// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. syntax = "proto2"; option optimize_for = LITE_RUNTIME; package enterprise_management; // Request from device to server to register device. message DeviceRegisterRequest { // Reregister device without erasing server state. It can be used // to refresh dmtoken etc. Client MUST set this value to true if it // reuses an existing device id. optional bool reregister = 1; // Device register type. This field does not exist for TT release. // When a client requests for policies, server should verify the // client has been registered properly. For example, a client must // register with type DEVICE in order to retrieve device policies. enum Type { TT = 0; // Register for TT release. USER = 1; // Register for Chrome OS user polices. DEVICE = 2; // Register for device policies. BROWSER = 3; // Register for Chrome user policies. ANDROID_BROWSER = 4; // Register for Android Chrome browser user policies. IOS_BROWSER = 5; // Register for iOS Chrome browser user policies. } // NOTE: we also use this field to detect client version. If this // field is missing, then the request comes from TT. We will remove // Chrome OS TT support once it is over. optional Type type = 2 [default = TT]; // Machine hardware id, such as serial number. // This field is required if register type == DEVICE. optional string machine_id = 3; // Machine model name, such as "ZGA", "Cr-48", "Nexus One". If the // model name is not available, client SHOULD send generic name like // "Android", or "Chrome OS". optional string machine_model = 4; // When true, indicates that the |machine_id| has been identified as auto- // enrollment candidate on the client and the server can use it to verify // that the client is to be enrolled in the correct mode. // Defaults to false when not present. optional bool auto_enrolled = 5; // Indicates a requisition of the registering entity that the server can act // upon. This allows clients to pass hints e.g. at device enrollment time // about the intended use of the device. optional string requisition = 6; // The current server-backed state key for the client, if applicable. This can // be used by the server to link the registration request to an existing // device record for re-enrollment. optional bytes server_backed_state_key = 7; } // Response from server to device register request. message DeviceRegisterResponse { // Device management token for this registration. This token MUST be // part of HTTP Authorization header for all future requests from // device to server. required string device_management_token = 1; // Device display name. By default, server generates the name in // the format of "Machine Model - Machine Id". However, domain // admin can update it using CPanel, so do NOT treat it as constant. optional string machine_name = 2; // Enum listing the possible modes the device should be locked into when the // registration is finished. enum DeviceMode { // In ENTERPRISE mode the device has no local owner and device settings are // controlled through the cloud policy infrastructure. Auto-enrollment is // supported in that mode. ENTERPRISE = 0; // Devices in RETAIL mode also have no local owner and get their device // settings from the cloud, but additionally this mode enables the demo // account on the device. RETAIL = 1; } optional DeviceMode enrollment_type = 3 [default = ENTERPRISE]; } // Request from device to server to unregister device. // GoogleDMToken MUST be in HTTP Authorization header. message DeviceUnregisterRequest { } // Response from server to device for unregister request. message DeviceUnregisterResponse { } // Request from device to server to upload device EMCert // (enterprise machine cert used for remote attestation). // GoogleDMToken MUST be in HTTP Authorization header. message DeviceCertUploadRequest { // EMCert in X.509 format. optional bytes device_certificate = 1; } // Response from server to device for cert upload request. message DeviceCertUploadResponse { } // Request to access a Google service with the given scope. message DeviceServiceApiAccessRequest { // The list of auth scopes the device requests from DMServer. repeated string auth_scope = 1; // OAuth2 client ID to which the returned authorization code is bound. optional string oauth2_client_id = 2; } message DeviceServiceApiAccessResponse { // The OAuth2 authorization code for the requested scope(s). // This can be exchanged for a refresh token. optional string auth_code = 1; } message PolicyFetchRequest { // This is the policy type, which maps to D3 policy type internally. // By convention, we use "/" as separator to create policy namespace. // The policy type names are case insensitive. // // Possible values for Chrome OS are: // google/chromeos/device => ChromeDeviceSettingsProto // google/chromeos/user => ChromeSettingsProto // google/chromeos/publicaccount => ChromeSettingsProto // google/chrome/extension => ExternalPolicyData // google/android/user => ChromeSettingsProto // google/ios/user => ChromeSettingsProto optional string policy_type = 1; // This is the last policy timestamp that client received from server. optional int64 timestamp = 2; // Tell server what kind of