242 lines
6.8 KiB
C++
242 lines
6.8 KiB
C++
/*
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* Copyright 2015, Mozilla Foundation and contributors
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <string.h>
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#include <vector>
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#include "ClearKeyDecryptionManager.h"
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#include "psshparser/PsshParser.h"
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#include "gmp-api/gmp-decryption.h"
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#include "mozilla/CheckedInt.h"
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#include <assert.h>
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class ClearKeyDecryptor : public RefCounted
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{
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public:
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ClearKeyDecryptor();
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void InitKey(const Key& aKey);
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bool HasKey() const { return !!mKey.size(); }
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GMPErr Decrypt(uint8_t* aBuffer, uint32_t aBufferSize,
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const CryptoMetaData& aMetadata);
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const Key& DecryptionKey() const { return mKey; }
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private:
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~ClearKeyDecryptor();
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Key mKey;
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};
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/* static */ ClearKeyDecryptionManager* ClearKeyDecryptionManager::sInstance = nullptr;
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/* static */ ClearKeyDecryptionManager*
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ClearKeyDecryptionManager::Get()
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{
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if (!sInstance) {
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sInstance = new ClearKeyDecryptionManager();
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}
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return sInstance;
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}
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ClearKeyDecryptionManager::ClearKeyDecryptionManager()
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{
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CK_LOGD("ClearKeyDecryptionManager::ClearKeyDecryptionManager");
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}
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ClearKeyDecryptionManager::~ClearKeyDecryptionManager()
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{
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CK_LOGD("ClearKeyDecryptionManager::~ClearKeyDecryptionManager");
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sInstance = nullptr;
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for (auto it = mDecryptors.begin(); it != mDecryptors.end(); it++) {
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it->second->Release();
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}
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mDecryptors.clear();
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}
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bool
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ClearKeyDecryptionManager::HasSeenKeyId(const KeyId& aKeyId) const
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{
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CK_LOGD("ClearKeyDecryptionManager::SeenKeyId %s", mDecryptors.find(aKeyId) != mDecryptors.end() ? "t" : "f");
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return mDecryptors.find(aKeyId) != mDecryptors.end();
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}
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bool
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ClearKeyDecryptionManager::IsExpectingKeyForKeyId(const KeyId& aKeyId) const
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{
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CK_LOGD("ClearKeyDecryptionManager::IsExpectingKeyForId %08x...", *(uint32_t*)&aKeyId[0]);
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const auto& decryptor = mDecryptors.find(aKeyId);
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return decryptor != mDecryptors.end() && !decryptor->second->HasKey();
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}
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bool
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ClearKeyDecryptionManager::HasKeyForKeyId(const KeyId& aKeyId) const
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{
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CK_LOGD("ClearKeyDecryptionManager::HasKeyForKeyId");
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const auto& decryptor = mDecryptors.find(aKeyId);
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return decryptor != mDecryptors.end() && decryptor->second->HasKey();
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}
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const Key&
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ClearKeyDecryptionManager::GetDecryptionKey(const KeyId& aKeyId)
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{
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assert(HasKeyForKeyId(aKeyId));
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return mDecryptors[aKeyId]->DecryptionKey();
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}
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void
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ClearKeyDecryptionManager::InitKey(KeyId aKeyId, Key aKey)
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{
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CK_LOGD("ClearKeyDecryptionManager::InitKey %08x...", *(uint32_t*)&aKeyId[0]);
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if (IsExpectingKeyForKeyId(aKeyId)) {
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mDecryptors[aKeyId]->InitKey(aKey);
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}
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}
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void
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ClearKeyDecryptionManager::ExpectKeyId(KeyId aKeyId)
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{
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CK_LOGD("ClearKeyDecryptionManager::ExpectKeyId %08x...", *(uint32_t*)&aKeyId[0]);
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if (!HasSeenKeyId(aKeyId)) {
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mDecryptors[aKeyId] = new ClearKeyDecryptor();
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}
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mDecryptors[aKeyId]->AddRef();
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}
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void
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ClearKeyDecryptionManager::ReleaseKeyId(KeyId aKeyId)
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{
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CK_LOGD("ClearKeyDecryptionManager::ReleaseKeyId");
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assert(HasSeenKeyId(aKeyId));
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ClearKeyDecryptor* decryptor = mDecryptors[aKeyId];
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if (!decryptor->Release()) {
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mDecryptors.erase(aKeyId);
