net/dns/httpssvc_metrics.cc - chromium/src - Git at Google

 // Copyright 2020 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/dns/httpssvc_metrics.h"

 #include "base/feature_list.h"
 #include "base/metrics/histogram.h"
 #include "base/metrics/histogram_base.h"
 #include "base/metrics/histogram_functions.h"
 #include "base/notreached.h"
 #include "base/strings/string_split.h"
 #include "base/strings/string_util.h"
 #include "net/base/features.h"
 #include "net/dns/dns_util.h"
 #include "net/dns/public/dns_protocol.h"

 namespace net {

 enum HttpssvcDnsRcode TranslateDnsRcodeForHttpssvcExperiment(uint8_t rcode) {
   switch (rcode) {
     case dns_protocol::kRcodeNOERROR:
       return HttpssvcDnsRcode::kNoError;
     case dns_protocol::kRcodeFORMERR:
       return HttpssvcDnsRcode::kFormErr;
     case dns_protocol::kRcodeSERVFAIL:
       return HttpssvcDnsRcode::kServFail;
     case dns_protocol::kRcodeNXDOMAIN:
       return HttpssvcDnsRcode::kNxDomain;
     case dns_protocol::kRcodeNOTIMP:
       return HttpssvcDnsRcode::kNotImp;
     case dns_protocol::kRcodeREFUSED:
       return HttpssvcDnsRcode::kRefused;
     default:
       return HttpssvcDnsRcode::kUnrecognizedRcode;
   }
   NOTREACHED();
 }

 HttpssvcExperimentDomainCache::HttpssvcExperimentDomainCache() = default;
 HttpssvcExperimentDomainCache::~HttpssvcExperimentDomainCache() = default;

 bool HttpssvcExperimentDomainCache::ListContainsDomain(
     const std::string& domain_list,
     base::StringPiece domain,
     base::Optional<base::flat_set<std::string>>& in_out_cached_list) {
   if (!in_out_cached_list) {
     in_out_cached_list = base::SplitString(
         domain_list, ",", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
   }
   return in_out_cached_list->find(domain) != in_out_cached_list->end();
 }

 bool HttpssvcExperimentDomainCache::IsExperimental(base::StringPiece domain) {
   if (!base::FeatureList::IsEnabled(features::kDnsHttpssvc))
     return false;
   return ListContainsDomain(features::kDnsHttpssvcExperimentDomains.Get(),
                             domain, experimental_list_);
 }

 bool HttpssvcExperimentDomainCache::IsControl(base::StringPiece domain) {
   if (!base::FeatureList::IsEnabled(features::kDnsHttpssvc))
     return false;
   if (features::kDnsHttpssvcControlDomainWildcard.Get())
     return !IsExperimental(domain);
   return ListContainsDomain(features::kDnsHttpssvcControlDomains.Get(), domain,
                             control_list_);
 }

 HttpssvcMetrics::HttpssvcMetrics(bool expect_intact)
     : expect_intact_(expect_intact) {}

 HttpssvcMetrics::~HttpssvcMetrics() {
   RecordIntegrityMetrics();
 }

 void HttpssvcMetrics::SaveForNonIntegrity(
     base::Optional<std::string> new_doh_provider_id,
     base::TimeDelta resolve_time,
     enum HttpssvcDnsRcode rcode) {
   set_doh_provider_id(new_doh_provider_id);

   non_integrity_resolve_times_.push_back(resolve_time);

   if (rcode != HttpssvcDnsRcode::kNoError)
     disqualified_ = true;
 }

 void HttpssvcMetrics::SaveNonIntegrityFailure() {
   disqualified_ = true;
 }

 void HttpssvcMetrics::SaveForIntegrity(
     base::Optional<std::string> new_doh_provider_id,
     enum HttpssvcDnsRcode rcode_integrity,
     const std::vector<bool>& condensed_records,
     base::TimeDelta integrity_resolve_time) {
   DCHECK(!rcode_integrity_.has_value());
   set_doh_provider_id(new_doh_provider_id);

   rcode_integrity_ = rcode_integrity;

   num_integrity_records_ = condensed_records.size();

   // We only record one "Integrity" sample per INTEGRITY query. In case
   // multiple matching records are in present in the response, we
   // combine their intactness values with logical AND.
   const bool intact =
       std::all_of(condensed_records.cbegin(), condensed_records.cend(),
                   [](bool b) { return b; });

