net/base/network_anonymization_key.cc - platform/external/cronet - Git at Google

 // Copyright 2022 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/base/network_anonymization_key.h"

 #include <atomic>
 #include <optional>

 #include "base/feature_list.h"
 #include "base/unguessable_token.h"
 #include "base/values.h"
 #include "net/base/features.h"
 #include "net/base/net_export.h"
 #include "net/base/network_isolation_key.h"
 #include "net/base/schemeful_site.h"
 #include "net/cookies/site_for_cookies.h"

 namespace net {

 namespace {

 // True if network state partitioning should be enabled regardless of feature
 // settings.
 bool g_partition_by_default = false;

 // True if NAK::IsPartitioningEnabled has been called, and the value of
 // `g_partition_by_default` cannot be changed.
 ABSL_CONST_INIT std::atomic<bool> g_partition_by_default_locked = false;

 }  // namespace

 NetworkAnonymizationKey::NetworkAnonymizationKey(
     const SchemefulSite& top_frame_site,
     bool is_cross_site,
     std::optional<base::UnguessableToken> nonce)
     : top_frame_site_(top_frame_site),
       is_cross_site_(is_cross_site),
       nonce_(nonce) {
   DCHECK(top_frame_site_.has_value());
 }

 NetworkAnonymizationKey NetworkAnonymizationKey::CreateFromFrameSite(
     const SchemefulSite& top_frame_site,
     const SchemefulSite& frame_site,
     std::optional<base::UnguessableToken> nonce) {
   bool is_cross_site = top_frame_site != frame_site;
   return NetworkAnonymizationKey(top_frame_site, is_cross_site, nonce);
 }

 NetworkAnonymizationKey NetworkAnonymizationKey::CreateFromNetworkIsolationKey(
     const net::NetworkIsolationKey& network_isolation_key) {
   // We cannot create a valid NetworkAnonymizationKey from a NetworkIsolationKey
   // that is not fully populated.
   if (!network_isolation_key.IsFullyPopulated()) {
     return NetworkAnonymizationKey();
   }

   return CreateFromFrameSite(
       network_isolation_key.GetTopFrameSite().value(),
       network_isolation_key
           .GetFrameSiteForNetworkAnonymizationKey(
               NetworkIsolationKey::NetworkAnonymizationKeyPassKey())
           .value(),
       network_isolation_key.GetNonce());
 }

 NetworkAnonymizationKey::NetworkAnonymizationKey()
     : top_frame_site_(std::nullopt),
       is_cross_site_(false),
       nonce_(std::nullopt) {}

 NetworkAnonymizationKey::NetworkAnonymizationKey(
     const NetworkAnonymizationKey& network_anonymization_key) = default;

 NetworkAnonymizationKey::NetworkAnonymizationKey(
     NetworkAnonymizationKey&& network_anonymization_key) = default;

 NetworkAnonymizationKey::~NetworkAnonymizationKey() = default;

 NetworkAnonymizationKey& NetworkAnonymizationKey::operator=(
     const NetworkAnonymizationKey& network_anonymization_key) = default;

 NetworkAnonymizationKey& NetworkAnonymizationKey::operator=(
     NetworkAnonymizationKey&& network_anonymization_key) = default;

 NetworkAnonymizationKey NetworkAnonymizationKey::CreateTransient() {
   SchemefulSite site_with_opaque_origin;
   return NetworkAnonymizationKey(site_with_opaque_origin, false);
 }

 std::string NetworkAnonymizationKey::ToDebugString() const {
   if (!IsFullyPopulated()) {
     return "null";
   }

   std::string str = GetSiteDebugString(top_frame_site_);
   str += IsCrossSite() ? " cross_site" : " same_site";

