OEMCrypto unit tests for license release
Bug: 295956275 Change-Id: I3c8fc5fcadeae051cc734a64378e473492437c34
This commit is contained in:
Vicky Min
@@ -105,6 +105,12 @@ typedef OEMCryptoResult (*L1_LoadRenewal_t)(OEMCrypto_SESSION session,
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size_t core_message_length,
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const uint8_t* signature,
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size_t signature_length);
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typedef OEMCryptoResult (*L1_LoadRelease_t)(OEMCrypto_SESSION session,
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const uint8_t* message,
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size_t message_length,
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size_t core_message_length,
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const uint8_t* signature,
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size_t signature_length);
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typedef OEMCryptoResult (*L1_QueryKeyControl_t)(
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OEMCrypto_SESSION session, const uint8_t* key_id, size_t key_id_length,
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uint8_t* key_control_block, size_t* key_control_block_length);
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@@ -365,6 +371,7 @@ struct FunctionPointers {
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L1_LoadEntitledContentKeys_t LoadEntitledContentKeys;
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L1_LoadEntitledContentKeys_V16_t LoadEntitledContentKeys_V16;
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L1_LoadRenewal_t LoadRenewal;
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L1_LoadRelease_t LoadRelease;
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L1_QueryKeyControl_t QueryKeyControl;
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L1_SelectKey_t SelectKey;
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L1_DecryptCENC_V17_t DecryptCENC_V17;
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@@ -1078,6 +1085,7 @@ class Adapter {
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LOOKUP_ALL(18, EnterTestMode, OEMCrypto_EnterTestMode);
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LOOKUP_ALL(19, SetDecryptHash, OEMCrypto_SetDecryptHash);
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LOOKUP_ALL(19, LoadRelease, OEMCrypto_LoadRelease);
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// clang-format on
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@@ -1119,6 +1127,7 @@ class Adapter {
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level3_.LoadLicense_V18 = Level3_LoadLicense;
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level3_.LoadEntitledContentKeys = Level3_LoadEntitledContentKeys;
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level3_.LoadRenewal = Level3_LoadRenewal;
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level3_.LoadRelease = Leve3_LoadRelease;
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level3_.QueryKeyControl = Level3_QueryKeyControl;
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level3_.SelectKey = Level3_SelectKey;
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level3_.DecryptCENC_V17 = Level3_DecryptCENC_V17;
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@@ -2268,6 +2277,23 @@ extern "C" OEMCryptoResult OEMCrypto_LoadRenewal(OEMCrypto_SESSION session,
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signature_length);
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}
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extern "C" OEMCryptoResult OEMCrypto_LoadRelease(OEMCrypto_SESSION session,
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const uint8_t* message,
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size_t message_length,
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size_t core_message_length,
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const uint8_t* signature,
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size_t signature_length) {
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if (!gAdapter) return OEMCrypto_ERROR_UNKNOWN_FAILURE;
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LevelSession pair = gAdapter->GetSession(session);
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if (!pair.fcn) return OEMCrypto_ERROR_INVALID_SESSION;
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if (pair.fcn->LoadRelease == nullptr) {
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return OEMCrypto_ERROR_NOT_IMPLEMENTED;
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}
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return pair.fcn->LoadRelease(pair.session, message, message_length,
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core_message_length, signature,
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signature_length);
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}
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extern "C" OEMCryptoResult OEMCrypto_QueryKeyControl(
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OEMCrypto_SESSION session, const uint8_t* key_id, size_t key_id_length,
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uint8_t* key_control_block, size_t* key_control_block_length) {
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@@ -732,6 +732,7 @@ typedef enum OEMCrypto_SignatureHashAlgorithm {
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#define OEMCrypto_PrepAndSignReleaseRequest _oecc147
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#define OEMCrypto_GetUsageEntryInfo _oecc148
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#define OEMCrypto_GetBCCType _oecc149
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#define OEMCrypto_LoadRelease _oecc150
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// clang-format on
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/// @addtogroup initcontrol
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@@ -1582,6 +1583,53 @@ OEMCryptoResult OEMCrypto_LoadRenewal(OEMCrypto_SESSION session,
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const uint8_t* signature,
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size_t signature_length);
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/**
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* If the signature passes, OEMCrypto shall use the function
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* ODK_ParseRelease, as described in the document "Widevine Core Message
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* Serialization" to parse and verify the message. If ODK_ParseRelease
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* returns an error, OEMCrypto returns the error to the CDM layer.
