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82951b01efefc55ab9b8353625a494f4e27dccbf
android/libwvdrmengine/mediacrypto/test/WVCryptoPlugin_test.cpp
John W. Bruce 82951b01ef Treat the (0,0) Pattern as 'cbcs' 
(This is a merge of http://go/wvgerrit/94928.)

In OEMCrypto v16, we dropped support for 'cens' and 'cbc1'. However, we
did not redefine the pattern (0,0) to be a valid pattern for 'cbcs', even
though it was no longer being used to signal 'cbc1'. Instead, we made
the CDM reject CTR with a pattern ('cens') and CBC with a (0,0) pattern
('cbc1') to mirror the behavior of OEMCrypto v16.

However, some apps have been using 'cbc1' mode to decrypt audio in
'cbcs' content. This is normally not possible but is possible for a
subset of content. Furthermore, it is easy to do by accident because of
the way most packagers package 'cbcs' audio and the special significance
Widevine has historically given the (0,0) pattern.

This patch updates the CDM to not reject CBC with a (0,0) pattern but
instead treat it as 'cbcs' content. To decrypt it correctly, the pattern
is treated specially inside the CDM core and converted to the
recommended equivalent pattern — (10,0) — before passing the content to
OEMCrypto.

For more specifics, please see the design doc: http://go/vclfg

Bug: 150219982
Test: ExoPlayer Demo App 'cbcs' Content
Test: GTS 'cbcs' Content
Change-Id: I334ff15db5f7b7d62040a036ba6d17515c3caee4
2020-03-04 12:11:29 -08:00

644 lines
22 KiB
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//
// Copyright 2018 Google LLC. All Rights Reserved. This file and proprietary
// source code may only be used and distributed under the Widevine Master
// License Agreement.
//
//#define LOG_NDEBUG 0
#define LOG_TAG "WVCryptoPluginTest"
#include <utils/Log.h>
#include <map>
#include <stdio.h>
#include <string>
#include <vector>
#include <binder/MemoryDealer.h>
#include <hidl/Status.h>
#include <hidlmemory/mapping.h>
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "wv_cdm_constants.h"
#include "wv_cdm_types.h"
#include "wv_content_decryption_module.h"
#include "HidlTypes.h"
#include "OEMCryptoCENC.h"
#include "TypeConvert.h"
#include "WVCryptoPlugin.h"
namespace wvdrm {
namespace hardware {
namespace drm {
namespace V1_2 {
namespace widevine {
using ::android::MemoryDealer;
using ::testing::_;
using ::testing::DefaultValue;
using ::testing::DoAll;
using ::testing::ElementsAreArray;
using ::testing::Field;
using ::testing::InSequence;
using ::testing::Matcher;
using ::testing::SetArgPointee;
using ::testing::StrictMock;
using ::testing::Test;
using ::testing::Truly;
using ::testing::Value;
using ::testing::internal::ElementsAreArrayMatcher;
using wvcdm::kCipherModeCtr;
using wvcdm::kCipherModeCbc;
using wvcdm::CdmCipherMode;
using wvcdm::CdmDecryptionParametersV16;
using wvcdm::CdmDecryptionSample;
using wvcdm::CdmDecryptionSubsample;
using wvcdm::CdmQueryMap;
using wvcdm::CdmResponseType;
using wvcdm::CdmSessionId;
using wvcdm::KeyId;
using wvcdm::KEY_ID_SIZE;
using wvcdm::KEY_IV_SIZE;
using wvcdm::QUERY_KEY_SECURITY_LEVEL;
using wvcdm::QUERY_VALUE_SECURITY_LEVEL_L1;
