blob: e13440867b8c4100f607c04a7d271cfa8a720807 [file] [log] [blame]
/// Fake cluster for defining structures for secure channel protocol
///
/// This follows the `4.10.1. Secure Channel Protocol Messages`
/// defined in the Matter specification.
///
/// This is NOT a real cluster.
///
/// Since this is a protocol decoder, the following CUSTOM (non-zap) types
/// Are used as markers for data:
///
/// Protocol decoding paths:
/// protocol_cluster_id
/// protocol_attribute_id
/// protocol_command_id
/// protocol_event_id
///
/// Payloads:
/// cluster_attribute_payload
/// cluster_command_payload
/// cluster_event_payload
///
/// Special types:
/// protocol_binary_data - structures without TLV encoded data
///
client cluster SecureChannelProtocol = 0xFFFF0000 {
struct ICDParameterStruct {
int32u sleepy_idle_interval = 1;
int32u sleepy_active_interval = 2;
}
struct PBKDFParamRequest {
octet_string<32> initiator_random = 1;
int16u initiator_session_id = 2;
int16u passcode_id = 3;
boolean has_pbkdf_parameters = 4;
optional ICDParameterStruct initiator_icd_params = 5;
}
struct CryptoPBKDFParameterSet {
int32u iterations = 1;
octet_string<32> salt = 2; // 16..32 in size
}
struct PBKDFParamResponse {
octet_string<32> initiator_random = 1;
octet_string<32> responder_random = 2;
int16u responder_session_id = 3;
CryptoPBKDFParameterSet pbkdf_parameters = 4;
optional IDCParameterStruct responder_icd_params = 5;
}
struct PasePake1 {
octet_string pA = 1;
}
struct PasePake2 {
octet_string pB = 1;
octet_string cB = 2;
}
struct PasePake3 {
octet_string cA = 1;
}
struct CaseSigma1 {
octet_string<32> initiator_random = 1;
int16u initiator_session_id = 2;
octet_string<32> destination_id = 3;
octet_string<65> initiator_eph_pub_key = 4;
optional ICDParameterStruct initiator_icd_params = 5;
optional octet_string<16> resumption_id = 6;
optional octet_string initiator_resume_mic = 7;
}
struct CaseSigma2 {
octet_string<32> responder_random = 1;
int16u responder_sessoion_id = 2;
octet_string<65> responder_eph_pub_key = 3;
octet_string encrypted2 = 4;
optional ICDParameterStruct responder_icd_params = 5;
}
struct CaseSigma3 {
octet_string encrypted = 1;
}
struct CaseSigma2Resume {
octet_string<16> resumption_id = 1;
octet_string<16> sigma2_resume_mic = 2;
int16u responder_sessoion_id = 3;
optional ICDParameterStruct responder_icd_params = 4;
}
// IDs here are based on Protocol opcodes
//
// Written here as "attributes" to force code generation
// to consider these active structures.
readonly attribute protocol_binary_data msg_counter_sync_request = 0x00;
readonly attribute protocol_binary_data msg_counter_sync_response = 0x01;
readonly attribute protocol_binary_data mrp_ack = 0x10;
readonly attribute PBKDFParamRequest pbkdf_param_request = 0x20;
readonly attribute PBKDFParamResponse pbkdf_param_response = 0x21;
readonly attribute PasePake1 pase_pake1 = 0x22;
readonly attribute PasePake2 pase_pake2 = 0x23;
readonly attribute PasePake3 pase_pake3 = 0x24;
readonly attribute CaseSigma1 case_sigma1 = 0x30;
readonly attribute CaseSigma2 case_sigma2 = 0x31;
readonly attribute CaseSigma3 case_sigma3 = 0x32;
readonly attribute CaseSigma2Resume case_sigma2_resume = 0x33;
readonly attribute protocol_binary_data status_report = 0x40;
readonly attribute protocol_binary_data icd_checkin = 0x50;
}
/// Fake cluster for defining structures for IM data encoding.
