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webkit / WebKit / 5549cdc34b021e0f42036a79dc545fd3130e6d99 / . / Source / WebCore / Modules / encryptedmedia / CDM.cpp
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/*
* Copyright (C) 2016 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "CDM.h"
#if ENABLE(ENCRYPTED_MEDIA)
#include "CDMFactory.h"
#include "CDMPrivate.h"
#include "Document.h"
#include "FileSystem.h"
#include "InitDataRegistry.h"
#include "MediaKeysRequirement.h"
#include "MediaPlayer.h"
#include "NotImplemented.h"
#include "Page.h"
#include "ParsedContentType.h"
#include "ScriptExecutionContext.h"
#include "SecurityOrigin.h"
#include "SecurityOriginData.h"
#include "Settings.h"
#include <wtf/NeverDestroyed.h>
namespace WebCore {
bool CDM::supportsKeySystem(const String& keySystem)
{
for (auto* factory : CDMFactory::registeredFactories()) {
if (factory->supportsKeySystem(keySystem))
return true;
}
return false;
}
Ref<CDM> CDM::create(Document& document, const String& keySystem)
{
return adoptRef(*new CDM(document, keySystem));
}
CDM::CDM(Document& document, const String& keySystem)
: ContextDestructionObserver(&document)
, m_keySystem(keySystem)
{
ASSERT(supportsKeySystem(keySystem));
for (auto* factory : CDMFactory::registeredFactories()) {
if (factory->supportsKeySystem(keySystem)) {
m_private = factory->createCDM(keySystem);
break;
}
}
}
CDM::~CDM() = default;
void CDM::getSupportedConfiguration(MediaKeySystemConfiguration&& candidateConfiguration, SupportedConfigurationCallback&& callback)
{
// https://w3c.github.io/encrypted-media/#get-supported-configuration
// W3C Editor's Draft 09 November 2016
// 3.1.1.1 Get Supported Configuration
// Given a Key Systems implementation implementation, MediaKeySystemConfiguration candidate configuration, and origin,
// this algorithm returns a supported configuration or NotSupported as appropriate.
// 1. Let supported configuration be ConsentDenied.
// 2. Initialize restrictions to indicate that no configurations have had user consent denied.
MediaKeysRestrictions restrictions { };
doSupportedConfigurationStep(WTFMove(candidateConfiguration), WTFMove(restrictions), WTFMove(callback));
}
void CDM::doSupportedConfigurationStep(MediaKeySystemConfiguration&& candidateConfiguration, MediaKeysRestrictions&& restrictions, SupportedConfigurationCallback&& callback)
{
// https://w3c.github.io/encrypted-media/#get-supported-configuration
// W3C Editor's Draft 09 November 2016, ctd.
// 3.1.1.1 Get Supported Configuration
// 3. Repeat the following step while supported configuration is ConsentDenied:
// 3.1. Let supported configuration and, if provided, restrictions be the result of executing the
// Get Supported Configuration and Consent algorithm with implementation, candidate configuration,
// restrictions and origin.
auto optionalConfiguration = getSupportedConfiguration(candidateConfiguration, restrictions);
if (!optionalConfiguration) {
callback(std::nullopt);
return;
}
auto consentCallback = [weakThis = createWeakPtr(), callback = WTFMove(callback)] (ConsentStatus status, MediaKeySystemConfiguration&& configuration, MediaKeysRestrictions&& restrictions) mutable {
if (!weakThis) {
callback(std::nullopt);
return;
}
// 3.1.1.2 Get Supported Configuration and Consent, ctd.
// 22. Let consent status and updated restrictions be the result of running the Get Consent Status algorithm on accumulated configuration,
// restrictions and origin and follow the steps for the value of consent status from the following list:
switch (status) {
case ConsentStatus::ConsentDenied:
// ↳ ConsentDenied:
// Return ConsentDenied and updated restrictions.
weakThis->doSupportedConfigurationStep(WTFMove(configuration), WTFMove(restrictions), WTFMove(callback));
return;
case ConsentStatus::InformUser:
// ↳ InformUser
// Inform the user that accumulated configuration is in use in the origin including, specifically, the information that
// Distinctive Identifier(s) and/or Distinctive Permanent Identifier(s) as appropriate will be used if the
// distinctiveIdentifier member of accumulated configuration is "required". Continue to the next step.
