/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ //#define LOG_NDEBUG 0 #define LOG_TAG "NdkMediaDrm" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace android; typedef Vector idvec_t; struct DrmListener: virtual public IDrmClient { private: AMediaDrm *mObj; AMediaDrmEventListener mEventListener; AMediaDrmExpirationUpdateListener mExpirationUpdateListener; AMediaDrmKeysChangeListener mKeysChangeListener; public: DrmListener(AMediaDrm *obj, AMediaDrmEventListener listener) : mObj(obj), mEventListener(listener), mExpirationUpdateListener(NULL), mKeysChangeListener(NULL) {} DrmListener(AMediaDrm *obj, AMediaDrmExpirationUpdateListener listener) : mObj(obj), mEventListener(NULL), mExpirationUpdateListener(listener), mKeysChangeListener(NULL) {} DrmListener(AMediaDrm *obj, AMediaDrmKeysChangeListener listener) : mObj(obj), mEventListener(NULL), mExpirationUpdateListener(NULL), mKeysChangeListener(listener) {} void setEventListener(AMediaDrmEventListener listener) { mEventListener = listener; } void setExpirationUpdateListener(AMediaDrmExpirationUpdateListener listener) { mExpirationUpdateListener = listener; } void setKeysChangeListener(AMediaDrmKeysChangeListener listener) { mKeysChangeListener = listener; } void sendEvent( DrmPlugin::EventType eventType, const hardware::hidl_vec &sessionId, const hardware::hidl_vec &data) override; void sendExpirationUpdate( const hardware::hidl_vec &sessionId, int64_t expiryTimeInMS) override; void sendKeysChange( const hardware::hidl_vec &sessionId, const std::vector &keyStatusList, bool hasNewUsableKey) override; void sendSessionLostState( const hardware::hidl_vec &) override {} }; struct AMediaDrm { sp mDrm; List mIds; KeyedVector mQueryResults; Vector mKeyRequest; Vector mProvisionRequest; String8 mProvisionUrl; String8 mPropertyString; Vector mPropertyByteArray; List > mSecureStops; sp mListener; }; void DrmListener::sendExpirationUpdate( const hardware::hidl_vec &sessionId, int64_t expiryTimeInMS) { if (!mExpirationUpdateListener) { ALOGE("No ExpirationUpdateListener specified"); return; } if (expiryTimeInMS >= 0) { AMediaDrmSessionId asid = {sessionId.data(), sessionId.size()}; (*mExpirationUpdateListener)(mObj, &asid, expiryTimeInMS); } else { ALOGE("expiry time negative, status=%" PRId64 "", expiryTimeInMS); } } void DrmListener::sendKeysChange( const hardware::hidl_vec &sessionId, const std::vector &keyStatusList, bool hasNewUsableKey) { if (!mKeysChangeListener) { ALOGE("No KeysChangeListener specified"); return; } Vector keysStatus; for (const auto &drmKeyStatus : keyStatusList) { AMediaDrmKeyStatus keyStatus; keyStatus.keyId.ptr = drmKeyStatus.keyId.data(); keyStatus.keyId.length = drmKeyStatus.keyId.size(); keyStatus.keyType = static_cast(drmKeyStatus.type); keysStatus.push(keyStatus); } AMediaDrmSessionId asid = {sessionId.data(), sessionId.size()}; int32_t numKeys = keyStatusList.size(); (*mKeysChangeListener)(mObj, &asid, keysStatus.array(), numKeys, hasNewUsableKey); return; } void DrmListener::sendEvent( DrmPlugin::EventType eventType, const hardware::hidl_vec &sessionId, const hardware::hidl_vec &data) { if (!mEventListener) { ALOGE("No EventListener specified"); return; } // Handles AMediaDrmEventListener below: // translates DrmPlugin event types into their NDK equivalents AMediaDrmEventType ndkEventType; switch(eventType) { case DrmPlugin::kDrmPluginEventProvisionRequired: ndkEventType = EVENT_PROVISION_REQUIRED; break; case DrmPlugin::kDrmPluginEventKeyNeeded: ndkEventType = EVENT_KEY_REQUIRED; break; case