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pigweed / third_party / github / project-chip / connectedhomeip / 30e24da329e95bc757aa7e8cef41317aeca660d4 / . / src / controller / python / gen / CHIPClientCallbacks.cpp
blob: 8946a0ba286c317d8286775791430234205d9d2a [file] [log] [blame]
/*
*
* Copyright (c) 2021 Project CHIP Authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// THIS FILE IS GENERATED BY ZAP
#include "gen/CHIPClientCallbacks.h"
#include "gen/enums.h"
#include <app/Command.h>
#include <app/util/CHIPDeviceCallbacksMgr.h>
#include <app/util/af-enums.h>
#include <app/util/af.h>
#include <app/util/basic-types.h>
#include <core/CHIPEncoding.h>
#include <support/SafeInt.h>
#include <support/logging/CHIPLogging.h>
using namespace ::chip;
#define CHECK_MESSAGE_LENGTH(value) \
if (!chip::CanCastTo<uint16_t>(value)) \
{ \
ChipLogError(Zcl, "CHECK_MESSAGE_LENGTH expects a uint16_t value, got: %d", value); \
if (onFailureCallback != nullptr) \
{ \
Callback::Callback<DefaultFailureCallback> * cb = \
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback); \
cb->mCall(cb->mContext, static_cast<uint8_t>(EMBER_ZCL_STATUS_INVALID_VALUE)); \
} \
return true; \
} \
\
if (messageLen < value) \
{ \
ChipLogError(Zcl, "Unexpected response length: %d", messageLen); \
if (onFailureCallback != nullptr) \
{ \
Callback::Callback<DefaultFailureCallback> * cb = \
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback); \
cb->mCall(cb->mContext, static_cast<uint8_t>(EMBER_ZCL_STATUS_INVALID_VALUE)); \
} \
return true; \
} \
\
messageLen = static_cast<uint16_t>(messageLen - static_cast<uint16_t>(value));
#define GET_RESPONSE_CALLBACKS(name) \
Callback::Cancelable * onSuccessCallback = nullptr; \
Callback::Cancelable * onFailureCallback = nullptr; \
NodeId sourceId = emberAfCurrentCommand()->source; \
uint8_t sequenceNumber = emberAfCurrentCommand()->seqNum; \
CHIP_ERROR err = gCallbacks.GetResponseCallback(sourceId, sequenceNumber, &onSuccessCallback, &onFailureCallback); \
\
if (CHIP_NO_ERROR != err) \
{ \
if (onSuccessCallback == nullptr) \
{ \
ChipLogDetail(Zcl, "%s: Missing success callback", name); \
} \
\
if (onFailureCallback == nullptr) \
{ \
ChipLogDetail(Zcl, "%s: Missing failure callback", name); \
} \
\
return true; \
}
#define GET_REPORT_CALLBACK(name) \
Callback::Cancelable * onReportCallback = nullptr; \
CHIP_ERROR err = gCallbacks.GetReportCallback(sourceId, endpointId, clusterId, attributeId, &onReportCallback); \
\
if (CHIP_NO_ERROR != err) \
{ \
if (onReportCallback == nullptr) \
{ \
ChipLogDetail(Zcl, "%s: Missing report callback", name); \
} \
\
return true; \
}
void LogStatus(uint8_t status)
{
switch (status)
{
case EMBER_ZCL_STATUS_SUCCESS:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_SUCCESS (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_FAILURE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_FAILURE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_NOT_AUTHORIZED:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_NOT_AUTHORIZED (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_MALFORMED_COMMAND:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_MALFORMED_COMMAND (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_UNSUP_COMMAND:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_UNSUP_CLUSTER_COMMAND (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_UNSUP_GENERAL_COMMAND:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_UNSUP_GENERAL_COMMAND (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_UNSUP_MANUF_CLUSTER_COMMAND:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_UNSUP_MANUF_CLUSTER_COMMAND (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_UNSUP_MANUF_GENERAL_COMMAND:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_UNSUP_MANUF_GENERAL_COMMAND (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_INVALID_FIELD:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_INVALID_FIELD (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_UNSUPPORTED_ATTRIBUTE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_UNSUPPORTED_ATTRIBUTE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_INVALID_VALUE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_INVALID_VALUE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_READ_ONLY:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_READ_ONLY (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_INSUFFICIENT_SPACE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_INSUFFICIENT_SPACE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_DUPLICATE_EXISTS:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_DUPLICATE_EXISTS (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_NOT_FOUND:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_NOT_FOUND (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_UNREPORTABLE_ATTRIBUTE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_UNREPORTABLE_ATTRIBUTE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_INVALID_DATA_TYPE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_INVALID_DATA_TYPE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_INVALID_SELECTOR:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_INVALID_SELECTOR (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_WRITE_ONLY:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_WRITE_ONLY (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_INCONSISTENT_STARTUP_STATE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_INCONSISTENT_STARTUP_STATE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_DEFINED_OUT_OF_BAND:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_DEFINED_OUT_Of_BAND (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_ACTION_DENIED:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_ACTION_DENIED (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_TIMEOUT:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_TIMEOUT (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_ABORT:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_ABORT (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_INVALID_IMAGE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_INVALID_IMAGE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_WAIT_FOR_DATA:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_WAIT_FOR_DATA (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_NO_IMAGE_AVAILABLE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_NO_IMAGE_AVAILABLE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_REQUIRE_MORE_IMAGE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_REQUIRE_MORE_IMAGE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_HARDWARE_FAILURE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_HARDWARE_FAILURE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_SOFTWARE_FAILURE:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_SOFTWARE_FAILURE (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_UNSUPPORTED_CLUSTER:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_UNSUPPORTED_CLUSTER (0x%02x)", status);
