diagnostics/cros_healthd/routines/dns_latency/dns_latency.cc - mirrors/cros/chromiumos/platform2 - Git at Google

 // Copyright 2020 The Chromium OS 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 "diagnostics/cros_healthd/routines/dns_latency/dns_latency.h"

 #include <memory>
 #include <string>
 #include <vector>

 #include <base/bind.h>
 #include <base/values.h>

 #include "diagnostics/cros_healthd/routines/simple_routine.h"
 #include "mojo/cros_healthd_diagnostics.mojom.h"
 #include "mojo/network_diagnostics.mojom.h"

 namespace diagnostics {

 namespace {

 namespace mojo_ipc = ::chromeos::cros_healthd::mojom;
 namespace network_diagnostics_ipc = ::chromeos::network_diagnostics::mojom;

 // Parses the results of the DNS latency routine.
 void ParseDnsLatencyResult(
     mojo_ipc::DiagnosticRoutineStatusEnum* status,
     std::string* status_message,
     network_diagnostics_ipc::RoutineVerdict verdict,
     const std::vector<network_diagnostics_ipc::DnsLatencyProblem>& problems) {
   DCHECK(status);
   DCHECK(status_message);

   switch (verdict) {
     case network_diagnostics_ipc::RoutineVerdict::kNoProblem:
       *status = mojo_ipc::DiagnosticRoutineStatusEnum::kPassed;
       *status_message = kDnsLatencyRoutineNoProblemMessage;
       break;
     case network_diagnostics_ipc::RoutineVerdict::kNotRun:
       *status = mojo_ipc::DiagnosticRoutineStatusEnum::kNotRun;
       *status_message = kDnsLatencyRoutineNotRunMessage;
       break;
     case network_diagnostics_ipc::RoutineVerdict::kProblem:
       *status = mojo_ipc::DiagnosticRoutineStatusEnum::kFailed;
       DCHECK(!problems.empty());
       switch (problems[0]) {
         case network_diagnostics_ipc::DnsLatencyProblem::kHostResolutionFailure:
           *status_message =
               kDnsLatencyRoutineHostResolutionFailureProblemMessage;
           break;
         case network_diagnostics_ipc::DnsLatencyProblem::
             kSlightlyAboveThreshold:
           *status_message =
               kDnsLatencyRoutineSlightlyAboveThresholdProblemMessage;
           break;
         case network_diagnostics_ipc::DnsLatencyProblem::
             kSignificantlyAboveThreshold:
           *status_message =
               kDnsLatencyRoutineSignificantlyAboveThresholdProblemMessage;
           break;
       }
       break;
   }
 }

 // We include |output_dict| here to satisfy SimpleRoutine - the DNS latency
 // routine never includes an output.
 void RunDnsLatencyRoutine(
     NetworkDiagnosticsAdapter* network_diagnostics_adapter,
     mojo_ipc::DiagnosticRoutineStatusEnum* status,
     std::string* status_message,
     base::Value* output_dict) {
   DCHECK(network_diagnostics_adapter);
   DCHECK(status);

   *status = mojo_ipc::DiagnosticRoutineStatusEnum::kRunning;

   network_diagnostics_adapter->RunDnsLatencyRoutine(
       base::BindOnce(&ParseDnsLatencyResult, status, status_message));
 }

 }  // namespace

 const char kDnsLatencyRoutineNoProblemMessage[] =
     "DNS latency routine passed with no problems.";
 const char kDnsLatencyRoutineHostResolutionFailureProblemMessage[] =
     "Failed to resolve one or more hosts.";
 const char kDnsLatencyRoutineSlightlyAboveThresholdProblemMessage[] =
     "Average DNS latency across hosts is slightly above expected threshold.";
 const char kDnsLatencyRoutineSignificantlyAboveThresholdProblemMessage[] =
     "Average DNS latency across hosts is significantly above expected "
     "threshold.";
 const char kDnsLatencyRoutineNotRunMessage[] =
     "DNS latency routine did not run.";

 std::unique_ptr<DiagnosticRoutine> CreateDnsLatencyRoutine(
     NetworkDiagnosticsAdapter* network_diagnostics_adapter) {
   return std::make_unique<SimpleRoutine>(
       base::BindOnce(&RunDnsLatencyRoutine, network_diagnostics_adapter));
 }

