net/socket/websocket_endpoint_lock_manager.cc - cobalt - Git at Google

 // Copyright 2014 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "net/socket/websocket_endpoint_lock_manager.h"

 #include <memory>
 #include <utility>

 #include "base/functional/bind.h"
 #include "base/location.h"
 #include "base/logging.h"
 #include "base/task/single_thread_task_runner.h"
 #include "net/base/net_errors.h"

 namespace net {

 namespace {

 // This delay prevents DoS attacks.
 // TODO(ricea): Replace this with randomised truncated exponential backoff.
 // See crbug.com/377613.
 const int kUnlockDelayInMs = 10;

 }  // namespace

 WebSocketEndpointLockManager::Waiter::~Waiter() {
   if (next()) {
     DCHECK(previous());
     RemoveFromList();
   }
 }

 WebSocketEndpointLockManager::LockReleaser::LockReleaser(
     WebSocketEndpointLockManager* websocket_endpoint_lock_manager,
     IPEndPoint endpoint)
     : websocket_endpoint_lock_manager_(websocket_endpoint_lock_manager),
       endpoint_(endpoint) {
   websocket_endpoint_lock_manager->RegisterLockReleaser(this, endpoint);
 }

 WebSocketEndpointLockManager::LockReleaser::~LockReleaser() {
   if (websocket_endpoint_lock_manager_) {
     websocket_endpoint_lock_manager_->UnlockEndpoint(endpoint_);
   }
 }

 WebSocketEndpointLockManager::WebSocketEndpointLockManager()
     : unlock_delay_(base::Milliseconds(kUnlockDelayInMs)) {}

 WebSocketEndpointLockManager::~WebSocketEndpointLockManager() {
   DCHECK_EQ(lock_info_map_.size(), pending_unlock_count_);
 }

 int WebSocketEndpointLockManager::LockEndpoint(const IPEndPoint& endpoint,
                                                Waiter* waiter) {
   LockInfoMap::value_type insert_value(endpoint, LockInfo());
   std::pair<LockInfoMap::iterator, bool> rv =
       lock_info_map_.insert(insert_value);
   LockInfo& lock_info_in_map = rv.first->second;
   if (rv.second) {
     DVLOG(3) << "Locking endpoint " << endpoint.ToString();
     lock_info_in_map.queue = std::make_unique<LockInfo::WaiterQueue>();
     return OK;
   }
   DVLOG(3) << "Waiting for endpoint " << endpoint.ToString();
   lock_info_in_map.queue->Append(waiter);
   return ERR_IO_PENDING;
 }

 void WebSocketEndpointLockManager::UnlockEndpoint(const IPEndPoint& endpoint) {
   auto lock_info_it = lock_info_map_.find(endpoint);
   if (lock_info_it == lock_info_map_.end())
     return;
   LockReleaser* lock_releaser = lock_info_it->second.lock_releaser;
   if (lock_releaser) {
     lock_info_it->second.lock_releaser = nullptr;
     lock_releaser->websocket_endpoint_lock_manager_ = nullptr;
   }
   UnlockEndpointAfterDelay(endpoint);
 }

 bool WebSocketEndpointLockManager::IsEmpty() const {
   return lock_info_map_.empty();
 }

 base::TimeDelta WebSocketEndpointLockManager::SetUnlockDelayForTesting(
     base::TimeDelta new_delay) {
   base::TimeDelta old_delay = unlock_delay_;
   unlock_delay_ = new_delay;
   return old_delay;
 }

 WebSocketEndpointLockManager::LockInfo::LockInfo() : lock_releaser(nullptr) {}
 WebSocketEndpointLockManager::LockInfo::~LockInfo() {
   DCHECK(!lock_releaser);
 }

