Fix Android ChipCluster subscribe issue (#33192)
diff --git a/scripts/py_matter_idl/matter_idl/generators/java/ChipClusters_java.jinja b/scripts/py_matter_idl/matter_idl/generators/java/ChipClusters_java.jinja
index fb49e57..b391d09 100644
--- a/scripts/py_matter_idl/matter_idl/generators/java/ChipClusters_java.jinja
+++ b/scripts/py_matter_idl/matter_idl/generators/java/ChipClusters_java.jinja
@@ -217,7 +217,7 @@
long attributeId,
int minInterval,
int maxInterval) {
- ReportCallbackJni jniCallback = new ReportCallbackJni(callback, callback, null);
+ ReportCallbackJni jniCallback = new ReportCallbackJni(callback, callback, callback);
ChipAttributePath path = ChipAttributePath.newInstance(endpointId, clusterId, attributeId);
ChipInteractionClient.subscribe(0, jniCallback.getCallbackHandle(), devicePtr, Arrays.asList(path), null, null, minInterval, maxInterval, false, true, timeoutMillis.orElse(0L).intValue(), null);
}
@@ -250,7 +250,7 @@
}
}
- abstract static class ReportCallbackImpl implements ReportCallback, SubscriptionEstablishedCallback {
+ abstract static class ReportCallbackImpl implements ReportCallback, SubscriptionEstablishedCallback, ResubscriptionAttemptCallback {
private BaseAttributeCallback callback;
private ChipAttributePath path;
@@ -308,6 +308,9 @@
callback.onSubscriptionEstablished(subscriptionId);
}
+ @Override
+ public void onResubscriptionAttempt(long terminationCause, long nextResubscribeIntervalMsec) {}
+
public abstract void onSuccess(byte[] tlv);
}
@@ -551,6 +554,7 @@
public void onSuccess(byte[] tlv) {
{%- set encodable = attribute.definition | asEncodable(typeLookup) %}
{{encode_value_without_optional(cluster, encodable, 0)}} value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, {{attribute.definition.name | constcase}}_ATTRIBUTE_ID, minInterval, maxInterval);
}
diff --git a/scripts/py_matter_idl/matter_idl/tests/outputs/several_clusters/java/ChipClusters.java b/scripts/py_matter_idl/matter_idl/tests/outputs/several_clusters/java/ChipClusters.java
index 836940a..b574271 100644
--- a/scripts/py_matter_idl/matter_idl/tests/outputs/several_clusters/java/ChipClusters.java
+++ b/scripts/py_matter_idl/matter_idl/tests/outputs/several_clusters/java/ChipClusters.java
@@ -140,7 +140,7 @@
long attributeId,
int minInterval,
int maxInterval) {
- ReportCallbackJni jniCallback = new ReportCallbackJni(callback, callback, null);
+ ReportCallbackJni jniCallback = new ReportCallbackJni(callback, callback, callback);
ChipAttributePath path = ChipAttributePath.newInstance(endpointId, clusterId, attributeId);
ChipInteractionClient.subscribe(0, jniCallback.getCallbackHandle(), devicePtr, Arrays.asList(path), null, null, minInterval, maxInterval, false, true, timeoutMillis.orElse(0L).intValue(), null);
}
@@ -173,7 +173,7 @@
}
}
- abstract static class ReportCallbackImpl implements ReportCallback, SubscriptionEstablishedCallback {
+ abstract static class ReportCallbackImpl implements ReportCallback, SubscriptionEstablishedCallback, ResubscriptionAttemptCallback {
private BaseAttributeCallback callback;
private ChipAttributePath path;
@@ -231,6 +231,9 @@
callback.onSubscriptionEstablished(subscriptionId);
}
+ @Override
+ public void onResubscriptionAttempt(long terminationCause, long nextResubscribeIntervalMsec) {}
+
public abstract void onSuccess(byte[] tlv);
}
@@ -334,6 +337,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOME_INTEGER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -385,6 +389,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.SecondClusterFabricDescriptorStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FABRICS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -410,6 +415,7 @@
@Override
public void onSuccess(byte[] tlv) {
byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOME_BYTES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -461,6 +467,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOME_ENUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -495,6 +502,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPTIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
diff --git a/src/controller/java/generated/java/chip/devicecontroller/ChipClusters.java b/src/controller/java/generated/java/chip/devicecontroller/ChipClusters.java
index 66ae0a9..0844ffe 100644
--- a/src/controller/java/generated/java/chip/devicecontroller/ChipClusters.java
+++ b/src/controller/java/generated/java/chip/devicecontroller/ChipClusters.java
@@ -140,7 +140,7 @@
long attributeId,
int minInterval,
int maxInterval) {
- ReportCallbackJni jniCallback = new ReportCallbackJni(callback, callback, null);
+ ReportCallbackJni jniCallback = new ReportCallbackJni(callback, callback, callback);
ChipAttributePath path = ChipAttributePath.newInstance(endpointId, clusterId, attributeId);
ChipInteractionClient.subscribe(0, jniCallback.getCallbackHandle(), devicePtr, Arrays.asList(path), null, null, minInterval, maxInterval, false, true, timeoutMillis.orElse(0L).intValue(), null);
}
@@ -173,7 +173,7 @@
}
}
- abstract static class ReportCallbackImpl implements ReportCallback, SubscriptionEstablishedCallback {
+ abstract static class ReportCallbackImpl implements ReportCallback, SubscriptionEstablishedCallback, ResubscriptionAttemptCallback {
private BaseAttributeCallback callback;
private ChipAttributePath path;
@@ -231,6 +231,9 @@
callback.onSubscriptionEstablished(subscriptionId);
}
+ @Override
+ public void onResubscriptionAttempt(long terminationCause, long nextResubscribeIntervalMsec) {}
+
public abstract void onSuccess(byte[] tlv);
}
@@ -401,6 +404,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, IDENTIFY_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -426,6 +430,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, IDENTIFY_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -451,6 +456,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -476,6 +482,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -501,6 +508,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -526,6 +534,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -551,6 +560,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -576,6 +586,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -854,6 +865,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NAME_SUPPORT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -879,6 +891,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -904,6 +917,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -929,6 +943,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -954,6 +969,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -979,6 +995,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1004,6 +1021,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1191,6 +1209,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_OFF_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1216,6 +1235,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GLOBAL_SCENE_CONTROL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1250,6 +1270,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1284,6 +1305,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OFF_WAIT_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1318,6 +1340,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_ON_OFF_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1343,6 +1366,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1368,6 +1392,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1393,6 +1418,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1418,6 +1444,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1443,6 +1470,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1468,6 +1496,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1532,6 +1561,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SWITCH_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1566,6 +1596,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SWITCH_ACTIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1591,6 +1622,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1616,6 +1648,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1641,6 +1674,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1666,6 +1700,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1691,6 +1726,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -1716,6 +1752,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2084,6 +2121,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2109,6 +2147,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REMAINING_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2134,6 +2173,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2159,6 +2199,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2184,6 +2225,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_FREQUENCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2209,6 +2251,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_FREQUENCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2234,6 +2277,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_FREQUENCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2268,6 +2312,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPTIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2302,6 +2347,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_OFF_TRANSITION_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2336,6 +2382,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2370,6 +2417,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_TRANSITION_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2404,6 +2452,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OFF_TRANSITION_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2438,6 +2487,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_MOVE_RATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2472,6 +2522,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_CURRENT_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2497,6 +2548,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2522,6 +2574,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2547,6 +2600,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2572,6 +2626,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2597,6 +2652,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2622,6 +2678,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2702,6 +2759,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_TEXT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2736,6 +2794,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DESCRIPTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2770,6 +2829,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INACTIVE_TEXT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2804,6 +2864,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OUT_OF_SERVICE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2829,6 +2890,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POLARITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2863,6 +2925,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRESENT_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2897,6 +2960,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RELIABILITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2922,6 +2986,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STATUS_FLAGS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2947,6 +3012,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPLICATION_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2972,6 +3038,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -2997,6 +3064,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3022,6 +3090,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3047,6 +3116,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3072,6 +3142,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3097,6 +3168,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3159,6 +3231,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3184,6 +3257,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3209,6 +3283,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3234,6 +3309,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3259,6 +3335,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3284,6 +3361,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3371,6 +3449,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.DescriptorClusterDeviceTypeStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEVICE_TYPE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3396,6 +3475,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SERVER_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3421,6 +3501,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLIENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3446,6 +3527,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PARTS_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3471,6 +3553,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.DescriptorClusterSemanticTagStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TAG_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3496,6 +3579,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3521,6 +3605,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3546,6 +3631,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3571,6 +3657,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3596,6 +3683,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3621,6 +3709,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3702,6 +3791,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.BindingClusterTargetStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BINDING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3727,6 +3817,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3752,6 +3843,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3777,6 +3869,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3802,6 +3895,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3827,6 +3921,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3852,6 +3947,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3941,6 +4037,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.AccessControlClusterAccessControlEntryStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -3980,6 +4077,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.AccessControlClusterAccessControlExtensionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EXTENSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4005,6 +4103,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUBJECTS_PER_ACCESS_CONTROL_ENTRY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4030,6 +4129,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TARGETS_PER_ACCESS_CONTROL_ENTRY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4055,6 +4155,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCESS_CONTROL_ENTRIES_PER_FABRIC_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4080,6 +4181,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4105,6 +4207,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4130,6 +4233,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4155,6 +4259,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4180,6 +4285,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4205,6 +4311,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4586,6 +4693,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ActionsClusterActionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTION_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4611,6 +4719,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ActionsClusterEndpointListStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENDPOINT_LISTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4636,6 +4745,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SETUP_U_R_L_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4661,6 +4771,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4686,6 +4797,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4711,6 +4823,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4736,6 +4849,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4761,6 +4875,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4786,6 +4901,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4895,6 +5011,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DATA_MODEL_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4920,6 +5037,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VENDOR_NAME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4945,6 +5063,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VENDOR_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4970,6 +5089,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_NAME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -4995,6 +5115,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5029,6 +5150,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NODE_LABEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5063,6 +5185,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5088,6 +5211,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HARDWARE_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5113,6 +5237,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HARDWARE_VERSION_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5138,6 +5263,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOFTWARE_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5163,6 +5289,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOFTWARE_VERSION_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5188,6 +5315,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MANUFACTURING_DATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5213,6 +5341,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PART_NUMBER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5238,6 +5367,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_U_R_L_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5263,6 +5393,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_LABEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5288,6 +5419,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SERIAL_NUMBER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5322,6 +5454,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCAL_CONFIG_DISABLED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5347,6 +5480,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACHABLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5372,6 +5506,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNIQUE_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5397,6 +5532,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.BasicInformationClusterCapabilityMinimaStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CAPABILITY_MINIMA_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5422,6 +5558,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.BasicInformationClusterProductAppearanceStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_APPEARANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5447,6 +5584,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SPECIFICATION_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5472,6 +5610,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_PATHS_PER_INVOKE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5497,6 +5636,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5522,6 +5662,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5547,6 +5688,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5572,6 +5714,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5597,6 +5740,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5622,6 +5766,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5864,6 +6009,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5889,6 +6035,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5914,6 +6061,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5939,6 +6087,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5964,6 +6113,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -5989,6 +6139,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6113,6 +6264,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.OtaSoftwareUpdateRequestorClusterProviderLocation> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_O_T_A_PROVIDERS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6138,6 +6290,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UPDATE_POSSIBLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6163,6 +6316,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UPDATE_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6188,6 +6342,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UPDATE_STATE_PROGRESS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6213,6 +6368,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6238,6 +6394,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6263,6 +6420,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6288,6 +6446,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6313,6 +6472,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6338,6 +6498,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6415,6 +6576,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_LOCALE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6440,6 +6602,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<String> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_LOCALES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6465,6 +6628,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6490,6 +6654,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6515,6 +6680,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6540,6 +6706,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6565,6 +6732,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6590,6 +6758,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6668,6 +6837,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HOUR_FORMAT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6702,6 +6872,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_CALENDAR_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6727,6 +6898,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_CALENDAR_TYPES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6752,6 +6924,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6777,6 +6950,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6802,6 +6976,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6827,6 +7002,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6852,6 +7028,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6877,6 +7054,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6949,6 +7127,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TEMPERATURE_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6974,6 +7153,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -6999,6 +7179,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7024,6 +7205,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7049,6 +7231,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7074,6 +7257,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7099,6 +7283,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7166,6 +7351,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOURCES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7191,6 +7377,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7216,6 +7403,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7241,6 +7429,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7266,6 +7455,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7291,6 +7481,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7316,6 +7507,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7458,6 +7650,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7483,6 +7676,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ORDER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7508,6 +7702,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DESCRIPTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7533,6 +7728,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIRED_ASSESSED_INPUT_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7558,6 +7754,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIRED_ASSESSED_INPUT_FREQUENCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7583,6 +7780,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIRED_CURRENT_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7608,6 +7806,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIRED_ASSESSED_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7633,6 +7832,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIRED_NOMINAL_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7658,6 +7858,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIRED_MAXIMUM_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7683,6 +7884,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIRED_PRESENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7708,6 +7910,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_WIRED_FAULTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7733,6 +7936,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7758,6 +7962,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_PERCENT_REMAINING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7783,6 +7988,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_TIME_REMAINING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7808,6 +8014,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_CHARGE_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7833,6 +8040,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_REPLACEMENT_NEEDED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7858,6 +8066,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_REPLACEABILITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7883,6 +8092,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_PRESENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7908,6 +8118,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_BAT_FAULTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7933,6 +8144,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_REPLACEMENT_DESCRIPTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7958,6 +8170,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_COMMON_DESIGNATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -7983,6 +8196,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_A_N_S_I_DESIGNATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8008,6 +8222,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_I_E_C_DESIGNATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8033,6 +8248,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_APPROVED_CHEMISTRY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8058,6 +8274,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_CAPACITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8083,6 +8300,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_QUANTITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8108,6 +8326,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_CHARGE_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8133,6 +8352,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_TIME_TO_FULL_CHARGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8158,6 +8378,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_FUNCTIONAL_WHILE_CHARGING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8183,6 +8404,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BAT_CHARGING_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8208,6 +8430,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_BAT_CHARGE_FAULTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8233,6 +8456,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENDPOINT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8258,6 +8482,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8283,6 +8508,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8308,6 +8534,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8333,6 +8560,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8358,6 +8586,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8383,6 +8612,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8594,6 +8824,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BREADCRUMB_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8619,6 +8850,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.GeneralCommissioningClusterBasicCommissioningInfo value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BASIC_COMMISSIONING_INFO_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8644,6 +8876,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REGULATORY_CONFIG_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8669,6 +8902,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCATION_CAPABILITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8694,6 +8928,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTS_CONCURRENT_CONNECTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8719,6 +8954,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8744,6 +8980,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8769,6 +9006,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8794,6 +9032,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8819,6 +9058,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -8844,6 +9084,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9365,6 +9606,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_NETWORKS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9390,6 +9632,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.NetworkCommissioningClusterNetworkInfoStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NETWORKS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9415,6 +9658,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCAN_MAX_TIME_SECONDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9440,6 +9684,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CONNECT_MAX_TIME_SECONDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9474,6 +9719,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INTERFACE_ENABLED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9499,6 +9745,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAST_NETWORKING_STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9524,6 +9771,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAST_NETWORK_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9549,6 +9797,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAST_CONNECT_ERROR_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9574,6 +9823,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_WI_FI_BANDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9599,6 +9849,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_THREAD_FEATURES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9624,6 +9875,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, THREAD_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9649,6 +9901,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9674,6 +9927,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9699,6 +9953,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9724,6 +9979,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9749,6 +10005,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9774,6 +10031,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9899,6 +10157,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9924,6 +10183,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9949,6 +10209,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9974,6 +10235,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -9999,6 +10261,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10024,6 +10287,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10214,6 +10478,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.GeneralDiagnosticsClusterNetworkInterface> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NETWORK_INTERFACES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10239,6 +10504,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REBOOT_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10264,6 +10530,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UP_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10289,6 +10556,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOTAL_OPERATIONAL_HOURS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10314,6 +10582,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BOOT_REASON_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10339,6 +10608,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_HARDWARE_FAULTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10364,6 +10634,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_RADIO_FAULTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10389,6 +10660,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_NETWORK_FAULTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10414,6 +10686,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TEST_EVENT_TRIGGERS_ENABLED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10439,6 +10712,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10464,6 +10738,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10489,6 +10764,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10514,6 +10790,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10539,6 +10816,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10564,6 +10842,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10650,6 +10929,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.SoftwareDiagnosticsClusterThreadMetricsStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, THREAD_METRICS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10675,6 +10955,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_HEAP_FREE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10700,6 +10981,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_HEAP_USED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10725,6 +11007,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_HEAP_HIGH_WATERMARK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10750,6 +11033,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10775,6 +11059,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10800,6 +11085,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10825,6 +11111,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10850,6 +11137,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -10875,6 +11163,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11096,6 +11385,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHANNEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11121,6 +11411,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ROUTING_ROLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11146,6 +11437,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NETWORK_NAME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11171,6 +11463,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PAN_ID_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11196,6 +11489,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EXTENDED_PAN_ID_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11221,6 +11515,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MESH_LOCAL_PREFIX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11246,6 +11541,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OVERRUN_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11271,6 +11567,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ThreadNetworkDiagnosticsClusterNeighborTableStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NEIGHBOR_TABLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11296,6 +11593,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ThreadNetworkDiagnosticsClusterRouteTableStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ROUTE_TABLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11321,6 +11619,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PARTITION_ID_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11346,6 +11645,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WEIGHTING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11371,6 +11671,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DATA_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11396,6 +11697,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STABLE_DATA_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11421,6 +11723,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEADER_ROUTER_ID_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11446,6 +11749,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DETACHED_ROLE_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11471,6 +11775,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHILD_ROLE_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11496,6 +11801,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ROUTER_ROLE_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11521,6 +11827,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEADER_ROLE_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11546,6 +11853,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTACH_ATTEMPT_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11571,6 +11879,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PARTITION_ID_CHANGE_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11596,6 +11905,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BETTER_PARTITION_ATTACH_ATTEMPT_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11621,6 +11931,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PARENT_CHANGE_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11646,6 +11957,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_TOTAL_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11671,6 +11983,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_UNICAST_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11696,6 +12009,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_BROADCAST_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11721,6 +12035,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_ACK_REQUESTED_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11746,6 +12061,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_ACKED_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11771,6 +12087,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_NO_ACK_REQUESTED_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11796,6 +12113,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_DATA_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11821,6 +12139,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_DATA_POLL_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11846,6 +12165,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_BEACON_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11871,6 +12191,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_BEACON_REQUEST_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11896,6 +12217,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_OTHER_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11921,6 +12243,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_RETRY_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11946,6 +12269,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_DIRECT_MAX_RETRY_EXPIRY_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11971,6 +12295,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_INDIRECT_MAX_RETRY_EXPIRY_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -11996,6 +12321,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_ERR_CCA_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12021,6 +12347,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_ERR_ABORT_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12046,6 +12373,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_ERR_BUSY_CHANNEL_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12071,6 +12399,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_TOTAL_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12096,6 +12425,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_UNICAST_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12121,6 +12451,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_BROADCAST_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12146,6 +12477,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_DATA_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12171,6 +12503,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_DATA_POLL_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12196,6 +12529,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_BEACON_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12221,6 +12555,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_BEACON_REQUEST_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12246,6 +12581,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_OTHER_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12271,6 +12607,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_ADDRESS_FILTERED_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12296,6 +12633,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_DEST_ADDR_FILTERED_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12321,6 +12659,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_DUPLICATED_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12346,6 +12685,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_ERR_NO_FRAME_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12371,6 +12711,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_ERR_UNKNOWN_NEIGHBOR_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12396,6 +12737,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_ERR_INVALID_SRC_ADDR_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12421,6 +12763,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_ERR_SEC_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12446,6 +12789,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_ERR_FCS_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12471,6 +12815,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RX_ERR_OTHER_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12496,6 +12841,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_TIMESTAMP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12521,6 +12867,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PENDING_TIMESTAMP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12546,6 +12893,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DELAY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12571,6 +12919,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ThreadNetworkDiagnosticsClusterSecurityPolicy value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SECURITY_POLICY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12596,6 +12945,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHANNEL_PAGE0_MASK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12621,6 +12971,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ThreadNetworkDiagnosticsClusterOperationalDatasetComponents value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_DATASET_COMPONENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12646,6 +12997,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_NETWORK_FAULTS_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12671,6 +13023,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12696,6 +13049,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12721,6 +13075,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12746,6 +13101,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12771,6 +13127,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12796,6 +13153,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12939,6 +13297,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BSSID_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12964,6 +13323,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SECURITY_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -12989,6 +13349,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WI_FI_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13014,6 +13375,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHANNEL_NUMBER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13039,6 +13401,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RSSI_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13064,6 +13427,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BEACON_LOST_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13089,6 +13453,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BEACON_RX_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13114,6 +13479,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PACKET_MULTICAST_RX_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13139,6 +13505,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PACKET_MULTICAST_TX_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13164,6 +13531,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PACKET_UNICAST_RX_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13189,6 +13557,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PACKET_UNICAST_TX_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13214,6 +13583,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MAX_RATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13239,6 +13609,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OVERRUN_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13264,6 +13635,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13289,6 +13661,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13314,6 +13687,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13339,6 +13713,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13364,6 +13739,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13389,6 +13765,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13488,6 +13865,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, P_H_Y_RATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13513,6 +13891,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FULL_DUPLEX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13538,6 +13917,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PACKET_RX_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13563,6 +13943,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PACKET_TX_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13588,6 +13969,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TX_ERR_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13613,6 +13995,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLLISION_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13638,6 +14021,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OVERRUN_COUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13663,6 +14047,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CARRIER_DETECT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13688,6 +14073,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TIME_SINCE_RESET_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13713,6 +14099,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13738,6 +14125,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13763,6 +14151,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13788,6 +14177,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13813,6 +14203,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -13838,6 +14229,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14059,6 +14451,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, U_T_C_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14084,6 +14477,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GRANULARITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14109,6 +14503,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TIME_SOURCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14134,6 +14529,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.TimeSynchronizationClusterTrustedTimeSourceStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TRUSTED_TIME_SOURCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14159,6 +14555,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_N_T_P_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14184,6 +14581,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.TimeSynchronizationClusterTimeZoneStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TIME_ZONE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14209,6 +14607,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.TimeSynchronizationClusterDSTOffsetStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, D_S_T_OFFSET_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14234,6 +14633,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCAL_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14259,6 +14659,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TIME_ZONE_DATABASE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14284,6 +14685,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, N_T_P_SERVER_AVAILABLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14309,6 +14711,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TIME_ZONE_LIST_MAX_SIZE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14334,6 +14737,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, D_S_T_OFFSET_LIST_MAX_SIZE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14359,6 +14763,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTS_D_N_S_RESOLVE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14384,6 +14789,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14409,6 +14815,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14434,6 +14841,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14459,6 +14867,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14484,6 +14893,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14509,6 +14919,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14591,6 +15002,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VENDOR_NAME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14616,6 +15028,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VENDOR_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14641,6 +15054,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_NAME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14675,6 +15089,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NODE_LABEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14700,6 +15115,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HARDWARE_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14725,6 +15141,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HARDWARE_VERSION_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14750,6 +15167,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOFTWARE_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14775,6 +15193,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOFTWARE_VERSION_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14800,6 +15219,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MANUFACTURING_DATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14825,6 +15245,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PART_NUMBER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14850,6 +15271,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_U_R_L_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14875,6 +15297,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_LABEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14900,6 +15323,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SERIAL_NUMBER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14925,6 +15349,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACHABLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14950,6 +15375,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNIQUE_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -14975,6 +15401,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.BridgedDeviceBasicInformationClusterProductAppearanceStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_APPEARANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15000,6 +15427,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15025,6 +15453,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15050,6 +15479,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15075,6 +15505,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15100,6 +15531,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15125,6 +15557,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15190,6 +15623,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_POSITIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15215,6 +15649,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_POSITION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15240,6 +15675,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MULTI_PRESS_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15265,6 +15701,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15290,6 +15727,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15315,6 +15753,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15340,6 +15779,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15365,6 +15805,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15390,6 +15831,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15526,6 +15968,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WINDOW_STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15551,6 +15994,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ADMIN_FABRIC_INDEX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15576,6 +16020,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ADMIN_VENDOR_ID_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15601,6 +16046,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15626,6 +16072,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15651,6 +16098,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15676,6 +16124,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15701,6 +16150,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -15726,6 +16176,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16151,6 +16602,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.OperationalCredentialsClusterNOCStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, N_O_CS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16181,6 +16633,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.OperationalCredentialsClusterFabricDescriptorStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FABRICS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16206,6 +16659,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_FABRICS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16231,6 +16685,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COMMISSIONED_FABRICS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16256,6 +16711,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<byte[]> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TRUSTED_ROOT_CERTIFICATES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16281,6 +16737,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_FABRIC_INDEX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16306,6 +16763,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16331,6 +16789,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16356,6 +16815,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16381,6 +16841,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16406,6 +16867,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16431,6 +16893,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16623,6 +17086,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.GroupKeyManagementClusterGroupKeyMapStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GROUP_KEY_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16653,6 +17117,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.GroupKeyManagementClusterGroupInfoMapStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GROUP_TABLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16678,6 +17143,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_GROUPS_PER_FABRIC_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16703,6 +17169,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_GROUP_KEYS_PER_FABRIC_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16728,6 +17195,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16753,6 +17221,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16778,6 +17247,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16803,6 +17273,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16828,6 +17299,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16853,6 +17325,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16920,6 +17393,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.FixedLabelClusterLabelStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LABEL_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16945,6 +17419,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16970,6 +17445,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -16995,6 +17471,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17020,6 +17497,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17045,6 +17523,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17070,6 +17549,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17146,6 +17626,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.UserLabelClusterLabelStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LABEL_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17171,6 +17652,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17196,6 +17678,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17221,6 +17704,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17246,6 +17730,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17271,6 +17756,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17296,6 +17782,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17358,6 +17845,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17383,6 +17871,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17408,6 +17897,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17433,6 +17923,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17458,6 +17949,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17483,6 +17975,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17545,6 +18038,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17570,6 +18064,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17595,6 +18090,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17620,6 +18116,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17645,6 +18142,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17670,6 +18168,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17732,6 +18231,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17757,6 +18257,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17782,6 +18283,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17807,6 +18309,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17832,6 +18335,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17857,6 +18361,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17920,6 +18425,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STATE_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17945,6 +18451,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17970,6 +18477,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -17995,6 +18503,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18020,6 +18529,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18045,6 +18555,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18070,6 +18581,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18249,6 +18761,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, IDLE_MODE_DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18274,6 +18787,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_MODE_DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18299,6 +18813,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_MODE_THRESHOLD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18329,6 +18844,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.IcdManagementClusterMonitoringRegistrationStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REGISTERED_CLIENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18354,6 +18870,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, I_C_D_COUNTER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18379,6 +18896,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLIENTS_SUPPORTED_PER_FABRIC_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18404,6 +18922,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, USER_ACTIVE_MODE_TRIGGER_HINT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18429,6 +18948,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, USER_ACTIVE_MODE_TRIGGER_INSTRUCTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18454,6 +18974,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATING_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18479,6 +19000,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18504,6 +19026,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18529,6 +19052,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18554,6 +19078,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18579,6 +19104,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18604,6 +19130,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18745,6 +19272,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SET_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18770,6 +19298,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TIME_REMAINING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18795,6 +19324,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TIMER_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18820,6 +19350,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18845,6 +19376,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18870,6 +19402,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18895,6 +19428,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18920,6 +19454,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -18945,6 +19480,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19141,6 +19677,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable List<String> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHASE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19166,6 +19703,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_PHASE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19191,6 +19729,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COUNTDOWN_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19216,6 +19755,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.OvenCavityOperationalStateClusterOperationalStateStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_STATE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19241,6 +19781,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19266,6 +19807,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.OvenCavityOperationalStateClusterErrorStateStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_ERROR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19291,6 +19833,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19316,6 +19859,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19341,6 +19885,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19366,6 +19911,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19391,6 +19937,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19416,6 +19963,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19535,6 +20083,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.OvenModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19560,6 +20109,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19594,6 +20144,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19628,6 +20179,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19653,6 +20205,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19678,6 +20231,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19703,6 +20257,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19728,6 +20283,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19753,6 +20309,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19778,6 +20335,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19850,6 +20408,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_DRYNESS_LEVELS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19884,6 +20443,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SELECTED_DRYNESS_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19909,6 +20469,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19934,6 +20495,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19959,6 +20521,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -19984,6 +20547,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20009,6 +20573,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20034,6 +20599,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20138,6 +20704,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DESCRIPTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20163,6 +20730,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STANDARD_NAMESPACE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20188,6 +20756,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ModeSelectClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20213,6 +20782,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20247,6 +20817,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20281,6 +20852,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20306,6 +20878,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20331,6 +20904,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20356,6 +20930,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20381,6 +20956,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20406,6 +20982,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20431,6 +21008,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20550,6 +21128,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.LaundryWasherModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20575,6 +21154,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20609,6 +21189,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20643,6 +21224,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20668,6 +21250,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20693,6 +21276,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20718,6 +21302,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20743,6 +21328,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20768,6 +21354,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20793,6 +21380,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20912,6 +21500,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.RefrigeratorAndTemperatureControlledCabinetModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20937,6 +21526,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -20971,6 +21561,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21005,6 +21596,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21030,6 +21622,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21055,6 +21648,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21080,6 +21674,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21105,6 +21700,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21130,6 +21726,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21155,6 +21752,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21233,6 +21831,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<String> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SPIN_SPEEDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21267,6 +21866,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SPIN_SPEED_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21301,6 +21901,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_RINSES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21326,6 +21927,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_RINSES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21351,6 +21953,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21376,6 +21979,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21401,6 +22005,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21426,6 +22031,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21451,6 +22057,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21476,6 +22083,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21585,6 +22193,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.RvcRunModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21610,6 +22219,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21635,6 +22245,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21660,6 +22271,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21685,6 +22297,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21710,6 +22323,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21735,6 +22349,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21760,6 +22375,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21869,6 +22485,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.RvcCleanModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21894,6 +22511,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21919,6 +22537,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21944,6 +22563,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21969,6 +22589,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -21994,6 +22615,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22019,6 +22641,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22044,6 +22667,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22140,6 +22764,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TEMPERATURE_SETPOINT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22165,6 +22790,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_TEMPERATURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22190,6 +22816,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_TEMPERATURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22215,6 +22842,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STEP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22240,6 +22868,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SELECTED_TEMPERATURE_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22265,6 +22894,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<String> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_TEMPERATURE_LEVELS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22290,6 +22920,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22315,6 +22946,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22340,6 +22972,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22365,6 +22998,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22390,6 +23024,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22415,6 +23050,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22480,6 +23116,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MASK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22505,6 +23142,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22530,6 +23168,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22555,6 +23194,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22580,6 +23220,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22605,6 +23246,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22630,6 +23272,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22655,6 +23298,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22680,6 +23324,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22799,6 +23444,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.DishwasherModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22824,6 +23470,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22858,6 +23505,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22892,6 +23540,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22917,6 +23566,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22942,6 +23592,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22967,6 +23618,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -22992,6 +23644,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23017,6 +23670,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23042,6 +23696,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23105,6 +23760,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AIR_QUALITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23130,6 +23786,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23155,6 +23812,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23180,6 +23838,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23205,6 +23864,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23230,6 +23890,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23255,6 +23916,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23346,6 +24008,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EXPRESSED_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23371,6 +24034,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SMOKE_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23396,6 +24060,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, C_O_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23421,6 +24086,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BATTERY_ALERT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23446,6 +24112,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEVICE_MUTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23471,6 +24138,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TEST_IN_PROGRESS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23496,6 +24164,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HARDWARE_FAULT_ALERT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23521,6 +24190,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, END_OF_SERVICE_ALERT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23546,6 +24216,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INTERCONNECT_SMOKE_ALARM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23571,6 +24242,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INTERCONNECT_C_O_ALARM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23596,6 +24268,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CONTAMINATION_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23630,6 +24303,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SMOKE_SENSITIVITY_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23655,6 +24329,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EXPIRY_DATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23680,6 +24355,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23705,6 +24381,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23730,6 +24407,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23755,6 +24433,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23780,6 +24459,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23805,6 +24485,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23911,6 +24592,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MASK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23936,6 +24618,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LATCH_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23961,6 +24644,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -23986,6 +24670,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24011,6 +24696,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24036,6 +24722,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24061,6 +24748,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24086,6 +24774,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24111,6 +24800,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24136,6 +24826,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24204,6 +24895,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.MicrowaveOvenModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24229,6 +24921,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24254,6 +24947,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24279,6 +24973,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24304,6 +24999,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24329,6 +25025,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24354,6 +25051,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24379,6 +25077,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24510,6 +25209,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COOK_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24535,6 +25235,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_COOK_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24560,6 +25261,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_SETTING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24585,6 +25287,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24610,6 +25313,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24635,6 +25339,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_STEP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24660,6 +25365,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_WATTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24685,6 +25391,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SELECTED_WATT_INDEX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24710,6 +25417,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WATT_RATING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24735,6 +25443,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24760,6 +25469,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24785,6 +25495,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24810,6 +25521,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24835,6 +25547,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -24860,6 +25573,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25056,6 +25770,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable List<String> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHASE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25081,6 +25796,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_PHASE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25106,6 +25822,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COUNTDOWN_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25131,6 +25848,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.OperationalStateClusterOperationalStateStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_STATE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25156,6 +25874,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25181,6 +25900,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.OperationalStateClusterErrorStateStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_ERROR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25206,6 +25926,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25231,6 +25952,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25256,6 +25978,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25281,6 +26004,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25306,6 +26030,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25331,6 +26056,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25501,6 +26227,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable List<String> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHASE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25526,6 +26253,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_PHASE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25551,6 +26279,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COUNTDOWN_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25576,6 +26305,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.RvcOperationalStateClusterOperationalStateStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_STATE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25601,6 +26331,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25626,6 +26357,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.RvcOperationalStateClusterErrorStateStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_ERROR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25651,6 +26383,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25676,6 +26409,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25701,6 +26435,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25726,6 +26461,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25751,6 +26487,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -25776,6 +26513,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26278,6 +27016,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAST_CONFIGURED_BY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26303,6 +27042,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCENE_TABLE_SIZE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26333,6 +27073,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ScenesManagementClusterSceneInfoStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FABRIC_SCENE_INFO_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26358,6 +27099,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26383,6 +27125,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26408,6 +27151,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26433,6 +27177,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26458,6 +27203,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26483,6 +27229,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26575,6 +27322,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CONDITION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26600,6 +27348,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEGRADATION_DIRECTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26625,6 +27374,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHANGE_INDICATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26650,6 +27400,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, IN_PLACE_INDICATOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26684,6 +27435,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAST_CHANGED_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26709,6 +27461,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.HepaFilterMonitoringClusterReplacementProductStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REPLACEMENT_PRODUCT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26734,6 +27487,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26759,6 +27513,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26784,6 +27539,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26809,6 +27565,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26834,6 +27591,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26859,6 +27617,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26951,6 +27710,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CONDITION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -26976,6 +27736,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEGRADATION_DIRECTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27001,6 +27762,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHANGE_INDICATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27026,6 +27788,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, IN_PLACE_INDICATOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27060,6 +27823,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAST_CHANGED_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27085,6 +27849,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ActivatedCarbonFilterMonitoringClusterReplacementProductStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REPLACEMENT_PRODUCT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27110,6 +27875,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27135,6 +27901,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27160,6 +27927,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27185,6 +27953,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27210,6 +27979,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27235,6 +28005,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27354,6 +28125,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_SENSITIVITY_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27379,6 +28151,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_SENSITIVITY_LEVELS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27404,6 +28177,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_SENSITIVITY_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27429,6 +28203,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALARMS_ACTIVE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27454,6 +28229,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALARMS_SUPPRESSED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27479,6 +28255,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALARMS_ENABLED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27504,6 +28281,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALARMS_SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27529,6 +28307,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SENSOR_FAULT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27554,6 +28333,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27579,6 +28359,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27604,6 +28385,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27629,6 +28411,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27654,6 +28437,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27679,6 +28463,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27824,6 +28609,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPEN_DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27858,6 +28644,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_OPEN_DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27883,6 +28670,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AUTO_CLOSE_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27908,6 +28696,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REMAINING_DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27933,6 +28722,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27958,6 +28748,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TARGET_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -27983,6 +28774,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28008,6 +28800,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TARGET_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28042,6 +28835,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_OPEN_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28067,6 +28861,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VALVE_FAULT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28092,6 +28887,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_STEP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28117,6 +28913,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28142,6 +28939,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28167,6 +28965,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28192,6 +28991,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28217,6 +29017,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28242,6 +29043,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28391,6 +29193,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28416,6 +29219,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_MEASUREMENT_TYPES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28441,6 +29245,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ElectricalPowerMeasurementClusterMeasurementAccuracyStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCURACY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28466,6 +29271,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ElectricalPowerMeasurementClusterMeasurementRangeStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RANGES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28491,6 +29297,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28516,6 +29323,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28541,6 +29349,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACTIVE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28566,6 +29375,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPARENT_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28591,6 +29401,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28616,6 +29427,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACTIVE_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28641,6 +29453,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPARENT_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28666,6 +29479,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, R_M_S_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28691,6 +29505,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, R_M_S_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28716,6 +29531,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, R_M_S_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28741,6 +29557,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FREQUENCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28766,6 +29583,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable List<ChipStructs.ElectricalPowerMeasurementClusterHarmonicMeasurementStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HARMONIC_CURRENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28791,6 +29609,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable List<ChipStructs.ElectricalPowerMeasurementClusterHarmonicMeasurementStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HARMONIC_PHASES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28816,6 +29635,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_FACTOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28841,6 +29661,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NEUTRAL_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28866,6 +29687,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28891,6 +29713,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28916,6 +29739,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28941,6 +29765,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28966,6 +29791,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -28991,6 +29817,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29083,6 +29910,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.ElectricalEnergyMeasurementClusterMeasurementAccuracyStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCURACY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29108,6 +29936,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ElectricalEnergyMeasurementClusterEnergyMeasurementStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CUMULATIVE_ENERGY_IMPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29133,6 +29962,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ElectricalEnergyMeasurementClusterEnergyMeasurementStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CUMULATIVE_ENERGY_EXPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29158,6 +29988,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ElectricalEnergyMeasurementClusterEnergyMeasurementStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PERIODIC_ENERGY_IMPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29183,6 +30014,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ElectricalEnergyMeasurementClusterEnergyMeasurementStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PERIODIC_ENERGY_EXPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29208,6 +30040,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ElectricalEnergyMeasurementClusterCumulativeEnergyResetStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CUMULATIVE_ENERGY_RESET_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29233,6 +30066,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29258,6 +30092,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29283,6 +30118,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29308,6 +30144,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29333,6 +30170,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29358,6 +30196,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29540,6 +30379,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.DemandResponseLoadControlClusterLoadControlProgramStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOAD_CONTROL_PROGRAMS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29565,6 +30405,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_LOAD_CONTROL_PROGRAMS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29590,6 +30431,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.DemandResponseLoadControlClusterLoadControlEventStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29615,6 +30457,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.DemandResponseLoadControlClusterLoadControlEventStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_EVENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29640,6 +30483,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_EVENTS_PER_PROGRAM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29665,6 +30509,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_TRANSITIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29699,6 +30544,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_RANDOM_START_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29733,6 +30579,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_RANDOM_DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29758,6 +30605,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29783,6 +30631,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29808,6 +30657,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29833,6 +30683,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29858,6 +30709,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -29883,6 +30735,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30019,6 +30872,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.MessagesClusterMessageStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MESSAGES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30044,6 +30898,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<byte[]> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_MESSAGE_I_DS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30069,6 +30924,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30094,6 +30950,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30119,6 +30976,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30144,6 +31002,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30169,6 +31028,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30194,6 +31054,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30448,6 +31309,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, E_S_A_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30473,6 +31335,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, E_S_A_CAN_GENERATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30498,6 +31361,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, E_S_A_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30523,6 +31387,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ABS_MIN_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30548,6 +31413,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ABS_MAX_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30573,6 +31439,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable List<ChipStructs.DeviceEnergyManagementClusterPowerAdjustStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_ADJUSTMENT_CAPABILITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30598,6 +31465,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.DeviceEnergyManagementClusterForecastStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FORECAST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30623,6 +31491,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPT_OUT_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30648,6 +31517,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30673,6 +31543,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30698,6 +31569,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30723,6 +31595,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30748,6 +31621,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -30773,6 +31647,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31047,6 +31922,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31072,6 +31948,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPLY_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31097,6 +31974,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FAULT_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31122,6 +32000,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHARGING_ENABLED_UNTIL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31147,6 +32026,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DISCHARGING_ENABLED_UNTIL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31172,6 +32052,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CIRCUIT_CAPACITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31197,6 +32078,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MINIMUM_CHARGE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31222,6 +32104,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAXIMUM_CHARGE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31247,6 +32130,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAXIMUM_DISCHARGE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31281,6 +32165,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, USER_MAXIMUM_CHARGE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31315,6 +32200,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RANDOMIZATION_DELAY_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31340,6 +32226,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NEXT_CHARGE_START_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31365,6 +32252,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NEXT_CHARGE_TARGET_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31390,6 +32278,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NEXT_CHARGE_REQUIRED_ENERGY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31415,6 +32304,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NEXT_CHARGE_TARGET_SO_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31449,6 +32339,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPROXIMATE_E_V_EFFICIENCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31474,6 +32365,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STATE_OF_CHARGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31499,6 +32391,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BATTERY_CAPACITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31524,6 +32417,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VEHICLE_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31549,6 +32443,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SESSION_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31574,6 +32469,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SESSION_DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31599,6 +32495,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SESSION_ENERGY_CHARGED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31624,6 +32521,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SESSION_ENERGY_DISCHARGED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31649,6 +32547,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31674,6 +32573,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31699,6 +32599,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31724,6 +32625,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31749,6 +32651,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31774,6 +32677,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31853,6 +32757,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.EnergyPreferenceClusterBalanceStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENERGY_BALANCES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31887,6 +32792,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_ENERGY_BALANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31912,6 +32818,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENERGY_PRIORITIES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31937,6 +32844,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.EnergyPreferenceClusterBalanceStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOW_POWER_MODE_SENSITIVITIES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31971,6 +32879,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_LOW_POWER_MODE_SENSITIVITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -31996,6 +32905,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32021,6 +32931,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32046,6 +32957,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32071,6 +32983,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32096,6 +33009,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32121,6 +33035,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32193,6 +33108,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVAILABLE_ENDPOINTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32218,6 +33134,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_ENDPOINTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32243,6 +33160,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32268,6 +33186,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32293,6 +33212,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32318,6 +33238,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32343,6 +33264,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32368,6 +33290,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32487,6 +33410,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.EnergyEvseModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32512,6 +33436,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32546,6 +33471,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32580,6 +33506,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32605,6 +33532,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32630,6 +33558,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32655,6 +33584,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32680,6 +33610,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32705,6 +33636,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32730,6 +33662,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32849,6 +33782,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.DeviceEnergyManagementModeClusterModeOptionStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32874,6 +33808,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32908,6 +33843,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32942,6 +33878,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32967,6 +33904,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -32992,6 +33930,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -33017,6 +33956,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -33042,6 +33982,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -33067,6 +34008,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -33092,6 +34034,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34031,6 +34974,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCK_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34056,6 +35000,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCK_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34081,6 +35026,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTUATOR_ENABLED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34106,6 +35052,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DOOR_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34140,6 +35087,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DOOR_OPEN_EVENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34174,6 +35122,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DOOR_CLOSED_EVENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34208,6 +35157,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPEN_PERIOD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34233,6 +35183,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_TOTAL_USERS_SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34258,6 +35209,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_P_I_N_USERS_SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34283,6 +35235,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_R_F_I_D_USERS_SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34308,6 +35261,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_WEEK_DAY_SCHEDULES_SUPPORTED_PER_USER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34333,6 +35287,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_YEAR_DAY_SCHEDULES_SUPPORTED_PER_USER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34358,6 +35313,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_HOLIDAY_SCHEDULES_SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34383,6 +35339,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_P_I_N_CODE_LENGTH_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34408,6 +35365,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_P_I_N_CODE_LENGTH_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34433,6 +35391,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_R_F_I_D_CODE_LENGTH_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34458,6 +35417,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_R_F_I_D_CODE_LENGTH_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34483,6 +35443,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CREDENTIAL_RULES_SUPPORT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34508,6 +35469,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_CREDENTIALS_SUPPORTED_PER_USER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34542,6 +35504,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LANGUAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34576,6 +35539,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, L_E_D_SETTINGS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34610,6 +35574,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AUTO_RELOCK_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34644,6 +35609,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SOUND_VOLUME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34678,6 +35644,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATING_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34703,6 +35670,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_OPERATING_MODES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34728,6 +35696,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DEFAULT_CONFIGURATION_REGISTER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34762,6 +35731,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENABLE_LOCAL_PROGRAMMING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34796,6 +35766,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENABLE_ONE_TOUCH_LOCKING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34830,6 +35801,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENABLE_INSIDE_STATUS_L_E_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34864,6 +35836,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENABLE_PRIVACY_MODE_BUTTON_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34898,6 +35871,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCAL_PROGRAMMING_FEATURES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34932,6 +35906,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WRONG_CODE_ENTRY_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -34966,6 +35941,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, USER_CODE_TEMPORARY_DISABLE_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35000,6 +35976,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SEND_P_I_N_OVER_THE_AIR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35034,6 +36011,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REQUIRE_P_I_NFOR_REMOTE_OPERATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35068,6 +36046,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EXPIRING_USER_TIMEOUT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35093,6 +36072,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALIRO_READER_VERIFICATION_KEY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35118,6 +36098,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALIRO_READER_GROUP_IDENTIFIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35143,6 +36124,7 @@
@Override
public void onSuccess(byte[] tlv) {
byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALIRO_READER_GROUP_SUB_IDENTIFIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35168,6 +36150,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<byte[]> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALIRO_EXPEDITED_TRANSACTION_SUPPORTED_PROTOCOL_VERSIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35193,6 +36176,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALIRO_GROUP_RESOLVING_KEY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35218,6 +36202,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<byte[]> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALIRO_SUPPORTED_B_L_E_U_W_B_PROTOCOL_VERSIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35243,6 +36228,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALIRO_B_L_E_ADVERTISING_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35268,6 +36254,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_ALIRO_CREDENTIAL_ISSUER_KEYS_SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35293,6 +36280,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_ALIRO_ENDPOINT_KEYS_SUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35318,6 +36306,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35343,6 +36332,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35368,6 +36358,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35393,6 +36384,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35418,6 +36410,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35443,6 +36436,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35687,6 +36681,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35712,6 +36707,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHYSICAL_CLOSED_LIMIT_LIFT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35737,6 +36733,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHYSICAL_CLOSED_LIMIT_TILT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35762,6 +36759,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_POSITION_LIFT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35787,6 +36785,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_POSITION_TILT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35812,6 +36811,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_ACTUATIONS_LIFT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35837,6 +36837,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_ACTUATIONS_TILT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35862,6 +36863,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CONFIG_STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35887,6 +36889,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_POSITION_LIFT_PERCENTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35912,6 +36915,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_POSITION_TILT_PERCENTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35937,6 +36941,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATIONAL_STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35962,6 +36967,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TARGET_POSITION_LIFT_PERCENT100THS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -35987,6 +36993,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TARGET_POSITION_TILT_PERCENT100THS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36012,6 +37019,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, END_PRODUCT_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36037,6 +37045,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_POSITION_LIFT_PERCENT100THS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36062,6 +37071,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_POSITION_TILT_PERCENT100THS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36087,6 +37097,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTALLED_OPEN_LIMIT_LIFT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36112,6 +37123,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTALLED_CLOSED_LIMIT_LIFT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36137,6 +37149,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTALLED_OPEN_LIMIT_TILT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36162,6 +37175,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTALLED_CLOSED_LIMIT_TILT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36196,6 +37210,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36221,6 +37236,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SAFETY_STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36246,6 +37262,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36271,6 +37288,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36296,6 +37314,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36321,6 +37340,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36346,6 +37366,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36371,6 +37392,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36479,6 +37501,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_MOVING_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36504,6 +37527,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_SAFETY_STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36529,6 +37553,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_CAPABILITIES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36563,6 +37588,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_OPEN_EVENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36597,6 +37623,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_CLOSE_EVENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36631,6 +37658,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_COMMAND_OPEN_EVENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36665,6 +37693,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_COMMAND_CLOSE_EVENTS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36699,6 +37728,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_OPEN_PERIOD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36733,6 +37763,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_CLOSE_PERIOD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36758,6 +37789,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BARRIER_POSITION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36783,6 +37815,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36808,6 +37841,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36833,6 +37867,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36858,6 +37893,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36883,6 +37919,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -36908,6 +37945,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37065,6 +38103,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_PRESSURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37090,6 +38129,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_SPEED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37115,6 +38155,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_FLOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37140,6 +38181,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_CONST_PRESSURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37165,6 +38207,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_CONST_PRESSURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37190,6 +38233,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_COMP_PRESSURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37215,6 +38259,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_COMP_PRESSURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37240,6 +38285,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_CONST_SPEED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37265,6 +38311,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_CONST_SPEED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37290,6 +38337,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_CONST_FLOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37315,6 +38363,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_CONST_FLOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37340,6 +38389,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_CONST_TEMP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37365,6 +38415,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_CONST_TEMP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37390,6 +38441,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PUMP_STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37415,6 +38467,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EFFECTIVE_OPERATION_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37440,6 +38493,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EFFECTIVE_CONTROL_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37465,6 +38519,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CAPACITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37490,6 +38545,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SPEED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37524,6 +38580,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIFETIME_RUNNING_HOURS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37549,6 +38606,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37583,6 +38641,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIFETIME_ENERGY_CONSUMED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37617,6 +38676,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPERATION_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37651,6 +38711,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CONTROL_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37676,6 +38737,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37701,6 +38763,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37726,6 +38789,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37751,6 +38815,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37776,6 +38841,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -37801,6 +38867,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38269,6 +39336,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCAL_TEMPERATURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38294,6 +39362,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OUTDOOR_TEMPERATURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38319,6 +39388,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPANCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38344,6 +39414,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ABS_MIN_HEAT_SETPOINT_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38369,6 +39440,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ABS_MAX_HEAT_SETPOINT_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38394,6 +39466,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ABS_MIN_COOL_SETPOINT_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38419,6 +39492,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ABS_MAX_COOL_SETPOINT_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38444,6 +39518,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, P_I_COOLING_DEMAND_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38469,6 +39544,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, P_I_HEATING_DEMAND_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38503,6 +39579,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, H_V_A_C_SYSTEM_TYPE_CONFIGURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38537,6 +39614,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LOCAL_TEMPERATURE_CALIBRATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38571,6 +39649,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPIED_COOLING_SETPOINT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38605,6 +39684,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPIED_HEATING_SETPOINT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38639,6 +39719,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNOCCUPIED_COOLING_SETPOINT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38673,6 +39754,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNOCCUPIED_HEATING_SETPOINT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38707,6 +39789,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_HEAT_SETPOINT_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38741,6 +39824,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_HEAT_SETPOINT_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38775,6 +39859,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_COOL_SETPOINT_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38809,6 +39894,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_COOL_SETPOINT_LIMIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38843,6 +39929,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_SETPOINT_DEAD_BAND_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38877,6 +39964,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REMOTE_SENSING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38911,6 +39999,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CONTROL_SEQUENCE_OF_OPERATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38945,6 +40034,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SYSTEM_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38970,6 +40060,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, THERMOSTAT_RUNNING_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -38995,6 +40086,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_OF_WEEK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39020,6 +40112,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_WEEKLY_TRANSITIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39045,6 +40138,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_DAILY_TRANSITIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39079,6 +40173,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TEMPERATURE_SETPOINT_HOLD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39113,6 +40208,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TEMPERATURE_SETPOINT_HOLD_DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39147,6 +40243,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, THERMOSTAT_PROGRAMMING_OPERATION_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39172,6 +40269,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, THERMOSTAT_RUNNING_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39197,6 +40295,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SETPOINT_CHANGE_SOURCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39222,6 +40321,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SETPOINT_CHANGE_AMOUNT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39247,6 +40347,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SETPOINT_CHANGE_SOURCE_TIMESTAMP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39281,6 +40382,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPIED_SETBACK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39306,6 +40408,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPIED_SETBACK_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39331,6 +40434,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPIED_SETBACK_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39365,6 +40469,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNOCCUPIED_SETBACK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39390,6 +40495,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNOCCUPIED_SETBACK_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39415,6 +40521,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNOCCUPIED_SETBACK_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39449,6 +40556,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EMERGENCY_HEAT_DELTA_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39483,6 +40591,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, A_C_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39517,6 +40626,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, A_C_CAPACITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39551,6 +40661,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, A_C_REFRIGERANT_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39585,6 +40696,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, A_C_COMPRESSOR_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39619,6 +40731,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, A_C_ERROR_CODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39653,6 +40766,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, A_C_LOUVER_POSITION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39678,6 +40792,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, A_C_COIL_TEMPERATURE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39712,6 +40827,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, A_C_CAPACITYFORMAT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39737,6 +40853,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ThermostatClusterPresetTypeStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRESET_TYPES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39762,6 +40879,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ThermostatClusterScheduleTypeStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCHEDULE_TYPES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39787,6 +40905,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_PRESETS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39812,6 +40931,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_SCHEDULES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39837,6 +40957,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_SCHEDULE_TRANSITIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39862,6 +40983,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_SCHEDULE_TRANSITION_PER_DAY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39887,6 +41009,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_PRESET_HANDLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39912,6 +41035,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_SCHEDULE_HANDLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39946,6 +41070,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ThermostatClusterPresetStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRESETS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -39980,6 +41105,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ThermostatClusterScheduleStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCHEDULES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40005,6 +41131,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRESETS_SCHEDULES_EDITABLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40030,6 +41157,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TEMPERATURE_SETPOINT_HOLD_POLICY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40055,6 +41183,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SETPOINT_HOLD_EXPIRY_TIMESTAMP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40080,6 +41209,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ThermostatClusterQueuedPresetStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, QUEUED_PRESET_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40105,6 +41235,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40130,6 +41261,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40155,6 +41287,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40180,6 +41313,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40205,6 +41339,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40230,6 +41365,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40349,6 +41485,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FAN_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40374,6 +41511,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FAN_MODE_SEQUENCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40408,6 +41546,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PERCENT_SETTING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40433,6 +41572,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PERCENT_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40458,6 +41598,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SPEED_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40492,6 +41633,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SPEED_SETTING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40517,6 +41659,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SPEED_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40542,6 +41685,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ROCK_SUPPORT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40576,6 +41720,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ROCK_SETTING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40601,6 +41746,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIND_SUPPORT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40635,6 +41781,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WIND_SETTING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40669,6 +41816,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AIRFLOW_DIRECTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40694,6 +41842,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40719,6 +41868,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40744,6 +41894,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40769,6 +41920,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40794,6 +41946,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40819,6 +41972,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40893,6 +42047,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TEMPERATURE_DISPLAY_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40927,6 +42082,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, KEYPAD_LOCKOUT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40961,6 +42117,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCHEDULE_PROGRAMMING_VISIBILITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -40986,6 +42143,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -41011,6 +42169,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -41036,6 +42195,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -41061,6 +42221,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -41086,6 +42247,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -41111,6 +42273,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -41937,6 +43100,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_HUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -41962,6 +43126,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_SATURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -41987,6 +43152,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REMAINING_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42012,6 +43178,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42037,6 +43204,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42062,6 +43230,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DRIFT_COMPENSATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42087,6 +43256,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COMPENSATION_TEXT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42112,6 +43282,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_TEMPERATURE_MIREDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42137,6 +43308,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42171,6 +43343,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OPTIONS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42196,6 +43369,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NUMBER_OF_PRIMARIES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42221,6 +43395,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY1_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42246,6 +43421,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY1_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42271,6 +43447,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY1_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42296,6 +43473,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY2_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42321,6 +43499,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY2_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42346,6 +43525,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY2_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42371,6 +43551,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY3_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42396,6 +43577,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY3_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42421,6 +43603,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY3_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42446,6 +43629,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY4_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42471,6 +43655,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY4_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42496,6 +43681,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY4_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42521,6 +43707,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY5_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42546,6 +43733,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY5_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42571,6 +43759,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY5_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42596,6 +43785,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY6_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42621,6 +43811,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY6_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42646,6 +43837,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRIMARY6_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42680,6 +43872,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WHITE_POINT_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42714,6 +43907,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WHITE_POINT_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42748,6 +43942,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_R_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42782,6 +43977,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_R_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42816,6 +44012,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_R_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42850,6 +44047,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_G_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42884,6 +44082,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_G_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42918,6 +44117,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_G_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42952,6 +44152,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_B_X_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -42986,6 +44187,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_B_Y_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43020,6 +44222,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_POINT_B_INTENSITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43045,6 +44248,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENHANCED_CURRENT_HUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43070,6 +44274,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENHANCED_COLOR_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43095,6 +44300,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_LOOP_ACTIVE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43120,6 +44326,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_LOOP_DIRECTION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43145,6 +44352,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_LOOP_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43170,6 +44378,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_LOOP_START_ENHANCED_HUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43195,6 +44404,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_LOOP_STORED_ENHANCED_HUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43220,6 +44430,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_CAPABILITIES_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43245,6 +44456,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_TEMP_PHYSICAL_MIN_MIREDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43270,6 +44482,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COLOR_TEMP_PHYSICAL_MAX_MIREDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43295,6 +44508,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, COUPLE_COLOR_TEMP_TO_LEVEL_MIN_MIREDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43329,6 +44543,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_UP_COLOR_TEMPERATURE_MIREDS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43354,6 +44569,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43379,6 +44595,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43404,6 +44621,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43429,6 +44647,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43454,6 +44673,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43479,6 +44699,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43575,6 +44796,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHYSICAL_MIN_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43600,6 +44822,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHYSICAL_MAX_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43625,6 +44848,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BALLAST_STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43659,6 +44883,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43693,6 +44918,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_LEVEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43727,6 +44953,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INTRINSIC_BALLAST_FACTOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43761,6 +44988,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BALLAST_FACTOR_ADJUSTMENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43786,6 +45014,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAMP_QUANTITY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43820,6 +45049,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAMP_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43854,6 +45084,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAMP_MANUFACTURER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43888,6 +45119,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAMP_RATED_HOURS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43922,6 +45154,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAMP_BURN_HOURS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43956,6 +45189,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAMP_ALARM_MODE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -43990,6 +45224,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LAMP_BURN_HOURS_TRIP_POINT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44015,6 +45250,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44040,6 +45276,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44065,6 +45302,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44090,6 +45328,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44115,6 +45354,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44140,6 +45380,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44223,6 +45464,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44248,6 +45490,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44273,6 +45516,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44298,6 +45542,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOLERANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44323,6 +45568,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIGHT_SENSOR_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44348,6 +45594,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44373,6 +45620,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44398,6 +45646,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44423,6 +45672,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44448,6 +45698,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44473,6 +45724,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44551,6 +45803,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44576,6 +45829,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44601,6 +45855,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44626,6 +45881,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOLERANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44651,6 +45907,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44676,6 +45933,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44701,6 +45959,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44726,6 +45985,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44751,6 +46011,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44776,6 +46037,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44871,6 +46133,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44896,6 +46159,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44921,6 +46185,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44946,6 +46211,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOLERANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44971,6 +46237,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCALED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -44996,6 +46263,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_SCALED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45021,6 +46289,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_SCALED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45046,6 +46315,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCALED_TOLERANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45071,6 +46341,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCALE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45096,6 +46367,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45121,6 +46393,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45146,6 +46419,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45171,6 +46445,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45196,6 +46471,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45221,6 +46497,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45299,6 +46576,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45324,6 +46602,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45349,6 +46628,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45374,6 +46654,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOLERANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45399,6 +46680,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45424,6 +46706,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45449,6 +46732,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45474,6 +46758,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45499,6 +46784,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45524,6 +46810,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45602,6 +46889,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45627,6 +46915,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45652,6 +46941,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45677,6 +46967,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOLERANCE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45702,6 +46993,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45727,6 +47019,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45752,6 +47045,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45777,6 +47071,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45802,6 +47097,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45827,6 +47123,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45901,6 +47198,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPANCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45926,6 +47224,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPANCY_SENSOR_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45951,6 +47250,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCCUPANCY_SENSOR_TYPE_BITMAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -45985,6 +47285,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, P_I_R_OCCUPIED_TO_UNOCCUPIED_DELAY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46019,6 +47320,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, P_I_R_UNOCCUPIED_TO_OCCUPIED_DELAY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46053,6 +47355,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, P_I_R_UNOCCUPIED_TO_OCCUPIED_THRESHOLD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46087,6 +47390,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ULTRASONIC_OCCUPIED_TO_UNOCCUPIED_DELAY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46121,6 +47425,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ULTRASONIC_UNOCCUPIED_TO_OCCUPIED_DELAY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46155,6 +47460,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ULTRASONIC_UNOCCUPIED_TO_OCCUPIED_THRESHOLD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46189,6 +47495,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHYSICAL_CONTACT_OCCUPIED_TO_UNOCCUPIED_DELAY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46223,6 +47530,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHYSICAL_CONTACT_UNOCCUPIED_TO_OCCUPIED_DELAY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46257,6 +47565,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHYSICAL_CONTACT_UNOCCUPIED_TO_OCCUPIED_THRESHOLD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46282,6 +47591,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46307,6 +47617,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46332,6 +47643,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46357,6 +47669,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46382,6 +47695,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46407,6 +47721,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46500,6 +47815,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46525,6 +47841,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46550,6 +47867,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46575,6 +47893,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46600,6 +47919,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46625,6 +47945,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46650,6 +47971,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46675,6 +47997,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46700,6 +48023,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46725,6 +48049,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46750,6 +48075,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46775,6 +48101,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46800,6 +48127,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46825,6 +48153,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46850,6 +48179,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46875,6 +48205,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46900,6 +48231,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -46993,6 +48325,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47018,6 +48351,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47043,6 +48377,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47068,6 +48403,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47093,6 +48429,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47118,6 +48455,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47143,6 +48481,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47168,6 +48507,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47193,6 +48533,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47218,6 +48559,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47243,6 +48585,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47268,6 +48611,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47293,6 +48637,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47318,6 +48663,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47343,6 +48689,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47368,6 +48715,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47393,6 +48741,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47486,6 +48835,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47511,6 +48861,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47536,6 +48887,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47561,6 +48913,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47586,6 +48939,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47611,6 +48965,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47636,6 +48991,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47661,6 +49017,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47686,6 +49043,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47711,6 +49069,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47736,6 +49095,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47761,6 +49121,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47786,6 +49147,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47811,6 +49173,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47836,6 +49199,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47861,6 +49225,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47886,6 +49251,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -47979,6 +49345,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48004,6 +49371,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48029,6 +49397,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48054,6 +49423,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48079,6 +49449,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48104,6 +49475,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48129,6 +49501,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48154,6 +49527,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48179,6 +49553,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48204,6 +49579,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48229,6 +49605,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48254,6 +49631,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48279,6 +49657,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48304,6 +49683,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48329,6 +49709,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48354,6 +49735,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48379,6 +49761,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48472,6 +49855,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48497,6 +49881,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48522,6 +49907,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48547,6 +49933,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48572,6 +49959,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48597,6 +49985,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48622,6 +50011,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48647,6 +50037,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48672,6 +50063,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48697,6 +50089,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48722,6 +50115,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48747,6 +50141,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48772,6 +50167,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48797,6 +50193,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48822,6 +50219,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48847,6 +50245,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48872,6 +50271,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48965,6 +50365,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -48990,6 +50391,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49015,6 +50417,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49040,6 +50443,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49065,6 +50469,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49090,6 +50495,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49115,6 +50521,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49140,6 +50547,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49165,6 +50573,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49190,6 +50599,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49215,6 +50625,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49240,6 +50651,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49265,6 +50677,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49290,6 +50703,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49315,6 +50729,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49340,6 +50755,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49365,6 +50781,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49458,6 +50875,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49483,6 +50901,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49508,6 +50927,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49533,6 +50953,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49558,6 +50979,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49583,6 +51005,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49608,6 +51031,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49633,6 +51057,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49658,6 +51083,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49683,6 +51109,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49708,6 +51135,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49733,6 +51161,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49758,6 +51187,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49783,6 +51213,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49808,6 +51239,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49833,6 +51265,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49858,6 +51291,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49951,6 +51385,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -49976,6 +51411,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50001,6 +51437,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50026,6 +51463,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50051,6 +51489,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50076,6 +51515,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50101,6 +51541,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50126,6 +51567,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50151,6 +51593,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50176,6 +51619,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50201,6 +51645,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50226,6 +51671,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50251,6 +51697,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50276,6 +51723,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50301,6 +51749,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50326,6 +51775,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50351,6 +51801,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50444,6 +51895,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50469,6 +51921,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50494,6 +51947,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50519,6 +51973,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50544,6 +51999,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50569,6 +52025,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50594,6 +52051,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50619,6 +52077,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50644,6 +52103,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50669,6 +52129,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50694,6 +52155,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50719,6 +52181,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50744,6 +52207,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50769,6 +52233,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50794,6 +52259,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50819,6 +52285,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50844,6 +52311,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50937,6 +52405,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50962,6 +52431,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MIN_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -50987,6 +52457,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MAX_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51012,6 +52483,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51037,6 +52509,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PEAK_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51062,6 +52535,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51087,6 +52561,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_MEASURED_VALUE_WINDOW_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51112,6 +52587,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNCERTAINTY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51137,6 +52613,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_UNIT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51162,6 +52639,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_MEDIUM_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51187,6 +52665,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LEVEL_VALUE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51212,6 +52691,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51237,6 +52717,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51262,6 +52743,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51287,6 +52769,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51312,6 +52795,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51337,6 +52821,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51401,6 +52886,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, M_A_C_ADDRESS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51426,6 +52912,7 @@
@Override
public void onSuccess(byte[] tlv) {
byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LINK_LOCAL_ADDRESS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51451,6 +52938,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51476,6 +52964,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51501,6 +52990,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51526,6 +53016,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51551,6 +53042,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51576,6 +53068,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51867,6 +53360,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ChannelClusterChannelInfoStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHANNEL_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51892,6 +53386,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ChannelClusterLineupInfoStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LINEUP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51917,6 +53412,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ChannelClusterChannelInfoStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_CHANNEL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51942,6 +53438,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51967,6 +53464,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -51992,6 +53490,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52017,6 +53516,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52042,6 +53542,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52067,6 +53568,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52180,6 +53682,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.TargetNavigatorClusterTargetInfoStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TARGET_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52205,6 +53708,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_TARGET_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52230,6 +53734,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52255,6 +53760,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52280,6 +53786,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52305,6 +53812,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52330,6 +53838,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52355,6 +53864,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52911,6 +54421,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_STATE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52936,6 +54447,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, START_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52961,6 +54473,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DURATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -52986,6 +54499,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.MediaPlaybackClusterPlaybackPositionStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SAMPLED_POSITION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53011,6 +54525,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PLAYBACK_SPEED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53036,6 +54551,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SEEK_RANGE_END_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53061,6 +54577,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SEEK_RANGE_START_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53086,6 +54603,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.MediaPlaybackClusterTrackStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_AUDIO_TRACK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53111,6 +54629,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable List<ChipStructs.MediaPlaybackClusterTrackStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVAILABLE_AUDIO_TRACKS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53136,6 +54655,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.MediaPlaybackClusterTrackStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_TEXT_TRACK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53161,6 +54681,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable List<ChipStructs.MediaPlaybackClusterTrackStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVAILABLE_TEXT_TRACKS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53186,6 +54707,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53211,6 +54733,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53236,6 +54759,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53261,6 +54785,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53286,6 +54811,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53311,6 +54837,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53455,6 +54982,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.MediaInputClusterInputInfoStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INPUT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53480,6 +55008,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_INPUT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53505,6 +55034,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53530,6 +55060,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53555,6 +55086,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53580,6 +55112,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53605,6 +55138,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53630,6 +55164,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53708,6 +55243,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53733,6 +55269,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53758,6 +55295,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53783,6 +55321,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53808,6 +55347,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53833,6 +55373,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53929,6 +55470,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53954,6 +55496,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -53979,6 +55522,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54004,6 +55548,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54029,6 +55574,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54054,6 +55600,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54224,6 +55771,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<String> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPT_HEADER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54249,6 +55797,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SUPPORTED_STREAMING_PROTOCOLS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54274,6 +55823,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54299,6 +55849,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54324,6 +55875,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54349,6 +55901,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54374,6 +55927,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54399,6 +55953,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54511,6 +56066,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.AudioOutputClusterOutputInfoStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OUTPUT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54536,6 +56092,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_OUTPUT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54561,6 +56118,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54586,6 +56144,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54611,6 +56170,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54636,6 +56196,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54661,6 +56222,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54686,6 +56248,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54877,6 +56440,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CATALOG_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54902,6 +56466,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.ApplicationLauncherClusterApplicationEPStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_APP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54927,6 +56492,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54952,6 +56518,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -54977,6 +56544,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55002,6 +56570,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55027,6 +56596,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55052,6 +56622,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55130,6 +56701,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VENDOR_NAME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55155,6 +56727,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VENDOR_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55180,6 +56753,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPLICATION_NAME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55205,6 +56779,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PRODUCT_I_D_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55230,6 +56805,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.ApplicationBasicClusterApplicationStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPLICATION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55255,6 +56831,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STATUS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55280,6 +56857,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPLICATION_VERSION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55305,6 +56883,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ALLOWED_VENDOR_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55330,6 +56909,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55355,6 +56935,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55380,6 +56961,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55405,6 +56987,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55430,6 +57013,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55455,6 +57039,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55590,6 +57175,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55615,6 +57201,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55640,6 +57227,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55665,6 +57253,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55690,6 +57279,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55715,6 +57305,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -55995,6 +57586,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENABLED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56020,6 +57612,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ContentControlClusterRatingNameStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_DEMAND_RATINGS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56045,6 +57638,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ON_DEMAND_RATING_THRESHOLD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56070,6 +57664,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.ContentControlClusterRatingNameStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCHEDULED_CONTENT_RATINGS_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56095,6 +57690,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCHEDULED_CONTENT_RATING_THRESHOLD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56120,6 +57716,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, SCREEN_DAILY_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56145,6 +57742,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REMAINING_SCREEN_TIME_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56170,6 +57768,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BLOCK_UNRATED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56195,6 +57794,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56220,6 +57820,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56245,6 +57846,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56270,6 +57872,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56295,6 +57898,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56320,6 +57924,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56434,6 +58039,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56459,6 +58065,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56484,6 +58091,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56509,6 +58117,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56534,6 +58143,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56559,6 +58169,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56793,6 +58404,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASUREMENT_TYPE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56818,6 +58430,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56843,6 +58456,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_VOLTAGE_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56868,6 +58482,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_VOLTAGE_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56893,6 +58508,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56918,6 +58534,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_CURRENT_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56943,6 +58560,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_CURRENT_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56968,6 +58586,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -56993,6 +58612,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_POWER_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57018,6 +58638,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_POWER_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57043,6 +58664,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_VOLTAGE_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57068,6 +58690,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_VOLTAGE_DIVISOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57093,6 +58716,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_CURRENT_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57118,6 +58742,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_CURRENT_DIVISOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57143,6 +58768,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_POWER_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57168,6 +58794,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, DC_POWER_DIVISOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57193,6 +58820,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_FREQUENCY_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57218,6 +58846,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_FREQUENCY_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57243,6 +58872,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_FREQUENCY_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57268,6 +58898,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NEUTRAL_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57293,6 +58924,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOTAL_ACTIVE_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57318,6 +58950,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOTAL_REACTIVE_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57343,6 +58976,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TOTAL_APPARENT_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57368,6 +59002,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED1ST_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57393,6 +59028,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED3RD_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57418,6 +59054,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED5TH_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57443,6 +59080,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED7TH_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57468,6 +59106,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED9TH_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57493,6 +59132,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED11TH_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57518,6 +59158,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_PHASE1ST_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57543,6 +59184,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_PHASE3RD_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57568,6 +59210,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_PHASE5TH_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57593,6 +59236,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_PHASE7TH_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57618,6 +59262,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_PHASE9TH_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57643,6 +59288,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEASURED_PHASE11TH_HARMONIC_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57668,6 +59314,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_FREQUENCY_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57693,6 +59340,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_FREQUENCY_DIVISOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57718,6 +59366,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57743,6 +59392,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_DIVISOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57768,6 +59418,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, HARMONIC_CURRENT_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57793,6 +59444,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, PHASE_HARMONIC_CURRENT_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57818,6 +59470,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTANTANEOUS_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57843,6 +59496,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTANTANEOUS_LINE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57868,6 +59522,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTANTANEOUS_ACTIVE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57893,6 +59548,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTANTANEOUS_REACTIVE_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57918,6 +59574,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INSTANTANEOUS_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57943,6 +59600,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57968,6 +59626,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -57993,6 +59652,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58018,6 +59678,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58043,6 +59704,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58068,6 +59730,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58093,6 +59756,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58118,6 +59782,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_MIN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58143,6 +59808,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_MAX_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58168,6 +59834,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACTIVE_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58193,6 +59860,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPARENT_POWER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58218,6 +59886,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_FACTOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58252,6 +59921,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_VOLTAGE_MEASUREMENT_PERIOD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58286,6 +59956,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_UNDER_VOLTAGE_COUNTER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58320,6 +59991,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_EXTREME_OVER_VOLTAGE_PERIOD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58354,6 +60026,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_EXTREME_UNDER_VOLTAGE_PERIOD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58388,6 +60061,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_SAG_PERIOD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58422,6 +60096,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_SWELL_PERIOD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58447,6 +60122,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_VOLTAGE_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58472,6 +60148,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_VOLTAGE_DIVISOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58497,6 +60174,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_CURRENT_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58522,6 +60200,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_CURRENT_DIVISOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58547,6 +60226,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_POWER_MULTIPLIER_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58572,6 +60252,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_POWER_DIVISOR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58606,6 +60287,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OVERLOAD_ALARMS_MASK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58631,6 +60313,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VOLTAGE_OVERLOAD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58656,6 +60339,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CURRENT_OVERLOAD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58690,6 +60374,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_OVERLOAD_ALARMS_MASK_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58715,6 +60400,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_VOLTAGE_OVERLOAD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58740,6 +60426,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_CURRENT_OVERLOAD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58765,6 +60452,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_ACTIVE_POWER_OVERLOAD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58790,6 +60478,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AC_REACTIVE_POWER_OVERLOAD_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58815,6 +60504,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_OVER_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58840,6 +60530,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_UNDER_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58865,6 +60556,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_EXTREME_OVER_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58890,6 +60582,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_EXTREME_UNDER_VOLTAGE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58915,6 +60608,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_SAG_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58940,6 +60634,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_SWELL_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58965,6 +60660,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LINE_CURRENT_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -58990,6 +60686,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_CURRENT_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59015,6 +60712,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACTIVE_CURRENT_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59040,6 +60738,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59065,6 +60764,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_MIN_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59090,6 +60790,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_MAX_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59115,6 +60816,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59140,6 +60842,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_MIN_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59165,6 +60868,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_MAX_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59190,6 +60894,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59215,6 +60920,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_MIN_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59240,6 +60946,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_MAX_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59265,6 +60972,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACTIVE_POWER_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59290,6 +60998,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPARENT_POWER_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59315,6 +61024,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_FACTOR_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59340,6 +61050,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_VOLTAGE_MEASUREMENT_PERIOD_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59365,6 +61076,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_OVER_VOLTAGE_COUNTER_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59390,6 +61102,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_UNDER_VOLTAGE_COUNTER_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59415,6 +61128,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_EXTREME_OVER_VOLTAGE_PERIOD_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59440,6 +61154,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_EXTREME_UNDER_VOLTAGE_PERIOD_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59465,6 +61180,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_SAG_PERIOD_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59490,6 +61206,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_SWELL_PERIOD_PHASE_B_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59515,6 +61232,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LINE_CURRENT_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59540,6 +61258,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_CURRENT_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59565,6 +61284,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACTIVE_CURRENT_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59590,6 +61310,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59615,6 +61336,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_MIN_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59640,6 +61362,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_MAX_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59665,6 +61388,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59690,6 +61414,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_MIN_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59715,6 +61440,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_CURRENT_MAX_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59740,6 +61466,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59765,6 +61492,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_MIN_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59790,6 +61518,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACTIVE_POWER_MAX_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59815,6 +61544,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, REACTIVE_POWER_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59840,6 +61570,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, APPARENT_POWER_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59865,6 +61596,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, POWER_FACTOR_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59890,6 +61622,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_VOLTAGE_MEASUREMENT_PERIOD_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59915,6 +61648,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_OVER_VOLTAGE_COUNTER_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59940,6 +61674,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, AVERAGE_RMS_UNDER_VOLTAGE_COUNTER_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59965,6 +61700,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_EXTREME_OVER_VOLTAGE_PERIOD_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -59990,6 +61726,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_EXTREME_UNDER_VOLTAGE_PERIOD_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -60015,6 +61752,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_SAG_PERIOD_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -60040,6 +61778,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RMS_VOLTAGE_SWELL_PERIOD_PHASE_C_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -60065,6 +61804,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -60090,6 +61830,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -60115,6 +61856,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -60140,6 +61882,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -60165,6 +61908,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -60190,6 +61934,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61592,6 +63337,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BOOLEAN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61626,6 +63372,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BITMAP8_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61660,6 +63407,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BITMAP16_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61694,6 +63442,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BITMAP32_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61728,6 +63477,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, BITMAP64_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61762,6 +63512,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT8U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61796,6 +63547,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT16U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61830,6 +63582,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT24U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61864,6 +63617,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT32U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61898,6 +63652,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT40U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61932,6 +63687,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT48U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -61966,6 +63722,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT56U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62000,6 +63757,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT64U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62034,6 +63792,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT8S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62068,6 +63827,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT16S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62102,6 +63862,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT24S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62136,6 +63897,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT32S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62170,6 +63932,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT40S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62204,6 +63967,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT48S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62238,6 +64002,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT56S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62272,6 +64037,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, INT64S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62306,6 +64072,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENUM8_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62340,6 +64107,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENUM16_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62374,6 +64142,7 @@
@Override
public void onSuccess(byte[] tlv) {
Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FLOAT_SINGLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62408,6 +64177,7 @@
@Override
public void onSuccess(byte[] tlv) {
Double value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FLOAT_DOUBLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62442,6 +64212,7 @@
@Override
public void onSuccess(byte[] tlv) {
byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, OCTET_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62476,6 +64247,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Integer> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIST_INT8U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62510,6 +64282,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<byte[]> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIST_OCTET_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62544,6 +64317,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.UnitTestingClusterTestListStructOctet> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIST_STRUCT_OCTET_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62578,6 +64352,7 @@
@Override
public void onSuccess(byte[] tlv) {
byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LONG_OCTET_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62612,6 +64387,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CHAR_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62646,6 +64422,7 @@
@Override
public void onSuccess(byte[] tlv) {
String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LONG_CHAR_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62680,6 +64457,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EPOCH_US_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62714,6 +64492,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EPOCH_S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62748,6 +64527,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, VENDOR_ID_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62782,6 +64562,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.UnitTestingClusterNullablesAndOptionalsStruct> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIST_NULLABLES_AND_OPTIONALS_STRUCT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62816,6 +64597,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ENUM_ATTR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62850,6 +64632,7 @@
@Override
public void onSuccess(byte[] tlv) {
ChipStructs.UnitTestingClusterSimpleStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, STRUCT_ATTR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62884,6 +64667,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RANGE_RESTRICTED_INT8U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62918,6 +64702,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RANGE_RESTRICTED_INT8S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62952,6 +64737,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RANGE_RESTRICTED_INT16U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -62986,6 +64772,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, RANGE_RESTRICTED_INT16S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63020,6 +64807,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<byte[]> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIST_LONG_OCTET_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63059,6 +64847,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<ChipStructs.UnitTestingClusterTestFabricScoped> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, LIST_FABRIC_SCOPED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63089,6 +64878,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, TIMED_WRITE_BOOLEAN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63123,6 +64913,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERAL_ERROR_BOOLEAN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63157,6 +64948,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_ERROR_BOOLEAN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63191,6 +64983,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, UNSUPPORTED_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63225,6 +65018,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_BOOLEAN_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63259,6 +65053,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_BITMAP8_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63293,6 +65088,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_BITMAP16_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63327,6 +65123,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_BITMAP32_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63361,6 +65158,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_BITMAP64_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63395,6 +65193,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT8U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63429,6 +65228,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT16U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63463,6 +65263,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT24U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63497,6 +65298,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT32U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63531,6 +65333,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT40U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63565,6 +65368,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT48U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63599,6 +65403,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT56U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63633,6 +65438,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT64U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63667,6 +65473,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT8S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63701,6 +65508,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT16S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63735,6 +65543,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT24S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63769,6 +65578,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT32S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63803,6 +65613,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT40S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63837,6 +65648,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT48S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63871,6 +65683,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT56S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63905,6 +65718,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_INT64S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63939,6 +65753,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_ENUM8_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -63973,6 +65788,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_ENUM16_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64007,6 +65823,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Float value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_FLOAT_SINGLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64041,6 +65858,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Double value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_FLOAT_DOUBLE_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64075,6 +65893,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable byte[] value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_OCTET_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64109,6 +65928,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable String value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_CHAR_STRING_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64143,6 +65963,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_ENUM_ATTR_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64177,6 +65998,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable ChipStructs.UnitTestingClusterSimpleStruct value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_STRUCT_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64211,6 +66033,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_RANGE_RESTRICTED_INT8U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64245,6 +66068,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_RANGE_RESTRICTED_INT8S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64279,6 +66103,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_RANGE_RESTRICTED_INT16U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64313,6 +66138,7 @@
@Override
public void onSuccess(byte[] tlv) {
@Nullable Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, NULLABLE_RANGE_RESTRICTED_INT16S_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64347,6 +66173,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, WRITE_ONLY_INT8U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64381,6 +66208,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, MEI_INT8U_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64406,6 +66234,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64431,6 +66260,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64456,6 +66286,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64481,6 +66312,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64506,6 +66338,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64531,6 +66364,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64657,6 +66491,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64682,6 +66517,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64707,6 +66543,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64732,6 +66569,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64757,6 +66595,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64782,6 +66621,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64908,6 +66748,7 @@
@Override
public void onSuccess(byte[] tlv) {
Boolean value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FLIP_FLOP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64933,6 +66774,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, GENERATED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64958,6 +66800,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ACCEPTED_COMMAND_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -64983,6 +66826,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, EVENT_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -65008,6 +66852,7 @@
@Override
public void onSuccess(byte[] tlv) {
List<Long> value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, ATTRIBUTE_LIST_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -65033,6 +66878,7 @@
@Override
public void onSuccess(byte[] tlv) {
Long value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, FEATURE_MAP_ATTRIBUTE_ID, minInterval, maxInterval);
}
@@ -65058,6 +66904,7 @@
@Override
public void onSuccess(byte[] tlv) {
Integer value = ChipTLVValueDecoder.decodeAttributeValue(path, tlv);
+ callback.onSuccess(value);
}
}, CLUSTER_REVISION_ATTRIBUTE_ID, minInterval, maxInterval);
}
