/* * Copyright (C) 2017 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 "android.hardware.cas@1.0-DescramblerImpl" #include #include #include #include #include #include #include "DescramblerImpl.h" #include "SharedLibrary.h" #include "TypeConvert.h" namespace android { using hidl::memory::V1_0::IMemory; namespace hardware { namespace cas { namespace V1_0 { namespace implementation { #define CHECK_SUBSAMPLE_DEF(type) \ static_assert(sizeof(SubSample) == sizeof(type::SubSample), \ "SubSample: size doesn't match"); \ static_assert(offsetof(SubSample, numBytesOfClearData) \ == offsetof(type::SubSample, mNumBytesOfClearData), \ "SubSample: numBytesOfClearData offset doesn't match"); \ static_assert(offsetof(SubSample, numBytesOfEncryptedData) \ == offsetof(type::SubSample, mNumBytesOfEncryptedData), \ "SubSample: numBytesOfEncryptedData offset doesn't match") CHECK_SUBSAMPLE_DEF(DescramblerPlugin); CHECK_SUBSAMPLE_DEF(CryptoPlugin); DescramblerImpl::DescramblerImpl( const sp& library, DescramblerPlugin *plugin) : mLibrary(library), mPluginHolder(plugin) { ALOGV("CTOR: plugin=%p", mPluginHolder.get()); } DescramblerImpl::~DescramblerImpl() { ALOGV("DTOR: plugin=%p", mPluginHolder.get()); release(); } Return DescramblerImpl::setMediaCasSession(const HidlCasSessionId& sessionId) { ALOGV("%s: sessionId=%s", __FUNCTION__, sessionIdToString(sessionId).string()); std::shared_ptr holder = std::atomic_load(&mPluginHolder); if (holder.get() == nullptr) { return toStatus(INVALID_OPERATION); } return toStatus(holder->setMediaCasSession(sessionId)); } Return DescramblerImpl::requiresSecureDecoderComponent( const hidl_string& mime) { std::shared_ptr holder = std::atomic_load(&mPluginHolder); if (holder.get() == nullptr) { return false; } return holder->requiresSecureDecoderComponent(String8(mime.c_str())); } static inline bool validateRangeForSize( uint64_t offset, uint64_t length, uint64_t size) { return isInRange(0, size, offset, length); } Return DescramblerImpl::descramble( ScramblingControl scramblingControl, const hidl_vec& subSamples, const SharedBuffer& srcBuffer, uint64_t srcOffset, const DestinationBuffer& dstBuffer, uint64_t dstOffset, descramble_cb _hidl_cb) { ALOGV("%s", __FUNCTION__); // hidl_memory's size is stored in uint64_t, but mapMemory's mmap will map // size in size_t. If size is over SIZE_MAX, mapMemory mapMemory could succeed // but the mapped memory's actual size will be smaller than the reported size. if (srcBuffer.heapBase.size() > SIZE_MAX) { ALOGE("Invalid hidl_memory size: %llu", srcBuffer.heapBase.size()); android_errorWriteLog(0x534e4554, "79376389"); _hidl_cb(toStatus(BAD_VALUE), 0, NULL); return Void(); } sp srcMem = mapMemory(srcBuffer.heapBase); // Validate if the offset and size in the SharedBuffer is consistent with the // mapped ashmem, since the offset and size is controlled by client. if (srcMem == NULL) { ALOGE("Failed to map src buffer."); _hidl_cb(toStatus(BAD_VALUE), 0, NULL); return Void(); } if (!validateRangeForSize( srcBuffer.offset, srcBuffer.size, (uint64_t)srcMem->getSize())) { ALOGE("Invalid src buffer range: offset %llu, size %llu, srcMem size %llu", srcBuffer.offset, srcBuffer.size, (uint64_t)srcMem->getSize()); android_errorWriteLog(0x534e4554, "67962232"); _hidl_cb(toStatus(BAD_VALUE), 0, NULL); return Void(); } // use 64-bit here to catch bad subsample size that might be overflowing. uint64_t totalBytesInSubSamples = 0; for (size_t i = 0; i < subSamples.size(); i++) { totalBytesInSubSamples += (uint64_t)subSamples[i].numBytesOfClearData + subSamples[i].numBytesOfEncryptedData; } // Further validate if the specified srcOffset and requested total subsample size // is consistent with the source shared buffer size. if (!validateRangeForSize(srcOffset, totalBytesInSubSamples, srcBuffer.size)) { ALOGE("Invalid srcOffset and subsample size: " "srcOffset %llu, totalBytesInSubSamples %llu, srcBuffer size %llu", srcOffset, totalBytesInSubSamples, srcBuffer.size); android_errorWriteLog(0x534e4554, "67962232"); _hidl_cb(toStatus(BAD_VALUE), 0, NULL); return Void(); } void *srcPtr = (uint8_t *)(void *)srcMem->getPointer() + srcBuffer.offset; void *dstPtr = NULL; if (dstBuffer.type == BufferType::SHARED_MEMORY) { // When using shared memory, src buffer is also used as dst, // we don't map it again here. dstPtr = srcPtr; // In this case the dst and src would be the same buffer, need to validate // dstOffset against the buffer size too. if (!validateRangeForSize(dstOffset, totalBytesInSubSamples, srcBuffer.size)) { ALOGE("Invalid dstOffset and subsample size: " "dstOffset %llu, totalBytesInSubSamples %llu, srcBuffer size %llu", dstOffset, totalBytesInSubSamples, srcBuffer.size); android_errorWriteLog(0x534e4554, "67962232"); _hidl_cb(toStatus(BAD_VALUE), 0, NULL); return Void(); } } else { native_handle_t *handle = const_cast( dstBuffer.secureMemory.getNativeHandle()); dstPtr = static_cast(handle); } // Get a local copy of the shared_ptr for the plugin. Note that before // calling the HIDL callback, this shared_ptr must be manually reset, // since the client side could proceed as soon as the callback is called // without waiting for this method to go out of scope. std::shared_ptr holder = std::atomic_load(&mPluginHolder); if (holder.get() == nullptr) { _hidl_cb(toStatus(INVALID_OPERATION), 0, NULL); return Void(); } // Casting hidl SubSample to DescramblerPlugin::SubSample, but need // to ensure structs are actually idential AString detailedError; int32_t result = holder->descramble( dstBuffer.type != BufferType::SHARED_MEMORY, (DescramblerPlugin::ScramblingControl)scramblingControl, subSamples.size(), (DescramblerPlugin::SubSample*)subSamples.data(), srcPtr, srcOffset, dstPtr, dstOffset, &detailedError); holder.reset(); _hidl_cb(toStatus(result >= 0 ? OK : result), result, detailedError.c_str()); return Void(); } Return DescramblerImpl::release() { ALOGV("%s: plugin=%p", __FUNCTION__, mPluginHolder.get()); std::shared_ptr holder(nullptr); std::atomic_store(&mPluginHolder, holder); return Status::OK; } } // namespace implementation } // namespace V1_0 } // namespace cas } // namespace hardware } // namespace android