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webkit / WebKit / a505795d6604e65c53d1725ad4e11f5541e21004 / . / Source / WebCore / platform / encryptedmedia / clearkey / CDMClearKey.cpp
blob: 9161f4545f758075d2497de924c0014b47694eb9 [file] [log] [blame]
/*
* Copyright (C) 2016 Metrological Group B.V.
* Copyright (C) 2016 Igalia S.L.
*
* 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 THE COPYRIGHT HOLDERS AND 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 THE COPYRIGHT
* HOLDER OR 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 "CDMClearKey.h"
#if ENABLE(ENCRYPTED_MEDIA)
#include "CDMKeySystemConfiguration.h"
#include "CDMRestrictions.h"
#include "CDMSessionType.h"
#include "SharedBuffer.h"
#include <wtf/JSONValues.h>
#include <wtf/MainThread.h>
#include <wtf/NeverDestroyed.h>
#include <wtf/text/Base64.h>
namespace WebCore {
// ClearKey CENC SystemID.
// https://www.w3.org/TR/eme-initdata-cenc/#common-system
const uint8_t clearKeyCencSystemId[] = { 0x10, 0x77, 0xef, 0xec, 0xc0, 0xb2, 0x4d, 0x02, 0xac, 0xe3, 0x3c, 0x1e, 0x52, 0xe2, 0xfb, 0x4b };
const unsigned clearKeyCencSystemIdSize = sizeof(clearKeyCencSystemId);
const unsigned keyIdSize = 16;
class ClearKeyState {
using KeyStore = HashMap<String, Vector<CDMInstanceClearKey::Key>>;
public:
static ClearKeyState& singleton();
KeyStore& keys() { return m_keys; }
private:
friend class NeverDestroyed<ClearKeyState>;
ClearKeyState();
KeyStore m_keys;
};
ClearKeyState& ClearKeyState::singleton()
{
static NeverDestroyed<ClearKeyState> s_state;
return s_state;
}
ClearKeyState::ClearKeyState() = default;
static RefPtr<JSON::Object> parseJSONObject(const SharedBuffer& buffer)
{
// Fail on large buffers whose size doesn't fit into a 32-bit unsigned integer.
size_t size = buffer.size();
if (size > std::numeric_limits<unsigned>::max())
return nullptr;
// Parse the buffer contents as JSON, returning the root object (if any).
String json { buffer.data(), static_cast<unsigned>(size) };
RefPtr<JSON::Value> value;
RefPtr<JSON::Object> object;
if (!JSON::Value::parseJSON(json, value) || !value->asObject(object))
return nullptr;
return object;
}
static Optional<Vector<CDMInstanceClearKey::Key>> parseLicenseFormat(const JSON::Object& root)
{
// If the 'keys' key is present in the root object, parse the JSON further
// according to the specified 'license' format.
auto it = root.find("keys");
if (it == root.end())
return WTF::nullopt;
// Retrieve the keys array.
RefPtr<JSON::Array> keysArray;
if (!it->value->asArray(keysArray))
return WTF::nullopt;
Vector<CDMInstanceClearKey::Key> decodedKeys;
bool validFormat = std::all_of(keysArray->begin(), keysArray->end(),
[&decodedKeys] (const auto& value) {
RefPtr<JSON::Object> keyObject;
if (!value->asObject(keyObject))
return false;
String keyType;
if (!keyObject->getString("kty", keyType) || !equalLettersIgnoringASCIICase(keyType, "oct"))
return false;
String keyID, keyValue;
if (!keyObject->getString("kid", keyID) || !keyObject->getString("k", keyValue))
return false;
Vector<char> keyIDData, keyValueData;
if (!WTF::base64URLDecode(keyID, { keyIDData }) || !WTF::base64URLDecode(keyValue, { keyValueData }))
return false;
decodedKeys.append({ CDMInstanceSession::KeyStatus::Usable, SharedBuffer::create(WTFMove(keyIDData)), SharedBuffer::create(WTFMove(keyValueData)) });
return true;
});
if (!validFormat)
return WTF::nullopt;
return decodedKeys;
}
static bool parseLicenseReleaseAcknowledgementFormat(const JSON::Object& root)
{
// If the 'kids' key is present in the root object, parse the JSON further
// according to the specified 'license release acknowledgement' format.
auto it = root.find("kids");
if (it == root.end())
return false;
// Retrieve the kids array.