DrmPlugin::kDrmPluginEventKeyExpired: ndkEventType = EVENT_KEY_EXPIRED; break; case DrmPlugin::kDrmPluginEventVendorDefined: ndkEventType = EVENT_VENDOR_DEFINED; break; case DrmPlugin::kDrmPluginEventSessionReclaimed: ndkEventType = EVENT_SESSION_RECLAIMED; break; default: ALOGE("Invalid event DrmPlugin::EventType %d, ignored", eventType); return; } AMediaDrmSessionId asid = {sessionId.data(), sessionId.size()}; int32_t dataSize = data.size(); const uint8_t *dataPtr = data.data(); if (dataSize > 0) { (*mEventListener)(mObj, &asid, ndkEventType, 0, dataPtr, dataSize); } else { ALOGE("invalid event data size=%d", dataSize); } } extern "C" { static media_status_t translateStatus(status_t status) { media_status_t result = AMEDIA_ERROR_UNKNOWN; switch (status) { case OK: result = AMEDIA_OK; break; case android::ERROR_DRM_NOT_PROVISIONED: result = AMEDIA_DRM_NOT_PROVISIONED; break; case android::ERROR_DRM_RESOURCE_BUSY: result = AMEDIA_DRM_RESOURCE_BUSY; break; case android::ERROR_DRM_DEVICE_REVOKED: result = AMEDIA_DRM_DEVICE_REVOKED; break; case android::ERROR_DRM_CANNOT_HANDLE: result = AMEDIA_ERROR_INVALID_PARAMETER; break; case android::ERROR_DRM_TAMPER_DETECTED: result = AMEDIA_DRM_TAMPER_DETECTED; break; case android::ERROR_DRM_SESSION_NOT_OPENED: result = AMEDIA_DRM_SESSION_NOT_OPENED; break; case android::ERROR_DRM_NO_LICENSE: result = AMEDIA_DRM_NEED_KEY; break; case android::ERROR_DRM_LICENSE_EXPIRED: result = AMEDIA_DRM_LICENSE_EXPIRED; break; default: break; } return result; } static bool ShouldGetAppPackageName(void) { // Check what this device's first API level was. int32_t firstApiLevel = android::base::GetIntProperty("ro.product.first_api_level", 0); if (firstApiLevel == 0) { // First API Level is 0 on factory ROMs, but we can assume the current SDK // version is the first if it's a factory ROM. firstApiLevel = android::base::GetIntProperty("ro.build.version.sdk", 0); } return firstApiLevel >= 29; // Android Q } static status_t GetAppPackageName(String8 *packageName) { // todo(robertshih): use refactored/renamed libneuralnetworks_packageinfo which is stable std::string appName; std::ifstream cmdline("/proc/self/cmdline"); std::getline(cmdline, appName); cmdline.close(); if (appName.empty()) { return UNKNOWN_ERROR; } *packageName = String8(appName.c_str()); return OK; } static sp CreateDrm() { return DrmUtils::MakeDrm(); } static sp CreateDrmFromUUID(const AMediaUUID uuid) { sp drm = CreateDrm(); if (drm == NULL) { return NULL; } String8 packageName; if (ShouldGetAppPackageName()) { status_t err = GetAppPackageName(&packageName); if (err != OK) { return NULL; } } status_t err = drm->createPlugin(uuid, packageName); if (err != OK) { return NULL; } return drm; } EXPORT bool AMediaDrm_isCryptoSchemeSupported(const AMediaUUID uuid, const char *mimeType) { sp drm = CreateDrm(); if (drm == NULL) { return false; } String8 mimeStr = mimeType ? String8(mimeType) : String8(""); bool isSupported = false; status_t status = drm->isCryptoSchemeSupported(uuid, mimeStr, DrmPlugin::kSecurityLevelUnknown, &isSupported); return (status == OK) && isSupported; } EXPORT AMediaDrm* AMediaDrm_createByUUID(const AMediaUUID uuid) { AMediaDrm *mObj = new AMediaDrm(); mObj->mDrm = CreateDrmFromUUID(uuid); mObj->mListener.clear(); return mObj; } EXPORT void AMediaDrm_release(AMediaDrm *mObj) { if (mObj->mDrm != NULL) { mObj->mDrm->setListener(NULL); mObj->mDrm->destroyPlugin(); mObj->mDrm.clear(); } delete mObj; } EXPORT media_status_t AMediaDrm_setOnEventListener(AMediaDrm *mObj, AMediaDrmEventListener listener) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (mObj->mListener.get()) { mObj->mListener->setEventListener(listener); } else { mObj->mListener = new DrmListener(mObj, listener); } mObj->mDrm->setListener(mObj->mListener); return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_setOnExpirationUpdateListener(AMediaDrm *mObj, AMediaDrmExpirationUpdateListener listener) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (mObj->mListener.get()) { mObj->mListener->setExpirationUpdateListener(listener); } else { mObj->mListener = new DrmListener(mObj, listener); } mObj->mDrm->setListener(mObj->mListener); return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_setOnKeysChangeListener(AMediaDrm *mObj, AMediaDrmKeysChangeListener listener) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (mObj->mListener.get()) { mObj->mListener->setKeysChangeListener(listener); } else { mObj->mListener = new DrmListener(mObj, listener); } mObj->mDrm->setListener(mObj->mListener); return AMEDIA_OK; } static bool findId(AMediaDrm *mObj, const AMediaDrmByteArray &id, List::iterator &iter) { for (iter = mObj->mIds.begin(); iter != mObj->mIds.end(); ++iter) { if (id.length == iter->size() && memcmp(iter->array(), id.ptr, iter->size()) == 0) { return true; } } return false; } EXPORT media_status_t AMediaDrm_openSession(AMediaDrm *mObj, AMediaDrmSessionId *sessionId) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!sessionId) { return AMEDIA_ERROR_INVALID_PARAMETER; } Vector session; status_t status = mObj->mDrm->openSession(DrmPlugin::kSecurityLevelMax, session); if (status == OK) { mObj->mIds.push_front(session); List::iterator iter = mObj->mIds.begin(); sessionId->ptr = iter->array(); sessionId->length = iter->size(); } return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_closeSession(AMediaDrm *mObj, const AMediaDrmSessionId *sessionId) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!sessionId) { return AMEDIA_ERROR_INVALID_PARAMETER; } List::iterator iter; if (!findId(mObj, *sessionId, iter)) { return AMEDIA_DRM_SESSION_NOT_OPENED; } mObj->mDrm->closeSession(*iter); mObj->mIds.erase(iter); return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_getKeyRequest(AMediaDrm *mObj, const AMediaDrmScope *scope, const uint8_t *init, size_t initSize, const char *mimeType, AMediaDrmKeyType keyType, const AMediaDrmKeyValue *optionalParameters, size_t numOptionalParameters, const uint8_t **keyRequest, size_t *keyRequestSize) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!mimeType || !scope || !keyRequest || !keyRequestSize) { return AMEDIA_ERROR_INVALID_PARAMETER; } List::iterator iter; if (!findId(mObj, *scope, iter)) { return AMEDIA_DRM_SESSION_NOT_OPENED; } Vector mdInit; mdInit.appendArray(init, initSize); DrmPlugin::KeyType mdKeyType; switch (keyType) { case KEY_TYPE_STREAMING: mdKeyType = DrmPlugin::kKeyType_Streaming; break; case KEY_TYPE_OFFLINE: mdKeyType = DrmPlugin::kKeyType_Offline; break; case KEY_TYPE_RELEASE: mdKeyType = DrmPlugin::kKeyType_Release; break; default: return AMEDIA_ERROR_INVALID_PARAMETER; } KeyedVector mdOptionalParameters; for (size_t i = 0; i < numOptionalParameters; i++) { mdOptionalParameters.add(String8(optionalParameters[i].mKey), String8(optionalParameters[i].mValue)); } String8 defaultUrl; DrmPlugin::KeyRequestType keyRequestType; mObj->mKeyRequest.clear(); status_t status = mObj->mDrm->getKeyRequest(*iter, mdInit, String8(mimeType), mdKeyType, mdOptionalParameters, mObj->mKeyRequest, defaultUrl, &keyRequestType); if (status != OK) { return translateStatus(status); } else { *keyRequest = mObj->mKeyRequest.array(); *keyRequestSize = mObj->mKeyRequest.size(); } return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_provideKeyResponse(AMediaDrm *mObj, const AMediaDrmScope *scope, const uint8_t *response, size_t responseSize, AMediaDrmKeySetId *keySetId) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!scope || !response || !responseSize || !keySetId) { return AMEDIA_ERROR_INVALID_PARAMETER; } List::iterator iter; if (!findId(mObj, *scope, iter)) { return AMEDIA_DRM_SESSION_NOT_OPENED; } Vector mdResponse; mdResponse.appendArray(response, responseSize); Vector mdKeySetId; status_t status = mObj->mDrm->provideKeyResponse(*iter, mdResponse, mdKeySetId); if (status == OK) { mObj->mIds.push_front(mdKeySetId); List::iterator iter = mObj->mIds.begin(); keySetId->ptr = iter->array(); keySetId->length = iter->size(); } else { keySetId->ptr = NULL; keySetId->length = 0; } return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_restoreKeys(AMediaDrm *mObj, const AMediaDrmSessionId *sessionId, const AMediaDrmKeySetId *keySetId) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!sessionId || !keySetId) { return AMEDIA_ERROR_INVALID_PARAMETER; } List::iterator iter; if (!findId(mObj, *sessionId, iter)) { return AMEDIA_DRM_SESSION_NOT_OPENED; } Vector keySet; keySet.appendArray(keySetId->ptr, keySetId->length); return translateStatus(mObj->mDrm->restoreKeys(*iter, keySet)); } EXPORT media_status_t AMediaDrm_removeKeys(AMediaDrm *mObj, const AMediaDrmSessionId *keySetId) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!keySetId) { return AMEDIA_ERROR_INVALID_PARAMETER; } List::iterator iter; status_t status; if (!findId(mObj, *keySetId, iter)) { Vector keySet; keySet.appendArray(keySetId->ptr, keySetId->length); status = mObj->mDrm->removeKeys(keySet); } else { status = mObj->mDrm->removeKeys(*iter); mObj->mIds.erase(iter); } return translateStatus(status); } EXPORT media_status_t AMediaDrm_queryKeyStatus(AMediaDrm *mObj, const AMediaDrmSessionId *sessionId, AMediaDrmKeyValue *keyValuePairs, size_t *numPairs) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!sessionId || !numPairs) { return AMEDIA_ERROR_INVALID_PARAMETER; } List::iterator iter; if (!findId(mObj, *sessionId, iter)) { return AMEDIA_DRM_SESSION_NOT_OPENED; } status_t status = mObj->mDrm->queryKeyStatus(*iter, mObj->mQueryResults); if (status != OK) { *numPairs = 0; return translateStatus(status); } if (mObj->mQueryResults.size() > *numPairs) { *numPairs = mObj->mQueryResults.size(); return AMEDIA_DRM_SHORT_BUFFER; } for (size_t i = 0; i < mObj->mQueryResults.size(); i++) { keyValuePairs[i].mKey = mObj->mQueryResults.keyAt(i).string(); keyValuePairs[i].mValue = mObj->mQueryResults.valueAt(i).string(); } *numPairs = mObj->mQueryResults.size(); return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_getProvisionRequest(AMediaDrm *mObj, const uint8_t **provisionRequest, size_t *provisionRequestSize, const char **serverUrl) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!provisionRequest || !provisionRequestSize || !