remoting/test/connection_time_observer.cc - chromium/src - Git at Google

 // Copyright 2015 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 "remoting/test/connection_time_observer.h"

 #include <utility>

 #include "base/strings/stringprintf.h"
 #include "base/time/time.h"
 #include "base/timer/timer.h"

 namespace remoting {
 namespace test {

 ConnectionTimeObserver::ConnectionTimeObserver() = default;

 ConnectionTimeObserver::~ConnectionTimeObserver() = default;

 void ConnectionTimeObserver::SetTransitionTimesMapForTest(
     const std::map<protocol::ConnectionToHost::State, base::TimeTicks>& map) {
   transition_times_map_ = map;
 }

 void ConnectionTimeObserver::ConnectionStateChanged(
     protocol::ConnectionToHost::State state,
     protocol::ErrorCode error_code) {
   if (transition_times_map_.find(state) != transition_times_map_.end()) {
     std::string connection_state =
         protocol::ConnectionToHost::StateToString(state);
     LOG(ERROR) << connection_state << " state has already been set";
     return;
   }
   transition_times_map_.insert(std::make_pair(state, base::TimeTicks::Now()));
   current_connection_state_ = state;
 }

 void ConnectionTimeObserver::DisplayConnectionStats() const {
   protocol::ConnectionToHost::State initializing =
       protocol::ConnectionToHost::State::INITIALIZING;
   protocol::ConnectionToHost::State current_state = initializing;

   const char kStateChangeTitleFormatString[] = "%-35s%-15s";
   LOG(INFO) << base::StringPrintf(kStateChangeTitleFormatString,
       "State to State", "Delta Time");
   LOG(INFO) << base::StringPrintf(kStateChangeTitleFormatString,
       "--------------", "----------");

   // Note: the order of |connected_states| mimics the expected order of when a
   // connection is made.
   std::vector<protocol::ConnectionToHost::State> connected_states;
   connected_states.push_back(protocol::ConnectionToHost::State::CONNECTING);
   connected_states.push_back(protocol::ConnectionToHost::State::AUTHENTICATED);
   connected_states.push_back(protocol::ConnectionToHost::State::CONNECTED);
   connected_states.push_back(protocol::ConnectionToHost::State::FAILED);

   const char kStateChangeFormatString[] = "%-13s to %-18s%-7dms";
   auto iter_end = transition_times_map_.end();
   for (protocol::ConnectionToHost::State state : connected_states) {
     auto iter_state = transition_times_map_.find(state);
     if (iter_state != iter_end) {
       int state_transition_time =
           GetStateTransitionTime(current_state, state).InMilliseconds();
       LOG(INFO) << base::StringPrintf(kStateChangeFormatString,
           protocol::ConnectionToHost::StateToString(current_state),
           protocol::ConnectionToHost::StateToString(state),
           state_transition_time);
       current_state = state;
     }
   }

   int connected_time =
       GetStateTransitionTime(initializing, current_state).InMilliseconds();

   // |current state| will either be FAILED or CONNECTED.
   LOG(INFO) << "Total Connection Duration (INITIALIZING to "
             << protocol::ConnectionToHost::StateToString(current_state) << "): "
             << connected_time << " ms";
 }

 base::TimeDelta ConnectionTimeObserver::GetStateTransitionTime(
     protocol::ConnectionToHost::State start,
     protocol::ConnectionToHost::State end) const {
   auto iter_end = transition_times_map_.end();

   auto iter_start_state = transition_times_map_.find(start);
   std::string start_state = protocol::ConnectionToHost::StateToString(start);
   if (iter_start_state == iter_end) {
     LOG(ERROR) << "No time found for state: " << start_state;
     return base::TimeDelta::Max();
   }

   auto iter_end_state = transition_times_map_.find(end);
   std::string end_state = protocol::ConnectionToHost::StateToString(end);
   if (iter_end_state == iter_end) {
     LOG(ERROR) << "No time found for state: " << end_state;
     return base::TimeDelta::Max();
   }

   base::TimeDelta delta = iter_end_state->second - iter_start_state->second;
   if (delta.InMilliseconds() < 0) {
     LOG(ERROR) << "Transition delay is negative. Check the state ordering: "
                << "[start: " << start_state << ", end: " << end_state << "]";
     return base::TimeDelta::Max();
   }

   return delta;
 }

 }  // namespace test
 }  // namespace remoting
	// Copyright 2015 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 "remoting/test/connection_time_observer.h"