RefPtr<JSON::Array> kidsArray;
if (!it->value->asArray(kidsArray))
return false;
// FIXME: Return the key IDs and validate them.
return true;
}
// https://www.w3.org/TR/eme-initdata-cenc/#common-system
// 4.1 Definition
// The SystemID is 1077efec-c0b2-4d02-ace3-3c1e52e2fb4b.
// The PSSH box format is as follows. It follows version 1 of the 'pssh' box as defined in [CENC].
// pssh = [
// 0x00, 0x00, 0x00, 0x4c, 0x70, 0x73, 0x73, 0x68, // BMFF box header (76 bytes, 'pssh')
// 0x01, 0x00, 0x00, 0x00, // Full box header (version = 1, flags = 0)
// 0x10, 0x77, 0xef, 0xec, 0xc0, 0xb2, 0x4d, 0x02, // SystemID
// 0xac, 0xe3, 0x3c, 0x1e, 0x52, 0xe2, 0xfb, 0x4b,
// 0x00, 0x00, 0x00, 0x02, // KidCount (2)
// 0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, // First KID ("0123456789012345")
// 0x38, 0x39, 0x30, 0x31, 0x32, 0x33, 0x34, 0x35,
// 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, // Second KID ("ABCDEFGHIJKLMNOP")
// 0x49, 0x4a, 0x4b, 0x4c, 0x4d, 0x4e, 0x4f, 0x50,
// 0x00, 0x00, 0x00, 0x00, // Size of Data (0)
// ];
// This function extracts the KeyIds count and the location of the first KeyId in initData buffer.
static std::pair<unsigned, unsigned> extractKeyidsLocationFromCencInitData(const SharedBuffer& initData)
{
std::pair<unsigned, unsigned> keyIdsMap(0, 0);
// Check the initData size.
if (initData.isEmpty() || initData.size() > std::numeric_limits<unsigned>::max())
return keyIdsMap;
const char* data = initData.data();
unsigned initDataSize = initData.size();
unsigned index = 0;
unsigned psshSize = 0;
// Search in the concatenated or the simple InitData, the ClearKey PSSH.
bool foundPssh = false;
while (true) {
// Check the overflow InitData.
if (index + 12 + clearKeyCencSystemIdSize >= initDataSize)
return keyIdsMap;
psshSize = data[index + 2] * 256 + data[index + 3];
// Check the pssh size
if (!psshSize)
return keyIdsMap;
// 12 = BMFF box header + Full box header.
if (!memcmp(&data[index + 12], clearKeyCencSystemId, clearKeyCencSystemIdSize)) {
foundPssh = true;
break;
}
index += psshSize;
}
// Check if the InitData contains the ClearKey PSSH.
if (!foundPssh)
return keyIdsMap;
index += (12 + clearKeyCencSystemIdSize); // 12 (BMFF box header + Full box header) + SystemID size.
// Check the overflow.
if (index + 3 >= initDataSize)
return keyIdsMap;
keyIdsMap.first = data[index + 3]; // Read the KeyIdsCount.
index += 4; // KeyIdsCount size.
// Check the overflow.
if ((index + (keyIdsMap.first * keyIdSize)) >= initDataSize)
return keyIdsMap;
keyIdsMap.second = index; // The location of the first KeyId in initData.
return keyIdsMap;
}
// This function checks if the initData sharedBuffer is a valid CENC initData.
static bool isCencInitData(const SharedBuffer& initData)
{
std::pair<unsigned, unsigned> keyIdsMap = extractKeyidsLocationFromCencInitData(initData);
return ((keyIdsMap.first) && (keyIdsMap.second));
}
static Ref<SharedBuffer> extractKeyidsFromCencInitData(const SharedBuffer& initData)
{
Ref<SharedBuffer> keyIds = SharedBuffer::create();
std::pair<unsigned, unsigned> keyIdsMap = extractKeyidsLocationFromCencInitData(initData);
unsigned keyIdCount = keyIdsMap.first;
unsigned index = keyIdsMap.second;
// Check if initData is a valid CENC initData.
if (!keyIdCount || !index)
return keyIds;
const char* data = initData.data();
auto object = JSON::Object::create();
auto keyIdsArray = JSON::Array::create();
// Read the KeyId
// 9.1.3 License Request Format
// This section describes the format of the license request provided to the application via the message attribute of the message event.
