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Widevine MediaCas client code that works with Android R

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Lu Chen
2020-08-13 15:18:12 -07:00
parent ff9728aaa2
commit 0f6db6f751
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oemcrypto/test/oec_session_util.h Normal file
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#ifndef CDM_OEC_SESSION_UTIL_H_
#define CDM_OEC_SESSION_UTIL_H_
// 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.
//
// OEMCrypto unit tests
//
#include <gtest/gtest.h>
#include <openssl/rsa.h>
#include <time.h>
#include <string>
#include <vector>
#include "core_message_deserialize.h"
#include "core_message_serialize.h"
#include "odk.h"
#include "oec_device_features.h"
#include "oec_key_deriver.h"
#include "oemcrypto_types.h"
#include "pst_report.h"
using namespace std;
// GTest requires PrintTo to be in the same namespace as the thing it prints,
// which is std::vector in this case.
namespace std {
void PrintTo(const vector<uint8_t>& value, ostream* os);
} // namespace std
namespace wvoec {
// Make sure this is larger than kMaxKeysPerSession, in oemcrypto_test.cpp
constexpr size_t kMaxNumKeys = 30;
namespace {
#if defined(TEST_SPEED_MULTIPLIER) // Can slow test time limits when
// debugging is slowing everything.
constexpr int kSpeedMultiplier = TEST_SPEED_MULTIPLIER;
#else
constexpr int kSpeedMultiplier = 1;
#endif
constexpr int kShortSleep = 1 * kSpeedMultiplier;
constexpr int kLongSleep = 2 * kSpeedMultiplier;
constexpr uint32_t kDuration = 2 * kSpeedMultiplier;
constexpr uint32_t kLongDuration = 5 * kSpeedMultiplier;
constexpr int32_t kTimeTolerance = 3 * kSpeedMultiplier;
constexpr int64_t kUsageTableTimeTolerance = 10 * kSpeedMultiplier;
} // namespace
typedef struct {
uint8_t verification[4];
uint32_t duration;
uint32_t nonce;
uint32_t control_bits;
} KeyControlBlock;
// Note: The API does not specify a maximum key id length. We specify a
// maximum just for these tests, so that we have a fixed message size.
constexpr size_t kTestKeyIdMaxLength = 16;
// Most content will use a key id that is 16 bytes long.
constexpr int kDefaultKeyIdLength = 16;
constexpr size_t kMaxPSTLength = 255; // In specification.
constexpr size_t kMaxCoreMessage = 200 * kMaxNumKeys + 200; // Rough estimate.
typedef struct {
uint8_t key_id[kTestKeyIdMaxLength];
size_t key_id_length;
uint8_t key_data[MAC_KEY_SIZE];
size_t key_data_length;
uint8_t key_iv[KEY_IV_SIZE];
uint8_t control_iv[KEY_IV_SIZE];
KeyControlBlock control;
// Note: cipher_mode may not be part of a real signed message. For these
// tests, it is convenient to keep it in this structure anyway.
OEMCryptoCipherMode cipher_mode;
} MessageKeyData;
// This structure will be signed to simulate a message from the server.
struct MessageData {
MessageKeyData keys[kMaxNumKeys];
uint8_t mac_key_iv[KEY_IV_SIZE];
uint8_t padding[KEY_IV_SIZE];
uint8_t mac_keys[2 * MAC_KEY_SIZE];
uint8_t pst[kMaxPSTLength];
SRM_Restriction_Data srm_restriction_data;
};
struct Test_PST_Report {
Test_PST_Report(const std::string& pst_in,
OEMCrypto_Usage_Entry_Status status_in);
OEMCrypto_Usage_Entry_Status status;
int64_t seconds_since_license_received;
int64_t seconds_since_first_decrypt;
int64_t seconds_since_last_decrypt;
std::string pst;
int64_t time_created;
};
struct EntitledContentKeyData {
uint8_t entitlement_key_id[kTestKeyIdMaxLength];
size_t entitlement_key_id_length;
uint8_t content_key_id[kTestKeyIdMaxLength];
size_t content_key_id_length;
uint8_t content_key_data_iv[KEY_IV_SIZE];
uint8_t content_key_data[KEY_SIZE];
uint8_t encrypted_content_key_data[KEY_SIZE];
size_t key_index; // Index into the license's key array. Only for testing.