///
/// This follows the `10. Interaction Model Encoding Specification`
/// defined in the Matter specification.
///
/// This is NOT a real cluster.
///
client cluster IMProtocol = 0xFFFF0001 {
struct AttributePathIB {
boolean enable_tag_compression = 0;
optional int64u node_id = 1;
optional int16u endpoint_id = 2;
optional protocol_cluster_id cluster_id = 3;
optional protocol_attribute_id attribute_id = 4;
optional nullable int16u list_index = 5;
}
struct EventPathIB {
optional int64u node_id = 0;
optional int16u endpoint_id = 1;
optional protocol_cluster_id cluster_id = 2;
optional protocol_event_id event_id = 3;
boolean is_urgent = 4;
}
struct EventFilterIB {
optional int64u node_id = 0;
int64u event_min = 1;
}
struct ClusterPathIB {
optional int64u node_id = 0;
optional int16u endpoint_id = 1;
optional protocol_cluster_id cluster_id = 2;
}
struct DataVersionFilterIB {
ClusterPathIB path = 0;
int32u data_version = 1;
}
struct StatusResponseMessage {
int8u status = 0;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
struct ReadRequestMessage {
optional AttributePathIB attribute_requests[] = 0;
optional EventPathIB event_requests[] = 1;
optional EventFilterIB event_filters[] = 2;
optional boolean fabric_filtered = 3;
optional DataVersionFilterIB data_version_filters[] = 4;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
struct SubscribeRequestMessage {
boolean keep_subscriptions = 0;
int16u min_minterval_floor = 1;
int16u max_minterval_ceiling = 2;
optional AttributePathIB attribute_requests[] = 3;
optional EventPathIB event_requests[] = 4;
optional EventFilterIB event_filters[] = 5;
// NOTE: 6 is missing here ...
boolean fabric_filtered = 7;
optional DataVersionFilterIB data_version_filters[] = 8;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
struct SubscribeResponseMessage {
int32u subscription_id = 0;
// NOTE: 1 missing here
int16u max_interval = 2;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
enum StatusCodeEnum : ENUM8 {
kSuccess = 0x0;
kFailure = 0x01;
kInvalidSubscription = 0x7d;
kUnsupportedAccess = 0x7e;
kUnsupportedEndpoint = 0x7f;
kInvalidAction = 0x80;
kUnsupportedCommand = 0x81;
kInvalidCommand = 0x85;
kUnsupportedAttribute = 0x86;
kConstraintError = 0x87;
kUnsupportedWrite = 0x88;
kResourceExhausted = 0x89;
kNotFound = 0x8b;
kUnreportableAttribute = 0x8c;
kInvalidDataType = 0x8d;
kUnsupportedRead = 0x8f;
kDataVersionMismatch = 0x92;
kTimeout = 0x94;
kBusy = 0x9c;
kUnsupportedCluster = 0xc3;
kNoUpstreamSubscription = 0xc5;
kNeedsTimedInteraction = 0xc6;
kUnsupportedEvent = 0xc7;
kPathsExhausted = 0xc8;
kTimedRequestMismatch = 0xc9;
kFailsafeRequired = 0xca;
kInvalidInState = 0xcb;
kNoCommandResponse = 0xcc;
kWriteIgnored = 0xF0;
}
struct StatusIB {
StatusCodeEnum status = 0;
int8u cluster_status = 1;
}
struct AttributeStatus {
AttributePathIB path = 0;
StatusIB status = 1;
}
struct AttributeData {
optional int32u data_version = 0;
AttributePathIB path = 1;
cluster_attribute_payload data = 2;
}
struct AttributeReportIB {
AttributeStatus attribute_status = 0;
AttributeData attribute_data = 1;
}
struct EventStatusIB {
EventPathIB path = 0;
StatusIB status = 1;
}
struct EventDataIB {
EventPathIB path = 0;
int64u event_number = 1;
int8u priority = 2;
// oneof {
int64u epoch_timestamp = 3;
int64u system_timestamp = 4;
int64u delta_epoch_timestamp = 5;
int64u delta_system_timestamp = 6;
// }
cluster_event_payload data = 7;
}
struct EventReportIB {
EventStatusIB event_status = 0;
EventDataIB event_data = 1;
}
struct ReportDataMessage {
optional int32u subscription_id = 0;