// The format is a JSON object containing the following members:
// "kids"
// An array of key IDs. Each element of the array is the base64url encoding of the octet sequence containing the key ID value.
for (unsigned i = 0; i < keyIdCount; i++) {
String keyId = WTF::base64URLEncode(&data[index], keyIdSize);
keyIdsArray->pushString(keyId);
index += keyIdSize;
}
object->setArray("kids", WTFMove(keyIdsArray));
CString jsonData = object->toJSONString().utf8();
keyIds->append(jsonData.data(), jsonData.length());
return keyIds;
}
static Ref<SharedBuffer> extractKeyIdFromWebMInitData(const SharedBuffer& initData)
{
Ref<SharedBuffer> keyIds = SharedBuffer::create();
// Check if initData is a valid WebM initData.
if (initData.isEmpty() || initData.size() > std::numeric_limits<unsigned>::max())
return keyIds;
auto object = JSON::Object::create();
auto keyIdsArray = JSON::Array::create();
// Read the KeyId
// 9.1.3 License Request Format
// This section describes the format of the license request provided to the application via the message attribute of the message event.
// The format is a JSON object containing the following members:
// "kids"
// An array of key IDs. Each element of the array is the base64url encoding of the octet sequence containing the key ID value.
String keyId = WTF::base64URLEncode(initData.data(), initData.size());
keyIdsArray->pushString(keyId);
object->setArray("kids", WTFMove(keyIdsArray));
CString jsonData = object->toJSONString().utf8();
keyIds->append(jsonData.data(), jsonData.length());
return keyIds;
}
CDMFactoryClearKey& CDMFactoryClearKey::singleton()
{
static NeverDestroyed<CDMFactoryClearKey> s_factory;
return s_factory;
}
CDMFactoryClearKey::CDMFactoryClearKey() = default;
CDMFactoryClearKey::~CDMFactoryClearKey() = default;
std::unique_ptr<CDMPrivate> CDMFactoryClearKey::createCDM(const String& keySystem)
{
#ifdef NDEBUG
UNUSED_PARAM(keySystem);
#else
ASSERT(supportsKeySystem(keySystem));
#endif
return makeUnique<CDMPrivateClearKey>();
}
bool CDMFactoryClearKey::supportsKeySystem(const String& keySystem)
{
// `org.w3.clearkey` is the only supported key system.
return equalLettersIgnoringASCIICase(keySystem, "org.w3.clearkey");
}
CDMPrivateClearKey::CDMPrivateClearKey() = default;
CDMPrivateClearKey::~CDMPrivateClearKey() = default;
bool CDMPrivateClearKey::supportsInitDataType(const AtomString& initDataType) const
{
// `keyids` and 'cenc' are the only supported init data type.
return (equalLettersIgnoringASCIICase(initDataType, "keyids") || equalLettersIgnoringASCIICase(initDataType, "cenc") || equalLettersIgnoringASCIICase(initDataType, "webm"));
}
static bool containsPersistentLicenseType(const Vector<CDMSessionType>& types)
{
return std::any_of(types.begin(), types.end(),
[] (auto& sessionType) { return sessionType == CDMSessionType::PersistentLicense; });
}
bool CDMPrivateClearKey::supportsConfiguration(const CDMKeySystemConfiguration& configuration) const
{
// Reject any configuration that marks distinctive identifier as required.
if (configuration.distinctiveIdentifier == CDMRequirement::Required)
return false;
// Reject any configuration that marks persistent state as required, unless
// the 'persistent-license' session type has to be supported.
if (configuration.persistentState == CDMRequirement::Required && !containsPersistentLicenseType(configuration.sessionTypes))
return false;
return true;
}
bool CDMPrivateClearKey::supportsConfigurationWithRestrictions(const CDMKeySystemConfiguration& configuration, const CDMRestrictions& restrictions) const
{
// Reject any configuration that marks distincitive identifier as required, or that marks
// distinctive identifier as optional even when restrictions mark it as denied.
