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List AlarmsΒΆ

List alarms

URI Template

GET /api/archive/{instance}/alarms/{name**}
{instance}

Yamcs instance name

{name**}

Filter alarm instances on a specific alarm name (for example: parameter name)

Query Parameters

pos

The zero-based row number at which to start outputting results. Default: 0

limit

The maximum number of returned records per page. Choose this value too high and you risk hitting the maximum response size limit enforced by the server. Default: 100

start

Filter the lower bound of the alarm's trigger time. Specify a date string in ISO 8601 format. This bound is inclusive.

stop

Filter the upper bound of the alarm's trigger time. Specify a date string in ISO 8601 format. This bound is exclusive.

order

The order of the returned results. Can be either asc or desc. The sorting is always by trigger time (i.e. the generation time of the trigger value). Default: desc

next

Continuation token returned by a previous page response.

Response Type

interface ListAlarmsResponse {
  alarms: AlarmData[];

  // Token indicating the response is only partial. More results can then
  // be obtained by performing the same request (including all original
  // query parameters) and setting the ``next`` parameter to this token.
  continuationToken: string;
}

Related Types

// Summary of an alarm applicable for Parameter or Event (possibly
// other in the future) alarms.
// Contains detailed information on the value occurrence that initially
// triggered the alarm, the most severe value since it originally triggered,
// and the latest value at the time of your request.
interface AlarmData {
  type: AlarmType;
  triggerTime: string;  // RFC 3339 timestamp

  // For parameter alarms, this is the id of the parameters
  // For event alarms
  //   - the id.namespace is /yamcs/event/<EVENT_SOURCE>, unless
  //     EVENT_SOURCE starts with a "/" in which case the namespace
  //     is just the <EVENT_SOURCE>
  //   - the id.name is the <EVENT_TYPE>
  id: NamedObjectId;

  // Distinguisher between multiple alarms for the same id
  seqNum: number;
  severity: AlarmSeverity;

  // Number of times the object was in alarm state
  violations: number;

  // Number of samples received for the object
  count: number;
  acknowledgeInfo: AcknowledgeInfo;
  notificationType: AlarmNotificationType;

  // Additional detail in case the alarm is of type PARAMETER
  parameterDetail: ParameterAlarmData;

  // Additional detail in case the alarm is of type EVENT
  eventDetail: EventAlarmData;

  // Whether the alarm will stay triggered even when the process is OK
  latching: boolean;

  // if the process that generated the alarm is ok (i.e. parameter is within limits)
  processOK: boolean;

  // triggered is same with processOK except when the alarm is latching
  triggered: boolean;

  // if the operator has acknowledged the alarm
  acknowledged: boolean;

  // Details in case the alarm was shelved
  shelveInfo: ShelveInfo;
  clearInfo: ClearInfo;

  // Time when the alarm was last updated
  updateTime: string;  // RFC 3339 timestamp
}

// Used by external clients to identify an item in the Mission Database
// If namespace is set, then the name is that of an alias, rather than
// the qualified name.
interface NamedObjectId {
  name: string;
  namespace: string;
}

interface AcknowledgeInfo {
  acknowledgedBy: string;
  acknowledgeMessage: string;
  acknowledgeTime: string;  // RFC 3339 timestamp
}

interface ParameterAlarmData {
  triggerValue: ParameterValue;
  mostSevereValue: ParameterValue;
  currentValue: ParameterValue;
  parameter: ParameterInfo;
}

interface ParameterValue {

  // Parameter identifier
  id: NamedObjectId;

  // Raw value (uncalibrated)
  rawValue: Value;

  // Engineering value (calibrated)
  engValue: Value;

  // Time of Yamcs reception
  acquisitionTime: string;  // RFC 3339 timestamp

  // Time of generation (~ packet time)
  generationTime: string;  // RFC 3339 timestamp
  acquisitionStatus: AcquisitionStatus;

  // Deprecated: this field was originally introduced for compatibility
  // with Airbus CGS/CD-MCS system. It was redundant, because when false,
  // the acquisitionStatus is also set to INVALID.
  processingStatus: boolean;
  monitoringResult: MonitoringResult;
  rangeCondition: RangeCondition;

  // Context-dependent ranges
  alarmRange: AlarmRange[];

  // How long (in milliseconds) this parameter value is valid
  // Note that there is an option when subscribing to parameters to get
  // updated when the parameter values expire.
  expireMillis: string;  // String decimal