// NOTE: Implement.
break;
case ConsentStatus::Allowed:
// ↳ Allowed:
// Continue to the next step.
break;
}
// 23. Return accumulated configuration.
callback(WTFMove(configuration));
};
getConsentStatus(WTFMove(optionalConfiguration.value()), WTFMove(restrictions), WTFMove(consentCallback));
}
bool CDM::isPersistentType(MediaKeySessionType sessionType)
{
// https://w3c.github.io/encrypted-media/#is-persistent-session-type
// W3C Editor's Draft 09 November 2016
// 5.1.1. Is persistent session type?
// 1. Let the session type be the specified MediaKeySessionType value.
// 2. Follow the steps for the value of session type from the following list:
switch (sessionType) {
case MediaKeySessionType::Temporary:
// ↳ "temporary"
return false;
case MediaKeySessionType::PersistentLicense:
case MediaKeySessionType::PersistentUsageRecord:
// ↳ "persistent-license"
return true;
}
ASSERT_NOT_REACHED();
return false;
}
std::optional<MediaKeySystemConfiguration> CDM::getSupportedConfiguration(const MediaKeySystemConfiguration& candidateConfiguration, MediaKeysRestrictions& restrictions)
{
// https://w3c.github.io/encrypted-media/#get-supported-configuration-and-consent
// W3C Editor's Draft 09 November 2016
ASSERT(m_private);
if (!m_private)
return std::nullopt;
// 3.1.1.2 Get Supported Configuration and Consent
// Given a Key Systems implementation implementation, MediaKeySystemConfiguration candidate configuration,
// restrictions and origin, this algorithm returns a supported configuration, NotSupported, or ConsentDenied
// as appropriate and, in the ConsentDenied case, restrictions.
// 1. Let accumulated configuration be a new MediaKeySystemConfiguration dictionary.
MediaKeySystemConfiguration accumulatedConfiguration { };
// 2. Set the label member of accumulated configuration to equal the label member of candidate configuration.
accumulatedConfiguration.label = candidateConfiguration.label;
// 3. If the initDataTypes member of candidate configuration is non-empty, run the following steps:
if (!candidateConfiguration.initDataTypes.isEmpty()) {
// 3.1. Let supported types be an empty sequence of DOMStrings.
Vector<String> supportedTypes;
// 3.2. For each value in candidate configuration's initDataTypes member:
for (auto initDataType : candidateConfiguration.initDataTypes) {
// 3.2.1. Let initDataType be the value.
// 3.2.2. If the implementation supports generating requests based on initDataType, add initDataType
// to supported types. String comparison is case-sensitive. The empty string is never supported.
if (initDataType.isEmpty())
continue;
if (m_private && m_private->supportsInitDataType(initDataType))
supportedTypes.append(initDataType);
}
// 3.3. If supported types is empty, return NotSupported.
if (supportedTypes.isEmpty())
return std::nullopt;
// 3.4. Set the initDataTypes member of accumulated configuration to supported types.
accumulatedConfiguration.initDataTypes = WTFMove(supportedTypes);
}
// 4. Let distinctive identifier requirement be the value of candidate configuration's distinctiveIdentifier member.
MediaKeysRequirement distinctiveIdentifierRequirement = candidateConfiguration.distinctiveIdentifier;
// 5. If distinctive identifier requirement is "optional" and Distinctive Identifiers are not allowed according to
// restrictions, set distinctive identifier requirement to "not-allowed".
if (distinctiveIdentifierRequirement == MediaKeysRequirement::Optional && restrictions.distinctiveIdentifierDenied)
distinctiveIdentifierRequirement = MediaKeysRequirement::NotAllowed;
// 6. Follow the steps for distinctive identifier requirement from the following list:
switch (distinctiveIdentifierRequirement) {
case MediaKeysRequirement::Required:
// ↳ "required"
// If the implementation does not support use of Distinctive Identifier(s) in combination
// with accumulated configuration and restrictions, return NotSupported.