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*
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* NOTE: OEMCrypto_LoadLicense() must be called first to load the keys into
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* the session.
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*
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* @verification
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* The signature of the message shall be computed using mac_key[server], and
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* the API shall verify the computed signature matches the signature passed
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* in. If not, return OEMCrypto_ERROR_SIGNATURE_FAILURE. The signature
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* verification shall use a constant-time algorithm (a signature mismatch
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* will always take the same time as a successful comparison).
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*
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* @param[in] session: handle for the session to be used.
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* @param[in] message: pointer to memory containing message to be verified.
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* @param[in] message_length: length of the message, in bytes.
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* @param[in] core_message_length: length of the core submessage, in bytes.
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* @param[in] signature: pointer to memory containing the signature.
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* @param[in] signature_length: length of the signature, in bytes.
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*
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* @retval OEMCrypto_SUCCESS success
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* @retval OEMCrypto_ERROR_INVALID_SESSION
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* @retval OEMCrypto_ERROR_INVALID_CONTEXT
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* @retval OEMCrypto_ERROR_UNKNOWN_FAILURE
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* @retval OEMCrypto_ERROR_BUFFER_TOO_LARGE
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* @retval OEMCrypto_ERROR_SIGNATURE_FAILURE
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*
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* @threading
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* This is a "Session Function" and may be called simultaneously with session
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* functions for other sessions but not simultaneously with other functions
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* for this session. It will not be called simultaneously with initialization
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* or usage table functions. It is as if the CDM holds a write lock for this
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* session, and a read lock on the OEMCrypto system.
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*
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* @version
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* This method is new in API version 19.
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*/
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OEMCryptoResult OEMCrypto_LoadRelease(OEMCrypto_SESSION session,
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const uint8_t* message,
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size_t message_length,
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size_t core_message_length,
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const uint8_t* signature,
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size_t signature_length);
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/**
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* Returns the decrypted key control block for the given content_key_id. This
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* function is for application developers to debug license server and key
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@@ -121,6 +121,9 @@ namespace wvoec3 {
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#define Level3_EnterTestMode _lcc140
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#define Level3_GetDeviceSignedCsrPayload _lcc141
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#define Level3_SetDecryptHash _lcc143
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#define Level3_PrepAndSignReleaseRequest _lcc147
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#define Level3_GetUsageEntryInfo _lcc148
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#define Level3_LoadRelease _lcc150
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#else
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#define Level3_Initialize _oecc01
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#define Level3_Terminate _oecc02
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@@ -223,6 +226,10 @@ namespace wvoec3 {
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#define Level3_EnterTestMode _oecc140
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#define Level3_GetDeviceSignedCsrPayload _oecc141
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#define Level3_SetDecryptHash _oecc143
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#define Level3_PrepAndSignReleaseRequest _oecc147
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#define Level3_GetUsageEntryInfo _oecc148
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#define Level3_LoadRelease _oecc150
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#endif
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#define Level3_GetInitializationState _oecl3o01
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@@ -1513,27 +1513,9 @@ void RenewalRoundTrip::FillAndVerifyCoreRequest(
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}
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}
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void RenewalRoundTrip::CreateDefaultResponse() {
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if (is_release_) {
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uint32_t control = 0;
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uint32_t nonce = 0;
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// A single key object with no key id should update all keys.
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constexpr size_t index = 0;
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response_data_.keys[index].key_id_length = 0;
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response_data_.keys[index].key_id[0] = '\0';
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const uint32_t renewal_api =
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std::max<uint32_t>(core_request_.api_major_version, 15u);
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std::string kcVersion = "kc" + std::to_string(renewal_api);
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memcpy(response_data_.keys[index].control.verification, kcVersion.c_str(),
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4);
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const uint32_t duration = static_cast<uint32_t>(
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license_messages_->core_response()
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.timer_limits.initial_renewal_duration_seconds);
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response_data_.keys[index].control.duration = htonl(duration);
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response_data_.keys[index].control.nonce = htonl(nonce);
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response_data_.keys[index].control.control_bits = htonl(control);
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}
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}
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// Nothing is needed for this function but it needs a definition since it's
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// declared as a virtual function in the RoundTrip class.