 WebSocketEndpointLockManager::LockInfo::LockInfo(const LockInfo& rhs)
     : lock_releaser(rhs.lock_releaser) {
   DCHECK(!rhs.queue);
 }

 void WebSocketEndpointLockManager::RegisterLockReleaser(
     LockReleaser* lock_releaser,
     IPEndPoint endpoint) {
   DCHECK(lock_releaser);
   auto lock_info_it = lock_info_map_.find(endpoint);
   CHECK(lock_info_it != lock_info_map_.end());
   DCHECK(!lock_info_it->second.lock_releaser);
   lock_info_it->second.lock_releaser = lock_releaser;
   DVLOG(3) << "Registered (LockReleaser*)" << lock_releaser << " for "
            << endpoint.ToString();
 }

 void WebSocketEndpointLockManager::UnlockEndpointAfterDelay(
     const IPEndPoint& endpoint) {
   DVLOG(3) << "Delaying " << unlock_delay_.InMilliseconds()
            << "ms before unlocking endpoint " << endpoint.ToString();
   ++pending_unlock_count_;
   base::SingleThreadTaskRunner::GetCurrentDefault()->PostDelayedTask(
       FROM_HERE,
       base::BindOnce(&WebSocketEndpointLockManager::DelayedUnlockEndpoint,
                      weak_factory_.GetWeakPtr(), endpoint),
       unlock_delay_);
 }

 void WebSocketEndpointLockManager::DelayedUnlockEndpoint(
     const IPEndPoint& endpoint) {
   auto lock_info_it = lock_info_map_.find(endpoint);
   DCHECK_GT(pending_unlock_count_, 0U);
   --pending_unlock_count_;
   if (lock_info_it == lock_info_map_.end())
     return;
   DCHECK(!lock_info_it->second.lock_releaser);
   LockInfo::WaiterQueue* queue = lock_info_it->second.queue.get();
   DCHECK(queue);
   if (queue->empty()) {
     DVLOG(3) << "Unlocking endpoint " << lock_info_it->first.ToString();
     lock_info_map_.erase(lock_info_it);
     return;
   }

   DVLOG(3) << "Unlocking endpoint " << lock_info_it->first.ToString()
            << " and activating next waiter";
   Waiter* next_job = queue->head()->value();
   next_job->RemoveFromList();
   next_job->GotEndpointLock();
 }

 }  // namespace net
	// Copyright 2014 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "net/socket/websocket_endpoint_lock_manager.h"

	#include <memory>
	#include <utility>

	#include "base/functional/bind.h"
	#include "base/location.h"
	#include "base/logging.h"
	#include "base/task/single_thread_task_runner.h"
	#include "net/base/net_errors.h"

	namespace net {

	namespace {

	// This delay prevents DoS attacks.
	// TODO(ricea): Replace this with randomised truncated exponential backoff.
	// See crbug.com/377613.
	const int kUnlockDelayInMs = 10;

	} // namespace

	WebSocketEndpointLockManager::Waiter::~Waiter() {
	if (next()) {
	DCHECK(previous());
	RemoveFromList();
	}
	}

	WebSocketEndpointLockManager::LockReleaser::LockReleaser(
	WebSocketEndpointLockManager* websocket_endpoint_lock_manager,
	IPEndPoint endpoint)
	: websocket_endpoint_lock_manager_(websocket_endpoint_lock_manager),
	endpoint_(endpoint) {
	websocket_endpoint_lock_manager->RegisterLockReleaser(this, endpoint);
	}

	WebSocketEndpointLockManager::LockReleaser::~LockReleaser() {
	if (websocket_endpoint_lock_manager_) {
	websocket_endpoint_lock_manager_->UnlockEndpoint(endpoint_);
	}
	}

	WebSocketEndpointLockManager::WebSocketEndpointLockManager()
	: unlock_delay_(base::Milliseconds(kUnlockDelayInMs)) {}