using wvcdm::QUERY_VALUE_SECURITY_LEVEL_L3;
class MockCDM : public wvcdm::WvContentDecryptionModule {
public:
MOCK_METHOD1(IsOpenSession, bool(const CdmSessionId&));
MOCK_METHOD3(DecryptV16, CdmResponseType(const CdmSessionId&, bool,
const CdmDecryptionParametersV16&));
MOCK_METHOD2(QuerySessionStatus, CdmResponseType(const CdmSessionId&,
CdmQueryMap*));
};
class WVCryptoPluginTest : public Test {
protected:
static const uint32_t kSessionIdSize = 16;
uint8_t* pDest = nullptr;
uint8_t* pSrc = nullptr;
uint8_t sessionId[kSessionIdSize];
uint32_t nextBufferId = 0;
std::map<void *, uint32_t> heapBases;
virtual void SetUp() {
FILE* fp = fopen("/dev/urandom", "r");
fread(sessionId, sizeof(uint8_t), kSessionIdSize, fp);
fclose(fp);
// Set default CdmResponseType value for gMock
DefaultValue<CdmResponseType>::Set(wvcdm::NO_ERROR);
heapBases.clear();
}
void setHeapBase(WVCryptoPlugin& plugin,
const sp<android::IMemoryHeap>& heap) {
ASSERT_NE(heap, nullptr);
void* heapBase = heap->getBase();
ASSERT_NE(heapBase, nullptr);
native_handle_t* nativeHandle = native_handle_create(1, 0);
ASSERT_NE(nativeHandle, nullptr);
nativeHandle->data[0] = heap->getHeapID();
auto hidlHandle = hidl_handle(nativeHandle);
auto hidlMemory = hidl_memory("ashmem", hidlHandle, heap->getSize());
heapBases.insert(
std::pair<void*, uint32_t>(heapBase, nextBufferId));
Return<void> hResult =
plugin.setSharedBufferBase(hidlMemory, nextBufferId++);
ALOGE_IF(!hResult.isOk(), "setHeapBase failed setSharedBufferBase");
}
void toSharedBuffer(WVCryptoPlugin& plugin,
const sp<android::IMemory>& memory,
SharedBuffer* buffer) {
ssize_t offset;
size_t size;
ASSERT_NE(memory, nullptr);
ASSERT_NE(buffer, nullptr);
sp<android::IMemoryHeap> heap = memory->getMemory(&offset, &size);
ASSERT_NE(heap, nullptr);
setHeapBase(plugin, heap);
buffer->bufferId = heapBases[heap->getBase()];
buffer->offset = offset >= 0 ? offset : 0;
buffer->size = size;
}
};
TEST_F(WVCryptoPluginTest, CorrectlyReportsSecureBuffers) {
android::sp<StrictMock<MockCDM>> cdm = new StrictMock<MockCDM>();
CdmQueryMap l1Map;
l1Map[QUERY_KEY_SECURITY_LEVEL] = QUERY_VALUE_SECURITY_LEVEL_L1;
CdmQueryMap l3Map;
l3Map[QUERY_KEY_SECURITY_LEVEL] = QUERY_VALUE_SECURITY_LEVEL_L3;
// Provide the expected behavior for IsOpenSession
EXPECT_CALL(*cdm, IsOpenSession(_))
.WillRepeatedly(testing::Return(true));
// Specify the expected calls to QuerySessionStatus
EXPECT_CALL(*cdm, QuerySessionStatus(_, _))
.WillOnce(DoAll(SetArgPointee<1>(l1Map),
testing::Return(wvcdm::NO_ERROR)))
.WillOnce(DoAll(SetArgPointee<1>(l3Map),
testing::Return(wvcdm::NO_ERROR)));
WVCryptoPlugin plugin(sessionId, kSessionIdSize, cdm.get());
EXPECT_TRUE(plugin.requiresSecureDecoderComponent("video/mp4")) <<
"WVCryptoPlugin incorrectly allows an insecure video decoder on L1";
EXPECT_FALSE(plugin.requiresSecureDecoderComponent("video/mp4")) <<
"WVCryptoPlugin incorrectly expects a secure video decoder on L3";
EXPECT_FALSE(plugin.requiresSecureDecoderComponent("audio/aac")) <<
"WVCryptoPlugin incorrectly expects a secure audio decoder";
}
// TODO(b/28295739):
// Add New MediaCrypto Unit Tests for CBC & Pattern Mode in cdmPatternDesc.