};
// returns 1 on success, -1 if not supported, or 0 if other failure.
int GetRandBytes(unsigned char* buf, int num);
void GenerateSimpleSampleDescription(const std::vector<uint8_t>& in,
std::vector<uint8_t>& out,
OEMCrypto_SampleDescription* sample,
OEMCrypto_SubSampleDescription* subsample);
// Increment counter for AES-CTR. The CENC spec specifies we increment only
// the low 64 bits of the IV counter, and leave the high 64 bits alone. This
// is different from the OpenSSL implementation, so we implement the CTR loop
// ourselves.
void ctr128_inc64(int64_t increaseBy, uint8_t* iv);
// Some compilers don't like the macro htonl within an ASSERT_EQ.
uint32_t htonl_fnc(uint32_t x);
// Prints error string from BoringSSL
void dump_boringssl_error();
class Session;
// The prototype of the OEMCrypto function to prepare and sign a request.
typedef OEMCryptoResult (*PrepAndSignRequest_t)(
OEMCrypto_SESSION session, uint8_t* message, size_t message_length,
size_t* core_message_length, uint8_t* signature, size_t* signature_length);
// A RoundTrip helps generate and verify a request message, helps generate the
// corresponding response, and then helps verify loading the response.
template <class CoreRequest, PrepAndSignRequest_t PrepAndSignRequest,
class CoreResponse, class ResponseData>
class RoundTrip {
public:
RoundTrip() = delete;
RoundTrip(Session* session)
: session_(session),
core_request_(),
core_response_(),
response_data_(),
encrypted_response_data_(),
required_message_size_(0) {}
virtual ~RoundTrip() {}
// Have OEMCrypto sign a request message and then verify the signature and the
// core message.
virtual void SignAndVerifyRequest();
// Create a default |response_data| and |core_response|.
virtual void CreateDefaultResponse() = 0;
// Copy fields from |response_data| to |padded_response_data|, encrypting
// those that should be encrypted. Serialize the core message. Then sign the
// response.
virtual void EncryptAndSignResponse() = 0;
// Attempt to load the response and return the error. Short buffer errors are
// handled by LoadResponse, not the caller. All other errors should be
// handled by the caller.
virtual OEMCryptoResult LoadResponse() { return LoadResponse(session_); }
// As with LoadResponse, but load into a different session.
virtual OEMCryptoResult LoadResponse(Session* session) = 0;
// Accessors are all read/write because tests modify default values.
Session* session() { return session_; }
void set_session(Session* session) { session_ = session; }
CoreRequest& core_request() { return core_request_; }
CoreResponse& core_response() { return core_response_; }
ResponseData& response_data() { return response_data_; }
std::vector<uint8_t>& encrypted_response_buffer() {
return encrypted_response_;
}
// Set the size of the buffer used the encrypted license.
void set_message_size(size_t size) { required_message_size_ = size; }
std::vector<uint8_t>& response_signature() { return response_signature_; }
const std::string& serialized_core_message() const {
return serialized_core_message_;
}
protected:
// ----------------------------------------------------------------------
// Specialized functionality for each message type.
// Verify the signature of the request.
virtual void VerifyRequestSignature(
const vector<uint8_t>& data, const vector<uint8_t>& generated_signature,
size_t core_message_length) = 0;
// Verify the values of the core response.
virtual void FillAndVerifyCoreRequest(
const std::string& core_message_string) = 0;
// Find the given pointer in the response_data_.
virtual OEMCrypto_Substring FindSubstring(const void* pointer, size_t length);
// ----------------------------------------------------------------------
// Member variables.
Session* session_;
CoreRequest core_request_;
CoreResponse core_response_;
ResponseData response_data_, encrypted_response_data_;
// Message buffers will be at least this big. Tests for loading and signing
// messages will increase all buffers to this size.
size_t required_message_size_;
std::vector<uint8_t> response_signature_;
std::string serialized_core_message_;
std::vector<uint8_t> encrypted_response_;
};
class ProvisioningRoundTrip
: public RoundTrip<
/* CoreRequest */ oemcrypto_core_message::ODK_ProvisioningRequest,
OEMCrypto_PrepAndSignProvisioningRequest,
/* CoreResponse */ ODK_ParsedProvisioning,
/* ResponseData */ RSAPrivateKeyMessage> {
public:
ProvisioningRoundTrip(Session* session,
const std::vector<uint8_t>& encoded_rsa_key)
: RoundTrip(session),
allowed_schemes_(kSign_RSASSA_PSS),
encryptor_(),
encoded_rsa_key_(encoded_rsa_key) {}
// Prepare the session for signing the request.