	#include <utility>

	#include "base/strings/stringprintf.h"
	#include "base/time/time.h"
	#include "base/timer/timer.h"

	namespace remoting {
	namespace test {

	ConnectionTimeObserver::ConnectionTimeObserver() = default;

	ConnectionTimeObserver::~ConnectionTimeObserver() = default;

	void ConnectionTimeObserver::SetTransitionTimesMapForTest(
	const std::map<protocol::ConnectionToHost::State, base::TimeTicks>& map) {
	transition_times_map_ = map;
	}

	void ConnectionTimeObserver::ConnectionStateChanged(
	protocol::ConnectionToHost::State state,
	protocol::ErrorCode error_code) {
	if (transition_times_map_.find(state) != transition_times_map_.end()) {
	std::string connection_state =
	protocol::ConnectionToHost::StateToString(state);
	LOG(ERROR) << connection_state << " state has already been set";
	return;
	}
	transition_times_map_.insert(std::make_pair(state, base::TimeTicks::Now()));
	current_connection_state_ = state;
	}

	void ConnectionTimeObserver::DisplayConnectionStats() const {
	protocol::ConnectionToHost::State initializing =
	protocol::ConnectionToHost::State::INITIALIZING;
	protocol::ConnectionToHost::State current_state = initializing;

	const char kStateChangeTitleFormatString[] = "%-35s%-15s";
	LOG(INFO) << base::StringPrintf(kStateChangeTitleFormatString,
	"State to State", "Delta Time");
	LOG(INFO) << base::StringPrintf(kStateChangeTitleFormatString,
	"--------------", "----------");

	// Note: the order of \|connected_states\| mimics the expected order of when a
	// connection is made.
	std::vector<protocol::ConnectionToHost::State> connected_states;
	connected_states.push_back(protocol::ConnectionToHost::State::CONNECTING);
	connected_states.push_back(protocol::ConnectionToHost::State::AUTHENTICATED);
	connected_states.push_back(protocol::ConnectionToHost::State::CONNECTED);
	connected_states.push_back(protocol::ConnectionToHost::State::FAILED);

	const char kStateChangeFormatString[] = "%-13s to %-18s%-7dms";
	auto iter_end = transition_times_map_.end();
	for (protocol::ConnectionToHost::State state : connected_states) {
	auto iter_state = transition_times_map_.find(state);
	if (iter_state != iter_end) {
	int state_transition_time =
	GetStateTransitionTime(current_state, state).InMilliseconds();
	LOG(INFO) << base::StringPrintf(kStateChangeFormatString,
	protocol::ConnectionToHost::StateToString(current_state),
	protocol::ConnectionToHost::StateToString(state),
	state_transition_time);
	current_state = state;
	}
	}

	int connected_time =
	GetStateTransitionTime(initializing, current_state).InMilliseconds();

	// \|current state\| will either be FAILED or CONNECTED.
	LOG(INFO) << "Total Connection Duration (INITIALIZING to "
	<< protocol::ConnectionToHost::StateToString(current_state) << "): "
	<< connected_time << " ms";
	}

	base::TimeDelta ConnectionTimeObserver::GetStateTransitionTime(
	protocol::ConnectionToHost::State start,
	protocol::ConnectionToHost::State end) const {
	auto iter_end = transition_times_map_.end();

	auto iter_start_state = transition_times_map_.find(start);
	std::string start_state = protocol::ConnectionToHost::StateToString(start);
	if (iter_start_state == iter_end) {
	LOG(ERROR) << "No time found for state: " << start_state;
	return base::TimeDelta::Max();
	}

	auto iter_end_state = transition_times_map_.find(end);
	std::string end_state = protocol::ConnectionToHost::StateToString(end);
	if (iter_end_state == iter_end) {
	LOG(ERROR) << "No time found for state: " << end_state;
	return base::TimeDelta::Max();
	}

	base::TimeDelta delta = iter_end_state->second - iter_start_state->second;
	if (delta.InMilliseconds() < 0) {
	LOG(ERROR) << "Transition delay is negative. Check the state ordering: "
	<< "[start: " << start_state << ", end: " << end_state << "]";
	return base::TimeDelta::Max();
	}

	return delta;
	}

	} // namespace test
	} // namespace remoting