if ((configuration.distinctiveIdentifier == CDMRequirement::Optional && restrictions.distinctiveIdentifierDenied)
|| configuration.distinctiveIdentifier == CDMRequirement::Required)
return false;
// Reject any configuration that marks persistent state as optional even when
// restrictions mark it as denied.
if (configuration.persistentState == CDMRequirement::Optional && restrictions.persistentStateDenied)
return false;
// Reject any configuration that marks persistent state as required, unless
// the 'persistent-license' session type has to be supported.
if (configuration.persistentState == CDMRequirement::Required && !containsPersistentLicenseType(configuration.sessionTypes))
return false;
return true;
}
bool CDMPrivateClearKey::supportsSessionTypeWithConfiguration(CDMSessionType& sessionType, const CDMKeySystemConfiguration& configuration) const
{
// Only support the 'temporary' and 'persistent-license' session types.
if (sessionType != CDMSessionType::Temporary && sessionType != CDMSessionType::PersistentLicense)
return false;
return supportsConfiguration(configuration);
}
bool CDMPrivateClearKey::supportsRobustness(const String& robustness) const
{
// Only empty `robustness` string is supported.
return robustness.isEmpty();
}
CDMRequirement CDMPrivateClearKey::distinctiveIdentifiersRequirement(const CDMKeySystemConfiguration&, const CDMRestrictions& restrictions) const
{
// Distinctive identifier is not allowed if it's been denied, otherwise it's optional.
if (restrictions.distinctiveIdentifierDenied)
return CDMRequirement::NotAllowed;
return CDMRequirement::Optional;
}
CDMRequirement CDMPrivateClearKey::persistentStateRequirement(const CDMKeySystemConfiguration&, const CDMRestrictions& restrictions) const
{
// Persistent state is not allowed if it's been denied, otherwise it's optional.
if (restrictions.persistentStateDenied)
return CDMRequirement::NotAllowed;
return CDMRequirement::Optional;
}
bool CDMPrivateClearKey::distinctiveIdentifiersAreUniquePerOriginAndClearable(const CDMKeySystemConfiguration&) const
{
return false;
}
RefPtr<CDMInstance> CDMPrivateClearKey::createInstance()
{
return adoptRef(new CDMInstanceClearKey);
}
void CDMPrivateClearKey::loadAndInitialize()
{
// No-op.
}
bool CDMPrivateClearKey::supportsServerCertificates() const
{
// Server certificates are not supported.
return false;
}
bool CDMPrivateClearKey::supportsSessions() const
{
// Sessions are supported.
return true;
}
bool CDMPrivateClearKey::supportsInitData(const AtomString& initDataType, const SharedBuffer& initData) const
{
// Validate the initData buffer as an JSON object in keyids case.
if (equalLettersIgnoringASCIICase(initDataType, "keyids") && parseJSONObject(initData))
return true;
// Validate the initData buffer as CENC initData.
if (equalLettersIgnoringASCIICase(initDataType, "cenc") && isCencInitData(initData))
return true;
// Validate the initData buffer as WebM initData.
if (equalLettersIgnoringASCIICase(initDataType, "webm") && !initData.isEmpty())
return true;
return false;
}
RefPtr<SharedBuffer> CDMPrivateClearKey::sanitizeResponse(const SharedBuffer& response) const
{
// Validate the response buffer as an JSON object.
if (!parseJSONObject(response))
return nullptr;
return response.copy();
}
Optional<String> CDMPrivateClearKey::sanitizeSessionId(const String& sessionId) const
{
// Validate the session ID string as an 32-bit integer.
bool ok;
sessionId.toUIntStrict(&ok);
if (!ok)
return WTF::nullopt;
return sessionId;
}
// This is for thread-safety during an architectural situation that is
// less than ideal. The GStreamer decryptors currently need to iterate
// all known session keys to find the key data for priming
// GCrypt. Ideally, all decryption would be the responsibility of
// ProxyCDM object like this one. What the background GStreamer
// thread was doing was getting copies (i.e. ref()'s) of SharedBuffers
// created on the main-thread. With the new safety assertions in
// WebKit, we can no longer do this. Instead, convert the refcounted
// SharedBuffers into Strings which can be safely copied across
// threads.
static ProxyCDMClearKey::Key isolatedKey(const CDMInstanceClearKey::Key& key)
{
return { key.status, String(key.keyIDData->data(), key.keyIDData->size()), String(key.keyValueData->data(), key.keyValueData->size()) };
}
const Vector<ProxyCDMClearKey::Key> ProxyCDMClearKey::isolatedKeys() const
{
// Return the keys of all sessions, may be copied to background threads.