break;
case EMBER_ZCL_STATUS_LIMIT_REACHED:
ChipLogProgress(Zcl, " status: EMBER_ZCL_STATUS_LIMIT_REACHED (0x%02x)", status);
break;
default:
ChipLogError(Zcl, "Unknow status: 0x%02x", status);
break;
}
}
void LogStringAttribute(const uint8_t * string, const uint16_t length, const bool isAscii)
{
if (isAscii)
{
ChipLogProgress(Zcl, " value: %.*s", length, string);
return;
}
constexpr size_t kByteInHexLength = 3; // 2 hex digits + space
char buffer[CHIP_CONFIG_LOG_MESSAGE_MAX_SIZE] = " value: ";
char * bufferPos = buffer + strlen(buffer);
char * const bufferEnd = buffer + CHIP_CONFIG_LOG_MESSAGE_MAX_SIZE;
for (uint16_t i = 0; i < length && bufferPos + kByteInHexLength < bufferEnd; i++, bufferPos += kByteInHexLength)
{
snprintf(bufferPos, static_cast<size_t>(bufferEnd - bufferPos), "%02X ", string[i]);
}
ChipLogProgress(Zcl, "%s", buffer);
}
// Singleton instance of the callbacks manager
app::CHIPDeviceCallbacksMgr & gCallbacks = app::CHIPDeviceCallbacksMgr::GetInstance();
bool emberAfDefaultResponseCallback(ClusterId clusterId, CommandId commandId, EmberAfStatus status)
{
ChipLogProgress(Zcl, "DefaultResponse:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
ChipLogProgress(Zcl, " CommandId: 0x%02x", commandId);
LogStatus(status);
GET_RESPONSE_CALLBACKS("emberAfDefaultResponseCallback");
if (status == EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultSuccessCallback> * cb =
Callback::Callback<DefaultSuccessCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
}
else
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, static_cast<uint8_t>(status));
}
return true;
}
bool emberAfReadAttributesResponseCallback(ClusterId clusterId, uint8_t * message, uint16_t messageLen)
{
ChipLogProgress(Zcl, "ReadAttributesResponse:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
GET_RESPONSE_CALLBACKS("emberAfReadAttributesResponseCallback");
// struct readAttributeResponseRecord[]
while (messageLen)
{
CHECK_MESSAGE_LENGTH(2);
uint16_t attributeId = chip::Encoding::LittleEndian::Read16(message); // attribId
ChipLogProgress(Zcl, " attributeId: 0x%04x", attributeId);
CHECK_MESSAGE_LENGTH(1);
uint8_t status = chip::Encoding::Read8(message); // zclStatus
LogStatus(status);
if (status == EMBER_ZCL_STATUS_SUCCESS)
{
CHECK_MESSAGE_LENGTH(1);
uint8_t attributeType = chip::Encoding::Read8(message);
ChipLogProgress(Zcl, " attributeType: 0x%02x", attributeType);
switch (attributeType)
{
case 0x00: // nodata / No data
case 0x0A: // data24 / 24-bit data
case 0x0C: // data40 / 40-bit data
case 0x0D: // data48 / 48-bit data
case 0x0E: // data56 / 56-bit data
case 0x1A: // map24 / 24-bit bitmap
case 0x1C: // map40 / 40-bit bitmap
case 0x1D: // map48 / 48-bit bitmap
case 0x1E: // map56 / 56-bit bitmap
case 0x22: // uint24 / Unsigned 24-bit integer
case 0x24: // uint40 / Unsigned 40-bit integer
case 0x25: // uint48 / Unsigned 48-bit integer
case 0x26: // uint56 / Unsigned 56-bit integer
case 0x2A: // int24 / Signed 24-bit integer
case 0x2C: // int40 / Signed 40-bit integer
case 0x2D: // int48 / Signed 48-bit integer
case 0x2E: // int56 / Signed 56-bit integer
case 0x38: // semi / Semi-precision
case 0x39: // single / Single precision
case 0x3A: // double / Double precision
case 0x49: // struct / Structure
case 0x50: // set / Set
case 0x51: // bag / Bag
case 0xE0: // ToD / Time of day
{
ChipLogError(Zcl, "attributeType 0x%02x is not supported", attributeType);
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, EMBER_ZCL_STATUS_INVALID_VALUE);
return true;
}
case 0x41: // octstr / Octet string
case 0x42: // string / Character string
{
// Short Strings must contains at least one byte for the length
CHECK_MESSAGE_LENGTH(1);
uint8_t length = chip::Encoding::Read8(message);
// When the length is set to 0xFF, it represents a non-value. In this case the data field is zero length.
if (length == 0xFF)
{
length = 0;
}
CHECK_MESSAGE_LENGTH(length);
LogStringAttribute(message, length, attributeType == 0x42);
Callback::Callback<StringAttributeCallback> * cb =
Callback::Callback<StringAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, chip::ByteSpan(message, length));
break;
}
case 0x43: // octstr16 / Long octet string
case 0x44: // string16 / Long character string
{
// Long Strings must contains at least two bytes for the length
CHECK_MESSAGE_LENGTH(2);
uint16_t length = chip::Encoding::LittleEndian::Read16(message);
// When the length is set to 0xFFFF, it represents a non-value. In this case the data field is zero length.
if (length == 0xFFFF)
{
length = 0;
}
CHECK_MESSAGE_LENGTH(length);
LogStringAttribute(message, length, attributeType == 0x44);
Callback::Callback<StringAttributeCallback> * cb =
Callback::Callback<StringAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, chip::ByteSpan(message, length));
break;
}
case 0x48: // array / Array
{
CHECK_MESSAGE_LENGTH(2);
uint16_t count = chip::Encoding::LittleEndian::Read16(message);
ChipLogProgress(Zcl, " count: %lu", count);
switch (clusterId)
{
}
break;
}
case 0x08: // data8 / 8-bit data
case 0x18: // map8 / 8-bit bitmap
case 0x20: // uint8 / Unsigned 8-bit integer
case 0x30: // enum8 / 8-bit enumeration
{
CHECK_MESSAGE_LENGTH(1);
uint8_t value = chip::Encoding::Read8(message);
ChipLogProgress(Zcl, " value: 0x%02x", value);
Callback::Callback<Int8uAttributeCallback> * cb =
Callback::Callback<Int8uAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x09: // data16 / 16-bit data
case 0x19: // map16 / 16-bit bitmap
case 0x21: // uint16 / Unsigned 16-bit integer
case 0x31: // enum16 / 16-bit enumeration
case 0xE8: // clusterId / Cluster ID
case 0xE9: // attribId / Attribute ID
case 0xEA: // bacOID / BACnet OID
case 0xF1: // key128 / 128-bit security key
case 0xFF: // unk / Unknown
{
CHECK_MESSAGE_LENGTH(2);
uint16_t value = chip::Encoding::LittleEndian::Read16(message);
ChipLogProgress(Zcl, " value: 0x%04x", value);
Callback::Callback<Int16uAttributeCallback> * cb =
Callback::Callback<Int16uAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x0B: // data32 / 32-bit data
case 0x1B: // map32 / 32-bit bitmap
case 0x23: // uint32 / Unsigned 32-bit integer
case 0xE1: // date / Date
case 0xE2: // UTC / UTCTime
{