  // When transferring parameters over WebSocket, this value might be used
  // instead of the id above in order to reduce the bandwidth.
  // Note that the id <-> numericId assignment is only valid in the context
  // of a single WebSocket call.
  numericId: number;
}

// Union type for storing a value
interface Value {
  type: Type;
  floatValue: number;
  doubleValue: number;
  sint32Value: number;
  uint32Value: number;
  binaryValue: string;  // Base64
  stringValue: string;
  timestampValue: string;  // String decimal
  uint64Value: string;  // String decimal
  sint64Value: string;  // String decimal
  booleanValue: boolean;
  aggregateValue: AggregateValue;
  arrayValue: Value[];
}

// An aggregate value is an ordered list of (member name, member value).
// Two arrays are used in order to be able to send just the values (since
// the names will not change)
interface AggregateValue {
  name: string[];
  value: Value[];
}

interface AlarmRange {
  level: AlarmLevelType;
  minInclusive: number;
  maxInclusive: number;
  minExclusive: number;
  maxExclusive: number;
}

interface ParameterInfo {
  name: string;
  qualifiedName: string;
  shortDescription: string;
  longDescription: string;
  alias: NamedObjectId[];
  type: ParameterTypeInfo;
  dataSource: DataSourceType;
  usedBy: UsedByInfo;
  ancillaryData: {[key: string]: AncillaryDataInfo};

  // Operations that return aggregate members or array entries
  // may use this field to indicate the path within the parameter.
  path: string[];
}

interface ParameterTypeInfo {
  name: string;
  qualifiedName: string;
  shortDescription: string;
  longDescription: string;
  alias: NamedObjectId[];

  // Engineering type
  engType: string;
  dataEncoding: DataEncodingInfo;
  unitSet: UnitInfo[];

  // Default Alarm, effective when no contextual alarm takes precedence.
  defaultAlarm: AlarmInfo;
  enumValue: EnumValue[];
  absoluteTimeInfo: AbsoluteTimeInfo;

  // Contextual alarms
  contextAlarm: ContextAlarmInfo[];
  member: MemberInfo[];
  arrayInfo: ArrayInfo;
  ancillaryData: {[key: string]: AncillaryDataInfo};

  // Provides hints on how to format the engineering
  // value as a string.
  numberFormat: NumberFormatTypeInfo;

  // True if the engineering type supports signed representation.
  // (only used by integer parameter types)
  signed: boolean;

  // Hint about the range of allowed engineering values
  sizeInBits: number;

  // String representation of a boolean zero (only used by boolean types)
  zeroStringValue: string;

  // String representation of a boolean one (only used by boolean types)
  oneStringValue: string;

  // Which parameters this type is used by. This field is only
  // populated when requesting directly a single parameter type.
  usedBy: ParameterInfo[];
}

interface DataEncodingInfo {
  type: Type;
  littleEndian: boolean;
  sizeInBits: number;
  encoding: string;
  defaultCalibrator: CalibratorInfo;

  // Deprecated, use ``contextCalibrators`` instead
  contextCalibrator: ContextCalibratorInfo[];
  contextCalibrators: ContextCalibratorInfo[];
}

interface CalibratorInfo {
  polynomialCalibrator: PolynomialCalibratorInfo;
  splineCalibrator: SplineCalibratorInfo;
  javaExpressionCalibrator: JavaExpressionCalibratorInfo;
  type: Type;
}

interface PolynomialCalibratorInfo {

  // Deprecated, use ``coefficients`` instead
  coefficient: number[];
  coefficients: number[];
}

interface SplineCalibratorInfo {

  // Deprecated, use ``points`` instead
  point: SplinePointInfo[];
  points: SplinePointInfo[];
}

interface SplinePointInfo {
  raw: number;
  calibrated: number;
}

interface JavaExpressionCalibratorInfo {
  formula: string;
}

interface ContextCalibratorInfo {
  comparison: ComparisonInfo[];
  calibrator: CalibratorInfo;

  // This can be used in UpdateParameterRequest to pass a context
  // that is parsed on the server, according to the rules in the
  // excel spreadsheet. Either this or a comparison has to be
  // used (not both at the same time)
  context: string;
}

interface ComparisonInfo {
  parameter: ParameterInfo;
  operator: OperatorType;
  value: string;
  argument: ArgumentInfo;
}

interface ArgumentInfo {
  name: string;
  description: string;
  initialValue: string;
  type: ArgumentTypeInfo;
}

interface ArgumentTypeInfo {
  engType: string;
  dataEncoding: DataEncodingInfo;
  unitSet: UnitInfo[];

  // Enumeration states (only used by enumerated arguments)
  enumValue: EnumValue[];