// Predicate that validates that the fields of a passed-in
// CdmDecryptionParametersV16 match the values it was given at construction
// time.
//
// This could be done with a huge pile of gMock matchers, but it is ugly and
// unmaintainable, particularly once you get into validating the subsamples. The
// logic here is complex enough to warrant a custom matcher for this one test.
class CDPMatcher {
public:
// TODO(b/35259313): Uncomment the removed parameters once the matcher can
// convert them from HIDL accesses to physical addresses.
CDPMatcher(const uint8_t* keyId, bool isSecure, Mode cipherMode,
const Pattern& pattern,
const uint8_t* /* input */, size_t inputLength,
const uint8_t* /* output */, size_t outputLength, const uint8_t* iv,
const SubSample* subsamples, size_t subsamplesLength)
: mKeyId(keyId, keyId + KEY_ID_SIZE), mIsSecure(isSecure),
mCipherMode(cipherMode), mPattern(pattern), /* mInput(input), */
mInputLength(inputLength), /* mOutput(output), */
mOutputLength(outputLength), mIv(iv, iv + KEY_IV_SIZE),
mSubsamples(subsamples, subsamples + subsamplesLength) {}
bool operator()(const CdmDecryptionParametersV16& params) const {
if (mCipherMode == Mode::AES_CTR &&
params.cipher_mode != kCipherModeCtr) {
return false;
} else if (mCipherMode == Mode::AES_CBC &&
params.cipher_mode != kCipherModeCbc) {
return false;
}
if (params.key_id != mKeyId ||
params.is_secure != mIsSecure ||
params.pattern.encrypt_blocks != mPattern.encryptBlocks ||
params.pattern.skip_blocks != mPattern.skipBlocks ||
params.samples.size() != 1) {
return false;
}
const CdmDecryptionSample& sample = params.samples[0];
if (// TODO(b/35259313): Convert from a HIDL access to a physical address.
// sample.encrypt_buffer != mInput ||
sample.encrypt_buffer_length != mInputLength ||
// TODO(b/35259313): Convert from a HIDL access to a physical address.
// sample.decrypt_buffer != mOutput ||
sample.decrypt_buffer_size != mOutputLength ||
sample.decrypt_buffer_offset != 0 ||
sample.iv != mIv ||
sample.subsamples.size() != mSubsamples.size()) {
return false;
}
for (size_t i = 0; i < mSubsamples.size(); ++i) {
const SubSample& androidSubsample = mSubsamples[i];
const CdmDecryptionSubsample& cdmSubsample = sample.subsamples[i];
if (cdmSubsample.clear_bytes != androidSubsample.numBytesOfClearData ||
cdmSubsample.protected_bytes != androidSubsample.numBytesOfEncryptedData) {
return false;
}
}
return true;
}
private:
const KeyId mKeyId;
const bool mIsSecure;
const Mode mCipherMode;
const Pattern mPattern;
// TODO(b/35259313): Uncomment this field once the matcher can convert this
// from a HIDL access to a physical address.
// const uint8_t* const mInput;
const size_t mInputLength;
// TODO(b/35259313): Uncomment this field once the matcher can convert this
// from a HIDL access to a physical address.