   DCHECK(!is_integrity_intact_.has_value());
   is_integrity_intact_ = intact;

   DCHECK(!integrity_resolve_time_.has_value());
   integrity_resolve_time_ = integrity_resolve_time;
 }

 void HttpssvcMetrics::set_doh_provider_id(
     base::Optional<std::string> new_doh_provider_id) {
   // "Other" never gets updated.
   if (doh_provider_id_.has_value() && *doh_provider_id_ == "Other")
     return;

   // If provider IDs mismatch, downgrade the new provider ID to "Other".
   if ((doh_provider_id_.has_value() && !new_doh_provider_id.has_value()) ||
       (doh_provider_id_.has_value() && new_doh_provider_id.has_value() &&
        *doh_provider_id_ != *new_doh_provider_id)) {
     new_doh_provider_id = "Other";
   }

   doh_provider_id_ = new_doh_provider_id;
 }

 std::string HttpssvcMetrics::BuildMetricName(
     base::StringPiece leaf_name) const {
   // Build shared pieces of the metric names.
   const base::StringPiece expectation =
       expect_intact_ ? "ExpectIntact" : "ExpectNoerror";
   const std::string provider_id = doh_provider_id_.value_or("Other");

   // Example INTEGRITY metric name:
   // Net.DNS.HTTPSSVC.RecordIntegrity.CleanBrowsingAdult.ExpectIntact.DnsRcode
   return base::JoinString({"Net.DNS.HTTPSSVC.RecordIntegrity",
                            provider_id.c_str(), expectation, leaf_name},
                           ".");
 }

 void HttpssvcMetrics::RecordIntegrityMetrics() {
   // The HTTPSSVC experiment and its feature param indicating INTEGRITY must
   // both be enabled.
   DCHECK(base::FeatureList::IsEnabled(features::kDnsHttpssvc));
   DCHECK(features::kDnsHttpssvcUseIntegrity.Get());

   DCHECK(!already_recorded_);
   already_recorded_ = true;

   // We really have no metrics to record without |integrity_resolve_time_| and
   // |non_integrity_resolve_times_|. If this HttpssvcMetrics is in an
   // inconsistent state, disqualify any metrics from being recorded.
   if (!integrity_resolve_time_.has_value() ||
       non_integrity_resolve_times_.empty()) {
     disqualified_ = true;
   }
   if (disqualified_)
     return;

   // Record the metrics that the "ExpectIntact" and "ExpectNoerror" branches
   // have in common.
   RecordIntegrityCommonMetrics();

   if (expect_intact_) {
     // Record metrics that are unique to the "ExpectIntact" branch.
     RecordIntegrityExpectIntactMetrics();
   } else {
     // Record metrics that are unique to the "ExpectNoerror" branch.
     RecordIntegrityExpectNoerrorMetrics();
   }
 }

 void HttpssvcMetrics::RecordIntegrityCommonMetrics() {
   base::UmaHistogramMediumTimes(BuildMetricName("ResolveTimeIntegrityRecord"),
                                 *integrity_resolve_time_);

   const std::string kMetricResolveTimeNonIntegrityRecord =
       BuildMetricName("ResolveTimeNonIntegrityRecord");
   for (base::TimeDelta resolve_time_other : non_integrity_resolve_times_) {
     base::UmaHistogramMediumTimes(kMetricResolveTimeNonIntegrityRecord,
                                   resolve_time_other);
   }

   // ResolveTimeRatio is the INTEGRITY resolve time divided by the slower of the
   // A or AAAA resolve times. Arbitrarily choosing precision at two decimal
   // places.
   std::vector<base::TimeDelta>::iterator slowest_non_integrity_resolve =
       std::max_element(non_integrity_resolve_times_.begin(),
                        non_integrity_resolve_times_.end());
   DCHECK(slowest_non_integrity_resolve != non_integrity_resolve_times_.end());

   // Compute a percentage showing how much larger the INTEGRITY resolve time was
   // compared to the slowest A or AAAA query.
   //
   // Computation happens on TimeDelta objects, which use CheckedNumeric. This
   // will crash if the system clock leaps forward several hundred millennia
   // (numeric_limits<int64_t>::max() microseconds ~= 292,000 years).
   const int64_t resolve_time_percent =
       (100 * *integrity_resolve_time_) / *slowest_non_integrity_resolve;