CHECK_MESSAGE_LENGTH(4);
uint32_t value = chip::Encoding::LittleEndian::Read32(message);
ChipLogProgress(Zcl, " value: 0x%08x", value);
Callback::Callback<Int32uAttributeCallback> * cb =
Callback::Callback<Int32uAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x0F: // data64 / 64-bit data
case 0x1F: // map64 / 64-bit bitmap
case 0x27: // uint64 / Unsigned 64-bit integer
case 0xF0: // EUI64 / IEEE address
{
CHECK_MESSAGE_LENGTH(8);
uint64_t value = chip::Encoding::LittleEndian::Read64(message);
ChipLogProgress(Zcl, " value: 0x%16x", value);
Callback::Callback<Int64uAttributeCallback> * cb =
Callback::Callback<Int64uAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x10: // bool / Boolean
{
CHECK_MESSAGE_LENGTH(1);
uint8_t value = chip::Encoding::Read8(message);
ChipLogProgress(Zcl, " value: %d", value);
Callback::Callback<BooleanAttributeCallback> * cb =
Callback::Callback<BooleanAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x28: // int8 / Signed 8-bit integer
{
CHECK_MESSAGE_LENGTH(1);
int8_t value = chip::CastToSigned(chip::Encoding::Read8(message));
ChipLogProgress(Zcl, " value: %" PRId8, value);
Callback::Callback<Int8sAttributeCallback> * cb =
Callback::Callback<Int8sAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x29: // int16 / Signed 16-bit integer
{
CHECK_MESSAGE_LENGTH(2);
int16_t value = chip::CastToSigned(chip::Encoding::LittleEndian::Read16(message));
ChipLogProgress(Zcl, " value: %" PRId16, value);
Callback::Callback<Int16sAttributeCallback> * cb =
Callback::Callback<Int16sAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x2B: // int32 / Signed 32-bit integer
{
CHECK_MESSAGE_LENGTH(4);
int32_t value = chip::CastToSigned(chip::Encoding::LittleEndian::Read32(message));
ChipLogProgress(Zcl, " value: %" PRId32, value);
Callback::Callback<Int32sAttributeCallback> * cb =
Callback::Callback<Int32sAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x2F: // int64 / Signed 64-bit integer
{
CHECK_MESSAGE_LENGTH(8);
int64_t value = chip::CastToSigned(chip::Encoding::LittleEndian::Read64(message));
ChipLogProgress(Zcl, " value: %" PRId64, value);
Callback::Callback<Int64sAttributeCallback> * cb =
Callback::Callback<Int64sAttributeCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, value);
break;
}
}
}
else
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
}
// The current code is written matching the current API where there is a single attribute read
// per read command. So if multiple attributes are read at the same time, something is wrong
// somewhere.
if (messageLen)
{
ChipLogError(Zcl, "Multiple attributes read at the same time. Something went wrong.");
break;
}
}
return true;
}
bool emberAfWriteAttributesResponseCallback(ClusterId clusterId, uint8_t * message, uint16_t messageLen)
{
ChipLogProgress(Zcl, "WriteAttributesResponse:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
GET_RESPONSE_CALLBACKS("emberAfWriteAttributesResponseCallback");
// struct writeAttributeResponseRecord[]
while (messageLen)
{
CHECK_MESSAGE_LENGTH(1);
uint8_t status = chip::Encoding::Read8(message); // zclStatus
LogStatus(status);
if (status == EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultSuccessCallback> * cb =
Callback::Callback<DefaultSuccessCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
}
else
{
CHECK_MESSAGE_LENGTH(2);
uint16_t attributeId = chip::Encoding::LittleEndian::Read16(message); // attribId
ChipLogProgress(Zcl, " attributeId: 0x%04x", attributeId);
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
}
// The current code is written matching the current API where there is a single attribute written
// per write command. So if multiple attributes are written at the same time, something is wrong
// somewhere.
if (messageLen)
{
ChipLogError(Zcl, "Multiple attributes written at the same time. Something went wrong.");
break;
}
}
return true;
}
bool emberAfConfigureReportingResponseCallback(ClusterId clusterId, uint8_t * message, uint16_t messageLen)
{
ChipLogProgress(Zcl, "ConfigureReportingResponseCallback:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
GET_RESPONSE_CALLBACKS("emberAfConfigureReportingResponseCallback");
// struct configureReportingResponseRecord[]
while (messageLen)
{
CHECK_MESSAGE_LENGTH(1);
uint8_t status = chip::Encoding::Read8(message); // zclStatus
LogStatus(status);
if (status == EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultSuccessCallback> * cb =
Callback::Callback<DefaultSuccessCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
}
else
{
CHECK_MESSAGE_LENGTH(1);
uint8_t direction = chip::Encoding::Read8(message); // reportingRole
ChipLogProgress(Zcl, " direction: 0x%02x", direction);
CHECK_MESSAGE_LENGTH(2);
uint16_t attributeId = chip::Encoding::LittleEndian::Read16(message); // attribId
ChipLogProgress(Zcl, " attributeId: 0x%04x", attributeId);
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
}
// The current code is written matching the current API where there is a single attribute report
// per configure command. So if multiple attributes are configured at the same time, something is wrong
// somewhere.
if (messageLen)
{
ChipLogError(Zcl, "Multiple attributes reports configured at the same time. Something went wrong.");
break;
}
}
return true;
}
bool emberAfReadReportingConfigurationResponseCallback(chip::ClusterId clusterId, uint8_t * message, uint16_t messageLen)
{
ChipLogProgress(Zcl, "ReadReportingConfigurationResponse:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
GET_RESPONSE_CALLBACKS("emberAfReadReportingConfigurationResponseCallback");
// struct readReportingConfigurationResponseRecord[]
while (messageLen)
{
CHECK_MESSAGE_LENGTH(1);
uint8_t direction = chip::Encoding::Read8(message); // reportingRole
ChipLogProgress(Zcl, " direction: 0x%02x", direction);
CHECK_MESSAGE_LENGTH(2);
uint16_t attributeId = chip::Encoding::LittleEndian::Read16(message); // attribId
ChipLogProgress(Zcl, " attributeId: 0x%04x", attributeId);
if (direction == EMBER_ZCL_REPORTING_DIRECTION_REPORTED)
{
CHECK_MESSAGE_LENGTH(1);
uint8_t attributeType = chip::Encoding::Read8(message); // zclType
ChipLogProgress(Zcl, " attributeType: 0x%02x", attributeType);
CHECK_MESSAGE_LENGTH(2);
uint16_t minimumReportingInterval = chip::Encoding::LittleEndian::Read16(message); // uint16
ChipLogProgress(Zcl, " minimumReportingInterval: %" PRIu16, minimumReportingInterval);
CHECK_MESSAGE_LENGTH(2);
uint16_t maximumReportingInterval = chip::Encoding::LittleEndian::Read16(message); // uint16
ChipLogProgress(Zcl, " maximumReportingInterval: %" PRIu16, maximumReportingInterval);
// FIXME: unk is not supported yet.