virtual void PrepareSession(const wvoec::WidevineKeybox& keybox);
void CreateDefaultResponse() override;
void EncryptAndSignResponse() override;
OEMCryptoResult LoadResponse() override { return LoadResponse(session_); }
OEMCryptoResult LoadResponse(Session* session) override;
void VerifyLoadFailed();
const std::vector<uint8_t>& encoded_rsa_key() { return encoded_rsa_key_; }
const std::vector<uint8_t>& wrapped_rsa_key() { return wrapped_rsa_key_; }
void set_allowed_schemes(uint32_t allowed_schemes) {
allowed_schemes_ = allowed_schemes;
}
protected:
void VerifyRequestSignature(const vector<uint8_t>& data,
const vector<uint8_t>& generated_signature,
size_t core_message_length) override;
// Verify the values of the core response.
virtual void FillAndVerifyCoreRequest(
const std::string& core_message_string) override;
// Load the response, without the retry. Called by LoadResponse.
OEMCryptoResult LoadResponseNoRetry(Session* session,
size_t* wrapped_key_length);
// This takes a pointer in the response_data_ and remaps it to the same
// pointer within the encrypted message. This is used for backwards
// compatibliity testing, so that a v15 oemcrypto will accept range checks.
template <typename T>
const T* RemapPointer(const T* response_pointer) const;
uint32_t allowed_schemes_;
Encryptor encryptor_;
// The message key used for Prov 3.0.
std::vector<uint8_t> message_key_;
std::vector<uint8_t> encrypted_message_key_;
std::vector<uint8_t> encoded_rsa_key_;
std::vector<uint8_t> wrapped_rsa_key_;
};
class LicenseRoundTrip
: public RoundTrip<
/* CoreRequest */ oemcrypto_core_message::ODK_LicenseRequest,
OEMCrypto_PrepAndSignLicenseRequest,
/* CoreResponse */ ODK_ParsedLicense,
/* ResponseData */ MessageData> {
public:
LicenseRoundTrip(Session* session)
: RoundTrip(session),
control_(wvoec::kControlNonceEnabled),
num_keys_(4),
pst_(""),
minimum_srm_version_(0),
update_mac_keys_(true),
api_version_(kCurrentAPI),
expect_request_has_correct_nonce_(true),
license_type_(OEMCrypto_ContentLicense),
request_hash_() {}
void CreateDefaultResponse() override;
// Create a license with four keys. Each key is responsible for one of generic
// encrypt (key 0), decrypt (key 1), sign (key 2) and verify (key 3). Each key
// is allowed only one type of operation.
void CreateResponseWithGenericCryptoKeys();
// Fill the |core_response| substrings.
virtual void FillCoreResponseSubstrings();
void EncryptAndSignResponse() override;
OEMCryptoResult LoadResponse() override { return LoadResponse(session_); }
OEMCryptoResult LoadResponse(Session* session) override;
// Reload an offline license into a different session. This derives new mac
// keys and then calls LoadResponse.
OEMCryptoResult ReloadResponse(Session* session);
void VerifyTestKeys(Session* session);
// Set the default key control block for all keys. This is used in
// CreateDefaultResponse. The key control block determines the restrictions
// that OEMCrypto should place on a key's use. For example, it specifies the
// minimum HDCP requirement and whether the key can only be used with a secure
// video path. See the section "Key Control Block" in the document "Widevine
// Modular DRM Security Integration Guide for CENC".
void set_control(uint32_t control) { control_ = control; }
uint32_t control() const { return control_; }
// Set the number of keys to use in the license.
void set_num_keys(uint32_t num_keys) { num_keys_ = num_keys; }
uint32_t num_keys() const { return num_keys_; }
// Get/Set the pst for the license and usage table entry.
const std::string& pst() const { return pst_; }
void set_pst(const std::string& pst) { pst_ = pst; }
// Set the minimum SRM version for the license.
void set_minimum_srm_version(uint32_t minimum_srm_version) {
minimum_srm_version_ = minimum_srm_version;
}
// Change the hash of the core request. This should cause the response to be
// rejected.
void BreakRequestHash() { request_hash_[3] ^= 42; }
// Set the API version for the license itself. This will be used in
// CreateDefaultResponse.
void set_api_version(uint32_t api_version) { api_version_ = api_version; }
uint32_t api_version() const { return api_version_; }
void set_update_mac_keys(bool update_mac_keys) {
update_mac_keys_ = update_mac_keys;
}
void set_license_type(OEMCrypto_LicenseType license_type) {
license_type_ = license_type;
}
// Skip the nonce check when verifying the license request.
void skip_nonce_check() { expect_request_has_correct_nonce_ = false; }
// This sets the key id of the specified key to the specified string.