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void RenewalRoundTrip::CreateDefaultResponse() {}
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void RenewalRoundTrip::EncryptAndSignResponse() {
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// Renewal messages are not encrypted.
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@@ -1628,6 +1610,80 @@ OEMCryptoResult RenewalRoundTrip::LoadResponse(Session* session) {
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response_signature_.data(), response_signature_.size());
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}
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void ReleaseRoundTrip::VerifyRequestSignature(
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const vector<uint8_t>& data, const vector<uint8_t>& generated_signature,
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size_t core_message_length) {
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ASSERT_EQ(HMAC_SHA256_SIGNATURE_SIZE, generated_signature.size());
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std::vector<uint8_t> expected_signature;
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session()->key_deriver().ClientSignBuffer(data, &expected_signature);
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ASSERT_EQ(expected_signature, generated_signature);
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}
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void ReleaseRoundTrip::FillAndVerifyCoreRequest(
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const std::string& core_message_string) {
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EXPECT_TRUE(
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oemcrypto_core_message::deserialize::CoreReleaseRequestFromMessage(
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core_message_string, &core_request_));
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EXPECT_EQ(license_messages_->api_version(), core_request_.api_major_version);
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EXPECT_EQ(license_messages_->core_request().nonce, core_request_.nonce);
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EXPECT_EQ(license_messages_->core_request().session_id,
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core_request_.session_id);
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}
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// Nothing is needed for this function but it needs a definition since it's
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// declared as a virtual function in the RoundTrip class.
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void ReleaseRoundTrip::CreateDefaultResponse() {}
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void ReleaseRoundTrip::EncryptAndSignResponse() {
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// Release messages are not encrypted.
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encrypted_response_data_ = response_data_;
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// Create a core response for a call to LoadRelease.
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// TODO(b/191724203): Test release server has different version from license
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// server.
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ASSERT_NE(license_messages_, nullptr);
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CoreMessageFeatures features =
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CoreMessageFeatures::DefaultFeatures(license_messages_->api_version());
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ASSERT_TRUE(oemcrypto_core_message::serialize::CreateCoreReleaseResponse(
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features, core_request_, seconds_since_license_received_,
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seconds_since_first_decrypt_, &serialized_core_message_));
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// Resize serialize core message to be just big enough or required core
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// message size, whichever is larger.
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serialized_core_message_.resize(
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std::max(required_core_message_size_, serialized_core_message_.size()));
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// Make the message buffer a just big enough, or the
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// required size, whichever is larger.
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const size_t message_size =
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std::max(required_message_size_, serialized_core_message_.size() +
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sizeof(encrypted_response_data_));
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// Stripe the encrypted message.
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encrypted_response_.resize(message_size);
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for (size_t i = 0; i < encrypted_response_.size(); i++) {
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encrypted_response_[i] = i % 0x100;
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}
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// Concatenate the core message and the response.
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ASSERT_GE(encrypted_response_.size(), serialized_core_message_.size());
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memcpy(encrypted_response_.data(), serialized_core_message_.data(),
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serialized_core_message_.size());
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ASSERT_GE(encrypted_response_.size(),
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serialized_core_message_.size() + sizeof(encrypted_response_data_));
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memcpy(encrypted_response_.data() + serialized_core_message_.size(),
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reinterpret_cast<const uint8_t*>(&encrypted_response_data_),
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sizeof(encrypted_response_data_));
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session()->key_deriver().ServerSignBuffer(encrypted_response_.data(),
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encrypted_response_.size(),
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&response_signature_);
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SetEncryptAndSignResponseLengths();
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}
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OEMCryptoResult ReleaseRoundTrip::LoadResponse(Session* session) {
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// TODO(vickymin): Write corpus for oemcrypto_load_release_fuzz.
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VerifyEncryptAndSignResponseLengths();
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return OEMCrypto_LoadRelease(
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session->session_id(), encrypted_response_.data(),
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encrypted_response_.size(), serialized_core_message_.size(),
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response_signature_.data(), response_signature_.size());
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}
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std::unordered_map<util::EccCurve, std::unique_ptr<util::EccPrivateKey>,
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std::hash<int>>
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Session::server_ephemeral_keys_;
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@@ -609,6 +609,48 @@ class RenewalRoundTrip
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bool is_release_; // If this is a license release, and not a real renewal.