if (m_private->distinctiveIdentifiersRequirement(accumulatedConfiguration, restrictions) == MediaKeysRequirement::NotAllowed)
return std::nullopt;
break;
case MediaKeysRequirement::Optional:
// ↳ "optional"
// Continue with the following steps.
break;
case MediaKeysRequirement::NotAllowed:
// ↳ "not-allowed"
// If the implementation requires use Distinctive Identifier(s) or Distinctive Permanent Identifier(s)
// in combination with accumulated configuration and restrictions, return NotSupported.
if (m_private->distinctiveIdentifiersRequirement(accumulatedConfiguration, restrictions) == MediaKeysRequirement::Required)
return std::nullopt;
break;
}
// 7. Set the distinctiveIdentifier member of accumulated configuration to equal distinctive identifier requirement.
accumulatedConfiguration.distinctiveIdentifier = distinctiveIdentifierRequirement;
// 8. Let persistent state requirement be equal to the value of candidate configuration's persistentState member.
MediaKeysRequirement persistentStateRequirement = candidateConfiguration.persistentState;
// 9. If persistent state requirement is "optional" and persisting state is not allowed according to restrictions,
// set persistent state requirement to "not-allowed".
if (persistentStateRequirement == MediaKeysRequirement::Optional && restrictions.persistentStateDenied)
persistentStateRequirement = MediaKeysRequirement::NotAllowed;
// 10. Follow the steps for persistent state requirement from the following list:
switch (persistentStateRequirement) {
case MediaKeysRequirement::Required:
// ↳ "required"
// If the implementation does not support persisting state in combination with accumulated configuration
// and restrictions, return NotSupported.
if (m_private->persistentStateRequirement(accumulatedConfiguration, restrictions) == MediaKeysRequirement::NotAllowed)
return std::nullopt;
break;
case MediaKeysRequirement::Optional:
// ↳ "optional"
// Continue with the following steps.
break;
case MediaKeysRequirement::NotAllowed:
// ↳ "not-allowed"
// If the implementation requires persisting state in combination with accumulated configuration
// and restrictions, return NotSupported
if (m_private->persistentStateRequirement(accumulatedConfiguration, restrictions) == MediaKeysRequirement::Required)
return std::nullopt;
break;
}
// 11. Set the persistentState member of accumulated configuration to equal the value of persistent state requirement.
accumulatedConfiguration.persistentState = persistentStateRequirement;
// 12. Follow the steps for the first matching condition from the following list:
Vector<MediaKeySessionType> sessionTypes;
if (!candidateConfiguration.sessionTypes.isEmpty()) {
// ↳ If the sessionTypes member is present [WebIDL] in candidate configuration
// Let session types be candidate configuration's sessionTypes member.
sessionTypes = candidateConfiguration.sessionTypes;
} else {
// ↳ Otherwise
// Let session types be [ "temporary" ].
sessionTypes = { MediaKeySessionType::Temporary };
}
// 13. For each value in session types:
for (auto& sessionType : sessionTypes) {
// 13.1. Let session type be the value.
// 13.2. If accumulated configuration's persistentState value is "not-allowed" and the
// Is persistent session type? algorithm returns true for session type return NotSupported.
if (accumulatedConfiguration.persistentState == MediaKeysRequirement::NotAllowed && isPersistentType(sessionType))
return std::nullopt;
// 13.3. If the implementation does not support session type in combination with accumulated configuration
// and restrictions for other reasons, return NotSupported.
if (!m_private->supportsSessionTypeWithConfiguration(sessionType, accumulatedConfiguration))
return std::nullopt;
// 13.4 If accumulated configuration's persistentState value is "optional" and the result of running the Is
// persistent session type? algorithm on session type is true, change accumulated configuration's persistentState
// value to "required".