   // Currently, if the NAK has a nonce it will be marked transient. For debug
   // purposes we will print the value but if called via
   // `NetworkAnonymizationKey::ToString` we will have already returned "".
   if (nonce_.has_value()) {
     str += " (with nonce " + nonce_->ToString() + ")";
   }

   return str;
 }

 bool NetworkAnonymizationKey::IsEmpty() const {
   return !top_frame_site_.has_value();
 }

 bool NetworkAnonymizationKey::IsFullyPopulated() const {
   return top_frame_site_.has_value();
 }

 bool NetworkAnonymizationKey::IsTransient() const {
   if (!IsFullyPopulated())
     return true;

   return top_frame_site_->opaque() || nonce_.has_value();
 }

 bool NetworkAnonymizationKey::ToValue(base::Value* out_value) const {
   if (IsEmpty()) {
     *out_value = base::Value(base::Value::Type::LIST);
     return true;
   }

   if (IsTransient())
     return false;

   std::optional<std::string> top_frame_value =
       SerializeSiteWithNonce(*top_frame_site_);
   if (!top_frame_value)
     return false;
   base::Value::List list;
   list.Append(std::move(top_frame_value).value());

   list.Append(IsCrossSite());

   *out_value = base::Value(std::move(list));
   return true;
 }

 bool NetworkAnonymizationKey::FromValue(
     const base::Value& value,
     NetworkAnonymizationKey* network_anonymization_key) {
   if (!value.is_list()) {
     return false;
   }

   const base::Value::List& list = value.GetList();
   if (list.empty()) {
     *network_anonymization_key = NetworkAnonymizationKey();
     return true;
   }

   // Check the format.
   if (list.size() != 2 || !list[0].is_string() || !list[1].is_bool()) {
     return false;
   }

   // Check top_level_site is valid for any key scheme
   std::optional<SchemefulSite> top_frame_site =
       SchemefulSite::DeserializeWithNonce(
           base::PassKey<NetworkAnonymizationKey>(), list[0].GetString());
   if (!top_frame_site) {
     return false;
   }

   bool is_cross_site = list[1].GetBool();

   *network_anonymization_key =
       NetworkAnonymizationKey(top_frame_site.value(), is_cross_site);
   return true;
 }

 std::string NetworkAnonymizationKey::GetSiteDebugString(
     const std::optional<SchemefulSite>& site) const {
   return site ? site->GetDebugString() : "null";
 }

 std::optional<std::string> NetworkAnonymizationKey::SerializeSiteWithNonce(
     const SchemefulSite& site) {
   return *(const_cast<SchemefulSite&>(site).SerializeWithNonce(
       base::PassKey<NetworkAnonymizationKey>()));
 }

 // static
 bool NetworkAnonymizationKey::IsPartitioningEnabled() {
   g_partition_by_default_locked.store(true, std::memory_order_relaxed);
   return g_partition_by_default ||
          base::FeatureList::IsEnabled(
              features::kSplitHostCacheByNetworkIsolationKey) ||
          base::FeatureList::IsEnabled(
              features::kPartitionConnectionsByNetworkIsolationKey) ||
          base::FeatureList::IsEnabled(
              features::kPartitionHttpServerPropertiesByNetworkIsolationKey) ||
          base::FeatureList::IsEnabled(
              features::kPartitionSSLSessionsByNetworkIsolationKey) ||
          base::FeatureList::IsEnabled(
              features::kPartitionNelAndReportingByNetworkIsolationKey);
 }

 // static
 void NetworkAnonymizationKey::PartitionByDefault() {
   DCHECK(!g_partition_by_default_locked.load(std::memory_order_relaxed));
   // Only set the global if none of the relevant features are overridden.
   if (!base::FeatureList::GetInstance()->IsFeatureOverridden(
           "SplitHostCacheByNetworkIsolationKey") &&
       !base::FeatureList::GetInstance()->IsFeatureOverridden(
           "PartitionConnectionsByNetworkIsolationKey") &&
       !base::FeatureList::GetInstance()->IsFeatureOverridden(
           "PartitionHttpServerPropertiesByNetworkIsolationKey") &&
       !base::FeatureList::GetInstance()->IsFeatureOverridden(
           "PartitionSSLSessionsByNetworkIsolationKey") &&
       !base::FeatureList::GetInstance()->IsFeatureOverridden(
           "PartitionNelAndReportingByNetworkIsolationKey")) {
     g_partition_by_default = true;
   }
 }

 // static
 void NetworkAnonymizationKey::ClearGlobalsForTesting() {
   g_partition_by_default = false;
   g_partition_by_default_locked.store(false);
 }