  // Minimum value (only used by integer and float arguments)
  rangeMin: number;

  // Maximum value (only used by integer and float arguments)
  rangeMax: number;

  // Member information (only used by aggregate arguments)
  member: ArgumentMemberInfo[];

  // String representation of a boolean zero (only used by boolean arguments)
  zeroStringValue: string;

  // String representation of a boolean one (only used by boolean arguments)
  oneStringValue: string;

  // Minimum character count (only used by string arguments)
  minChars: number;

  // Maximum character count (only used by string arguments)
  maxChars: number;

  // True if the engineering type supports signed representation.
  // (only used by integer arguments)
  signed: boolean;

  // Minimum byte count (only used by binary arguments)
  minBytes: number;

  // Maximum character count (only used by binary arguments)
  maxBytes: number;

  // Length of each dimension (only used by array arguments)
  dimensions: ArgumentDimensionInfo[];

  // Type of array entries (only used by array arguments)
  elementType: ArgumentTypeInfo;

  // Name of the parameter type
  name: string;
}

interface UnitInfo {
  unit: string;
}

interface EnumValue {
  value: string;  // String decimal
  label: string;
  description: string;
}

interface ArgumentMemberInfo {
  name: string;
  shortDescription: string;
  longDescription: string;
  alias: NamedObjectId[];
  type: ArgumentTypeInfo;
  initialValue: string;
}

interface ArgumentDimensionInfo {

  // Use a fixed integer value. If set, no other options are applicable.
  // This value describes the length.
  fixedValue: string;  // String decimal

  // Use the value of the referenced parameter.
  // The value describes the zero-based ending index (length - 1)
  //
  // For a value ``v``, the dimension's length is determined
  // as: ``(v * slope) + intercept``.
  parameter: ParameterInfo;

  // Use the value of the referenced argument.
  // The value describes the zero-based ending index (length - 1)
  //
  // For a value ``v``, the dimension's length is determined
  // as: ``(v * slope) + intercept``.
  argument: string;

  // Scale the value obtained from a parameter or argument reference.
  slope: string;  // String decimal

  // Shift the value obtained from a parameter or argument reference.
  intercept: string;  // String decimal
}

interface AlarmInfo {
  minViolations: number;

  // Deprecated, use ``staticAlarmRanges`` instead
  staticAlarmRange: AlarmRange[];
  staticAlarmRanges: AlarmRange[];

  // Deprecated, use ``enumerationAlarms`` instead
  enumerationAlarm: EnumerationAlarm[];
  enumerationAlarms: EnumerationAlarm[];
}

interface EnumerationAlarm {
  level: AlarmLevelType;
  label: string;
}

interface AbsoluteTimeInfo {
  initialValue: string;
  scale: number;
  offset: number;
  offsetFrom: ParameterInfo;
  epoch: string;
}

interface ContextAlarmInfo {
  comparison: ComparisonInfo[];
  alarm: AlarmInfo;

  // This can be used in UpdateParameterRequest to pass a context
  // that is parsed on the server, according to the rules in the
  // excel spreadsheet. Either this or a comparison has to be
  // used (not both at the same time)
  context: string;
}

interface MemberInfo {
  name: string;
  shortDescription: string;
  longDescription: string;
  alias: NamedObjectId[];
  type: ParameterTypeInfo;
}

interface ArrayInfo {
  type: ParameterTypeInfo;
  dimensions: ParameterDimensionInfo[];
}

interface ParameterDimensionInfo {
  fixedValue: string;  // String decimal
  parameter: ParameterInfo;
  slope: string;  // String decimal
  intercept: string;  // String decimal
}

interface NumberFormatTypeInfo {
  numberBase: string;
  minimumFractionDigits: number;
  maximumFractionDigits: number;
  minimumIntegerDigits: number;
  maximumIntegerDigits: number;
  negativeSuffix: string;
  positiveSuffix: string;
  negativePrefix: string;
  positivePrefix: string;
  showThousandsGrouping: boolean;
  notation: string;
}

interface UsedByInfo {
  algorithm: AlgorithmInfo[];
  container: ContainerInfo[];
}

interface AlgorithmInfo {

  // Algorithm name
  name: string;
  qualifiedName: string;
  shortDescription: string;
  longDescription: string;
  alias: NamedObjectId[];
  scope: Scope;

  // Type of algorithm
  type: Type;

  // Language if this is a custom algorithm
  language: string;