security signature is required. enum SignatureType { NONE = 0; SHA1_RSA = 1; } optional SignatureType signature_type = 3 [default = NONE]; // The version number of the public key that is currently stored // on the client. This should be the last number the server had // supplied as new_public_key_version in PolicyData. // This field is unspecified if the client does not yet have a // public key. optional int32 public_key_version = 4; // Machine hardware id, such as serial number. // This field is should be set only if the serial number for the device is // missing from the server, as indicated by the valid_serial_number_missing // field in the last policy fetch response. optional string machine_id = 5; // This field is used for devices to send the additional ID to fetch settings. // Retrieving some settings requires more than just device or user ID. // For example, to retrieve public account, devices need to pass in // public account ID in addition to device ID. To retrieve extension or // plug-in settings, devices need to pass in extension/plug-in ID in // addition to user ID. // policy_type represents the type of settings (e.g. public account, // extension) devices request to fetch. optional string settings_entity_id = 6; // If this fetch is due to a policy invalidation, this field contains the // version provided with the invalidation. The server interprets this value // and the value of invalidation_payload to fetch the up-to-date policy. optional int64 invalidation_version = 7; // If this fetch is due to a policy invalidation, this field contains the // payload delivered with the invalidation. The server interprets this value // and the value of invalidation_version to fetch the up-to-date policy. optional bytes invalidation_payload = 8; // Hash string for the chrome policy verification public key which is embedded // into Chrome binary. Matching private key will be used by the server // to sign per-domain policy keys during key rotation. If server does not // have the key which matches this hash string, that could indicate malicious // or out-of-date Chrome client. optional string verification_key_hash = 9; } // This message is included in serialized form in PolicyFetchResponse // below. It may also be signed, with the signature being created for // the serialized form. message PolicyData { // See PolicyFetchRequest.policy_type. optional string policy_type = 1; // [timestamp] is milliseconds since Epoch in UTC timezone. It is // included here so that the time at which the server issued this // response cannot be faked (as protection against replay attacks). // It is the timestamp generated by DMServer, NOT the time admin // last updated the policy or anything like that. optional int64 timestamp = 2; // The DM token that was used by the client in the HTTP POST header // for authenticating the request. It is included here again so that // the client can verify that the response is meant for him (and not // issued by a replay or man-in-the-middle attack). optional string request_token = 3; // The serialized value of the actual policy protobuf. This can be // deserialized to an instance of, for example, ChromeSettingsProto, // ChromeDeviceSettingsProto, or ExternalPolicyData. optional bytes policy_value = 4; // The device display name assigned by the server. It is only // filled if the display name is available. // // The display name of the machine as generated by the server or set // by the Administrator in the CPanel GUI. This is the same thing as // |machine_name| in DeviceRegisterResponse but it might have // changed since then. optional string machine_name = 5; // Version number of the server's current public key. (The key that // was used to sign this response. Numbering should start at 1 and be // increased by 1 at each key rotation.) optional int32 public_key_version = 6; // The user this policy is intended for. In case of device policy, the name // of the owner (who registered the device). optional string username = 7; // In this field the DMServer should echo back the "deviceid" HTTP parameter // from the request. optional string device_id = 8; // Indicates which state this association with DMServer is in. This can be // used to tell the client that it is not receiving policy even though the // registration with the server is kept active. enum AssociationState { // Association is active and policy is pushed. ACTIVE = 0; // Association is alive, but the corresponding domain is not managed. UNMANAGED = 1; // Client got dropped on the server side. DEPROVISIONED = 2; } optional AssociationState state = 9 [default = ACTIVE]; // Indicates if the the server cannot find a valid serial number for the // device. If this flag is set, the device should send the valid serial // number with a device policy fetch request. Note that this only // applies to device policy. optional bool valid_serial_number_missing = 10; // Indicates which public account or extension/plug-in this policy data is // for. See PolicyFetchRequest.settings_entity_id for more details. optional string settings_entity_id = 11; // Indicates the identity the device service account is associated with. // This is only sent as part of device policy