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|
// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/base/host_resolver_impl.h"
#if defined(OS_WIN)
#include <ws2tcpip.h>
#include <wspiapi.h> // Needed for Win2k compat.
#elif defined(OS_POSIX)
#include <netdb.h>
#include <sys/socket.h>
#endif
#if defined(OS_LINUX)
#include <resolv.h>
#endif
#include "base/compiler_specific.h"
#include "base/debug_util.h"
#include "base/message_loop.h"
#include "base/stl_util-inl.h"
#include "base/string_util.h"
#include "base/time.h"
#include "base/worker_pool.h"
#include "net/base/address_list.h"
#include "net/base/host_resolver_proc.h"
#include "net/base/load_log.h"
#include "net/base/net_errors.h"
#if defined(OS_WIN)
#include "net/base/winsock_init.h"
#endif
namespace net {
HostResolver* CreateSystemHostResolver() {
static const size_t kMaxHostCacheEntries = 100;
static const size_t kHostCacheExpirationMs = 60000; // 1 minute.
return new HostResolverImpl(
NULL, kMaxHostCacheEntries, kHostCacheExpirationMs);
}
static int ResolveAddrInfo(HostResolverProc* resolver_proc,
const std::string& host, AddressList* out) {
if (resolver_proc) {
// Use the custom procedure.
return resolver_proc->Resolve(host, out);
} else {
// Use the system procedure (getaddrinfo).
return SystemHostResolverProc(host, out);
}
}
//-----------------------------------------------------------------------------
class HostResolverImpl::Request {
public:
Request(LoadLog* load_log,
int id,
const RequestInfo& info,
CompletionCallback* callback,
AddressList* addresses)
: load_log_(load_log),
id_(id),
info_(info),
job_(NULL),
callback_(callback),
addresses_(addresses) {
}
// Mark the request as cancelled.
void MarkAsCancelled() {
job_ = NULL;
callback_ = NULL;
addresses_ = NULL;
}
bool was_cancelled() const {
return callback_ == NULL;
}
void set_job(Job* job) {
DCHECK(job != NULL);
// Identify which job the request is waiting on.
job_ = job;
}
void OnComplete(int error, const AddressList& addrlist) {
if (error == OK)
addresses_->SetFrom(addrlist, port());
callback_->Run(error);
}
int port() const {
return info_.port();
}
Job* job() const {
return job_;
}
LoadLog* load_log() const {
return load_log_;
}
int id() const {
return id_;
}
const RequestInfo& info() const {
return info_;
}
private:
scoped_refptr<LoadLog> load_log_;
// Unique ID for this request. Used by observers to identify requests.
int id_;
// The request info that started the request.
RequestInfo info_;
// The resolve job (running in worker pool) that this request is dependent on.
Job* job_;
// The user's callback to invoke when the request completes.
CompletionCallback* callback_;
// The address list to save result into.
AddressList* addresses_;
DISALLOW_COPY_AND_ASSIGN(Request);
};
//-----------------------------------------------------------------------------
// This class represents a request to the worker pool for a "getaddrinfo()"
// call.
class HostResolverImpl::Job
: public base::RefCountedThreadSafe<HostResolverImpl::Job> {
public:
Job(HostResolverImpl* resolver, const std::string& host)
: host_(host),
resolver_(resolver),
origin_loop_(MessageLoop::current()),
resolver_proc_(resolver->effective_resolver_proc()),
error_(OK) {
}
~Job() {
// Free the requests attached to this job.
STLDeleteElements(&requests_);
}
// Attaches a request to this job. The job takes ownership of |req| and will
// take care to delete it.
void AddRequest(Request* req) {
req->set_job(this);
requests_.push_back(req);
}
// Called from origin loop.
void Start() {
// Dispatch the job to a worker thread.
if (!WorkerPool::PostTask(FROM_HERE,
NewRunnableMethod(this, &Job::DoLookup), true)) {
NOTREACHED();
// Since we could be running within Resolve() right now, we can't just
// call OnLookupComplete(). Instead we must wait until Resolve() has
// returned (IO_PENDING).
error_ = ERR_UNEXPECTED;
MessageLoop::current()->PostTask(
FROM_HERE, NewRunnableMethod(this, &Job::OnLookupComplete));
}
}
// Cancels the current job. Callable from origin thread.
void Cancel() {
HostResolver* resolver = resolver_;
resolver_ = NULL;
// Mark the job as cancelled, so when worker thread completes it will
// not try to post completion to origin loop.
{
AutoLock locked(origin_loop_lock_);
origin_loop_ = NULL;
}
// We don't have to do anything further to actually cancel the requests
// that were attached to this job (since they are unreachable now).
// But we will call HostResolverImpl::CancelRequest(Request*) on each one
// in order to notify any observers.
for (RequestsList::const_iterator it = requests_.begin();
it != requests_.end(); ++it) {
HostResolverImpl::Request* req = *it;
if (!req->was_cancelled())
resolver->CancelRequest(req);
}
}
// Called from origin thread.
bool was_cancelled() const {
return resolver_ == NULL;
}
// Called from origin thread.
const std::string& host() const {
return host_;
}
// Called from origin thread.
const RequestsList& requests() const {
return requests_;
}
private:
void DoLookup() {
// Running on the worker thread
error_ = ResolveAddrInfo(resolver_proc_, host_, &results_);
Task* reply = NewRunnableMethod(this, &Job::OnLookupComplete);
// The origin loop could go away while we are trying to post to it, so we
// need to call its PostTask method inside a lock. See ~HostResolver.