 }  // namespace net
	// Copyright 2022 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/base/network_anonymization_key.h"

	#include <atomic>
	#include <optional>

	#include "base/feature_list.h"
	#include "base/unguessable_token.h"
	#include "base/values.h"
	#include "net/base/features.h"
	#include "net/base/net_export.h"
	#include "net/base/network_isolation_key.h"
	#include "net/base/schemeful_site.h"
	#include "net/cookies/site_for_cookies.h"

	namespace net {

	namespace {

	// True if network state partitioning should be enabled regardless of feature
	// settings.
	bool g_partition_by_default = false;

	// True if NAK::IsPartitioningEnabled has been called, and the value of
	// `g_partition_by_default` cannot be changed.
	ABSL_CONST_INIT std::atomic<bool> g_partition_by_default_locked = false;

	} // namespace

	NetworkAnonymizationKey::NetworkAnonymizationKey(
	const SchemefulSite& top_frame_site,
	bool is_cross_site,
	std::optional<base::UnguessableToken> nonce)
	: top_frame_site_(top_frame_site),
	is_cross_site_(is_cross_site),
	nonce_(nonce) {
	DCHECK(top_frame_site_.has_value());
	}

	NetworkAnonymizationKey NetworkAnonymizationKey::CreateFromFrameSite(
	const SchemefulSite& top_frame_site,
	const SchemefulSite& frame_site,
	std::optional<base::UnguessableToken> nonce) {
	bool is_cross_site = top_frame_site != frame_site;
	return NetworkAnonymizationKey(top_frame_site, is_cross_site, nonce);
	}

	NetworkAnonymizationKey NetworkAnonymizationKey::CreateFromNetworkIsolationKey(
	const net::NetworkIsolationKey& network_isolation_key) {
	// We cannot create a valid NetworkAnonymizationKey from a NetworkIsolationKey
	// that is not fully populated.
	if (!network_isolation_key.IsFullyPopulated()) {
	return NetworkAnonymizationKey();
	}

	return CreateFromFrameSite(
	network_isolation_key.GetTopFrameSite().value(),
	network_isolation_key
	.GetFrameSiteForNetworkAnonymizationKey(
	NetworkIsolationKey::NetworkAnonymizationKeyPassKey())
	.value(),
	network_isolation_key.GetNonce());
	}

	NetworkAnonymizationKey::NetworkAnonymizationKey()
	: top_frame_site_(std::nullopt),
	is_cross_site_(false),
	nonce_(std::nullopt) {}

	NetworkAnonymizationKey::NetworkAnonymizationKey(
	const NetworkAnonymizationKey& network_anonymization_key) = default;

	NetworkAnonymizationKey::NetworkAnonymizationKey(
	NetworkAnonymizationKey&& network_anonymization_key) = default;

	NetworkAnonymizationKey::~NetworkAnonymizationKey() = default;

	NetworkAnonymizationKey& NetworkAnonymizationKey::operator=(
	const NetworkAnonymizationKey& network_anonymization_key) = default;

	NetworkAnonymizationKey& NetworkAnonymizationKey::operator=(
	NetworkAnonymizationKey&& network_anonymization_key) = default;

	NetworkAnonymizationKey NetworkAnonymizationKey::CreateTransient() {
	SchemefulSite site_with_opaque_origin;
	return NetworkAnonymizationKey(site_with_opaque_origin, false);
	}

	std::string NetworkAnonymizationKey::ToDebugString() const {
	if (!IsFullyPopulated()) {
	return "null";
	}

	std::string str = GetSiteDebugString(top_frame_site_);
	str += IsCrossSite() ? " cross_site" : " same_site";