if (accumulatedConfiguration.persistentState == MediaKeysRequirement::Optional && isPersistentType(sessionType))
accumulatedConfiguration.persistentState = MediaKeysRequirement::Required;
}
// 14. Set the sessionTypes member of accumulated configuration to session types.
accumulatedConfiguration.sessionTypes = sessionTypes;
// 15. If the videoCapabilities and audioCapabilities members in candidate configuration are both empty, return NotSupported.
if (candidateConfiguration.videoCapabilities.isEmpty() && candidateConfiguration.audioCapabilities.isEmpty())
return std::nullopt;
// 16. ↳ If the videoCapabilities member in candidate configuration is non-empty:
if (!candidateConfiguration.videoCapabilities.isEmpty()) {
// 16.1. Let video capabilities be the result of executing the Get Supported Capabilities for Audio/Video Type algorithm on
// Video, candidate configuration's videoCapabilities member, accumulated configuration, and restrictions.
auto videoCapabilities = getSupportedCapabilitiesForAudioVideoType(AudioVideoType::Video, candidateConfiguration.videoCapabilities, accumulatedConfiguration, restrictions);
// 16.2. If video capabilities is null, return NotSupported.
if (!videoCapabilities)
return std::nullopt;
// 16.3 Set the videoCapabilities member of accumulated configuration to video capabilities.
accumulatedConfiguration.videoCapabilities = WTFMove(videoCapabilities.value());
} else {
// 16. ↳ Otherwise:
// Set the videoCapabilities member of accumulated configuration to an empty sequence.
accumulatedConfiguration.videoCapabilities = { };
}
// 17. ↳ If the audioCapabilities member in candidate configuration is non-empty:
if (!candidateConfiguration.audioCapabilities.isEmpty()) {
// 17.1. Let audio capabilities be the result of executing the Get Supported Capabilities for Audio/Video Type algorithm on
// Audio, candidate configuration's audioCapabilities member, accumulated configuration, and restrictions.
auto audioCapabilities = getSupportedCapabilitiesForAudioVideoType(AudioVideoType::Audio, candidateConfiguration.audioCapabilities, accumulatedConfiguration, restrictions);
// 17.2. If audio capabilities is null, return NotSupported.
if (!audioCapabilities)
return std::nullopt;
// 17.3 Set the audioCapabilities member of accumulated configuration to audio capabilities.
accumulatedConfiguration.audioCapabilities = WTFMove(audioCapabilities.value());
} else {
// 17. ↳ Otherwise:
// Set the audioCapabilities member of accumulated configuration to an empty sequence.
accumulatedConfiguration.audioCapabilities = { };
}
// 18. If accumulated configuration's distinctiveIdentifier value is "optional", follow the steps for the first matching
// condition from the following list:
if (accumulatedConfiguration.distinctiveIdentifier == MediaKeysRequirement::Optional) {
// ↳ If the implementation requires use Distinctive Identifier(s) or Distinctive Permanent Identifier(s) for any of the
// combinations in accumulated configuration
if (m_private->distinctiveIdentifiersRequirement(accumulatedConfiguration, restrictions) == MediaKeysRequirement::Required) {
// Change accumulated configuration's distinctiveIdentifier value to "required".
accumulatedConfiguration.distinctiveIdentifier = MediaKeysRequirement::Required;
} else {
// ↳ Otherwise
// Change accumulated configuration's distinctiveIdentifier value to "not-allowed".
accumulatedConfiguration.distinctiveIdentifier = MediaKeysRequirement::NotAllowed;
}
}
// 19. If accumulated configuration's persistentState value is "optional", follow the steps for the first matching
// condition from the following list:
if (accumulatedConfiguration.persistentState == MediaKeysRequirement::Optional) {
// ↳ If the implementation requires persisting state for any of the combinations in accumulated configuration
if (m_private->persistentStateRequirement(accumulatedConfiguration, restrictions) == MediaKeysRequirement::Required) {
// Change accumulated configuration's persistentState value to "required".
accumulatedConfiguration.persistentState = MediaKeysRequirement::Required;
} else {
// ↳ Otherwise
// Change accumulated configuration's persistentState value to "not-allowed".