{
AutoLock locked(origin_loop_lock_);
if (origin_loop_) {
origin_loop_->PostTask(FROM_HERE, reply);
reply = NULL;
}
}
// Does nothing if it got posted.
delete reply;
}
// Callback for when DoLookup() completes (runs on origin thread).
void OnLookupComplete() {
// Should be running on origin loop.
// TODO(eroman): this is being hit by URLRequestTest.CancelTest*,
// because MessageLoop::current() == NULL.
//DCHECK_EQ(origin_loop_, MessageLoop::current());
DCHECK(error_ || results_.head());
if (was_cancelled())
return;
DCHECK(!requests_.empty());
// Use the port number of the first request.
if (error_ == OK)
results_.SetPort(requests_[0]->port());
resolver_->OnJobComplete(this, error_, results_);
}
// Set on the origin thread, read on the worker thread.
std::string host_;
// Only used on the origin thread (where Resolve was called).
HostResolverImpl* resolver_;
RequestsList requests_; // The requests waiting on this job.
// Used to post ourselves onto the origin thread.
Lock origin_loop_lock_;
MessageLoop* origin_loop_;
// Hold an owning reference to the HostResolverProc that we are going to use.
// This may not be the current resolver procedure by the time we call
// ResolveAddrInfo, but that's OK... we'll use it anyways, and the owning
// reference ensures that it remains valid until we are done.
scoped_refptr<HostResolverProc> resolver_proc_;
// Assigned on the worker thread, read on the origin thread.
int error_;
AddressList results_;
DISALLOW_COPY_AND_ASSIGN(Job);
};
//-----------------------------------------------------------------------------
HostResolverImpl::HostResolverImpl(HostResolverProc* resolver_proc,
int max_cache_entries,
int cache_duration_ms)
: cache_(max_cache_entries, cache_duration_ms), next_request_id_(0),
resolver_proc_(resolver_proc), shutdown_(false) {
#if defined(OS_WIN)
EnsureWinsockInit();
#endif
}
HostResolverImpl::~HostResolverImpl() {
// Cancel the outstanding jobs. Those jobs may contain several attached
// requests, which will also be cancelled.
for (JobMap::iterator it = jobs_.begin(); it != jobs_.end(); ++it)
it->second->Cancel();
// In case we are being deleted during the processing of a callback.
if (cur_completing_job_)
cur_completing_job_->Cancel();
}
// TODO(eroman): Don't create cache entries for hostnames which are simply IP
// address literals.
int HostResolverImpl::Resolve(const RequestInfo& info,
AddressList* addresses,
CompletionCallback* callback,
RequestHandle* out_req,
LoadLog* load_log) {
if (shutdown_)
return ERR_UNEXPECTED;
// Choose a unique ID number for observers to see.
int request_id = next_request_id_++;
// Update the load log and notify registered observers.
OnStartRequest(load_log, request_id, info);
// If we have an unexpired cache entry, use it.
if (info.allow_cached_response()) {
const HostCache::Entry* cache_entry = cache_.Lookup(
info.hostname(), base::TimeTicks::Now());
if (cache_entry) {
addresses->SetFrom(cache_entry->addrlist, info.port());
int error = cache_entry->error;
// Update the load log and notify registered observers.
OnFinishRequest(load_log, request_id, info, error);
return error;
}
}
// If no callback was specified, do a synchronous resolution.
if (!callback) {
AddressList addrlist;
int error = ResolveAddrInfo(
effective_resolver_proc(), info.hostname(), &addrlist);
if (error == OK) {
addrlist.SetPort(info.port());
*addresses = addrlist;
}
// Write to cache.
cache_.Set(info.hostname(), error, addrlist, base::TimeTicks::Now());
// Update the load log and notify registered observers.
OnFinishRequest(load_log, request_id, info, error);
return error;
}
// Create a handle for this request, and pass it back to the user if they
// asked for it (out_req != NULL).
Request* req = new Request(load_log, request_id, info, callback, addresses);
if (out_req)
*out_req = reinterpret_cast<RequestHandle>(req);
// Next we need to attach our request to a "job". This job is responsible for
// calling "getaddrinfo(hostname)" on a worker thread.
scoped_refptr<Job> job;
// If there is already an outstanding job to resolve |info.hostname()|, use
// it. This prevents starting concurrent resolves for the same hostname.
job = FindOutstandingJob(info.hostname());
if (job) {
job->AddRequest(req);
} else {
// Create a new job for this request.
job = new Job(this, info.hostname());
job->AddRequest(req);
AddOutstandingJob(job);
// TODO(eroman): Bound the total number of concurrent jobs.