Vector<ProxyCDMClearKey::Key> allKeys { };
auto locker = holdLock(m_keysMutex);
size_t initialCapacity = 0;
for (auto& keyVector : ClearKeyState::singleton().keys().values())
initialCapacity += keyVector.size();
allKeys.reserveInitialCapacity(initialCapacity);
for (auto& keyVector : ClearKeyState::singleton().keys().values()) {
for (auto& key : keyVector)
allKeys.uncheckedAppend(isolatedKey(key));
}
return allKeys;
}
CDMInstanceClearKey::CDMInstanceClearKey()
: m_proxyCDM(adoptRef(*new ProxyCDMClearKey()))
{
}
CDMInstanceClearKey::~CDMInstanceClearKey() = default;
CDMInstance::SuccessValue CDMInstanceClearKey::initializeWithConfiguration(const CDMKeySystemConfiguration&)
{
// No-op.
return Succeeded;
}
CDMInstance::SuccessValue CDMInstanceClearKey::setDistinctiveIdentifiersAllowed(bool allowed)
{
// Reject setting distinctive identifiers as allowed.
return !allowed ? Succeeded : Failed;
}
CDMInstance::SuccessValue CDMInstanceClearKey::setPersistentStateAllowed(bool allowed)
{
// Reject setting persistent state as allowed.
return !allowed ? Succeeded : Failed;
}
CDMInstance::SuccessValue CDMInstanceClearKey::setServerCertificate(Ref<SharedBuffer>&&)
{
// Reject setting any server certificate.
return Failed;
}
CDMInstance::SuccessValue CDMInstanceClearKey::setStorageDirectory(const String& storageDirectory)
{
// Reject any persistent state storage.
return storageDirectory.isEmpty() ? Succeeded : Failed;
}
const String& CDMInstanceClearKey::keySystem() const
{
static const NeverDestroyed<String> s_keySystem { MAKE_STATIC_STRING_IMPL("org.w3.clearkey") };
return s_keySystem;
}
RefPtr<CDMInstanceSession> CDMInstanceClearKey::createSession()
{
return adoptRef(new CDMInstanceSessionClearKey());
}
void CDMInstanceSessionClearKey::requestLicense(LicenseType, const AtomString& initDataType, Ref<SharedBuffer>&& initData, LicenseCallback&& callback)
{
static uint32_t s_sessionIdValue = 0;
++s_sessionIdValue;
if (equalLettersIgnoringASCIICase(initDataType, "cenc"))
initData = extractKeyidsFromCencInitData(initData.get());
if (equalLettersIgnoringASCIICase(initDataType, "webm"))
initData = extractKeyIdFromWebMInitData(initData.get());
callOnMainThread(
[weakThis = makeWeakPtr(*this), callback = WTFMove(callback), initData = WTFMove(initData), sessionIdValue = s_sessionIdValue]() mutable {
if (!weakThis)
return;
callback(WTFMove(initData), String::number(sessionIdValue), false, Succeeded);
});
}
void CDMInstanceSessionClearKey::updateLicense(const String& sessionId, LicenseType, const SharedBuffer& response, LicenseUpdateCallback&& callback)
{
// Use a helper functor that schedules the callback dispatch, avoiding
// duplicated callOnMainThread() calls.
auto dispatchCallback =
[this, &callback](bool sessionWasClosed, Optional<KeyStatusVector>&& changedKeys, SuccessValue succeeded) {
callOnMainThread(
[weakThis = makeWeakPtr(*this), callback = WTFMove(callback), sessionWasClosed, changedKeys = WTFMove(changedKeys), succeeded] () mutable {
if (!weakThis)
return;
callback(sessionWasClosed, WTFMove(changedKeys), WTF::nullopt, WTF::nullopt, succeeded);
});
};
// Parse the response buffer as an JSON object.