*provisionRequestSize || !serverUrl) { return AMEDIA_ERROR_INVALID_PARAMETER; } status_t status = mObj->mDrm->getProvisionRequest(String8(""), String8(""), mObj->mProvisionRequest, mObj->mProvisionUrl); if (status != OK) { return translateStatus(status); } else { *provisionRequest = mObj->mProvisionRequest.array(); *provisionRequestSize = mObj->mProvisionRequest.size(); *serverUrl = mObj->mProvisionUrl.string(); } return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_provideProvisionResponse(AMediaDrm *mObj, const uint8_t *response, size_t responseSize) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!response || !responseSize) { return AMEDIA_ERROR_INVALID_PARAMETER; } Vector mdResponse; mdResponse.appendArray(response, responseSize); Vector unused; return translateStatus(mObj->mDrm->provideProvisionResponse(mdResponse, unused, unused)); } EXPORT media_status_t AMediaDrm_getSecureStops(AMediaDrm *mObj, AMediaDrmSecureStop *secureStops, size_t *numSecureStops) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!numSecureStops) { return AMEDIA_ERROR_INVALID_PARAMETER; } status_t status = mObj->mDrm->getSecureStops(mObj->mSecureStops); if (status != OK) { *numSecureStops = 0; return translateStatus(status); } if (*numSecureStops < mObj->mSecureStops.size()) { return AMEDIA_DRM_SHORT_BUFFER; } List >::iterator iter = mObj->mSecureStops.begin(); size_t i = 0; while (iter != mObj->mSecureStops.end()) { secureStops[i].ptr = iter->array(); secureStops[i].length = iter->size(); ++iter; ++i; } *numSecureStops = mObj->mSecureStops.size(); return AMEDIA_OK; } EXPORT media_status_t AMediaDrm_releaseSecureStops(AMediaDrm *mObj, const AMediaDrmSecureStop *ssRelease) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!ssRelease) { return AMEDIA_ERROR_INVALID_PARAMETER; } Vector release; release.appendArray(ssRelease->ptr, ssRelease->length); return translateStatus(mObj->mDrm->releaseSecureStops(release)); } EXPORT media_status_t AMediaDrm_getPropertyString(AMediaDrm *mObj, const char *propertyName, const char **propertyValue) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!propertyName || !propertyValue) { return AMEDIA_ERROR_INVALID_PARAMETER; } status_t status = mObj->mDrm->getPropertyString(String8(propertyName), mObj->mPropertyString); if (status == OK) { *propertyValue = mObj->mPropertyString.string(); } else { *propertyValue = NULL; } return translateStatus(status); } EXPORT media_status_t AMediaDrm_getPropertyByteArray(AMediaDrm *mObj, const char *propertyName, AMediaDrmByteArray *propertyValue) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!propertyName || !propertyValue) { return AMEDIA_ERROR_INVALID_PARAMETER; } status_t status = mObj->mDrm->getPropertyByteArray(String8(propertyName), mObj->mPropertyByteArray); if (status == OK) { propertyValue->ptr = mObj->mPropertyByteArray.array(); propertyValue->length = mObj->mPropertyByteArray.size(); } else { propertyValue->ptr = NULL; propertyValue->length = 0; } return translateStatus(status); } EXPORT media_status_t AMediaDrm_setPropertyString(AMediaDrm *mObj, const char *propertyName, const char *value) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } return translateStatus(mObj->mDrm->setPropertyString(String8(propertyName), String8(value))); } EXPORT media_status_t AMediaDrm_setPropertyByteArray(AMediaDrm *mObj, const char *propertyName, const uint8_t *value, size_t valueSize) { Vector byteArray; byteArray.appendArray(value, valueSize); return translateStatus(mObj->mDrm->setPropertyByteArray(String8(propertyName), byteArray)); } static media_status_t encrypt_decrypt_common(AMediaDrm *mObj, const AMediaDrmSessionId &sessionId, const char *cipherAlgorithm, uint8_t *keyId, uint8_t *iv, const uint8_t *input, uint8_t *output, size_t dataSize, bool encrypt) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } List::iterator