// http://crbug.com/9598
job->Start();
}
// Completion happens during OnJobComplete(Job*).
return ERR_IO_PENDING;
}
// See OnJobComplete(Job*) for why it is important not to clean out
// cancelled requests from Job::requests_.
void HostResolverImpl::CancelRequest(RequestHandle req_handle) {
if (shutdown_) {
// TODO(eroman): temp hack for: http://crbug.com/18373
// Because we destroy outstanding requests during Shutdown(),
// |req_handle| is already cancelled.
LOG(ERROR) << "Called HostResolverImpl::CancelRequest() after Shutdown().";
StackTrace().PrintBacktrace();
return;
}
Request* req = reinterpret_cast<Request*>(req_handle);
DCHECK(req);
DCHECK(req->job());
// NULL out the fields of req, to mark it as cancelled.
req->MarkAsCancelled();
OnCancelRequest(req->load_log(), req->id(), req->info());
}
void HostResolverImpl::AddObserver(Observer* observer) {
observers_.push_back(observer);
}
void HostResolverImpl::RemoveObserver(Observer* observer) {
ObserversList::iterator it =
std::find(observers_.begin(), observers_.end(), observer);
// Observer must exist.
DCHECK(it != observers_.end());
observers_.erase(it);
}
HostCache* HostResolverImpl::GetHostCache() {
return &cache_;
}
void HostResolverImpl::Shutdown() {
shutdown_ = true;
// Cancel the outstanding jobs.
for (JobMap::iterator it = jobs_.begin(); it != jobs_.end(); ++it)
it->second->Cancel();
jobs_.clear();
}
void HostResolverImpl::AddOutstandingJob(Job* job) {
scoped_refptr<Job>& found_job = jobs_[job->host()];
DCHECK(!found_job);
found_job = job;
}
HostResolverImpl::Job* HostResolverImpl::FindOutstandingJob(
const std::string& hostname) {
JobMap::iterator it = jobs_.find(hostname);
if (it != jobs_.end())
return it->second;
return NULL;
}
void HostResolverImpl::RemoveOutstandingJob(Job* job) {
JobMap::iterator it = jobs_.find(job->host());
DCHECK(it != jobs_.end());
DCHECK_EQ(it->second.get(), job);
jobs_.erase(it);
}
void HostResolverImpl::OnJobComplete(Job* job,
int error,
const AddressList& addrlist) {
RemoveOutstandingJob(job);
// Write result to the cache.
cache_.Set(job->host(), error, addrlist, base::TimeTicks::Now());
// Make a note that we are executing within OnJobComplete() in case the
// HostResolver is deleted by a callback invocation.
DCHECK(!cur_completing_job_);
cur_completing_job_ = job;
// Complete all of the requests that were attached to the job.
for (RequestsList::const_iterator it = job->requests().begin();
it != job->requests().end(); ++it) {
Request* req = *it;
if (!req->was_cancelled()) {
DCHECK_EQ(job, req->job());
// Update the load log and notify registered observers.
OnFinishRequest(req->load_log(), req->id(), req->info(), error);
req->OnComplete(error, addrlist);
// Check if the job was cancelled as a result of running the callback.
// (Meaning that |this| was deleted).
if (job->was_cancelled())
return;
}
}
cur_completing_job_ = NULL;
}
void HostResolverImpl::OnStartRequest(LoadLog* load_log,
int request_id,
const RequestInfo& info) {
LoadLog::BeginEvent(load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL);
// Notify the observers of the start.
if (!observers_.empty()) {
LoadLog::BeginEvent(
load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL_OBSERVER_ONSTART);
for (ObserversList::iterator it = observers_.begin();
it != observers_.end(); ++it) {
(*it)->OnStartResolution(request_id, info);
}
LoadLog::EndEvent(
load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL_OBSERVER_ONSTART);
}
}
void HostResolverImpl::OnFinishRequest(LoadLog* load_log,
int request_id,
const RequestInfo& info,
int error) {
// Notify the observers of the completion.
if (!observers_.empty()) {
LoadLog::BeginEvent(
load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL_OBSERVER_ONFINISH);
bool was_resolved = error == OK;
for (ObserversList::iterator it = observers_.begin();
it != observers_.end(); ++it) {
(*it)->OnFinishResolutionWithStatus(request_id, was_resolved, info);
}
LoadLog::EndEvent(
load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL_OBSERVER_ONFINISH);
}
LoadLog::EndEvent(load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL);
}
void HostResolverImpl::OnCancelRequest(LoadLog* load_log,
int request_id,
const RequestInfo& info) {
LoadLog::AddEvent(load_log, LoadLog::TYPE_CANCELLED);
// Notify the observers of the cancellation.
if (!observers_.empty()) {
LoadLog::BeginEvent(
load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL_OBSERVER_ONCANCEL);
for (ObserversList::iterator it = observers_.begin();
it != observers_.end(); ++it) {
(*it)->OnCancelResolution(request_id, info);
}
LoadLog::EndEvent(
load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL_OBSERVER_ONCANCEL);
}
LoadLog::EndEvent(load_log, LoadLog::TYPE_HOST_RESOLVER_IMPL);
}
} // namespace net
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