Callback::Callback<ReadReportingConfigurationReportedCallback> * cb =
Callback::Callback<ReadReportingConfigurationReportedCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, minimumReportingInterval, maximumReportingInterval);
}
else
{
CHECK_MESSAGE_LENGTH(2);
uint16_t timeout = chip::Encoding::LittleEndian::Read16(message); // uint16
ChipLogProgress(Zcl, " timeout: %" PRIu16, timeout);
Callback::Callback<ReadReportingConfigurationReceivedCallback> * cb =
Callback::Callback<ReadReportingConfigurationReceivedCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, timeout);
}
}
return true;
}
bool emberAfDiscoverAttributesResponseCallback(ClusterId clusterId, bool discoveryComplete, uint8_t * message, uint16_t messageLen,
bool extended)
{
ChipLogProgress(Zcl, "DiscoverAttributesResponse:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
ChipLogProgress(Zcl, " discoveryComplete: %d", discoveryComplete);
ChipLogProgress(Zcl, " extended: %d", extended);
GET_RESPONSE_CALLBACKS("emberAfDiscoverAttributesCallback");
// struct discoverAttributesResponseRecord[]
while (messageLen)
{
CHECK_MESSAGE_LENGTH(2);
uint16_t attributeId = chip::Encoding::LittleEndian::Read16(message); // attribId
ChipLogProgress(Zcl, " attributeId: 0x%04x", attributeId);
CHECK_MESSAGE_LENGTH(1);
uint8_t attributeType = chip::Encoding::Read8(message); // zclType
ChipLogProgress(Zcl, " attributeType: 0x%02x", attributeType);
}
Callback::Callback<DefaultSuccessCallback> * cb = Callback::Callback<DefaultSuccessCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDiscoverCommandsGeneratedResponseCallback(ClusterId clusterId, uint16_t manufacturerCode, bool discoveryComplete,
CommandId * commandIds, uint16_t commandIdCount)
{
ChipLogProgress(Zcl, "DiscoverCommandsGeneratedResponse:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
ChipLogProgress(Zcl, " manufacturerCode: 0x%04x", manufacturerCode);
ChipLogProgress(Zcl, " discoveryComplete: %d", discoveryComplete);
ChipLogProgress(Zcl, " commandIdCount: %" PRIu16, commandIdCount);
for (uint16_t i = 0; i < commandIdCount; i++)
{
ChipLogProgress(Zcl, " commandId: 0x%02x", commandIds++);
}
GET_RESPONSE_CALLBACKS("emberAfDiscoverCommandsGeneratedResponseCallback");
Callback::Callback<DefaultSuccessCallback> * cb = Callback::Callback<DefaultSuccessCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDiscoverCommandsReceivedResponseCallback(ClusterId clusterId, uint16_t manufacturerCode, bool discoveryComplete,
CommandId * commandIds, uint16_t commandIdCount)
{
ChipLogProgress(Zcl, "DiscoverCommandsReceivedResponse:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
ChipLogProgress(Zcl, " manufacturerCode: 0x%04x", manufacturerCode);
ChipLogProgress(Zcl, " discoveryComplete: %d", discoveryComplete);
ChipLogProgress(Zcl, " commandIdCount: %" PRIu16, commandIdCount);
for (uint16_t i = 0; i < commandIdCount; i++)
{
ChipLogProgress(Zcl, " commandId: 0x%02x", commandIds++);
}
GET_RESPONSE_CALLBACKS("emberAfDiscoverCommandsGeneratedResponseCallback");
Callback::Callback<DefaultSuccessCallback> * cb = Callback::Callback<DefaultSuccessCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterClearAllPinsResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "ClearAllPinsResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterClearAllPinsResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterClearAllPinsResponseCallback> * cb =
Callback::Callback<DoorLockClusterClearAllPinsResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterClearAllRfidsResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "ClearAllRfidsResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterClearAllRfidsResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterClearAllRfidsResponseCallback> * cb =
Callback::Callback<DoorLockClusterClearAllRfidsResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterClearHolidayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "ClearHolidayScheduleResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterClearHolidayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterClearHolidayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterClearHolidayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterClearPinResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "ClearPinResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterClearPinResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterClearPinResponseCallback> * cb =
Callback::Callback<DoorLockClusterClearPinResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterClearRfidResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "ClearRfidResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterClearRfidResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterClearRfidResponseCallback> * cb =
Callback::Callback<DoorLockClusterClearRfidResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterClearWeekdayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "ClearWeekdayScheduleResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterClearWeekdayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterClearWeekdayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterClearWeekdayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterClearYeardayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "ClearYeardayScheduleResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterClearYeardayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterClearYeardayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterClearYeardayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterGetHolidayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t scheduleId, uint8_t status,
uint32_t localStartTime, uint32_t localEndTime,
uint8_t operatingModeDuringHoliday)
{
ChipLogProgress(Zcl, "GetHolidayScheduleResponse:");
ChipLogProgress(Zcl, " scheduleId: %" PRIu8 "", scheduleId);
LogStatus(status);
ChipLogProgress(Zcl, " localStartTime: %" PRIu32 "", localStartTime);
ChipLogProgress(Zcl, " localEndTime: %" PRIu32 "", localEndTime);
ChipLogProgress(Zcl, " operatingModeDuringHoliday: %" PRIu8 "", operatingModeDuringHoliday);
GET_RESPONSE_CALLBACKS("DoorLockClusterGetHolidayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterGetHolidayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterGetHolidayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, scheduleId, localStartTime, localEndTime, operatingModeDuringHoliday);
return true;
}
bool emberAfDoorLockClusterGetLogRecordResponseCallback(chip::app::Command * commandObj, uint16_t logEntryId, uint32_t timestamp,
uint8_t eventType, uint8_t source, uint8_t eventIdOrAlarmCode,
uint16_t userId, uint8_t * pin)
{
ChipLogProgress(Zcl, "GetLogRecordResponse:");
ChipLogProgress(Zcl, " logEntryId: %" PRIu16 "", logEntryId);