accumulatedConfiguration.persistentState = MediaKeysRequirement::NotAllowed;
}
}
// 20. If implementation in the configuration specified by the combination of the values in accumulated configuration
// is not supported or not allowed in the origin, return NotSupported.
if (!m_private->supportsConfiguration(accumulatedConfiguration))
return std::nullopt;
Document* document = downcast<Document>(m_scriptExecutionContext);
if (!document)
return std::nullopt;
SecurityOrigin& origin = document->securityOrigin();
SecurityOrigin& topOrigin = document->topOrigin();
if ((accumulatedConfiguration.distinctiveIdentifier == MediaKeysRequirement::Required || accumulatedConfiguration.persistentState == MediaKeysRequirement::Required) && !origin.canAccessLocalStorage(&topOrigin))
return std::nullopt;
return WTFMove(accumulatedConfiguration);
// NOTE: Continued in getConsentStatus().
}
std::optional<Vector<MediaKeySystemMediaCapability>> CDM::getSupportedCapabilitiesForAudioVideoType(CDM::AudioVideoType type, const Vector<MediaKeySystemMediaCapability>& requestedCapabilities, const MediaKeySystemConfiguration& partialConfiguration, MediaKeysRestrictions& restrictions)
{
// https://w3c.github.io/encrypted-media/#get-supported-capabilities-for-audio-video-type
// W3C Editor's Draft 09 November 2016
ASSERT(m_private);
if (!m_private)
return std::nullopt;
// 3.1.1.3 Get Supported Capabilities for Audio/Video Type
// Given an audio/video type, MediaKeySystemMediaCapability sequence requested media capabilities, MediaKeySystemConfiguration
// partial configuration, and restrictions, this algorithm returns a sequence of supported MediaKeySystemMediaCapability values
// for this audio/video type or null as appropriate.
// 1. Let local accumulated configuration be a local copy of partial configuration.
MediaKeySystemConfiguration accumulatedConfiguration = partialConfiguration;
// 2. Let supported media capabilities be an empty sequence of MediaKeySystemMediaCapability dictionaries.
Vector<MediaKeySystemMediaCapability> supportedMediaCapabilities { };
// 3. For each requested media capability in requested media capabilities:
for (auto& requestedCapability : requestedCapabilities) {
// 3.1. Let content type be requested media capability's contentType member.
// 3.2. Let robustness be requested media capability's robustness member.
String robustness = requestedCapability.robustness;
// 3.3. If content type is the empty string, return null.
if (requestedCapability.contentType.isEmpty())
return std::nullopt;
// 3.4. If content type is an invalid or unrecognized MIME type, continue to the next iteration.
if (!isValidContentType(requestedCapability.contentType))
continue;
// 3.5. Let container be the container type specified by content type.
ParsedContentType contentType { requestedCapability.contentType };
String container = contentType.mimeType();
// 3.6. If the user agent does not support container, continue to the next iteration. The case-sensitivity
// of string comparisons is determined by the appropriate RFC.
// 3.7. Let parameters be the RFC 6381 [RFC6381] parameters, if any, specified by content type.
// 3.8. If the user agent does not recognize one or more parameters, continue to the next iteration.
// 3.9. Let media types be the set of codecs and codec constraints specified by parameters. The case-sensitivity
// of string comparisons is determined by the appropriate RFC or other specification.
String codecs = contentType.parameterValueForName("codecs");
if (contentType.parameterCount() > (codecs.isEmpty() ? 0 : 1))
continue;
// 3.10. If media types is empty:
if (codecs.isEmpty()) {
// ↳ If container normatively implies a specific set of codecs and codec constraints:
// ↳ Otherwise:
notImplemented();
}
// 3.11. If content type is not strictly a audio/video type, continue to the next iteration.
