec->flags & RES_CANON_NAME))
flags |= PR_AI_NOCANONNAME;
TimeStamp startTime = TimeStamp::Now();
MOZ_EVENT_TRACER_EXEC(rec, "net::dns::resolve");
// We need to remove IPv4 records manually
// because PR_GetAddrInfoByName doesn't support PR_AF_INET6.
bool disableIPv4 = rec->af == PR_AF_INET6;
uint16_t af = disableIPv4 ? PR_AF_UNSPEC : rec->af;
prai = PR_GetAddrInfoByName(rec->host, af, flags);
#if defined(RES_RETRY_ON_FAILURE)
if (!prai && rs.Reset())
prai = PR_GetAddrInfoByName(rec->host, af, flags);
#endif
TimeDuration elapsed = TimeStamp::Now() - startTime;
uint32_t millis = static_cast<uint32_t>(elapsed.ToMilliseconds());
// convert error code to nsresult
nsresult status;
AddrInfo *ai = nullptr;
if (prai) {
const char *cname = nullptr;
if (rec->flags & RES_CANON_NAME)
cname = PR_GetCanonNameFromAddrInfo(prai);
ai = new AddrInfo(rec->host, prai, disableIPv4, cname);
PR_FreeAddrInfo(prai);
if (ai->mAddresses.isEmpty()) {
delete ai;
ai = nullptr;
}
}
if (ai) {
status = NS_OK;
Telemetry::Accumulate(!rec->addr_info_gencnt ?
Telemetry::DNS_LOOKUP_TIME :
Telemetry::DNS_RENEWAL_TIME,
millis);
}
else {
status = NS_ERROR_UNKNOWN_HOST;
Telemetry::Accumulate(Telemetry::DNS_FAILED_LOOKUP_TIME, millis);
}
// OnLookupComplete may release "rec", log before we lose it.
LOG(("DNS lookup thread - lookup completed for host [%s]: %s.\n",
rec->host, ai ? "success" : "failure: unknown host"));
resolver->OnLookupComplete(rec, status, ai);
}
NS_RELEASE(resolver);
LOG(("DNS lookup thread - queue empty, thread finished.\n"));
}
nsresult
nsHostResolver::Create(uint32_t maxCacheEntries,
uint32_t maxCacheLifetime,
uint32_t lifetimeGracePeriod,
nsHostResolver **result)
{
#if defined(PR_LOGGING)
if (!gHostResolverLog)
gHostResolverLog = PR_NewLogModule("nsHostResolver");
#endif
nsHostResolver *res = new nsHostResolver(maxCacheEntries,
maxCacheLifetime,
lifetimeGracePeriod);
if (!res)
return NS_ERROR_OUT_OF_MEMORY;
NS_ADDREF(res);
nsresult rv = res->Init();
if (NS_FAILED(rv))
NS_RELEASE(res);
*result = res;
return rv;
}
PLDHashOperator
CacheEntryEnumerator(PLDHashTable *table, PLDHashEntryHdr *entry,
uint32_t number, void *arg)
{
// We don't pay attention to address literals, only resolved domains.
// Also require a host.
nsHostRecord *rec = static_cast<nsHostDBEnt*>(entry)->rec;
MOZ_ASSERT(rec, "rec should never be null here!");
if (!rec || !rec->addr_info || !rec->host) {
return PL_DHASH_NEXT;
}
DNSCacheEntries info;
info.hostname = rec->host;
info.family = rec->af;
info.expiration = (int64_t)(rec->expiration - TimeStamp::NowLoRes()).ToSeconds();
if (info.expiration <= 0) {
// We only need valid DNS cache entries
return PL_DHASH_NEXT;
}
{
MutexAutoLock lock(rec->addr_info_lock);
NetAddr *addr = nullptr;
NetAddrElement *addrElement = rec->addr_info->mAddresses.getFirst();
if (addrElement) {
addr = &addrElement->mAddress;
}
while (addr) {
char buf[kIPv6CStrBufSize];
if (NetAddrToString(addr, buf, sizeof(buf))) {
info.hostaddr.AppendElement(buf);
}
addr = nullptr;
addrElement = addrElement->getNext();
if (addrElement) {
addr = &addrElement->mAddress;
}
}
}
nsTArray<DNSCacheEntries> *args = static_cast<nsTArray<DNSCacheEntries> *>(arg);
args->AppendElement(info);
return PL_DHASH_NEXT;
}
void
nsHostResolver::GetDNSCacheEntries(nsTArray<DNSCacheEntries> *args)
{
PL_DHashTableEnumerate(&mDB, CacheEntryEnumerator, args);
}
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