// const uint8_t* const mOutput;
const size_t mOutputLength;
const std::vector<uint8_t> mIv;
const std::vector<SubSample> mSubsamples;
};
TEST_F(WVCryptoPluginTest, AttemptsToDecrypt) {
android::sp<StrictMock<MockCDM>> cdm = new StrictMock<MockCDM>();
constexpr size_t kSubSampleCount = 6;
SubSample subSamples[kSubSampleCount];
memset(subSamples, 0, sizeof(subSamples));
subSamples[0].numBytesOfEncryptedData = 16;
subSamples[1].numBytesOfClearData = 16;
subSamples[1].numBytesOfEncryptedData = 16;
subSamples[2].numBytesOfEncryptedData = 8;
subSamples[3].numBytesOfClearData = 29;
subSamples[3].numBytesOfEncryptedData = 24;
subSamples[4].numBytesOfEncryptedData = 60;
subSamples[5].numBytesOfEncryptedData = 16;
std::vector<SubSample> subSamplesVector(
subSamples, subSamples + sizeof(subSamples) / sizeof(subSamples[0]));
auto hSubSamples = hidl_vec<SubSample>(subSamplesVector);
uint8_t keyId[KEY_ID_SIZE];
uint8_t iv[KEY_IV_SIZE];
static const size_t kDataSize = 185;
uint8_t inputData[kDataSize];
FILE* fp = fopen("/dev/urandom", "r");
fread(keyId, sizeof(uint8_t), KEY_ID_SIZE, fp);
fread(iv, sizeof(uint8_t), KEY_IV_SIZE, fp);
fread(inputData, sizeof(uint8_t), kDataSize, fp);
fclose(fp);
sp<MemoryDealer> memDealer = new MemoryDealer(
kDataSize * 2, "WVCryptoPlugin_test");
sp<android::IMemory> source = memDealer->allocate(kDataSize);
ASSERT_NE(source, nullptr);
pSrc = static_cast<uint8_t*>(
static_cast<void*>(source->unsecurePointer()));
ASSERT_NE(pSrc, nullptr);
memcpy(pSrc, inputData, source->size());
sp<android::IMemory> destination = memDealer->allocate(kDataSize);
ASSERT_NE(destination, nullptr);
pDest = static_cast<uint8_t*>(
static_cast<void*>(destination->unsecurePointer()));
ASSERT_NE(pDest, nullptr);
Pattern noPattern = { 0, 0 };
// Provide the expected behavior for IsOpenSession
EXPECT_CALL(*cdm, IsOpenSession(_))
.WillRepeatedly(testing::Return(true));
// Specify the expected calls to Decrypt
CDPMatcher paramsMatcher(keyId, false, Mode::AES_CTR, noPattern, pSrc,
kDataSize, pDest, kDataSize, iv, subSamples,
kSubSampleCount);
EXPECT_CALL(*cdm, DecryptV16(ElementsAreArray(sessionId, kSessionIdSize),
true,
Truly(paramsMatcher)))
.Times(1);
WVCryptoPlugin plugin(sessionId, kSessionIdSize, cdm.get());
uint32_t bytesWritten = 0;
std::string errorDetailMessage;
DestinationBuffer hDestination;
hDestination.type = BufferType::SHARED_MEMORY;
toSharedBuffer(plugin, destination, &hDestination.nonsecureMemory);
SharedBuffer sourceBuffer;
toSharedBuffer(plugin, source, &sourceBuffer);
plugin.decrypt(
false, hidl_array<uint8_t, 16>(keyId), hidl_array<uint8_t, 16>(iv),
Mode::AES_CTR, noPattern, hSubSamples, sourceBuffer, 0, hDestination,
[&](Status status, uint32_t hBytesWritten, hidl_string hDetailedError) {
EXPECT_EQ(status, Status::OK);
bytesWritten = hBytesWritten;
errorDetailMessage.assign(hDetailedError.c_str());
});
EXPECT_EQ(kDataSize, bytesWritten) <<
"WVCryptoPlugin decrypted the wrong number of bytes";
EXPECT_EQ(0u, errorDetailMessage.size()) <<
"WVCryptoPlugin reported a detailed error message.";
}
TEST_F(WVCryptoPluginTest, RejectsCens) {
android::sp<StrictMock<MockCDM>> cdm = new StrictMock<MockCDM>();
constexpr size_t kSubSampleCount = 2;
SubSample subSamples[kSubSampleCount];
memset(subSamples, 0, sizeof(subSamples));
subSamples[0].numBytesOfEncryptedData = 16;