RefPtr<JSON::Object> root = parseJSONObject(response);
if (!root) {
dispatchCallback(false, WTF::nullopt, SuccessValue::Failed);
return;
}
// Parse the response using 'license' formatting, if possible.
if (auto decodedKeys = parseLicenseFormat(*root)) {
// Retrieve the target Vector of Key objects for this session.
auto& keyVector = ClearKeyState::singleton().keys().ensure(sessionId, [] { return Vector<CDMInstanceClearKey::Key> { }; }).iterator->value;
// For each decoded key, find an existing item for the decoded key's ID. If none exist,
// the key is decoded. Otherwise, the key is updated in case there's a mismatch between
// the size or data of the existing and proposed key.
bool keysChanged = false;
for (auto& key : *decodedKeys) {
auto it = std::find_if(keyVector.begin(), keyVector.end(),
[&key] (const CDMInstanceClearKey::Key& containedKey) {
return containedKey.keyIDData->size() == key.keyIDData->size()
&& !std::memcmp(containedKey.keyIDData->data(), key.keyIDData->data(), containedKey.keyIDData->size());
});
if (it != keyVector.end()) {
auto& existingKey = it->keyValueData;
auto& proposedKey = key.keyValueData;
// Update the existing Key if it differs from the proposed key in key value.
if (existingKey->size() != proposedKey->size() || std::memcmp(existingKey->data(), proposedKey->data(), existingKey->size())) {
*it = WTFMove(key);
keysChanged = true;
}
} else {
// In case a Key for this key ID doesn't exist yet, append the new one to keyVector.
keyVector.append(WTFMove(key));
keysChanged = true;
}
}
// In case of changed keys, we have to provide a KeyStatusVector of all the keys for
// this session.
Optional<KeyStatusVector> changedKeys;
if (keysChanged) {
// First a helper Vector is constructed, cotaining pairs of SharedBuffer RefPtrs
// representint key ID data, and the corresponding key statuses.
// We can't use KeyStatusVector here because this Vector has to be sorted, which
// is not possible to do on Ref<> objects.
Vector<std::pair<RefPtr<SharedBuffer>, KeyStatus>> keys;
keys.reserveInitialCapacity(keyVector.size());
for (auto& it : keyVector)
keys.uncheckedAppend(std::pair<RefPtr<SharedBuffer>, KeyStatus> { it.keyIDData, it.status });
// Sort first by size, second by data.
std::sort(keys.begin(), keys.end(),
[] (const auto& a, const auto& b) {
if (a.first->size() != b.first->size())
return a.first->size() < b.first->size();
return std::memcmp(a.first->data(), b.first->data(), a.first->size()) < 0;
});
// Finally construct the mirroring KeyStatusVector object and move it into the
// Optional<> object that will be passed to the callback.
KeyStatusVector keyStatusVector;
keyStatusVector.reserveInitialCapacity(keys.size());
for (auto& it : keys)
keyStatusVector.uncheckedAppend(std::pair<Ref<SharedBuffer>, KeyStatus> { *it.first, it.second });
changedKeys = WTFMove(keyStatusVector);
}
dispatchCallback(false, WTFMove(changedKeys), SuccessValue::Succeeded);
return;
}
// Parse the response using 'license release acknowledgement' formatting, if possible.
if (parseLicenseReleaseAcknowledgementFormat(*root)) {
// FIXME: Retrieve the key ID information and use it to validate the keys for this sessionId.
ClearKeyState::singleton().keys().remove(sessionId);
dispatchCallback(true, WTF::nullopt, SuccessValue::Succeeded);
return;
}
// Bail in case no format was recognized.
dispatchCallback(false, WTF::nullopt, SuccessValue::Failed);
}
void CDMInstanceSessionClearKey::loadSession(LicenseType, const String& sessionId, const String&, LoadSessionCallback&& callback)
{
// Use a helper functor that schedules the callback dispatch, avoiding duplicated callOnMainThread() calls.
auto dispatchCallback =
[this, &callback](Optional<KeyStatusVector>&& existingKeys, SuccessValue success, SessionLoadFailure loadFailure) {
callOnMainThread(
[weakThis = makeWeakPtr(*this), callback = WTFMove(callback), existingKeys = WTFMove(existingKeys), success, loadFailure]() mutable {
if (!weakThis)
return;
callback(WTFMove(existingKeys), WTF::nullopt, WTF::nullopt, success, loadFailure);
});
};
// Construct the KeyStatusVector object, representing all the known keys for this session.