   // Scale the value of |resolve_time_percent| by dividing by |kPercentScale|.
   // Sample values are bounded between 1 and 20. A recorded sample of 10 means
   // that the INTEGRITY resolve time took 100% of the slower A/AAAA resolve
   // time. A sample of 20 means that the INTEGRITY resolve time was 200%
   // relative to the A/AAAA resolve time, twice as long.
   constexpr int64_t kMaxRatio = 20;
   constexpr int64_t kPercentScale = 10;
   base::UmaHistogramExactLinear(BuildMetricName("ResolveTimeRatio"),
                                 resolve_time_percent / kPercentScale,
                                 kMaxRatio);
 }

 void HttpssvcMetrics::RecordIntegrityExpectIntactMetrics() {
   // Without |rocde_integrity_|, we can't make progress on any of these metrics.
   DCHECK(rcode_integrity_.has_value());

   // The ExpectIntact variant of the "DnsRcode" metric is only recorded when no
   // records are received.
   if (num_integrity_records_ == 0) {
     base::UmaHistogramEnumeration(BuildMetricName("DnsRcode"),
                                   *rcode_integrity_);
   }
   if (num_integrity_records_ > 0) {
     if (*rcode_integrity_ == HttpssvcDnsRcode::kNoError) {
       base::UmaHistogramBoolean(BuildMetricName("Integrity"),
                                 is_integrity_intact_.value_or(false));
     } else if (*rcode_integrity_ != HttpssvcDnsRcode::kNoError) {
       // Record boolean indicating whether we received an INTEGRITY record and
       // an error simultaneously.
       base::UmaHistogramBoolean(BuildMetricName("RecordWithError"), true);
     }
   }
 }

 void HttpssvcMetrics::RecordIntegrityExpectNoerrorMetrics() {
   if (rcode_integrity_.has_value()) {
     base::UmaHistogramEnumeration(BuildMetricName("DnsRcode"),
                                   *rcode_integrity_);
   }
   if (num_integrity_records_ > 0) {
     base::UmaHistogramBoolean(BuildMetricName("RecordReceived"), true);
   }
 }

 }  // namespace net
	// Copyright 2020 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/dns/httpssvc_metrics.h"

	#include "base/feature_list.h"
	#include "base/metrics/histogram.h"
	#include "base/metrics/histogram_base.h"
	#include "base/metrics/histogram_functions.h"
	#include "base/notreached.h"
	#include "base/strings/string_split.h"
	#include "base/strings/string_util.h"
	#include "net/base/features.h"
	#include "net/dns/dns_util.h"
	#include "net/dns/public/dns_protocol.h"

	namespace net {

	enum HttpssvcDnsRcode TranslateDnsRcodeForHttpssvcExperiment(uint8_t rcode) {
	switch (rcode) {
	case dns_protocol::kRcodeNOERROR:
	return HttpssvcDnsRcode::kNoError;
	case dns_protocol::kRcodeFORMERR:
	return HttpssvcDnsRcode::kFormErr;
	case dns_protocol::kRcodeSERVFAIL:
	return HttpssvcDnsRcode::kServFail;
	case dns_protocol::kRcodeNXDOMAIN:
	return HttpssvcDnsRcode::kNxDomain;
	case dns_protocol::kRcodeNOTIMP:
	return HttpssvcDnsRcode::kNotImp;
	case dns_protocol::kRcodeREFUSED:
	return HttpssvcDnsRcode::kRefused;
	default:
	return HttpssvcDnsRcode::kUnrecognizedRcode;
	}
	NOTREACHED();
	}

	HttpssvcExperimentDomainCache::HttpssvcExperimentDomainCache() = default;
	HttpssvcExperimentDomainCache::~HttpssvcExperimentDomainCache() = default;

	bool HttpssvcExperimentDomainCache::ListContainsDomain(
	const std::string& domain_list,
	base::StringPiece domain,
	base::Optional<base::flat_set<std::string>>& in_out_cached_list) {
	if (!in_out_cached_list) {
	in_out_cached_list = base::SplitString(
	domain_list, ",", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
	}
	return in_out_cached_list->find(domain) != in_out_cached_list->end();
	}