ChipLogProgress(Zcl, " timestamp: %" PRIu32 "", timestamp);
ChipLogProgress(Zcl, " eventType: %" PRIu8 "", eventType);
ChipLogProgress(Zcl, " source: %" PRIu8 "", source);
ChipLogProgress(Zcl, " eventIdOrAlarmCode: %" PRIu8 "", eventIdOrAlarmCode);
ChipLogProgress(Zcl, " userId: %" PRIu16 "", userId);
ChipLogProgress(Zcl, " pin: %s", pin);
GET_RESPONSE_CALLBACKS("DoorLockClusterGetLogRecordResponseCallback");
Callback::Callback<DoorLockClusterGetLogRecordResponseCallback> * cb =
Callback::Callback<DoorLockClusterGetLogRecordResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, logEntryId, timestamp, eventType, source, eventIdOrAlarmCode, userId, pin);
return true;
}
bool emberAfDoorLockClusterGetPinResponseCallback(chip::app::Command * commandObj, uint16_t userId, uint8_t userStatus,
uint8_t userType, uint8_t * pin)
{
ChipLogProgress(Zcl, "GetPinResponse:");
ChipLogProgress(Zcl, " userId: %" PRIu16 "", userId);
ChipLogProgress(Zcl, " userStatus: %" PRIu8 "", userStatus);
ChipLogProgress(Zcl, " userType: %" PRIu8 "", userType);
ChipLogProgress(Zcl, " pin: %s", pin);
GET_RESPONSE_CALLBACKS("DoorLockClusterGetPinResponseCallback");
Callback::Callback<DoorLockClusterGetPinResponseCallback> * cb =
Callback::Callback<DoorLockClusterGetPinResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, userId, userStatus, userType, pin);
return true;
}
bool emberAfDoorLockClusterGetRfidResponseCallback(chip::app::Command * commandObj, uint16_t userId, uint8_t userStatus,
uint8_t userType, uint8_t * rfid)
{
ChipLogProgress(Zcl, "GetRfidResponse:");
ChipLogProgress(Zcl, " userId: %" PRIu16 "", userId);
ChipLogProgress(Zcl, " userStatus: %" PRIu8 "", userStatus);
ChipLogProgress(Zcl, " userType: %" PRIu8 "", userType);
ChipLogProgress(Zcl, " rfid: %s", rfid);
GET_RESPONSE_CALLBACKS("DoorLockClusterGetRfidResponseCallback");
Callback::Callback<DoorLockClusterGetRfidResponseCallback> * cb =
Callback::Callback<DoorLockClusterGetRfidResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, userId, userStatus, userType, rfid);
return true;
}
bool emberAfDoorLockClusterGetUserTypeResponseCallback(chip::app::Command * commandObj, uint16_t userId, uint8_t userType)
{
ChipLogProgress(Zcl, "GetUserTypeResponse:");
ChipLogProgress(Zcl, " userId: %" PRIu16 "", userId);
ChipLogProgress(Zcl, " userType: %" PRIu8 "", userType);
GET_RESPONSE_CALLBACKS("DoorLockClusterGetUserTypeResponseCallback");
Callback::Callback<DoorLockClusterGetUserTypeResponseCallback> * cb =
Callback::Callback<DoorLockClusterGetUserTypeResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, userId, userType);
return true;
}
bool emberAfDoorLockClusterGetWeekdayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t scheduleId, uint16_t userId,
uint8_t status, uint8_t daysMask, uint8_t startHour,
uint8_t startMinute, uint8_t endHour, uint8_t endMinute)
{
ChipLogProgress(Zcl, "GetWeekdayScheduleResponse:");
ChipLogProgress(Zcl, " scheduleId: %" PRIu8 "", scheduleId);
ChipLogProgress(Zcl, " userId: %" PRIu16 "", userId);
LogStatus(status);
ChipLogProgress(Zcl, " daysMask: %" PRIu8 "", daysMask);
ChipLogProgress(Zcl, " startHour: %" PRIu8 "", startHour);
ChipLogProgress(Zcl, " startMinute: %" PRIu8 "", startMinute);
ChipLogProgress(Zcl, " endHour: %" PRIu8 "", endHour);
ChipLogProgress(Zcl, " endMinute: %" PRIu8 "", endMinute);
GET_RESPONSE_CALLBACKS("DoorLockClusterGetWeekdayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterGetWeekdayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterGetWeekdayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, scheduleId, userId, daysMask, startHour, startMinute, endHour, endMinute);
return true;
}
bool emberAfDoorLockClusterGetYeardayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t scheduleId, uint16_t userId,
uint8_t status, uint32_t localStartTime, uint32_t localEndTime)
{
ChipLogProgress(Zcl, "GetYeardayScheduleResponse:");
ChipLogProgress(Zcl, " scheduleId: %" PRIu8 "", scheduleId);
ChipLogProgress(Zcl, " userId: %" PRIu16 "", userId);
LogStatus(status);
ChipLogProgress(Zcl, " localStartTime: %" PRIu32 "", localStartTime);
ChipLogProgress(Zcl, " localEndTime: %" PRIu32 "", localEndTime);
GET_RESPONSE_CALLBACKS("DoorLockClusterGetYeardayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterGetYeardayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterGetYeardayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, scheduleId, userId, localStartTime, localEndTime);
return true;
}
bool emberAfDoorLockClusterLockDoorResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "LockDoorResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterLockDoorResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterLockDoorResponseCallback> * cb =
Callback::Callback<DoorLockClusterLockDoorResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterSetHolidayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "SetHolidayScheduleResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterSetHolidayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterSetHolidayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterSetHolidayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterSetPinResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "SetPinResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterSetPinResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterSetPinResponseCallback> * cb =
Callback::Callback<DoorLockClusterSetPinResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterSetRfidResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "SetRfidResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterSetRfidResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterSetRfidResponseCallback> * cb =
Callback::Callback<DoorLockClusterSetRfidResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterSetUserTypeResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "SetUserTypeResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterSetUserTypeResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterSetUserTypeResponseCallback> * cb =
Callback::Callback<DoorLockClusterSetUserTypeResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterSetWeekdayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "SetWeekdayScheduleResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterSetWeekdayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterSetWeekdayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterSetWeekdayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterSetYeardayScheduleResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "SetYeardayScheduleResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterSetYeardayScheduleResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterSetYeardayScheduleResponseCallback> * cb =