  // Code if this is a custom algorithm
  text: string;
  inputParameter: InputParameterInfo[];
  outputParameter: OutputParameterInfo[];
  onParameterUpdate: ParameterInfo[];
  onPeriodicRate: string[];  // String decimal

  // Operands and operators in Reverse Polish Notation if type ``MATH``.
  mathElements: MathElement[];
}

interface InputParameterInfo {
  parameter: ParameterInfo;
  inputName: string;
  parameterInstance: number;
  mandatory: boolean;
  argument: ArgumentInfo;
}

interface OutputParameterInfo {
  parameter: ParameterInfo;
  outputName: string;
}

interface MathElement {

  // Type of element, either an operand kind or an operator.
  type: Type;

  // Operator symbol if type ``OPERATOR``.
  operator: string;

  // Constant if type ``VALUE_OPERAND``.
  value: number;

  // Parameter whose value is used if type ``PARAMETER``.
  parameter: ParameterInfo;

  // Parameter instance specifier
  parameterInstance: number;
}

interface ContainerInfo {
  name: string;
  qualifiedName: string;
  shortDescription: string;
  longDescription: string;
  alias: NamedObjectId[];
  maxInterval: string;  // String decimal
  sizeInBits: number;
  baseContainer: ContainerInfo;
  restrictionCriteria: ComparisonInfo[];
  restrictionCriteriaExpression: string;
  entry: SequenceEntryInfo[];
  usedBy: UsedByInfo;
  ancillaryData: {[key: string]: AncillaryDataInfo};
  archivePartition: boolean;
}

interface SequenceEntryInfo {
  locationInBits: number;
  referenceLocation: ReferenceLocationType;

  // For use in sequence containers
  container: ContainerInfo;
  parameter: ParameterInfo;

  // For use in command containers
  argument: ArgumentInfo;
  fixedValue: FixedValueInfo;
  repeat: RepeatInfo;
  indirectParameterRef: IndirectParameterRefInfo;
}

interface FixedValueInfo {
  name: string;
  hexValue: string;
  sizeInBits: number;
}

interface RepeatInfo {
  fixedCount: string;  // String decimal
  dynamicCount: ParameterInfo;
  bitsBetween: number;
}

interface IndirectParameterRefInfo {
  parameter: ParameterInfo;
  aliasNamespace: string;
}

interface EventAlarmData {
  triggerEvent: Event;
  mostSevereEvent: Event;
  currentEvent: Event;
}

interface Event {
  source: string;
  generationTime: string;  // RFC 3339 timestamp
  receptionTime: string;  // RFC 3339 timestamp
  seqNumber: number;
  type: string;
  message: string;
  severity: EventSeverity;

  // Set by API when event was posted by a user
  createdBy: string;

  // Additional properties
  extra: {[key: string]: string};
}

interface ShelveInfo {
  shelvedBy: string;
  shelveMessage: string;
  shelveTime: string;  // RFC 3339 timestamp

  //when the shelving will expire (can be unset which means that it will never expire)
  shelveExpiration: string;  // RFC 3339 timestamp
}

interface ClearInfo {
  clearedBy: string;
  clearTime: string;  // RFC 3339 timestamp

  //if the alarm has been manually cleared, this is the message provided by the operator
  clearMessage: string;
}

enum AlarmType {
  PARAMETER = "PARAMETER",
  EVENT = "EVENT",
}

enum AlarmSeverity {
  WATCH = "WATCH",
  WARNING = "WARNING",
  DISTRESS = "DISTRESS",
  CRITICAL = "CRITICAL",
  SEVERE = "SEVERE",
}

enum AlarmNotificationType {
  ACTIVE = "ACTIVE",
  TRIGGERED = "TRIGGERED",
  SEVERITY_INCREASED = "SEVERITY_INCREASED",
  VALUE_UPDATED = "VALUE_UPDATED",
  ACKNOWLEDGED = "ACKNOWLEDGED",
  CLEARED = "CLEARED",
  RTN = "RTN",
  SHELVED = "SHELVED",
  UNSHELVED = "UNSHELVED",
  RESET = "RESET",
}

enum Type {
  FLOAT = "FLOAT",
  DOUBLE = "DOUBLE",
  UINT32 = "UINT32",
  SINT32 = "SINT32",
  BINARY = "BINARY",
  STRING = "STRING",
  TIMESTAMP = "TIMESTAMP",
  UINT64 = "UINT64",
  SINT64 = "SINT64",
  BOOLEAN = "BOOLEAN",
  AGGREGATE = "AGGREGATE",
  ARRAY = "ARRAY",