fetch. optional string service_account_identity = 12; // The object source which hosts policy objects within the invalidation // service. This value is combined with invalidation_name to form the object // id used to register for invalidations to this policy. optional int32 invalidation_source = 13; // The name which uniquely identifies this policy within the invalidation // service object source. This value is combined with invalidation_source to // form the object id used to register for invalidations to this policy. optional bytes invalidation_name = 14; // Server-provided identifier of the fetched policy. This is to be used // by the client when requesting Policy Posture assertion through an API // call or SAML flow. optional string policy_token = 15; // Indicates the management mode of the device. Note that old policies do not // have this field. enum ManagementMode { // The device is not managed. The policies are set locally by the owner of // the device. NOT_MANAGED = 0; // The device is enterprise-managed. The policies come from the enterprise // server. ENTERPRISE_MANAGED = 1; // The device is consumer-managed. The policies currently can only be set // locally by the owner of the device. CONSUMER_MANAGED = 2; } optional ManagementMode management_mode = 16; } message PolicyFetchResponse { // Since a single policy request may ask for multiple policies, we // provide separate error code for each individual policy fetch. // We will use standard HTTP Status Code as error code. optional int32 error_code = 1; // Human readable error message for customer support purpose. optional string error_message = 2; // This is a serialized |PolicyData| protobuf (defined above). optional bytes policy_data = 3; // Signature of the policy data above. optional bytes policy_data_signature = 4; // If the public key has been rotated on the server, the new public // key is sent here. It is already used for |policy_data_signature| // above, whereas |new_public_key_signature| is created using the // old key (so the client can trust the new key). If this is the // first time when the client requests policies (so it doesn't have // on old public key), then |new_public_key_signature| is empty. optional bytes new_public_key = 5; optional bytes new_public_key_signature = 6; // If new_public_key is specified, this field contains a signature // of a PolicyPublicKeyAndDomain protobuf, signed using a key only // available to DMServer. The public key portion of this well-known key is // embedded into the Chrome binary. The hash of that embedded key is passed // to DMServer as verification_key_hash field in PolicyFetchRequest. DMServer // will pick a private key on the server which matches the hash (matches // public key on the client). If DMServer is unable to find matching key, it // will return an error instead of policy data. // In case hash was not specified, DMServer will leave verification signature // field empty (legacy behavior). // In addition to the checks between new_public_key // and new_public_key_signature described above, Chrome also verifies // new_public_key with the embedded public key and // new_public_key_verification_signature. optional bytes new_public_key_verification_signature = 7; } // Protobuf used to generate the new_public_key_verification_signature field. message PolicyPublicKeyAndDomain { // The public key to sign (taken from the |new_public_key| field in // PolicyFetchResponse). optional bytes new_public_key = 1; // The domain associated with this key (should match the domain portion of // the username field of the policy). optional string domain = 2; } // Request from device to server for reading policies. message DevicePolicyRequest { // The policy fetch request. If this field exists, the request must // comes from a non-TT client. The repeated field allows client to // request multiple policies for better performance. repeated PolicyFetchRequest request = 3; } // Response from server to device for reading policies. message DevicePolicyResponse { // The policy fetch response. repeated PolicyFetchResponse response = 3; } message TimePeriod { // [timestamp] is milli seconds since Epoch in UTC timezone. optional int64 start_timestamp = 1; optional int64 end_timestamp = 2; } message ActiveTimePeriod { optional TimePeriod time_period = 1; // The active duration during the above time period. // The unit is milli-second. optional int32 active_duration = 2; } // This captures launch events for one app/extension or other installments. message InstallableLaunch { optional string install_id = 1; // Time duration where this report covers. These are required // and the record will be ignored if not set. optional TimePeriod duration = 2; // Client will send at most 50 timestamps to DM. All the rest // launch activities will be summed into the total count. // We will distribute the count evenly among the time span when // doing time based aggregation. repeated int64 timestamp = 3; optional int64 total_count = 4; } // Used to report the device location. message DeviceLocation { enum ErrorCode { ERROR_CODE_NONE = 0; ERROR_CODE_POSITION_UNAVAILABLE = 1; } // Latitude in decimal degrees north (WGS84 coordinate frame). optional