	// Currently, if the NAK has a nonce it will be marked transient. For debug
	// purposes we will print the value but if called via
	// `NetworkAnonymizationKey::ToString` we will have already returned "".
	if (nonce_.has_value()) {
	str += " (with nonce " + nonce_->ToString() + ")";
	}

	return str;
	}

	bool NetworkAnonymizationKey::IsEmpty() const {
	return !top_frame_site_.has_value();
	}

	bool NetworkAnonymizationKey::IsFullyPopulated() const {
	return top_frame_site_.has_value();
	}

	bool NetworkAnonymizationKey::IsTransient() const {
	if (!IsFullyPopulated())
	return true;

	return top_frame_site_->opaque() \|\| nonce_.has_value();
	}

	bool NetworkAnonymizationKey::ToValue(base::Value* out_value) const {
	if (IsEmpty()) {
	*out_value = base::Value(base::Value::Type::LIST);
	return true;
	}

	if (IsTransient())
	return false;

	std::optional<std::string> top_frame_value =
	SerializeSiteWithNonce(*top_frame_site_);
	if (!top_frame_value)
	return false;
	base::Value::List list;
	list.Append(std::move(top_frame_value).value());

	list.Append(IsCrossSite());

	*out_value = base::Value(std::move(list));
	return true;
	}

	bool NetworkAnonymizationKey::FromValue(
	const base::Value& value,
	NetworkAnonymizationKey* network_anonymization_key) {
	if (!value.is_list()) {
	return false;
	}

	const base::Value::List& list = value.GetList();
	if (list.empty()) {
	*network_anonymization_key = NetworkAnonymizationKey();
	return true;
	}

	// Check the format.
	if (list.size() != 2 \|\| !list[0].is_string() \|\| !list[1].is_bool()) {
	return false;
	}

	// Check top_level_site is valid for any key scheme
	std::optional<SchemefulSite> top_frame_site =
	SchemefulSite::DeserializeWithNonce(
	base::PassKey<NetworkAnonymizationKey>(), list[0].GetString());
	if (!top_frame_site) {
	return false;
	}

	bool is_cross_site = list[1].GetBool();

	*network_anonymization_key =
	NetworkAnonymizationKey(top_frame_site.value(), is_cross_site);
	return true;
	}

	std::string NetworkAnonymizationKey::GetSiteDebugString(
	const std::optional<SchemefulSite>& site) const {
	return site ? site->GetDebugString() : "null";
	}

	std::optional<std::string> NetworkAnonymizationKey::SerializeSiteWithNonce(
	const SchemefulSite& site) {
	return *(const_cast<SchemefulSite&>(site).SerializeWithNonce(
	base::PassKey<NetworkAnonymizationKey>()));
	}

	// static
	bool NetworkAnonymizationKey::IsPartitioningEnabled() {
	g_partition_by_default_locked.store(true, std::memory_order_relaxed);
	return g_partition_by_default \|\|
	base::FeatureList::IsEnabled(
	features::kSplitHostCacheByNetworkIsolationKey) \|\|
	base::FeatureList::IsEnabled(
	features::kPartitionConnectionsByNetworkIsolationKey) \|\|
	base::FeatureList::IsEnabled(
	features::kPartitionHttpServerPropertiesByNetworkIsolationKey) \|\|
	base::FeatureList::IsEnabled(
	features::kPartitionSSLSessionsByNetworkIsolationKey) \|\|
	base::FeatureList::IsEnabled(
	features::kPartitionNelAndReportingByNetworkIsolationKey);
	}

	// static
	void NetworkAnonymizationKey::PartitionByDefault() {
	DCHECK(!g_partition_by_default_locked.load(std::memory_order_relaxed));
	// Only set the global if none of the relevant features are overridden.
	if (!base::FeatureList::GetInstance()->IsFeatureOverridden(
	"SplitHostCacheByNetworkIsolationKey") &&
	!base::FeatureList::GetInstance()->IsFeatureOverridden(
	"PartitionConnectionsByNetworkIsolationKey") &&
	!base::FeatureList::GetInstance()->IsFeatureOverridden(
	"PartitionHttpServerPropertiesByNetworkIsolationKey") &&
	!base::FeatureList::GetInstance()->IsFeatureOverridden(
	"PartitionSSLSessionsByNetworkIsolationKey") &&
	!base::FeatureList::GetInstance()->IsFeatureOverridden(
	"PartitionNelAndReportingByNetworkIsolationKey")) {
	g_partition_by_default = true;
	}
	}

	// static
	void NetworkAnonymizationKey::ClearGlobalsForTesting() {
	g_partition_by_default = false;
	g_partition_by_default_locked.store(false);
	}

	} // namespace net