// This is used to test with different key id lengths.
void SetKeyId(size_t index, const string& key_id);
protected:
void VerifyRequestSignature(const vector<uint8_t>& data,
const vector<uint8_t>& generated_signature,
size_t core_message_length) override;
// Verify the values of the core response.
virtual void FillAndVerifyCoreRequest(
const std::string& core_message_string) override;
// The default key control bits used with CreateDefaultResponse.
uint32_t control_;
// The number of keys in the license response.
uint32_t num_keys_;
// If non-empty, the license's provider session token.
std::string pst_;
// If non-zero, the minimum SRM version.
uint32_t minimum_srm_version_;
// If true, the license contains new mac keys for signing renewals.
bool update_mac_keys_;
// API version for the license itself. If this is 0 when the license request
// is signed, it will be set to the same as OEMCrypto's API version. It may
// be set to a lower value in order to test backwards compatibility.
uint32_t api_version_;
// If true, then we expect the nonce in the core request to match that in
// session. This is usually true, but when we are testing how OEMCrypto
// handles a bad nonce, we don't want to.
bool expect_request_has_correct_nonce_;
// Whether this is a content license or an entitlement license. Used in
// CreateDefaultResponse.
OEMCrypto_LicenseType license_type_;
uint8_t request_hash_[ODK_SHA256_HASH_SIZE];
};
class RenewalRoundTrip
: public RoundTrip<
/* CoreRequest */ oemcrypto_core_message::ODK_RenewalRequest,
OEMCrypto_PrepAndSignRenewalRequest,
// Renewal response info is same as request:
/* CoreResponse */ oemcrypto_core_message::ODK_RenewalRequest,
/* ResponseData */ MessageData> {
public:
RenewalRoundTrip(LicenseRoundTrip* license_messages)
: RoundTrip(license_messages->session()),
license_messages_(license_messages),
refresh_object_(),
renewal_duration_seconds_(
license_messages->core_response()
.timer_limits.initial_renewal_duration_seconds),
is_release_(false) {}
void CreateDefaultResponse() override;
void EncryptAndSignResponse() override;
OEMCryptoResult LoadResponse() override { return LoadResponse(session_); }
OEMCryptoResult LoadResponse(Session* session) override;
uint64_t renewal_duration_seconds() const {
return renewal_duration_seconds_;
}
void set_renewal_duration_seconds(uint64_t renewal_duration_seconds) {
renewal_duration_seconds_ = renewal_duration_seconds;
}
void set_is_release(bool is_release) { is_release_ = is_release; }
protected:
void VerifyRequestSignature(const vector<uint8_t>& data,
const vector<uint8_t>& generated_signature,
size_t core_message_length) override;
// Verify the values of the core response.
virtual void FillAndVerifyCoreRequest(
const std::string& core_message_string) override;
LicenseRoundTrip* license_messages_;
OEMCrypto_KeyRefreshObject refresh_object_;
uint64_t renewal_duration_seconds_;
bool is_release_; // If this is a license release, and not a real renewal.
};
class EntitledMessage {
public:
EntitledMessage(LicenseRoundTrip* license_messages)
: license_messages_(license_messages), num_keys_() {}
void FillKeyArray();
void MakeOneKey(size_t entitlement_key_index);
void SetEntitledKeySession(uint32_t key_session) {
key_session_ = key_session;
}
void LoadKeys(OEMCryptoResult expected_sts);
void set_num_keys(uint32_t num_keys) { num_keys_ = num_keys; }
uint32_t num_keys() const { return num_keys_; }
void SetEntitlementKeyId(unsigned int index, const std::string& key_id);
void SetContentKeyId(unsigned int index, const std::string& key_id);
// Verify that key control blocks of the loaded keys.
void VerifyEntitlementTestKeys();
private:
// Find the offset of the give pointer, relative to |entitled_key_data_|.