double latitude = 1; // Longitude in decimal degrees west (WGS84 coordinate frame). optional double longitude = 2; // Altitude in meters (above WGS84 datum). optional double altitude = 3; // Accuracy of horizontal position in meters. optional double accuracy = 4; // Accuracy of altitude in meters. optional double altitude_accuracy = 5; // Heading in decimal degrees clockwise from true north. optional double heading = 6; // Horizontal component of device velocity in meters per second. optional double speed = 7; // Time of position measurement in milisecons since Epoch in UTC time. optional int64 timestamp = 8; // Error code, see enum above. optional ErrorCode error_code = 9; // Human-readable error message. optional string error_message = 10; } // Details about a network interface. message NetworkInterface { // Indicates the type of network device. enum NetworkDeviceType { TYPE_ETHERNET = 0; TYPE_WIFI = 1; TYPE_WIMAX = 2; TYPE_BLUETOOTH = 3; TYPE_CELLULAR = 4; } // Network device type. optional NetworkDeviceType type = 1; // MAC address (if applicable) of the corresponding network device. This is // formatted as an ASCII string with 12 hex digits. Example: A0B1C2D3E4F5. optional string mac_address = 2; // MEID (if applicable) of the corresponding network device. Formatted as // ASCII string composed of 14 hex digits. Example: A10000009296F2. optional string meid = 3; // IMEI (if applicable) of the corresponding network device. 15-16 decimal // digits encoded as ASCII string. Example: 355402040158759. optional string imei = 4; } // Details about a device user. message DeviceUser { // Types of device users which can be reported. enum UserType { // A user managed by the same domain as the device. USER_TYPE_MANAGED = 0; // A user not managed by the same domain as the device. USER_TYPE_UNMANAGED = 1; } // The type of the user. required UserType type = 1; // Email address of the user. Present only if the user type is managed. optional string email = 2; } // Report device level status. message DeviceStatusReportRequest { // The OS version reported by the device is a platform version // e.g. 1435.0.2011_12_16_1635. optional string os_version = 1; optional string firmware_version = 2; // "Verified", "Dev". Same as verified mode. // If the mode is unknown, this field should not be set. optional string boot_mode = 3; // Device active times collection since last report rpc call. // No longer used -- use active_period instead. repeated TimePeriod active_time = 4 [deprecated = true]; // The browser version string as shown in the About dialog. // e.g. 17.0.963.18. optional string browser_version = 5; // A list of periods when the device was active, aggregated by day. repeated ActiveTimePeriod active_period = 6; // The device location. optional DeviceLocation device_location = 7; // List of network interfaces. repeated NetworkInterface network_interface = 8; // List of recent device users, in descending order by last login time. repeated DeviceUser user = 9; } // Report session (a user on one device) level status. message SessionStatusReportRequest { // Installed apps for this user on this device. repeated string installed_app_id = 1; // Installed extensions for this user on this device. repeated string installed_extension_id = 2; // One stat per app for top 30 apps. repeated InstallableLaunch app_launch_stat = 3; } // Response from DMServer to update devices' status. // It is possible that status report fails but policy request succeed. In such // case, the DeviceStatusReportResponse will contain an error code and the // device should re-send status report data in the next policy request. The // device should re-send report data if policy request fails, even if // DeviceStatusReportResponse contains no error code. message DeviceStatusReportResponse { optional int32 error_code = 1; // Human readable error message for customer support purpose. optional string error_message = 2; } // Response from DMServer to update user devices' status. // It is possible that status report fails but policy request succeed. In such // case, the SessionStatusReportResponse will contain an error code and the // device should re-send status report data in the next policy request. The // device should re-send report data if policy request fails, even if // SessionStatusReportResponse contains no error code. message SessionStatusReportResponse { optional int32 error_code = 1; // Human readable error message for customer support purpose. optional string error_message = 2; } // Request from device to server to determine whether the device should // go through enterprise enrollment. Unlike the other requests, this request is // not authenticated. message DeviceAutoEnrollmentRequest { // SHA-256 hash of the device's serial number, mod |modulus|. // Should always be present. optional int64 remainder = 1; // Modulus of the hash used by the client. Should always be present. This // is the number of buckets the client thinks the server has. For now, // it is a power of 2, but due to the strict constraint on how many serial // numbers a bucket can contain, it may become non power of 2. If that // happens, client-side needs to change its assumption. optional