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};
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class ReleaseRoundTrip
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: public RoundTrip<
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/* CoreRequest */ oemcrypto_core_message::ODK_ReleaseRequest,
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OEMCrypto_PrepAndSignReleaseRequest,
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// Release response info is same as request:
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/* CoreResponse */ oemcrypto_core_message::ODK_ReleaseRequest,
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/* ResponseData */ MessageData> {
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public:
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ReleaseRoundTrip(LicenseRoundTrip* license_messages)
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: RoundTrip(license_messages->session()),
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license_messages_(license_messages) {}
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void CreateDefaultResponse() override;
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void EncryptAndSignResponse() override;
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OEMCryptoResult LoadResponse() override { return LoadResponse(session_); }
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OEMCryptoResult LoadResponse(Session* session) override;
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int64_t seconds_since_license_received() const {
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return seconds_since_license_received_;
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}
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void set_seconds_since_license_received(
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int64_t seconds_since_license_received) {
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seconds_since_license_received_ = seconds_since_license_received;
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}
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int64_t seconds_since_first_decrypt() const {
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return seconds_since_first_decrypt_;
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}
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void set_seconds_since_first_decrypt(int64_t seconds_since_first_decrypt) {
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seconds_since_first_decrypt_ = seconds_since_first_decrypt;
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}
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protected:
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bool RequestHasNonce() override { return false; }
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void VerifyRequestSignature(const vector<uint8_t>& data,
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const vector<uint8_t>& generated_signature,
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size_t core_message_length) override;
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// Verify the values of the core response.
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virtual void FillAndVerifyCoreRequest(
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const std::string& core_message_string) override;
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LicenseRoundTrip* license_messages_;
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int64_t seconds_since_license_received_;
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int64_t seconds_since_first_decrypt_;
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};
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class EntitledMessage {
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public:
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EntitledMessage(LicenseRoundTrip* license_messages)
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@@ -400,6 +400,17 @@ class OEMCryptoRefreshTest : public OEMCryptoLicenseTest {
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ASSERT_EQ(expected_result, renewal_messages->LoadResponse());
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}
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void MakeReleaseRequest(ReleaseRoundTrip* release_messages) {
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ASSERT_NO_FATAL_FAILURE(release_messages->SignAndVerifyRequest());
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ASSERT_NO_FATAL_FAILURE(release_messages->CreateDefaultResponse());
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}
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void LoadRelease(ReleaseRoundTrip* release_messages,
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OEMCryptoResult expected_result) {
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ASSERT_NO_FATAL_FAILURE(release_messages->EncryptAndSignResponse());
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ASSERT_EQ(expected_result, release_messages->LoadResponse());
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}
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ODK_TimerLimits timer_limits_;
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};
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@@ -651,6 +651,28 @@ TEST_P(OEMCryptoUsageTableTest, OfflineLicenseRefresh) {
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ASSERT_NO_FATAL_FAILURE(entry.GenerateVerifyReport(kActive));
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}
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// Test that an offline license can be loaded and that the license can be
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// released
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TEST_P(OEMCryptoUsageTableTest, OfflineLicenseReleaseAPI19) {
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// License release is new in OEMCrypto v19.
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if (wvoec::global_features.api_version < 19 || license_api_version_ < 19) {
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GTEST_SKIP() << "Test for versions 19 and up only.";
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}
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LicenseWithUsageEntry entry;
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entry.license_messages().set_api_version(license_api_version_);
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entry.MakeAndLoad(this, wvoec::kControlNonceOrEntry);
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Session& s = entry.session();
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ASSERT_NO_FATAL_FAILURE(entry.TestDecryptCTR());
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// License release message is signed by client and verified by the server.
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ReleaseRoundTrip release_messages(&entry.license_messages());
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MakeReleaseRequest(&release_messages);
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LoadRelease(&release_messages, OEMCrypto_SUCCESS);
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ASSERT_NO_FATAL_FAILURE(s.UpdateUsageEntry(&encrypted_usage_header_));
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ASSERT_NO_FATAL_FAILURE(
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entry.TestDecryptCTR(true, OEMCrypto_ERROR_UNKNOWN_FAILURE));
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}
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// Test that an offline license can be reloaded in a new session.
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TEST_P(OEMCryptoUsageTableTest, ReloadOfflineLicense) {
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LicenseWithUsageEntry entry;
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