 }  // namespace diagnostics
	// Copyright 2020 The Chromium OS 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 "diagnostics/cros_healthd/routines/dns_latency/dns_latency.h"

	#include <memory>
	#include <string>
	#include <vector>

	#include <base/bind.h>
	#include <base/values.h>

	#include "diagnostics/cros_healthd/routines/simple_routine.h"
	#include "mojo/cros_healthd_diagnostics.mojom.h"
	#include "mojo/network_diagnostics.mojom.h"

	namespace diagnostics {

	namespace {

	namespace mojo_ipc = ::chromeos::cros_healthd::mojom;
	namespace network_diagnostics_ipc = ::chromeos::network_diagnostics::mojom;

	// Parses the results of the DNS latency routine.
	void ParseDnsLatencyResult(
	mojo_ipc::DiagnosticRoutineStatusEnum* status,
	std::string* status_message,
	network_diagnostics_ipc::RoutineVerdict verdict,
	const std::vector<network_diagnostics_ipc::DnsLatencyProblem>& problems) {
	DCHECK(status);
	DCHECK(status_message);

	switch (verdict) {
	case network_diagnostics_ipc::RoutineVerdict::kNoProblem:
	*status = mojo_ipc::DiagnosticRoutineStatusEnum::kPassed;
	*status_message = kDnsLatencyRoutineNoProblemMessage;
	break;
	case network_diagnostics_ipc::RoutineVerdict::kNotRun:
	*status = mojo_ipc::DiagnosticRoutineStatusEnum::kNotRun;
	*status_message = kDnsLatencyRoutineNotRunMessage;
	break;
	case network_diagnostics_ipc::RoutineVerdict::kProblem:
	*status = mojo_ipc::DiagnosticRoutineStatusEnum::kFailed;
	DCHECK(!problems.empty());
	switch (problems[0]) {
	case network_diagnostics_ipc::DnsLatencyProblem::kHostResolutionFailure:
	*status_message =
	kDnsLatencyRoutineHostResolutionFailureProblemMessage;
	break;
	case network_diagnostics_ipc::DnsLatencyProblem::
	kSlightlyAboveThreshold:
	*status_message =
	kDnsLatencyRoutineSlightlyAboveThresholdProblemMessage;
	break;
	case network_diagnostics_ipc::DnsLatencyProblem::
	kSignificantlyAboveThreshold:
	*status_message =
	kDnsLatencyRoutineSignificantlyAboveThresholdProblemMessage;
	break;
	}
	break;
	}
	}

	// We include \|output_dict\| here to satisfy SimpleRoutine - the DNS latency
	// routine never includes an output.
	void RunDnsLatencyRoutine(
	NetworkDiagnosticsAdapter* network_diagnostics_adapter,
	mojo_ipc::DiagnosticRoutineStatusEnum* status,
	std::string* status_message,
	base::Value* output_dict) {
	DCHECK(network_diagnostics_adapter);
	DCHECK(status);

	*status = mojo_ipc::DiagnosticRoutineStatusEnum::kRunning;

	network_diagnostics_adapter->RunDnsLatencyRoutine(
	base::BindOnce(&ParseDnsLatencyResult, status, status_message));
	}

	} // namespace

	const char kDnsLatencyRoutineNoProblemMessage[] =
	"DNS latency routine passed with no problems.";
	const char kDnsLatencyRoutineHostResolutionFailureProblemMessage[] =
	"Failed to resolve one or more hosts.";
	const char kDnsLatencyRoutineSlightlyAboveThresholdProblemMessage[] =
	"Average DNS latency across hosts is slightly above expected threshold.";
	const char kDnsLatencyRoutineSignificantlyAboveThresholdProblemMessage[] =
	"Average DNS latency across hosts is significantly above expected "
	"threshold.";
	const char kDnsLatencyRoutineNotRunMessage[] =
	"DNS latency routine did not run.";

	std::unique_ptr<DiagnosticRoutine> CreateDnsLatencyRoutine(
	NetworkDiagnosticsAdapter* network_diagnostics_adapter) {
	return std::make_unique<SimpleRoutine>(
	base::BindOnce(&RunDnsLatencyRoutine, network_diagnostics_adapter));
	}

	} // namespace diagnostics