int64 modulus = 2; } // Response from server to auto-enrollment detection request. message DeviceAutoEnrollmentResponse { // If this field is present, the other fields are ignored and the client // should send a new DeviceAutoEnrollmentRequest with a new |remainder| // computed using this new |modulus|. If this field is empty, the client's // request was accepted. // DMServer guarantees that if the modulus sent by client in // DeviceAutoEnrollmentRequest matches server's expectation, this field // is unset. optional int64 expected_modulus = 1; // List of hashes in the client's hash bucket. If the client's hash matches // any in this list, the client device should do enterprise enrollment. // If it matches none, enrollment should be optional. // Each entry has exactly 256 bits (32 bytes). repeated bytes hash = 2; } // Sent by the client to the server. The device management server keeps a // mapping of device identifiers to device state. Devices query this table after // hard reset in order recover state. This request is keyed just by the opaque // server-backed state key; there is no further authentication. message DeviceStateRetrievalRequest { // Opaque, client-determined, unpredictable, stable and unique device // identifier to retrieve state for. This field contains 32 bytes of data that // looks essentially random to the server. It may be generated e.g. by running // a concatenation of suitable device identifiers through a cryptographic hash // algorithm such as SHA-256. optional bytes server_backed_state_key = 1; } // Sent by the client to the server when in registered state to update the // device-determined device state keys. message DeviceStateKeyUpdateRequest { // The client-determined state keys. To the server, these look like 32 bytes // of random data. The client should generate these keys using a deterministic // algorithm that takes stable device identifiers as an input and produces a // key as the output, possibly by running the identifiers through a // cryptographic hash function such as SHA-256. repeated bytes server_backed_state_key = 1; } // Server to client message carrying the device state response. Because the // request is not authenticated, the only protection against state extraction // from server is the unpredictability of the server-backed state ID. Thus, the // response should not contain any sensitive data. If the server doesn't know // the requested identifier, it just return a message with restore_mode set to // RESTORE_MODE_NONE. message DeviceStateRetrievalResponse { // Restorative action to take after device reset. enum RestoreMode { // No state restoration. RESTORE_MODE_NONE = 0; // Enterprise enrollment requested, but user may skip. RESTORE_MODE_REENROLLMENT_REQUESTED = 1; // Enterprise enrollment is enforced and cannot be skipped. RESTORE_MODE_REENROLLMENT_ENFORCED = 2; }; // The server-indicated restore mode. optional RestoreMode restore_mode = 1 [default = RESTORE_MODE_NONE]; // Primary domain the device is associated with. optional string management_domain = 2; } // Sent by the client to the server to pair the Host device with the Controller // device. The HTTP request contains an end-user OAuth token and only succeeds // if both Host and Controller devices belong to the end-user domain. message DevicePairingRequest { // The device ID of the Host device. optional string host_device_id = 1; // The device ID of the Controller device. optional string controller_device_id = 2; } // Response from the server to the device pairing request. message DevicePairingResponse { // The client should check HTTP status code first. If HTTP status code is not // 200 (e.g. 500 internal error), then it means the pairing fails. If HTTP // status code is 200, then the client should check the status code within the // response. enum StatusCode { SUCCESS = 0; // A generic failure code for pairing. FAILED = 1; // The Host device cannot be found in the user's domain. HOST_DEVICE_NOT_FOUND = 2; // The Controller device cannot be found in the user's domain. CONTROLLER_DEVICE_NOT_FOUND = 3; // The Host device is deprovisioned. HOST_DEVICE_DEPROVISIONED = 4; // The Controller device is deprovisioned. CONTROLLER_DEVICE_DEPROVISIONED = 5; } optional StatusCode status_code = 1 [default = FAILED]; } // Sent by the client to the server to check if the devices are paired. The HTTP // request contains controller service account OAuth token as well as the // DMToken from the Host device. message CheckDevicePairingRequest { // The device ID of the Host device. optional string host_device_id = 1; // The device ID of the Controller device. optional string controller_device_id = 2; } // Response from the server to the check device pairing request. message CheckDevicePairingResponse { // The client should check HTTP status code first. If HTTP status code is not // 200 (e.g. 500 internal error), then it means the pairing status is unknown. // If HTTP status code is 200, then the client should check the status code // within the response. enum StatusCode { PAIRED = 0; // The Host and Controller devices are not paired. NOT_PAIRED = 1; // The Host device cannot be found in the Host device domain. HOST_DEVICE_NOT_FOUND = 