subSamples[1].numBytesOfClearData = 16;
subSamples[1].numBytesOfEncryptedData = 16;
std::vector<SubSample> subSamplesVector(
subSamples, subSamples + sizeof(subSamples) / sizeof(subSamples[0]));
auto hSubSamples = hidl_vec<SubSample>(subSamplesVector);
uint8_t keyId[KEY_ID_SIZE];
uint8_t iv[KEY_IV_SIZE];
static const size_t kDataSize = 48;
uint8_t inputData[kDataSize];
FILE* fp = fopen("/dev/urandom", "r");
fread(keyId, sizeof(uint8_t), KEY_ID_SIZE, fp);
fread(iv, sizeof(uint8_t), KEY_IV_SIZE, fp);
fread(inputData, sizeof(uint8_t), kDataSize, fp);
fclose(fp);
sp<MemoryDealer> memDealer = new MemoryDealer(
kDataSize * 2, "WVCryptoPlugin_test");
sp<android::IMemory> source = memDealer->allocate(kDataSize);
ASSERT_NE(source, nullptr);
pSrc = static_cast<uint8_t*>(
static_cast<void*>(source->unsecurePointer()));
ASSERT_NE(pSrc, nullptr);
memcpy(pSrc, inputData, source->size());
sp<android::IMemory> destination = memDealer->allocate(kDataSize);
ASSERT_NE(destination, nullptr);
pDest = static_cast<uint8_t*>(
static_cast<void*>(destination->unsecurePointer()));
ASSERT_NE(pDest, nullptr);
Pattern recommendedPattern = { 1, 9 };
// Provide the expected behavior for IsOpenSession
EXPECT_CALL(*cdm, IsOpenSession(_))
.WillRepeatedly(testing::Return(true));
// Refuse calls to Decrypt
EXPECT_CALL(*cdm, DecryptV16(_, _, _))
.Times(0);
WVCryptoPlugin plugin(sessionId, kSessionIdSize, cdm.get());
DestinationBuffer hDestination;
hDestination.type = BufferType::SHARED_MEMORY;
toSharedBuffer(plugin, destination, &hDestination.nonsecureMemory);
SharedBuffer sourceBuffer;
toSharedBuffer(plugin, source, &sourceBuffer);
plugin.decrypt(
false, hidl_array<uint8_t, 16>(keyId), hidl_array<uint8_t, 16>(iv),
Mode::AES_CTR, recommendedPattern, hSubSamples, sourceBuffer, 0,
hDestination,
[&](Status status, uint32_t bytesWritten,
hidl_string /* errorDetailMessage */) {
EXPECT_EQ(status, Status::BAD_VALUE);
EXPECT_EQ(bytesWritten, 0);
});
}
TEST_F(WVCryptoPluginTest, CommunicatesSecureBufferRequest) {
android::sp<StrictMock<MockCDM>> cdm = new StrictMock<MockCDM>();
uint8_t keyId[KEY_ID_SIZE];
uint8_t iv[KEY_IV_SIZE];
static const size_t kDataSize = 32;
uint8_t in[kDataSize];
FILE* fp = fopen("/dev/urandom", "r");
fread(keyId, sizeof(uint8_t), KEY_ID_SIZE, fp);
fread(iv, sizeof(uint8_t), KEY_IV_SIZE, fp);
fread(in, sizeof(uint8_t), kDataSize, fp);
fclose(fp);
SubSample subSample;
subSample.numBytesOfClearData = 16;
subSample.numBytesOfEncryptedData = 16;
std::vector<SubSample> subSampleVector;
subSampleVector.push_back(subSample);
auto hSubSamples = hidl_vec<SubSample>(subSampleVector);
// Provide the expected behavior for IsOpenSession
EXPECT_CALL(*cdm, IsOpenSession(_))
.WillRepeatedly(testing::Return(true));
// Specify the expected calls to Decrypt
{
InSequence calls;
typedef CdmDecryptionParametersV16 CDP;
EXPECT_CALL(*cdm, DecryptV16(_, _, Field(&CDP::is_secure, false)))
.Times(1);
EXPECT_CALL(*cdm, DecryptV16(_, _, Field(&CDP::is_secure, true)))
.Times(1);
}
sp<MemoryDealer> memDealer = new MemoryDealer(
kDataSize * 2, "WVCryptoPlugin_test");
sp<android::IMemory> source = memDealer->allocate(kDataSize);
ASSERT_NE(source, nullptr);
pSrc = static_cast<uint8_t*>(
static_cast<void*>(source->unsecurePointer()));
ASSERT_NE(pSrc, nullptr);
memcpy(pSrc, in, source->size());