KeyStatusVector keyStatusVector;
{
auto& keys = ClearKeyState::singleton().keys();
auto it = keys.find(sessionId);
if (it == keys.end()) {
dispatchCallback(WTF::nullopt, Failed, SessionLoadFailure::NoSessionData);
return;
}
auto& keyVector = it->value;
keyStatusVector.reserveInitialCapacity(keyVector.size());
for (auto& key : keyVector)
keyStatusVector.uncheckedAppend(std::pair<Ref<SharedBuffer>, KeyStatus> { *key.keyIDData, key.status });
}
dispatchCallback(WTFMove(keyStatusVector), Succeeded, SessionLoadFailure::None);
}
void CDMInstanceSessionClearKey::closeSession(const String&, CloseSessionCallback&& callback)
{
callOnMainThread(
[weakThis = makeWeakPtr(*this), callback = WTFMove(callback)] () mutable {
if (!weakThis)
return;
callback();
});
}
void CDMInstanceSessionClearKey::removeSessionData(const String& sessionId, LicenseType, RemoveSessionDataCallback&& callback)
{
// Use a helper functor that schedules the callback dispatch, avoiding duplicated callOnMainThread() calls.
auto dispatchCallback =
[this, &callback](KeyStatusVector&& keyStatusVector, Optional<Ref<SharedBuffer>>&& message, SuccessValue success) {
callOnMainThread(
[weakThis = makeWeakPtr(*this), callback = WTFMove(callback), keyStatusVector = WTFMove(keyStatusVector), message = WTFMove(message), success]() mutable {
if (!weakThis)
return;
callback(WTFMove(keyStatusVector), WTFMove(message), success);
});
};
// Construct the KeyStatusVector object, representing released keys, and the message in the
// 'license release' format.
KeyStatusVector keyStatusVector;
RefPtr<SharedBuffer> message;
{
// Retrieve information for the given session ID, bailing if none is found.
auto& keys = ClearKeyState::singleton().keys();
auto it = keys.find(sessionId);
if (it == keys.end()) {
dispatchCallback(KeyStatusVector { }, WTF::nullopt, SuccessValue::Failed);
return;
}
// Retrieve the Key vector, containing all the keys for this session, and
// then remove the key map entry for this session.
auto keyVector = WTFMove(it->value);
keys.remove(it);
// Construct the KeyStatusVector object, pairing key IDs with the 'released' status.
keyStatusVector.reserveInitialCapacity(keyVector.size());
for (auto& key : keyVector)
keyStatusVector.uncheckedAppend(std::pair<Ref<SharedBuffer>, KeyStatus> { *key.keyIDData, KeyStatus::Released });
// Construct JSON that represents the 'license release' format, creating a 'kids' array
// of base64URL-encoded key IDs for all keys that were associated with this session.
auto rootObject = JSON::Object::create();
{
auto array = JSON::Array::create();
for (auto& key : keyVector) {
ASSERT(key.keyIDData->size() <= std::numeric_limits<unsigned>::max());
array->pushString(WTF::base64URLEncode(key.keyIDData->data(), static_cast<unsigned>(key.keyIDData->size())));
}
rootObject->setArray("kids", WTFMove(array));
}
// Copy the JSON data into a SharedBuffer object.
String messageString = rootObject->toJSONString();
CString messageCString = messageString.utf8();
message = SharedBuffer::create(messageCString.data(), messageCString.length());
}
dispatchCallback(WTFMove(keyStatusVector), Ref<SharedBuffer>(*message), SuccessValue::Succeeded);
}
void CDMInstanceSessionClearKey::storeRecordOfKeyUsage(const String&)
{
}
} // namespace WebCore
#endif // ENABLE(ENCRYPTED_MEDIA)