	bool HttpssvcExperimentDomainCache::IsExperimental(base::StringPiece domain) {
	if (!base::FeatureList::IsEnabled(features::kDnsHttpssvc))
	return false;
	return ListContainsDomain(features::kDnsHttpssvcExperimentDomains.Get(),
	domain, experimental_list_);
	}

	bool HttpssvcExperimentDomainCache::IsControl(base::StringPiece domain) {
	if (!base::FeatureList::IsEnabled(features::kDnsHttpssvc))
	return false;
	if (features::kDnsHttpssvcControlDomainWildcard.Get())
	return !IsExperimental(domain);
	return ListContainsDomain(features::kDnsHttpssvcControlDomains.Get(), domain,
	control_list_);
	}

	HttpssvcMetrics::HttpssvcMetrics(bool expect_intact)
	: expect_intact_(expect_intact) {}

	HttpssvcMetrics::~HttpssvcMetrics() {
	RecordIntegrityMetrics();
	}

	void HttpssvcMetrics::SaveForNonIntegrity(
	base::Optional<std::string> new_doh_provider_id,
	base::TimeDelta resolve_time,
	enum HttpssvcDnsRcode rcode) {
	set_doh_provider_id(new_doh_provider_id);

	non_integrity_resolve_times_.push_back(resolve_time);

	if (rcode != HttpssvcDnsRcode::kNoError)
	disqualified_ = true;
	}

	void HttpssvcMetrics::SaveNonIntegrityFailure() {
	disqualified_ = true;
	}

	void HttpssvcMetrics::SaveForIntegrity(
	base::Optional<std::string> new_doh_provider_id,
	enum HttpssvcDnsRcode rcode_integrity,
	const std::vector<bool>& condensed_records,
	base::TimeDelta integrity_resolve_time) {
	DCHECK(!rcode_integrity_.has_value());
	set_doh_provider_id(new_doh_provider_id);

	rcode_integrity_ = rcode_integrity;

	num_integrity_records_ = condensed_records.size();

	// We only record one "Integrity" sample per INTEGRITY query. In case
	// multiple matching records are in present in the response, we
	// combine their intactness values with logical AND.
	const bool intact =
	std::all_of(condensed_records.cbegin(), condensed_records.cend(),
	[](bool b) { return b; });

	DCHECK(!is_integrity_intact_.has_value());
	is_integrity_intact_ = intact;

	DCHECK(!integrity_resolve_time_.has_value());
	integrity_resolve_time_ = integrity_resolve_time;
	}

	void HttpssvcMetrics::set_doh_provider_id(
	base::Optional<std::string> new_doh_provider_id) {
	// "Other" never gets updated.
	if (doh_provider_id_.has_value() && *doh_provider_id_ == "Other")
	return;

	// If provider IDs mismatch, downgrade the new provider ID to "Other".
	if ((doh_provider_id_.has_value() && !new_doh_provider_id.has_value()) \|\|
	(doh_provider_id_.has_value() && new_doh_provider_id.has_value() &&
	doh_provider_id_ != new_doh_provider_id)) {
	new_doh_provider_id = "Other";
	}

	doh_provider_id_ = new_doh_provider_id;
	}

	std::string HttpssvcMetrics::BuildMetricName(
	base::StringPiece leaf_name) const {
	// Build shared pieces of the metric names.
	const base::StringPiece expectation =
	expect_intact_ ? "ExpectIntact" : "ExpectNoerror";
	const std::string provider_id = doh_provider_id_.value_or("Other");

	// Example INTEGRITY metric name:
	// Net.DNS.HTTPSSVC.RecordIntegrity.CleanBrowsingAdult.ExpectIntact.DnsRcode
	return base::JoinString({"Net.DNS.HTTPSSVC.RecordIntegrity",
	provider_id.c_str(), expectation, leaf_name},
	".");
	}

	void HttpssvcMetrics::RecordIntegrityMetrics() {
	// The HTTPSSVC experiment and its feature param indicating INTEGRITY must
	// both be enabled.
	DCHECK(base::FeatureList::IsEnabled(features::kDnsHttpssvc));
	DCHECK(features::kDnsHttpssvcUseIntegrity.Get());

	DCHECK(!already_recorded_);
	already_recorded_ = true;