optional AttributeReportIB attribute_reports[] = 1;
optional EventReportIB event_reports[] = 2;
optional boolean more_cunked_messages = 3;
optional boolean suppress_response = 4;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
struct AttributeDataIB {
int32u data_version = 0;
AttributePathIB path = 1;
cluster_attribute_payload data = 2;
}
struct WriteRequestMessage {
optional boolean suppres_response = 0;
boolean timed_request = 1;
AttributeDataIB write_requests[] = 2;
optional boolean more_chunked_messages = 3;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
struct AttributeStatusIB {
AttributePathIB path = 0;
StatusIB status = 1;
}
struct WriteResponseMessage {
AttributeStatusIB write_responses[] = 0;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
struct CommandPathIB {
optional int16u endpoint_id = 0;
optional protocol_cluster_id cluster_id = 1;
optional protocol_command_id command_id = 2;
}
struct CommandDataIB {
CommandPathIB path = 0;
cluster_command_payload data = 1;
}
struct InvokeRequestMessage {
boolean suppress_response = 0;
boolean timed_request = 1;
CommandDataIB invoke_requests[] = 2;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
struct CommandStatusIB {
CommandPathIB path = 0;
StatusIB status = 1;
}
struct InvokeResponseIB {
CommandDataIB command = 0;
CommandStatusIB status = 1;
}
struct InvokeResponseMessage {
boolean suppress_response = 0;
InvokeResponseIB invoke_responses[] = 1;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
struct TimedRequestMessage {
int16u timeout = 0;
// 10.2.2.2. Context Tag Encoded Action Information
int8u interaction_model_revison = 0xFF;
}
// IDs here are based on Protocol opcodes, defined
// in 10.2.1 in the matter spec.
//
// Written here as "attributes" to force code generation
// to consider these active structures.
readonly attribute StatusResponseMessage status_response = 1;
readonly attribute ReadRequestMessage read_request = 2;
readonly attribute SubscribeRequestMessage subscribe_request = 3;
readonly attribute SubscribeResponseMessage subscribe_response = 4;
readonly attribute ReportDataMessage report_data = 5;
readonly attribute WriteRequestMessage write_request = 6;
readonly attribute WriteResponseMessage write_response = 7;
readonly attribute InvokeRequestMessage invoke_request = 8;
readonly attribute InvokeResponseMessage invoke_response = 9;
readonly attribute TimedRequestMessage timed_request = 10;
}
client cluster BdxProtocol = 0xFFFF0002 {
// IDs here are based on Protocol opcodes, defined
// in 11.21.3.1 in the matter spec.
//
// Written here as "attributes" to force code generation
// to consider these active structures.
readonly attribute octet_string send_init = 1;
readonly attribute octet_string send_accept = 2;
readonly attribute octet_string receive_init = 4;
readonly attribute octet_string receive_accept = 5;
readonly attribute octet_string block_query = 0x10;
readonly attribute octet_string block = 0x11;
readonly attribute octet_string block_eof = 0x12;
readonly attribute octet_string block_ack = 0x13;
readonly attribute octet_string block_ack_eof = 0x14;
readonly attribute octet_string block_query_with_skip = 0x15;
}
client cluster UserDirectedCommissioningProtocol = 0xFFFF0003 {
struct IdentificationDeclarationStruct {
octet_string<8> instance_name = 1;
}
// IDs here are based on Protocol opcodes, defined
// in 5.3.2 in the matter spec.
//
// Written here as "attributes" to force code generation
// to consider these active structures.
readonly attribute IdentificationDeclarationStruct identification_declaration = 0;
}