// 3.12. If robustness is not the empty string and contains an unrecognized value or a value not supported by
// implementation, continue to the next iteration. String comparison is case-sensitive.
if (!robustness.isEmpty() && !m_private->supportsRobustness(robustness))
continue;
// 3.13. If the user agent and implementation definitely support playback of encrypted media data for the
// combination of container, media types, robustness and local accumulated configuration in combination
// with restrictions:
MediaEngineSupportParameters parameters;
parameters.type = ContentType(contentType.mimeType());
if (!MediaPlayer::supportsType(parameters)) {
// Try with Media Source:
parameters.isMediaSource = true;
if (!MediaPlayer::supportsType(parameters))
continue;
}
if (!m_private->supportsConfigurationWithRestrictions(accumulatedConfiguration, restrictions))
continue;
// 3.13.1. Add requested media capability to supported media capabilities.
supportedMediaCapabilities.append(requestedCapability);
// 3.13.2. ↳ If audio/video type is Video:
// Add requested media capability to the videoCapabilities member of local accumulated configuration.
if (type == AudioVideoType::Video)
accumulatedConfiguration.videoCapabilities.append(requestedCapability);
// 3.13.2. ↳ If audio/video type is Audio:
// Add requested media capability to the audioCapabilities member of local accumulated configuration.
else
accumulatedConfiguration.audioCapabilities.append(requestedCapability);
}
// 4. If supported media capabilities is empty, return null.
if (supportedMediaCapabilities.isEmpty())
return std::nullopt;
// 5. Return supported media capabilities.
return supportedMediaCapabilities;
}
void CDM::getConsentStatus(MediaKeySystemConfiguration&& accumulatedConfiguration, MediaKeysRestrictions&& restrictions, ConsentStatusCallback&& callback)
{
// https://w3c.github.io/encrypted-media/#get-supported-configuration-and-consent
// W3C Editor's Draft 09 November 2016
if (!m_scriptExecutionContext) {
callback(ConsentStatus::ConsentDenied, WTFMove(accumulatedConfiguration), WTFMove(restrictions));
return;
}
// NOTE: In the future, these checks belowe will involve asking the page client, possibly across a process boundary.
// They will by necessity be asynchronous with callbacks. For now, imply this behavior by performing it in an async task.
m_scriptExecutionContext->postTask([this, weakThis = createWeakPtr(), accumulatedConfiguration = WTFMove(accumulatedConfiguration), restrictions = WTFMove(restrictions), callback = WTFMove(callback)] (ScriptExecutionContext&) mutable {
if (!weakThis || !m_private) {
callback(ConsentStatus::ConsentDenied, WTFMove(accumulatedConfiguration), WTFMove(restrictions));
return;
}
Document* document = downcast<Document>(m_scriptExecutionContext);
if (!document) {
callback(ConsentStatus::ConsentDenied, WTFMove(accumulatedConfiguration), WTFMove(restrictions));
return;
}
SecurityOrigin& origin = document->securityOrigin();
SecurityOrigin& topOrigin = document->topOrigin();
// 3.1.1.2 Get Supported Configuration and Consent, ctd.
// 21. If accumulated configuration's distinctiveIdentifier value is "required" and the Distinctive Identifier(s) associated
// with accumulated configuration are not unique per origin and profile and clearable:
if (accumulatedConfiguration.distinctiveIdentifier == MediaKeysRequirement::Required && !m_private->distinctiveIdentifiersAreUniquePerOriginAndClearable(accumulatedConfiguration)) {
// 21.1. Update restrictions to reflect that all configurations described by accumulated configuration do not have user consent.
restrictions.distinctiveIdentifierDenied = true;
callback(ConsentStatus::ConsentDenied, WTFMove(accumulatedConfiguration), WTFMove(restrictions));
return;
}
// https://w3c.github.io/encrypted-media/#get-consent-status
// 3.1.1.4 Get Consent Status
// Given an accumulated configuration, restrictions and origin, this algorithm returns the consent status for accumulated
// configuration and origin as one of ConsentDenied, InformUser or Allowed, together with an updated value for restrictions
// in the ConsentDenied case.
// 1. If there is persisted denial for origin indicating that accumulated configuration is not allowed, run the following steps:
// 1.1. Update restrictions to reflect the configurations for which consent has been denied.
// 1.2. Return ConsentDenied and restrictions.