Callback::Callback<DoorLockClusterSetYeardayScheduleResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterUnlockDoorResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "UnlockDoorResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterUnlockDoorResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterUnlockDoorResponseCallback> * cb =
Callback::Callback<DoorLockClusterUnlockDoorResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfDoorLockClusterUnlockWithTimeoutResponseCallback(chip::app::Command * commandObj, uint8_t status)
{
ChipLogProgress(Zcl, "UnlockWithTimeoutResponse:");
LogStatus(status);
GET_RESPONSE_CALLBACKS("DoorLockClusterUnlockWithTimeoutResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<DoorLockClusterUnlockWithTimeoutResponseCallback> * cb =
Callback::Callback<DoorLockClusterUnlockWithTimeoutResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext);
return true;
}
bool emberAfGeneralCommissioningClusterArmFailSafeResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "ArmFailSafeResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("GeneralCommissioningClusterArmFailSafeResponseCallback");
Callback::Callback<GeneralCommissioningClusterArmFailSafeResponseCallback> * cb =
Callback::Callback<GeneralCommissioningClusterArmFailSafeResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfGeneralCommissioningClusterSetRegulatoryConfigResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "SetRegulatoryConfigResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("GeneralCommissioningClusterSetRegulatoryConfigResponseCallback");
Callback::Callback<GeneralCommissioningClusterSetRegulatoryConfigResponseCallback> * cb =
Callback::Callback<GeneralCommissioningClusterSetRegulatoryConfigResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfGroupsClusterAddGroupResponseCallback(chip::app::Command * commandObj, uint8_t status, uint16_t groupId)
{
ChipLogProgress(Zcl, "AddGroupResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
GET_RESPONSE_CALLBACKS("GroupsClusterAddGroupResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<GroupsClusterAddGroupResponseCallback> * cb =
Callback::Callback<GroupsClusterAddGroupResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, groupId);
return true;
}
bool emberAfGroupsClusterGetGroupMembershipResponseCallback(chip::app::Command * commandObj, uint8_t capacity, uint8_t groupCount,
/* TYPE WARNING: array array defaults to */ uint8_t * groupList)
{
ChipLogProgress(Zcl, "GetGroupMembershipResponse:");
ChipLogProgress(Zcl, " capacity: %" PRIu8 "", capacity);
ChipLogProgress(Zcl, " groupCount: %" PRIu8 "", groupCount);
ChipLogProgress(Zcl, " groupList: %p", groupList);
GET_RESPONSE_CALLBACKS("GroupsClusterGetGroupMembershipResponseCallback");
Callback::Callback<GroupsClusterGetGroupMembershipResponseCallback> * cb =
Callback::Callback<GroupsClusterGetGroupMembershipResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, capacity, groupCount, groupList);
return true;
}
bool emberAfGroupsClusterRemoveGroupResponseCallback(chip::app::Command * commandObj, uint8_t status, uint16_t groupId)
{
ChipLogProgress(Zcl, "RemoveGroupResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
GET_RESPONSE_CALLBACKS("GroupsClusterRemoveGroupResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<GroupsClusterRemoveGroupResponseCallback> * cb =
Callback::Callback<GroupsClusterRemoveGroupResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, groupId);
return true;
}
bool emberAfGroupsClusterViewGroupResponseCallback(chip::app::Command * commandObj, uint8_t status, uint16_t groupId,
uint8_t * groupName)
{
ChipLogProgress(Zcl, "ViewGroupResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
ChipLogProgress(Zcl, " groupName: %s", groupName);
GET_RESPONSE_CALLBACKS("GroupsClusterViewGroupResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<GroupsClusterViewGroupResponseCallback> * cb =
Callback::Callback<GroupsClusterViewGroupResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, groupId, groupName);
return true;
}
bool emberAfIdentifyClusterIdentifyQueryResponseCallback(chip::app::Command * commandObj, uint16_t timeout)
{
ChipLogProgress(Zcl, "IdentifyQueryResponse:");
ChipLogProgress(Zcl, " timeout: %" PRIu16 "", timeout);
GET_RESPONSE_CALLBACKS("IdentifyClusterIdentifyQueryResponseCallback");
Callback::Callback<IdentifyClusterIdentifyQueryResponseCallback> * cb =
Callback::Callback<IdentifyClusterIdentifyQueryResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, timeout);
return true;
}
bool emberAfNetworkCommissioningClusterAddThreadNetworkResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "AddThreadNetworkResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("NetworkCommissioningClusterAddThreadNetworkResponseCallback");
Callback::Callback<NetworkCommissioningClusterAddThreadNetworkResponseCallback> * cb =
Callback::Callback<NetworkCommissioningClusterAddThreadNetworkResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfNetworkCommissioningClusterAddWiFiNetworkResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "AddWiFiNetworkResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("NetworkCommissioningClusterAddWiFiNetworkResponseCallback");
Callback::Callback<NetworkCommissioningClusterAddWiFiNetworkResponseCallback> * cb =
Callback::Callback<NetworkCommissioningClusterAddWiFiNetworkResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfNetworkCommissioningClusterDisableNetworkResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "DisableNetworkResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("NetworkCommissioningClusterDisableNetworkResponseCallback");
Callback::Callback<NetworkCommissioningClusterDisableNetworkResponseCallback> * cb =
Callback::Callback<NetworkCommissioningClusterDisableNetworkResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfNetworkCommissioningClusterEnableNetworkResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "EnableNetworkResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("NetworkCommissioningClusterEnableNetworkResponseCallback");
Callback::Callback<NetworkCommissioningClusterEnableNetworkResponseCallback> * cb =
Callback::Callback<NetworkCommissioningClusterEnableNetworkResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfNetworkCommissioningClusterRemoveNetworkResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "RemoveNetworkResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("NetworkCommissioningClusterRemoveNetworkResponseCallback");
Callback::Callback<NetworkCommissioningClusterRemoveNetworkResponseCallback> * cb =
Callback::Callback<NetworkCommissioningClusterRemoveNetworkResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfNetworkCommissioningClusterScanNetworksResponseCallback(