sp<android::IMemory> destination = memDealer->allocate(kDataSize);
ASSERT_NE(destination, nullptr);
pDest = static_cast<uint8_t*>(
static_cast<void*>(destination->unsecurePointer()));
ASSERT_NE(pDest, nullptr);
WVCryptoPlugin plugin(sessionId, kSessionIdSize, cdm.get());
uint32_t bytesWritten = 0;
std::string errorDetailMessage;
DestinationBuffer hDestination;
hDestination.type = BufferType::SHARED_MEMORY;
toSharedBuffer(plugin, destination, &hDestination.nonsecureMemory);
Pattern noPattern = { 0, 0 };
SharedBuffer sourceBuffer;
toSharedBuffer(plugin, source, &sourceBuffer);
plugin.decrypt(
false, hidl_array<uint8_t, 16>(keyId), hidl_array<uint8_t, 16>(iv),
Mode::AES_CTR, noPattern, hSubSamples, sourceBuffer, 0, hDestination,
[&](Status status, uint32_t hBytesWritten, hidl_string hDetailedError) {
EXPECT_EQ(status, Status::OK);
bytesWritten = hBytesWritten;
errorDetailMessage.assign(hDetailedError.c_str());
});
EXPECT_EQ(0u, errorDetailMessage.size()) <<
"WVCryptoPlugin reported a detailed error message.";
plugin.decrypt(
true, hidl_array<uint8_t, 16>(keyId), hidl_array<uint8_t, 16>(iv),
Mode::AES_CTR, noPattern, hSubSamples, sourceBuffer, 0, hDestination,
[&](Status status, uint32_t hBytesWritten, hidl_string hDetailedError) {
EXPECT_EQ(status, Status::OK);
bytesWritten = hBytesWritten;
errorDetailMessage.assign(hDetailedError.c_str());
});
EXPECT_EQ(0u, errorDetailMessage.size()) <<
"WVCryptoPlugin reported a detailed error message.";
}
TEST_F(WVCryptoPluginTest, AllowsSessionIdChanges) {
android::sp<StrictMock<MockCDM>> cdm = new StrictMock<MockCDM>();
uint8_t keyId[KEY_ID_SIZE];
uint8_t iv[KEY_IV_SIZE];
uint8_t sessionId2[kSessionIdSize];
static const size_t kDataSize = 32;
uint8_t in[kDataSize];
FILE* fp = fopen("/dev/urandom", "r");
fread(keyId, sizeof(uint8_t), KEY_ID_SIZE, fp);
fread(iv, sizeof(uint8_t), KEY_IV_SIZE, fp);
fread(sessionId2, sizeof(uint8_t), kSessionIdSize, fp);
fread(in, sizeof(uint8_t), kDataSize, fp);
fclose(fp);
SubSample subSample;
subSample.numBytesOfClearData = 16;
subSample.numBytesOfEncryptedData = 16;
std::vector<SubSample> subSampleVector;
subSampleVector.push_back(subSample);
auto hSubSamples = hidl_vec<SubSample>(subSampleVector);
std::vector<uint8_t> sessionIdVector(sessionId, sessionId + kSessionIdSize);
std::vector<uint8_t> sessionId2Vector(sessionId2,
sessionId2 + kSessionIdSize);
// Provide the expected behavior for IsOpenSession
EXPECT_CALL(*cdm, IsOpenSession(_))
.WillRepeatedly(testing::Return(true));
// Specify the expected calls to Decrypt
{
InSequence calls;
EXPECT_CALL(*cdm,
DecryptV16(ElementsAreArray(sessionId, kSessionIdSize), _, _))
.Times(1);
EXPECT_CALL(*cdm,
DecryptV16(ElementsAreArray(sessionId2, kSessionIdSize), _, _))
.Times(1);
}
sp<MemoryDealer> memDealer = new MemoryDealer(
kDataSize * 2, "WVCryptoPlugin_test");
sp<android::IMemory> source = memDealer->allocate(kDataSize);
ASSERT_NE(source, nullptr);
pSrc = static_cast<uint8_t*>(
static_cast<void*>(source->unsecurePointer()));
ASSERT_NE(pSrc, nullptr);
memcpy(pSrc, in, source->size());
sp<android::IMemory> destination = memDealer->allocate(kDataSize);
ASSERT_NE(destination, nullptr);
pDest = static_cast<uint8_t*>(
static_cast<void*>(destination->unsecurePointer()));
ASSERT_NE(pDest, nullptr);
uint8_t blank[1]; // Some compilers will not accept 0.