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}
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}
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GMPErr
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ClearKeyDecryptionManager::Decrypt(std::vector<uint8_t>& aBuffer,
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const CryptoMetaData& aMetadata)
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{
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return Decrypt(&aBuffer[0], aBuffer.size(), aMetadata);
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}
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GMPErr
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ClearKeyDecryptionManager::Decrypt(uint8_t* aBuffer, uint32_t aBufferSize,
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const CryptoMetaData& aMetadata)
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{
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CK_LOGD("ClearKeyDecryptionManager::Decrypt");
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if (!HasKeyForKeyId(aMetadata.mKeyId)) {
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return GMPNoKeyErr;
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}
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return mDecryptors[aMetadata.mKeyId]->Decrypt(aBuffer, aBufferSize, aMetadata);
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}
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ClearKeyDecryptor::ClearKeyDecryptor()
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{
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CK_LOGD("ClearKeyDecryptor ctor");
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}
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ClearKeyDecryptor::~ClearKeyDecryptor()
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{
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if (HasKey()) {
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CK_LOGD("ClearKeyDecryptor dtor; key = %08x...", *(uint32_t*)&mKey[0]);
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} else {
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CK_LOGD("ClearKeyDecryptor dtor");
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}
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}
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void
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ClearKeyDecryptor::InitKey(const Key& aKey)
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{
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mKey = aKey;
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}
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GMPErr
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ClearKeyDecryptor::Decrypt(uint8_t* aBuffer, uint32_t aBufferSize,
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const CryptoMetaData& aMetadata)
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{
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CK_LOGD("ClearKeyDecryptor::Decrypt");
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// If the sample is split up into multiple encrypted subsamples, we need to
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// stitch them into one continuous buffer for decryption.
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std::vector<uint8_t> tmp(aBufferSize);
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if (aMetadata.NumSubsamples()) {
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// Take all encrypted parts of subsamples and stitch them into one
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// continuous encrypted buffer.
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static_assert(sizeof(uintptr_t) == sizeof(uint8_t*),
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"We need uintptr_t to be exactly the same size as a pointer");
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mozilla::CheckedInt<uintptr_t> data = reinterpret_cast<uintptr_t>(aBuffer);
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const uintptr_t endBuffer =
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reinterpret_cast<uintptr_t>(aBuffer + aBufferSize);
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uint8_t* iter = &tmp[0];
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for (size_t i = 0; i < aMetadata.NumSubsamples(); i++) {
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data += aMetadata.mClearBytes[i];
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if (!data.isValid() || data.value() > endBuffer) {
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// Trying to read past the end of the buffer!
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return GMPCryptoErr;
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}
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const uint32_t& cipherBytes = aMetadata.mCipherBytes[i];
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mozilla::CheckedInt<uintptr_t> dataAfterCipher = data + cipherBytes;
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if (!dataAfterCipher.isValid() || dataAfterCipher.value() > endBuffer) {
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// Trying to read past the end of the buffer!
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return GMPCryptoErr;
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}
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memcpy(iter, reinterpret_cast<uint8_t*>(data.value()), cipherBytes);
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data = dataAfterCipher;
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iter += cipherBytes;
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}
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tmp.resize((size_t)(iter - &tmp[0]));
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} else {
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memcpy(&tmp[0], aBuffer, aBufferSize);
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}
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assert(aMetadata.mIV.size() == 8 || aMetadata.mIV.size() == 16);
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std::vector<uint8_t> iv(aMetadata.mIV);
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iv.insert(iv.end(), CENC_KEY_LEN - aMetadata.mIV.size(), 0);
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ClearKeyUtils::DecryptAES(mKey, tmp, iv);
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if (aMetadata.NumSubsamples()) {
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// Take the decrypted buffer, split up into subsamples, and insert those
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// subsamples back into their original position in the original buffer.
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uint8_t* data = aBuffer;
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uint8_t* iter = &tmp[0];
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for (size_t i = 0; i < aMetadata.NumSubsamples(); i++) {
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data += aMetadata.mClearBytes[i];
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uint32_t cipherBytes = aMetadata.mCipherBytes[i];
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memcpy(data, iter, cipherBytes);
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data += cipherBytes;
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iter += cipherBytes;
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}
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} else {
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memcpy(aBuffer, &tmp[0], aBufferSize);
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}
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return GMPNoErr;
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}
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