// 2. If there is persisted consent for origin indicating accumulated configuration is allowed, return Allowed.
// NOTE: persisted denial / consent unimplemented.
// 3. If any of the following are true:
// ↳ The distinctiveIdentifier member of accumulated configuration is not "not-allowed" and the combination of the User Agent,
// implementation and accumulated configuration does not follow all the recommendations of Allow Persistent Data to Be Cleared
// with respect to Distinctive Identifier(s).
// NOTE: assume that implementations follow all recommendations.
// ↳ The user agent requires explicit user consent for the accumulated configuration for other reasons.
// NOTE: assume the user agent does not require explicit user consent.
// 3.1. Request user consent to use accumulated configuration in the origin and wait for the user response.
// The consent must include consent to use a Distinctive Identifier(s) and/or Distinctive Permanent Identifier(s) as appropriate
// if accumulated configuration's distinctiveIdentifier member is "required".
// 3.2. If consent was denied, run the following steps:
// 3.2.1. Update restrictions to reflect the configurations for which consent was denied.
// 3.2.1. Return ConsentDenied and restrictions.
// NOTE: assume implied consent if the combination of origin and topOrigin allows it.
if (accumulatedConfiguration.distinctiveIdentifier == MediaKeysRequirement::Required && !origin.canAccessLocalStorage(&topOrigin)) {
restrictions.distinctiveIdentifierDenied = true;
callback(ConsentStatus::ConsentDenied, WTFMove(accumulatedConfiguration), WTFMove(restrictions));
return;
}
// 4. If the distinctiveIdentifier member of accumulated configuration is not "not-allowed", return InformUser.
if (accumulatedConfiguration.distinctiveIdentifier != MediaKeysRequirement::NotAllowed) {
callback(ConsentStatus::InformUser, WTFMove(accumulatedConfiguration), WTFMove(restrictions));
return;
}
// 5. If the user agent requires informing the user for the accumulated configuration for other reasons, return InformUser.
// NOTE: assume the user agent does not require informing the user.
// 6. Return Allowed.
callback(ConsentStatus::Allowed, WTFMove(accumulatedConfiguration), WTFMove(restrictions));
});
}
void CDM::loadAndInitialize()
{
if (m_private)
m_private->loadAndInitialize();
}
RefPtr<CDMInstance> CDM::createInstance()
{
if (!m_private)
return nullptr;
auto instance = m_private->createInstance();
instance->setStorageDirectory(storageDirectory());
return instance;
}
bool CDM::supportsServerCertificates() const
{
return m_private && m_private->supportsServerCertificates();
}
bool CDM::supportsSessions() const
{
return m_private && m_private->supportsSessions();
}
bool CDM::supportsInitDataType(const AtomicString& initDataType) const
{
return m_private && m_private->supportsInitDataType(initDataType);
}
RefPtr<SharedBuffer> CDM::sanitizeInitData(const AtomicString& initDataType, const SharedBuffer& initData)
{
return InitDataRegistry::shared().sanitizeInitData(initDataType, initData);
}
bool CDM::supportsInitData(const AtomicString& initDataType, const SharedBuffer& initData)
{
return m_private && m_private->supportsInitData(initDataType, initData);
}
RefPtr<SharedBuffer> CDM::sanitizeResponse(const SharedBuffer& response)
{
if (!m_private)
return nullptr;
return m_private->sanitizeResponse(response);
}
std::optional<String> CDM::sanitizeSessionId(const String& sessionId)
{
if (!m_private)
return std::nullopt;
return m_private->sanitizeSessionId(sessionId);
}
String CDM::storageDirectory() const
{
auto* document = downcast<Document>(scriptExecutionContext());
if (!document)
return emptyString();
auto* page = document->page();
if (!page || page->usesEphemeralSession())
return emptyString();
auto storageDirectory = document->settings().mediaKeysStorageDirectory();
if (storageDirectory.isEmpty())
return emptyString();
return FileSystem::pathByAppendingComponent(storageDirectory, document->securityOrigin().data().databaseIdentifier());
}
}
#endif