iter; if (!findId(mObj, sessionId, iter)) { return AMEDIA_DRM_SESSION_NOT_OPENED; } status_t status = mObj->mDrm->setCipherAlgorithm(*iter, String8(cipherAlgorithm)); if (status != OK) { return translateStatus(status); } Vector keyIdVec; const size_t kKeyIdSize = 16; keyIdVec.appendArray(keyId, kKeyIdSize); Vector inputVec; inputVec.appendArray(input, dataSize); Vector ivVec; const size_t kIvSize = 16; ivVec.appendArray(iv, kIvSize); Vector outputVec; if (encrypt) { status = mObj->mDrm->encrypt(*iter, keyIdVec, inputVec, ivVec, outputVec); } else { status = mObj->mDrm->decrypt(*iter, keyIdVec, inputVec, ivVec, outputVec); } if (status == OK) { memcpy(output, outputVec.array(), outputVec.size()); } return translateStatus(status); } EXPORT media_status_t AMediaDrm_encrypt(AMediaDrm *mObj, const AMediaDrmSessionId *sessionId, const char *cipherAlgorithm, uint8_t *keyId, uint8_t *iv, const uint8_t *input, uint8_t *output, size_t dataSize) { if (!sessionId) { return AMEDIA_ERROR_INVALID_PARAMETER; } return encrypt_decrypt_common(mObj, *sessionId, cipherAlgorithm, keyId, iv, input, output, dataSize, true); } EXPORT media_status_t AMediaDrm_decrypt(AMediaDrm *mObj, const AMediaDrmSessionId *sessionId, const char *cipherAlgorithm, uint8_t *keyId, uint8_t *iv, const uint8_t *input, uint8_t *output, size_t dataSize) { if (!sessionId) { return AMEDIA_ERROR_INVALID_PARAMETER; } return encrypt_decrypt_common(mObj, *sessionId, cipherAlgorithm, keyId, iv, input, output, dataSize, false); } EXPORT media_status_t AMediaDrm_sign(AMediaDrm *mObj, const AMediaDrmSessionId *sessionId, const char *macAlgorithm, uint8_t *keyId, uint8_t *message, size_t messageSize, uint8_t *signature, size_t *signatureSize) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!sessionId) { return AMEDIA_ERROR_INVALID_PARAMETER; } List::iterator iter; if (!findId(mObj, *sessionId, iter)) { return AMEDIA_DRM_SESSION_NOT_OPENED; } status_t status = mObj->mDrm->setMacAlgorithm(*iter, String8(macAlgorithm)); if (status != OK) { return translateStatus(status); } Vector keyIdVec; const size_t kKeyIdSize = 16; keyIdVec.appendArray(keyId, kKeyIdSize); Vector messageVec; messageVec.appendArray(message, messageSize); Vector signatureVec; status = mObj->mDrm->sign(*iter, keyIdVec, messageVec, signatureVec); if (signatureVec.size() > *signatureSize) { return AMEDIA_DRM_SHORT_BUFFER; } if (status == OK) { memcpy(signature, signatureVec.array(), signatureVec.size()); } return translateStatus(status); } EXPORT media_status_t AMediaDrm_verify(AMediaDrm *mObj, const AMediaDrmSessionId *sessionId, const char *macAlgorithm, uint8_t *keyId, const uint8_t *message, size_t messageSize, const uint8_t *signature, size_t signatureSize) { if (!mObj || mObj->mDrm == NULL) { return AMEDIA_ERROR_INVALID_OBJECT; } if (!sessionId) { return AMEDIA_ERROR_INVALID_PARAMETER; } List::iterator iter; if (!findId(mObj, *sessionId, iter)) { return AMEDIA_DRM_SESSION_NOT_OPENED; } status_t status = mObj->mDrm->setMacAlgorithm(*iter, String8(macAlgorithm)); if (status != OK) { return translateStatus(status); } Vector keyIdVec; const size_t kKeyIdSize = 16; keyIdVec.appendArray(keyId, kKeyIdSize); Vector messageVec; messageVec.appendArray(message, messageSize); Vector signatureVec; signatureVec.appendArray(signature, signatureSize); bool match; status = mObj->mDrm->verify(*iter, keyIdVec, messageVec, signatureVec, match); if (status == OK) { return match ? AMEDIA_OK : AMEDIA_DRM_VERIFY_FAILED; } return translateStatus(status); } } // extern "C"