OEMCrypto_Substring FindSubstring(const void* ptr, size_t size);
LicenseRoundTrip* license_messages_;
uint32_t num_keys_;
// Clear Entitlement key data. This is the backing data for
// |entitled_key_array_|.
EntitledContentKeyData entitled_key_data_[kMaxNumKeys];
// Entitled key object. Pointers are backed by |entitled_key_data_|.
OEMCrypto_EntitledContentKeyObject entitled_key_array_[kMaxNumKeys];
uint32_t key_session_;
};
class Session {
public:
Session();
~Session();
// Returns the most recently generated nonce.
// Valid after call to GenerateNonce.
uint32_t nonce() const { return nonce_; }
// Valid after call to open().
uint32_t session_id() const { return (uint32_t)session_id_; }
// Call OEMCrypto_OpenSession, with GTest ASSERTs.
void open();
// Call OEMCrypto_CloseSession, with GTest ASSERTs.
void close();
// Artifically set session id without calling OEMCrypto_OpenSession. This is
// used in core/test/generic_crypto_unittest.cpp.
void SetSessionId(uint32_t session_id);
uint32_t GetOecSessionId() { return session_id_; }
// Generates one nonce. If error_counter is null, this will sleep 1 second
// and try again if a nonce flood has been detected. If error_counter is
// not null, it will be incremented when a nonce flood is detected.
void GenerateNonce(int* error_counter = nullptr);
// Fill the vectors with test context which generate known mac and enc keys.
void FillDefaultContext(vector<uint8_t>* mac_context,
vector<uint8_t>* enc_context);
// Generate known mac and enc keys using OEMCrypto_GenerateDerivedKeys and
// also fill out enc_key_, mac_key_server_, and mac_key_client_.
void GenerateDerivedKeysFromKeybox(const wvoec::WidevineKeybox& keybox);
// Generate known mac and enc keys using OEMCrypto_DeriveKeysFromSessionKey
// and also fill out enc_key_, mac_key_server_, and mac_key_client_.
void GenerateDerivedKeysFromSessionKey();
// Encrypt a block of data using CTR mode.
void EncryptCTR(const vector<uint8_t>& in_buffer, const uint8_t* key,
const uint8_t* starting_iv, vector<uint8_t>* out_buffer);
// Encrypt some data and pass to OEMCrypto_DecryptCENC to verify decryption.
void TestDecryptCTR(bool select_key_first = true,
OEMCryptoResult expected_result = OEMCrypto_SUCCESS,
int key_index = 0);
// Verify that an attempt to select an expired key either succeeds, or gives
// an actionable error code.
void TestSelectExpired(unsigned int key_index);
// Calls OEMCrypto_GetOEMPublicCertificate and OEMCrypto_LoadOEMPrivateKey and
// loads the OEM cert's public rsa key into public_rsa_.
void LoadOEMCert(bool verify_cert = false);
// Calls OEMCrypto_RewrapDeviceRSAKey with the given provisioning response
// message. If force is true, we assert that the key loads successfully.
void RewrapRSAKey(const struct RSAPrivateKeyMessage& encrypted,
size_t message_size, const std::vector<uint8_t>& signature,
vector<uint8_t>* wrapped_key, bool force);
// Loads the specified RSA public key into public_rsa_. If rsa_key is null,
// the default test key is loaded.
void PreparePublicKey(const uint8_t* rsa_key = nullptr,
size_t rsa_key_length = 0);
// Verifies the given signature is from the given message and RSA key, pkey.
static bool VerifyPSSSignature(EVP_PKEY* pkey, const uint8_t* message,
size_t message_length,
const uint8_t* signature,
size_t signature_length);
// Verify that the message was signed by the private key associated with
// |public_rsa_| using the specified padding scheme.
void VerifyRSASignature(const vector<uint8_t>& message,
const uint8_t* signature, size_t signature_length,
RSA_Padding_Scheme padding_scheme);
// Encrypts a known session key with public_rsa_ for use in future calls to
// OEMCrypto_DeriveKeysFromSessionKey or OEMCrypto_RewrapDeviceRSAKey30.