  // Enumerated values have both an integer (sint64Value) and a string representation
  ENUMERATED = "ENUMERATED",
  NONE = "NONE",
}

enum AcquisitionStatus {

  // OK!
  ACQUIRED = "ACQUIRED",

  // No value received so far
  NOT_RECEIVED = "NOT_RECEIVED",

  // Some value has been received but is invalid
  INVALID = "INVALID",

  // The parameter is coming from a packet which has not since updated although it should have been
  EXPIRED = "EXPIRED",
}

enum MonitoringResult {
  DISABLED = "DISABLED",
  IN_LIMITS = "IN_LIMITS",
  WATCH = "WATCH",
  WARNING = "WARNING",
  DISTRESS = "DISTRESS",
  CRITICAL = "CRITICAL",
  SEVERE = "SEVERE",
}

enum RangeCondition {
  LOW = "LOW",
  HIGH = "HIGH",
}

enum AlarmLevelType {
  NORMAL = "NORMAL",
  WATCH = "WATCH",
  WARNING = "WARNING",
  DISTRESS = "DISTRESS",
  CRITICAL = "CRITICAL",
  SEVERE = "SEVERE",
}

enum Type {
  BINARY = "BINARY",
  BOOLEAN = "BOOLEAN",
  FLOAT = "FLOAT",
  INTEGER = "INTEGER",
  STRING = "STRING",
}

enum Type {
  POLYNOMIAL = "POLYNOMIAL",
  SPLINE = "SPLINE",
  MATH_OPERATION = "MATH_OPERATION",
  JAVA_EXPRESSION = "JAVA_EXPRESSION",
}

enum OperatorType {
  EQUAL_TO = "EQUAL_TO",
  NOT_EQUAL_TO = "NOT_EQUAL_TO",
  GREATER_THAN = "GREATER_THAN",
  GREATER_THAN_OR_EQUAL_TO = "GREATER_THAN_OR_EQUAL_TO",
  SMALLER_THAN = "SMALLER_THAN",
  SMALLER_THAN_OR_EQUAL_TO = "SMALLER_THAN_OR_EQUAL_TO",
}

enum AlarmLevelType {
  NORMAL = "NORMAL",
  WATCH = "WATCH",
  WARNING = "WARNING",
  DISTRESS = "DISTRESS",
  CRITICAL = "CRITICAL",
  SEVERE = "SEVERE",
}

enum DataSourceType {
  TELEMETERED = "TELEMETERED",
  DERIVED = "DERIVED",
  CONSTANT = "CONSTANT",
  LOCAL = "LOCAL",
  SYSTEM = "SYSTEM",
  COMMAND = "COMMAND",
  COMMAND_HISTORY = "COMMAND_HISTORY",
  EXTERNAL1 = "EXTERNAL1",
  EXTERNAL2 = "EXTERNAL2",
  EXTERNAL3 = "EXTERNAL3",
  GROUND = "GROUND",
}

enum Scope {
  GLOBAL = "GLOBAL",
  COMMAND_VERIFICATION = "COMMAND_VERIFICATION",
  CONTAINER_PROCESSING = "CONTAINER_PROCESSING",
}

enum Type {
  CUSTOM = "CUSTOM",
  MATH = "MATH",
}

enum Type {
  VALUE_OPERAND = "VALUE_OPERAND",
  THIS_PARAMETER_OPERAND = "THIS_PARAMETER_OPERAND",
  OPERATOR = "OPERATOR",
  PARAMETER = "PARAMETER",
}

enum ReferenceLocationType {
  CONTAINER_START = "CONTAINER_START",
  PREVIOUS_ENTRY = "PREVIOUS_ENTRY",
}

enum EventSeverity {
  INFO = "INFO",
  WARNING = "WARNING",

  // Legacy, avoid use.
  ERROR = "ERROR",
  WATCH = "WATCH",

  // Placeholder for future WARNING constant.
  // (correctly sorted between WATCH and DISTRESS)
  //
  // Most clients can ignore, this state is here
  // to give Protobuf clients (Python Client, Yamcs Studio)
  // the time to add a migration for supporting both WARNING
  // and WARNING_NEW (Protobuf serializes the number).
  //
  // Then in a later phase, we move from:
  // WARNING=1, WARNING_NEW=4
  //
  // To:
  // WARNING_OLD=1, WARNING=4
  //
  // (which is a transparent change to JSON clients)
  WARNING_NEW = "WARNING_NEW",
  DISTRESS = "DISTRESS",
  CRITICAL = "CRITICAL",
  SEVERE = "SEVERE",
}