	WebSocketEndpointLockManager::~WebSocketEndpointLockManager() {
	DCHECK_EQ(lock_info_map_.size(), pending_unlock_count_);
	}

	int WebSocketEndpointLockManager::LockEndpoint(const IPEndPoint& endpoint,
	Waiter* waiter) {
	LockInfoMap::value_type insert_value(endpoint, LockInfo());
	std::pair<LockInfoMap::iterator, bool> rv =
	lock_info_map_.insert(insert_value);
	LockInfo& lock_info_in_map = rv.first->second;
	if (rv.second) {
	DVLOG(3) << "Locking endpoint " << endpoint.ToString();
	lock_info_in_map.queue = std::make_unique<LockInfo::WaiterQueue>();
	return OK;
	}
	DVLOG(3) << "Waiting for endpoint " << endpoint.ToString();
	lock_info_in_map.queue->Append(waiter);
	return ERR_IO_PENDING;
	}

	void WebSocketEndpointLockManager::UnlockEndpoint(const IPEndPoint& endpoint) {
	auto lock_info_it = lock_info_map_.find(endpoint);
	if (lock_info_it == lock_info_map_.end())
	return;
	LockReleaser* lock_releaser = lock_info_it->second.lock_releaser;
	if (lock_releaser) {
	lock_info_it->second.lock_releaser = nullptr;
	lock_releaser->websocket_endpoint_lock_manager_ = nullptr;
	}
	UnlockEndpointAfterDelay(endpoint);
	}

	bool WebSocketEndpointLockManager::IsEmpty() const {
	return lock_info_map_.empty();
	}

	base::TimeDelta WebSocketEndpointLockManager::SetUnlockDelayForTesting(
	base::TimeDelta new_delay) {
	base::TimeDelta old_delay = unlock_delay_;
	unlock_delay_ = new_delay;
	return old_delay;
	}

	WebSocketEndpointLockManager::LockInfo::LockInfo() : lock_releaser(nullptr) {}
	WebSocketEndpointLockManager::LockInfo::~LockInfo() {
	DCHECK(!lock_releaser);
	}

	WebSocketEndpointLockManager::LockInfo::LockInfo(const LockInfo& rhs)
	: lock_releaser(rhs.lock_releaser) {
	DCHECK(!rhs.queue);
	}

	void WebSocketEndpointLockManager::RegisterLockReleaser(
	LockReleaser* lock_releaser,
	IPEndPoint endpoint) {
	DCHECK(lock_releaser);
	auto lock_info_it = lock_info_map_.find(endpoint);
	CHECK(lock_info_it != lock_info_map_.end());
	DCHECK(!lock_info_it->second.lock_releaser);
	lock_info_it->second.lock_releaser = lock_releaser;
	DVLOG(3) << "Registered (LockReleaser*)" << lock_releaser << " for "
	<< endpoint.ToString();
	}

	void WebSocketEndpointLockManager::UnlockEndpointAfterDelay(
	const IPEndPoint& endpoint) {
	DVLOG(3) << "Delaying " << unlock_delay_.InMilliseconds()
	<< "ms before unlocking endpoint " << endpoint.ToString();
	++pending_unlock_count_;
	base::SingleThreadTaskRunner::GetCurrentDefault()->PostDelayedTask(
	FROM_HERE,
	base::BindOnce(&WebSocketEndpointLockManager::DelayedUnlockEndpoint,
	weak_factory_.GetWeakPtr(), endpoint),
	unlock_delay_);
	}

	void WebSocketEndpointLockManager::DelayedUnlockEndpoint(
	const IPEndPoint& endpoint) {
	auto lock_info_it = lock_info_map_.find(endpoint);
	DCHECK_GT(pending_unlock_count_, 0U);
	--pending_unlock_count_;
	if (lock_info_it == lock_info_map_.end())
	return;
	DCHECK(!lock_info_it->second.lock_releaser);
	LockInfo::WaiterQueue* queue = lock_info_it->second.queue.get();
	DCHECK(queue);
	if (queue->empty()) {
	DVLOG(3) << "Unlocking endpoint " << lock_info_it->first.ToString();
	lock_info_map_.erase(lock_info_it);
	return;
	}

	DVLOG(3) << "Unlocking endpoint " << lock_info_it->first.ToString()
	<< " and activating next waiter";
	Waiter* next_job = queue->head()->value();
	next_job->RemoveFromList();
	next_job->GotEndpointLock();
	}

	} // namespace net