WVCryptoPlugin plugin(blank, 0, cdm.get());
uint32_t bytesWritten = 0;
std::string errorDetailMessage;
DestinationBuffer hDestination;
hDestination.type = BufferType::SHARED_MEMORY;
toSharedBuffer(plugin, destination, &hDestination.nonsecureMemory);
Pattern noPattern = { 0, 0 };
SharedBuffer sourceBuffer;
toSharedBuffer(plugin, source, &sourceBuffer);
Status status = plugin.setMediaDrmSession(sessionIdVector);
EXPECT_EQ(status, Status::OK);
plugin.decrypt(
false, hidl_array<uint8_t, 16>(keyId), hidl_array<uint8_t, 16>(iv),
Mode::AES_CTR, noPattern, hSubSamples, sourceBuffer, 0, hDestination,
[&](Status status, uint32_t hBytesWritten, hidl_string hDetailedError) {
EXPECT_EQ(status, Status::OK);
bytesWritten = hBytesWritten;
errorDetailMessage.assign(hDetailedError.c_str());
});
EXPECT_EQ(0u, errorDetailMessage.size()) <<
"WVCryptoPlugin reported a detailed error message.";
status = plugin.setMediaDrmSession(sessionId2Vector);
EXPECT_EQ(status, Status::OK);
plugin.decrypt(
false, hidl_array<uint8_t, 16>(keyId), hidl_array<uint8_t, 16>(iv),
Mode::AES_CTR, noPattern, hSubSamples, sourceBuffer, 0, hDestination,
[&](Status status, uint32_t hBytesWritten, hidl_string hDetailedError) {
EXPECT_EQ(status, Status::OK);
bytesWritten = hBytesWritten;
errorDetailMessage.assign(hDetailedError.c_str());
});
EXPECT_EQ(0u, errorDetailMessage.size()) <<
"WVCryptoPlugin reported a detailed error message.";
}
TEST_F(WVCryptoPluginTest, DisallowsUnopenedSessionIdChanges) {
android::sp<StrictMock<MockCDM>> cdm = new StrictMock<MockCDM>();
uint8_t blank[1]; // Some compilers will not accept 0.
std::vector<uint8_t> sessionIdVector(sessionId, sessionId + kSessionIdSize);
// Specify the expected calls to IsOpenSession
{
InSequence calls;
EXPECT_CALL(*cdm, IsOpenSession(ElementsAreArray(blank, 0)))
.WillOnce(testing::Return(false));
EXPECT_CALL(*cdm, IsOpenSession(ElementsAreArray(sessionId, kSessionIdSize)))
.WillOnce(testing::Return(false))
.WillOnce(testing::Return(true));
}
WVCryptoPlugin plugin(blank, 0, cdm.get());
Status status = plugin.setMediaDrmSession(sessionIdVector);
EXPECT_EQ(status, Status::ERROR_DRM_SESSION_NOT_OPENED);
status = plugin.setMediaDrmSession(sessionIdVector);
EXPECT_EQ(status, Status::OK);
}
} // namespace widevine
} // namespace V1_2
} // namespace drm
} // namespace hardware
} // namespace wvdrm
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