chip::app::Command * commandObj, uint8_t errorCode, uint8_t * debugText,
/* TYPE WARNING: array array defaults to */ uint8_t * wifiScanResults,
/* TYPE WARNING: array array defaults to */ uint8_t * threadScanResults)
{
ChipLogProgress(Zcl, "ScanNetworksResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
ChipLogProgress(Zcl, " wifiScanResults: %p", wifiScanResults);
ChipLogProgress(Zcl, " threadScanResults: %p", threadScanResults);
GET_RESPONSE_CALLBACKS("NetworkCommissioningClusterScanNetworksResponseCallback");
Callback::Callback<NetworkCommissioningClusterScanNetworksResponseCallback> * cb =
Callback::Callback<NetworkCommissioningClusterScanNetworksResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText, wifiScanResults, threadScanResults);
return true;
}
bool emberAfNetworkCommissioningClusterUpdateThreadNetworkResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "UpdateThreadNetworkResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("NetworkCommissioningClusterUpdateThreadNetworkResponseCallback");
Callback::Callback<NetworkCommissioningClusterUpdateThreadNetworkResponseCallback> * cb =
Callback::Callback<NetworkCommissioningClusterUpdateThreadNetworkResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfNetworkCommissioningClusterUpdateWiFiNetworkResponseCallback(chip::app::Command * commandObj, uint8_t errorCode,
uint8_t * debugText)
{
ChipLogProgress(Zcl, "UpdateWiFiNetworkResponse:");
ChipLogProgress(Zcl, " errorCode: %" PRIu8 "", errorCode);
ChipLogProgress(Zcl, " debugText: %s", debugText);
GET_RESPONSE_CALLBACKS("NetworkCommissioningClusterUpdateWiFiNetworkResponseCallback");
Callback::Callback<NetworkCommissioningClusterUpdateWiFiNetworkResponseCallback> * cb =
Callback::Callback<NetworkCommissioningClusterUpdateWiFiNetworkResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, errorCode, debugText);
return true;
}
bool emberAfScenesClusterAddSceneResponseCallback(chip::app::Command * commandObj, uint8_t status, uint16_t groupId,
uint8_t sceneId)
{
ChipLogProgress(Zcl, "AddSceneResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
ChipLogProgress(Zcl, " sceneId: %" PRIu8 "", sceneId);
GET_RESPONSE_CALLBACKS("ScenesClusterAddSceneResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<ScenesClusterAddSceneResponseCallback> * cb =
Callback::Callback<ScenesClusterAddSceneResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, groupId, sceneId);
return true;
}
bool emberAfScenesClusterGetSceneMembershipResponseCallback(chip::app::Command * commandObj, uint8_t status, uint8_t capacity,
uint16_t groupId, uint8_t sceneCount,
/* TYPE WARNING: array array defaults to */ uint8_t * sceneList)
{
ChipLogProgress(Zcl, "GetSceneMembershipResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " capacity: %" PRIu8 "", capacity);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
ChipLogProgress(Zcl, " sceneCount: %" PRIu8 "", sceneCount);
ChipLogProgress(Zcl, " sceneList: %p", sceneList);
GET_RESPONSE_CALLBACKS("ScenesClusterGetSceneMembershipResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<ScenesClusterGetSceneMembershipResponseCallback> * cb =
Callback::Callback<ScenesClusterGetSceneMembershipResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, capacity, groupId, sceneCount, sceneList);
return true;
}
bool emberAfScenesClusterRemoveAllScenesResponseCallback(chip::app::Command * commandObj, uint8_t status, uint16_t groupId)
{
ChipLogProgress(Zcl, "RemoveAllScenesResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
GET_RESPONSE_CALLBACKS("ScenesClusterRemoveAllScenesResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<ScenesClusterRemoveAllScenesResponseCallback> * cb =
Callback::Callback<ScenesClusterRemoveAllScenesResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, groupId);
return true;
}
bool emberAfScenesClusterRemoveSceneResponseCallback(chip::app::Command * commandObj, uint8_t status, uint16_t groupId,
uint8_t sceneId)
{
ChipLogProgress(Zcl, "RemoveSceneResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
ChipLogProgress(Zcl, " sceneId: %" PRIu8 "", sceneId);
GET_RESPONSE_CALLBACKS("ScenesClusterRemoveSceneResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<ScenesClusterRemoveSceneResponseCallback> * cb =
Callback::Callback<ScenesClusterRemoveSceneResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, groupId, sceneId);
return true;
}
bool emberAfScenesClusterStoreSceneResponseCallback(chip::app::Command * commandObj, uint8_t status, uint16_t groupId,
uint8_t sceneId)
{
ChipLogProgress(Zcl, "StoreSceneResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
ChipLogProgress(Zcl, " sceneId: %" PRIu8 "", sceneId);
GET_RESPONSE_CALLBACKS("ScenesClusterStoreSceneResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<ScenesClusterStoreSceneResponseCallback> * cb =
Callback::Callback<ScenesClusterStoreSceneResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, groupId, sceneId);
return true;
}
bool emberAfScenesClusterViewSceneResponseCallback(chip::app::Command * commandObj, uint8_t status, uint16_t groupId,
uint8_t sceneId, uint16_t transitionTime, uint8_t * sceneName,
/* TYPE WARNING: array array defaults to */ uint8_t * extensionFieldSets)
{
ChipLogProgress(Zcl, "ViewSceneResponse:");
LogStatus(status);
ChipLogProgress(Zcl, " groupId: %" PRIu16 "", groupId);
ChipLogProgress(Zcl, " sceneId: %" PRIu8 "", sceneId);
ChipLogProgress(Zcl, " transitionTime: %" PRIu16 "", transitionTime);
ChipLogProgress(Zcl, " sceneName: %s", sceneName);
ChipLogProgress(Zcl, " extensionFieldSets: %p", extensionFieldSets);
GET_RESPONSE_CALLBACKS("ScenesClusterViewSceneResponseCallback");
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
Callback::Callback<DefaultFailureCallback> * cb =
Callback::Callback<DefaultFailureCallback>::FromCancelable(onFailureCallback);
cb->mCall(cb->mContext, status);
return true;
}
Callback::Callback<ScenesClusterViewSceneResponseCallback> * cb =
Callback::Callback<ScenesClusterViewSceneResponseCallback>::FromCancelable(onSuccessCallback);
cb->mCall(cb->mContext, groupId, sceneId, transitionTime, sceneName, extensionFieldSets);
return true;
}
bool emberAfReportAttributesCallback(ClusterId clusterId, uint8_t * message, uint16_t messageLen)
{
ChipLogProgress(Zcl, "emberAfReportAttributeCallback:");
ChipLogProgress(Zcl, " ClusterId: 0x%04x", clusterId);
NodeId sourceId = emberAfCurrentCommand()->source;
ChipLogProgress(Zcl, " Source NodeId: %" PRIu64, sourceId);
EndpointId endpointId = emberAfCurrentCommand()->apsFrame->sourceEndpoint;
ChipLogProgress(Zcl, " Source EndpointId: 0x%04x", endpointId);
// TODO onFailureCallback is just here because of the CHECK_MESSAGE_LENGTH macro. It needs to be removed.