// The unencrypted session key is stored in session_key.
bool GenerateRSASessionKey(vector<uint8_t>* session_key,
vector<uint8_t>* enc_session_key);
// Calls OEMCrypto_RewrapDeviceRSAKey30 with the given provisioning response
// message. If force is true, we assert that the key loads successfully.
void RewrapRSAKey30(const struct RSAPrivateKeyMessage& encrypted,
const std::vector<uint8_t>& encrypted_message_key,
vector<uint8_t>* wrapped_key, bool force);
// Loads the specified wrapped_rsa_key into OEMCrypto, and then runs
// GenerateDerivedKeysFromSessionKey to install known encryption and mac keys.
void InstallRSASessionTestKey(const vector<uint8_t>& wrapped_rsa_key);
// Creates a new usage entry, and keeps track of the index.
// If status is null, we expect success, otherwise status is set to the
// return value.
void CreateNewUsageEntry(OEMCryptoResult* status = nullptr);
// Copy encrypted usage entry from other session, and then load it.
// This session must already be open.
void LoadUsageEntry(uint32_t index, const vector<uint8_t>& buffer);
// Copy encrypted usage entry from other session.
// This session must already be open.
void LoadUsageEntry(const Session& other) {
LoadUsageEntry(other.usage_entry_number(), other.encrypted_usage_entry());
}
// Reload previously used usage entry.
void ReloadUsageEntry() { LoadUsageEntry(*this); }
// Update the usage entry and save the header to the specified buffer.
void UpdateUsageEntry(std::vector<uint8_t>* header_buffer);
// The usage entry number for this session's usage entry.
uint32_t usage_entry_number() const { return usage_entry_number_; }
void set_usage_entry_number(uint32_t v) { usage_entry_number_ = v; }
// The encrypted buffer holding the recently updated and saved usage entry.
const vector<uint8_t>& encrypted_usage_entry() const {
return encrypted_usage_entry_;
}
// Generates a usage report for the specified pst. If there is success,
// the report's signature is verified, and several fields are given sanity
// checks. If |other| is not null, then the mac keys are copied from other in
// order to verify signatures.
void GenerateReport(const std::string& pst,
OEMCryptoResult expected_result = OEMCrypto_SUCCESS,
Session* other = 0);
// Move this usage entry to a new index.
void MoveUsageEntry(uint32_t new_index, std::vector<uint8_t>* header_buffer,
OEMCryptoResult expect_result = OEMCrypto_SUCCESS);
// PST used in FillSimpleMesage.
string pst() const { return pst_; }
// Returns a pointer-like thing to the usage report generated by the previous
// call to GenerateReport.
wvutil::Unpacked_PST_Report pst_report() {
return wvutil::Unpacked_PST_Report(&pst_report_buffer_[0]);
}
// Verify the values in the PST report. The signature should have been
// verified in GenerateReport, above.
void VerifyPST(const Test_PST_Report& report);
// Verify the Usage Report. If any time is greater than 10 minutes, it is
// assumed to be an absolute time, and time_since will be computed relative to
// now.
void VerifyReport(Test_PST_Report report,
int64_t time_license_received = 0,
int64_t time_first_decrypt = 0,
int64_t time_last_decrypt = 0);
// Create an entry in the old usage table based on the given report.
void CreateOldEntry(const Test_PST_Report &report);
// Create a new entry and copy the old entry into it. Then very the report
// is right.
void CopyAndVerifyOldEntry(const Test_PST_Report &report,
std::vector<uint8_t>* header_buffer);
// The unencrypted license response or license renewal response.
MessageData& license() { return license_; }
void set_license(const MessageData& license) { license_ = license; }
const KeyDeriver& key_deriver() const { return key_deriver_; }
void set_mac_keys(const uint8_t* mac_keys) {
key_deriver_.set_mac_keys(mac_keys);
}
private:
// This compares the actual result with the expected result. If OEMCrypto is
// an older version, we allow it to report an equivalent error code.
void TestDecryptResult(OEMCryptoResult expected_result,
OEMCryptoResult actual_select_result,
OEMCryptoResult actual_decryt_result);
bool open_;
bool forced_session_id_;
OEMCrypto_SESSION session_id_;
KeyDeriver key_deriver_;
uint32_t nonce_;
RSA* public_rsa_;
vector<uint8_t> pst_report_buffer_;
MessageData license_;
vector<uint8_t> encrypted_usage_entry_;
uint32_t usage_entry_number_;
string pst_;
};
} // namespace wvoec
#endif // CDM_OEC_SESSION_UTIL_H_