2; // The Controller device cannot be found in the Host device domain. CONTROLLER_DEVICE_NOT_FOUND = 3; // The Host device is deprovisioned. HOST_DEVICE_DEPROVISIONED = 4; // The Controller device is deprovisioned. CONTROLLER_DEVICE_DEPROVISIONED = 5; // Invalid controller identity. INVALID_CONTROLLER_DEVICE_IDENTITY = 6; } optional StatusCode status_code = 1 [default = NOT_PAIRED]; } // Request from the DMAgent on the device to the DMServer. This is // container for all requests from device to server. The overall HTTP // request MUST be in the following format: // // * HTTP method is POST // * Data mime type is application/x-protobuffer // * HTTP parameters are (all required, all case sensitive): // * request: MUST BE one of // * api_authorization // * cert_upload // * check_device_pairing // * device_pairing // * device_state_retrieval // * enterprise_check // * ping // * policy // * register // * status // * unregister // // * devicetype: MUST BE "1" for Android or "2" for Chrome OS. // * apptype: MUST BE Android or Chrome. // * deviceid: MUST BE no more than 64-char in [\x21-\x7E]. // * agent: MUST BE a string of characters. // * HTTP Authorization header MUST be in the following formats: // * For register and ping requests // Authorization: GoogleLogin auth= // // * For unregister, policy, status, and cert_upload requests // Authorization: GoogleDMToken token= // // * The Authorization header isn't used for enterprise_check // request, nor for register requests using OAuth. In the latter case, // the OAuth token is passed in the "oauth" parameter. // // DeviceManagementRequest should only contain one request which matches the // HTTP query parameter - request, as listed below. Other requests within the // container will be ignored. // cert_upload: cert_upload_request // check_device_pairing: check_device_pairing_request // device_pairing: device_pairing_request // device_state_retrieval: device_state_retrieval_request // enterprise_check: auto_enrollment_request // ping: policy_request // policy: policy_request // register: register_request // status: device_status_report_request or session_status_report_request // unregister: unregister_request // // message DeviceManagementRequest { // Register request. optional DeviceRegisterRequest register_request = 1; // Unregister request. optional DeviceUnregisterRequest unregister_request = 2; // Policy request. optional DevicePolicyRequest policy_request = 3; // Update status. optional DeviceStatusReportRequest device_status_report_request = 4; optional SessionStatusReportRequest session_status_report_request = 5; // Auto-enrollment detection. optional DeviceAutoEnrollmentRequest auto_enrollment_request = 6; // EMCert upload (for remote attestation) optional DeviceCertUploadRequest cert_upload_request = 7; // Request for OAuth2 authorization codes to access Google services. optional DeviceServiceApiAccessRequest service_api_access_request = 8; // Device-state retrieval. optional DeviceStateRetrievalRequest device_state_retrieval_request = 9; // Device state key update. optional DeviceStateKeyUpdateRequest device_state_key_update_request = 10; // Pair two devices. optional DevicePairingRequest device_pairing_request = 11; // Check if two devices are paired. optional CheckDevicePairingRequest check_device_pairing_request = 12; } // Response from server to device. // // The server uses the following numbers as HTTP status codes // to report top-level errors. // // 200 OK: valid response is returned to client. // 400 Bad Request: invalid argument. // 401 Unauthorized: invalid auth cookie or DM token. // 403 Forbidden: device management is not allowed. // 404 Not Found: the request URL is invalid. // 410 Device Not Found: the device id is not found. // 491 Request Pending: the request is pending approval. // 500 Internal Server Error: most likely a bug in DM server. // 503 Service Unavailable: most likely a backend error. // 901 Device Not Found: the device id is not found. // 902 Policy Not Found: the policy is not found. message DeviceManagementResponse { // Error message. optional string error_message = 2; // Register response optional DeviceRegisterResponse register_response = 3; // Unregister response optional DeviceUnregisterResponse unregister_response = 4; // Policy response. optional DevicePolicyResponse policy_response = 5; // Device status report response. optional DeviceStatusReportResponse device_status_report_response = 6; // Session status report response. optional SessionStatusReportResponse session_status_report_response = 7; // Auto-enrollment detection response. optional DeviceAutoEnrollmentResponse auto_enrollment_response = 8; // EMCert upload response. optional DeviceCertUploadResponse cert_upload_response = 9; // Response to OAuth2 authorization code request. optional DeviceServiceApiAccessResponse service_api_access_response = 10; // Device-state retrieval. optional DeviceStateRetrievalResponse device_state_retrieval_response = 11; // Response to device pairing request. optional DevicePairingResponse device_pairing_response = 12; // Response to check device pairing request. optional CheckDevicePairingResponse check_device_pairing_response = 13; }