Callback::Cancelable * onFailureCallback = nullptr;
while (messageLen)
{
CHECK_MESSAGE_LENGTH(2);
uint16_t attributeId = chip::Encoding::LittleEndian::Read16(message); // attribId
ChipLogProgress(Zcl, " attributeId: 0x%04x", attributeId);
GET_REPORT_CALLBACK("emberAfReportAttributesCallback");
CHECK_MESSAGE_LENGTH(1);
uint8_t attributeType = chip::Encoding::Read8(message);
ChipLogProgress(Zcl, " attributeType: 0x%02x", attributeType);
switch (attributeType)
{
case 0x00: // nodata / No data
case 0x0A: // data24 / 24-bit data
case 0x0C: // data40 / 40-bit data
case 0x0D: // data48 / 48-bit data
case 0x0E: // data56 / 56-bit data
case 0x1A: // map24 / 24-bit bitmap
case 0x1C: // map40 / 40-bit bitmap
case 0x1D: // map48 / 48-bit bitmap
case 0x1E: // map56 / 56-bit bitmap
case 0x22: // uint24 / Unsigned 24-bit integer
case 0x24: // uint40 / Unsigned 40-bit integer
case 0x25: // uint48 / Unsigned 48-bit integer
case 0x26: // uint56 / Unsigned 56-bit integer
case 0x2A: // int24 / Signed 24-bit integer
case 0x2C: // int40 / Signed 40-bit integer
case 0x2D: // int48 / Signed 48-bit integer
case 0x2E: // int56 / Signed 56-bit integer
case 0x38: // semi / Semi-precision
case 0x39: // single / Single precision
case 0x3A: // double / Double precision
case 0x48: // array / Array
case 0x49: // struct / Structure
case 0x50: // set / Set
case 0x51: // bag / Bag
case 0xE0: // ToD / Time of day
{
ChipLogError(Zcl, "attributeType 0x%02x is not supported", attributeType);
return true;
}
case 0x41: // octstr / Octet string
case 0x42: // string / Character string
{
// Short Strings must contains at least one byte for the length
CHECK_MESSAGE_LENGTH(1);
uint8_t length = chip::Encoding::Read8(message);
ChipLogProgress(Zcl, " length: 0x%02x", length);
// When the length is set to 0xFF, it represents a non-value. In this case the data field is zero length.
if (length == 0xFF)
{
length = 0;
}
CHECK_MESSAGE_LENGTH(length);
Callback::Callback<StringAttributeCallback> * cb =
Callback::Callback<StringAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, chip::ByteSpan(message, length));
break;
}
case 0x43: // octstr16 / Long octet string
case 0x44: // string16 / Long character string
{
// Long Strings must contains at least two bytes for the length
CHECK_MESSAGE_LENGTH(2);
uint16_t length = chip::Encoding::LittleEndian::Read16(message);
ChipLogProgress(Zcl, " length: 0x%02x", length);
// When the length is set to 0xFFFF, it represents a non-value. In this case the data field is zero length.
if (length == 0xFFFF)
{
length = 0;
}
CHECK_MESSAGE_LENGTH(length);
Callback::Callback<StringAttributeCallback> * cb =
Callback::Callback<StringAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, chip::ByteSpan(message, length));
break;
}
case 0x08: // data8 / 8-bit data
case 0x18: // map8 / 8-bit bitmap
case 0x20: // uint8 / Unsigned 8-bit integer
case 0x30: // enum8 / 8-bit enumeration
{
CHECK_MESSAGE_LENGTH(1);
uint8_t value = chip::Encoding::Read8(message);
ChipLogProgress(Zcl, " value: 0x%02x", value);
Callback::Callback<Int8uAttributeCallback> * cb =
Callback::Callback<Int8uAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x09: // data16 / 16-bit data
case 0x19: // map16 / 16-bit bitmap
case 0x21: // uint16 / Unsigned 16-bit integer
case 0x31: // enum16 / 16-bit enumeration
case 0xE8: // clusterId / Cluster ID
case 0xE9: // attribId / Attribute ID
case 0xEA: // bacOID / BACnet OID
case 0xF1: // key128 / 128-bit security key
case 0xFF: // unk / Unknown
{
CHECK_MESSAGE_LENGTH(2);
uint16_t value = chip::Encoding::LittleEndian::Read16(message);
ChipLogProgress(Zcl, " value: 0x%04x", value);
Callback::Callback<Int16uAttributeCallback> * cb =
Callback::Callback<Int16uAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x0B: // data32 / 32-bit data
case 0x1B: // map32 / 32-bit bitmap
case 0x23: // uint32 / Unsigned 32-bit integer
case 0xE1: // date / Date
case 0xE2: // UTC / UTCTime
{
CHECK_MESSAGE_LENGTH(4);
uint32_t value = chip::Encoding::LittleEndian::Read32(message);
ChipLogProgress(Zcl, " value: 0x%08x", value);
Callback::Callback<Int32uAttributeCallback> * cb =
Callback::Callback<Int32uAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x0F: // data64 / 64-bit data
case 0x1F: // map64 / 64-bit bitmap
case 0x27: // uint64 / Unsigned 64-bit integer
case 0xF0: // EUI64 / IEEE address
{
CHECK_MESSAGE_LENGTH(8);
uint64_t value = chip::Encoding::LittleEndian::Read64(message);
ChipLogProgress(Zcl, " value: 0x%16x", value);
Callback::Callback<Int64uAttributeCallback> * cb =
Callback::Callback<Int64uAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x10: // bool / Boolean
{
CHECK_MESSAGE_LENGTH(1);
uint8_t value = chip::Encoding::Read8(message);
ChipLogProgress(Zcl, " value: %d", value);
Callback::Callback<BooleanAttributeCallback> * cb =
Callback::Callback<BooleanAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x28: // int8 / Signed 8-bit integer
{
CHECK_MESSAGE_LENGTH(1);
int8_t value = chip::CastToSigned(chip::Encoding::Read8(message));
ChipLogProgress(Zcl, " value: %" PRId8, value);
Callback::Callback<Int8sAttributeCallback> * cb =
Callback::Callback<Int8sAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x29: // int16 / Signed 16-bit integer
{
CHECK_MESSAGE_LENGTH(2);
int16_t value = chip::CastToSigned(chip::Encoding::LittleEndian::Read16(message));
ChipLogProgress(Zcl, " value: %" PRId16, value);
Callback::Callback<Int16sAttributeCallback> * cb =
Callback::Callback<Int16sAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x2B: // int32 / Signed 32-bit integer
{
CHECK_MESSAGE_LENGTH(4);
int32_t value = chip::CastToSigned(chip::Encoding::LittleEndian::Read32(message));
ChipLogProgress(Zcl, " value: %" PRId32, value);
Callback::Callback<Int32sAttributeCallback> * cb =
Callback::Callback<Int32sAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
case 0x2F: // int64 / Signed 64-bit integer
{
CHECK_MESSAGE_LENGTH(8);
int64_t value = chip::CastToSigned(chip::Encoding::LittleEndian::Read64(message));
ChipLogProgress(Zcl, " value: %" PRId64, value);
Callback::Callback<Int64sAttributeCallback> * cb =
Callback::Callback<Int64sAttributeCallback>::FromCancelable(onReportCallback);
cb->mCall(cb->mContext, value);
break;
}
}
}
return true;
}