	// We really have no metrics to record without \|integrity_resolve_time_\| and
	// \|non_integrity_resolve_times_\|. If this HttpssvcMetrics is in an
	// inconsistent state, disqualify any metrics from being recorded.
	if (!integrity_resolve_time_.has_value() \|\|
	non_integrity_resolve_times_.empty()) {
	disqualified_ = true;
	}
	if (disqualified_)
	return;

	// Record the metrics that the "ExpectIntact" and "ExpectNoerror" branches
	// have in common.
	RecordIntegrityCommonMetrics();

	if (expect_intact_) {
	// Record metrics that are unique to the "ExpectIntact" branch.
	RecordIntegrityExpectIntactMetrics();
	} else {
	// Record metrics that are unique to the "ExpectNoerror" branch.
	RecordIntegrityExpectNoerrorMetrics();
	}
	}

	void HttpssvcMetrics::RecordIntegrityCommonMetrics() {
	base::UmaHistogramMediumTimes(BuildMetricName("ResolveTimeIntegrityRecord"),
	*integrity_resolve_time_);

	const std::string kMetricResolveTimeNonIntegrityRecord =
	BuildMetricName("ResolveTimeNonIntegrityRecord");
	for (base::TimeDelta resolve_time_other : non_integrity_resolve_times_) {
	base::UmaHistogramMediumTimes(kMetricResolveTimeNonIntegrityRecord,
	resolve_time_other);
	}

	// ResolveTimeRatio is the INTEGRITY resolve time divided by the slower of the
	// A or AAAA resolve times. Arbitrarily choosing precision at two decimal
	// places.
	std::vector<base::TimeDelta>::iterator slowest_non_integrity_resolve =
	std::max_element(non_integrity_resolve_times_.begin(),
	non_integrity_resolve_times_.end());
	DCHECK(slowest_non_integrity_resolve != non_integrity_resolve_times_.end());

	// Compute a percentage showing how much larger the INTEGRITY resolve time was
	// compared to the slowest A or AAAA query.
	//
	// Computation happens on TimeDelta objects, which use CheckedNumeric. This
	// will crash if the system clock leaps forward several hundred millennia
	// (numeric_limits<int64_t>::max() microseconds ~= 292,000 years).
	const int64_t resolve_time_percent =
	(100 * integrity_resolve_time_) / slowest_non_integrity_resolve;

	// Scale the value of \|resolve_time_percent\| by dividing by \|kPercentScale\|.
	// Sample values are bounded between 1 and 20. A recorded sample of 10 means
	// that the INTEGRITY resolve time took 100% of the slower A/AAAA resolve
	// time. A sample of 20 means that the INTEGRITY resolve time was 200%
	// relative to the A/AAAA resolve time, twice as long.
	constexpr int64_t kMaxRatio = 20;
	constexpr int64_t kPercentScale = 10;
	base::UmaHistogramExactLinear(BuildMetricName("ResolveTimeRatio"),
	resolve_time_percent / kPercentScale,
	kMaxRatio);
	}

	void HttpssvcMetrics::RecordIntegrityExpectIntactMetrics() {
	// Without \|rocde_integrity_\|, we can't make progress on any of these metrics.
	DCHECK(rcode_integrity_.has_value());

	// The ExpectIntact variant of the "DnsRcode" metric is only recorded when no
	// records are received.
	if (num_integrity_records_ == 0) {
	base::UmaHistogramEnumeration(BuildMetricName("DnsRcode"),
	*rcode_integrity_);
	}
	if (num_integrity_records_ > 0) {
	if (*rcode_integrity_ == HttpssvcDnsRcode::kNoError) {
	base::UmaHistogramBoolean(BuildMetricName("Integrity"),
	is_integrity_intact_.value_or(false));
	} else if (*rcode_integrity_ != HttpssvcDnsRcode::kNoError) {
	// Record boolean indicating whether we received an INTEGRITY record and
	// an error simultaneously.
	base::UmaHistogramBoolean(BuildMetricName("RecordWithError"), true);
	}
	}
	}

	void HttpssvcMetrics::RecordIntegrityExpectNoerrorMetrics() {
	if (rcode_integrity_.has_value()) {
	base::UmaHistogramEnumeration(BuildMetricName("DnsRcode"),
	*rcode_integrity_);
	}
	if (num_integrity_records_ > 0) {
	base::UmaHistogramBoolean(BuildMetricName("RecordReceived"), true);
	}
	}

	} // namespace net