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/**
*
* Copyright (c) 2020-2021 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.
*/
#include "app/util/common.h"
#include <app-common/zap-generated/attribute-type.h>
#include <app-common/zap-generated/attributes/Accessors.h>
#include <app-common/zap-generated/ids/Clusters.h>
#include <app-common/zap-generated/print-cluster.h>
#include <app/util/af.h>
#include <app/util/config.h>
#include <app/util/generic-callbacks.h>
// TODO: figure out a clear path for compile-time codegen
#include <app/PluginApplicationCallbacks.h>
#ifdef EMBER_AF_PLUGIN_GROUPS_SERVER
#include <app/clusters/groups-server/groups-server.h>
#endif // EMBER_AF_PLUGIN_GROUPS_SERVER
using namespace chip;
//------------------------------------------------------------------------------
// Forward Declarations
//------------------------------------------------------------------------------
// Globals
const EmberAfClusterName zclClusterNames[] = {
CLUSTER_IDS_TO_NAMES // defined in print-cluster.h
{ kInvalidClusterId, nullptr }, // terminator
};
#ifdef EMBER_AF_GENERATED_PLUGIN_TICK_FUNCTION_DECLARATIONS
EMBER_AF_GENERATED_PLUGIN_TICK_FUNCTION_DECLARATIONS
#endif
//------------------------------------------------------------------------------
// Is the device identifying?
bool emberAfIsDeviceIdentifying(EndpointId endpoint)
{
#ifdef ZCL_USING_IDENTIFY_CLUSTER_SERVER
uint16_t identifyTime;
EmberAfStatus status = app::Clusters::Identify::Attributes::IdentifyTime::Get(endpoint, &identifyTime);
return (status == EMBER_ZCL_STATUS_SUCCESS && 0 < identifyTime);
#else
return false;
#endif
}
// Calculates difference. See EmberAfDifferenceType for the maximum data size
// that this function will support.
EmberAfDifferenceType emberAfGetDifference(uint8_t * pData, EmberAfDifferenceType value, uint8_t dataSize)
{
EmberAfDifferenceType value2 = 0, diff;
uint8_t i;
// only support data types up to 8 bytes
if (dataSize > sizeof(EmberAfDifferenceType))
{
return 0;
}
// get the value
for (i = 0; i < dataSize; i++)
{
value2 = value2 << 8;
#if (BIGENDIAN_CPU)
value2 += pData[i];
#else // BIGENDIAN
value2 += pData[dataSize - i - 1];
#endif // BIGENDIAN
}
if (value > value2)
{
diff = value - value2;
}
else
{
diff = value2 - value;
}
return diff;
}
// ****************************************
// Initialize Clusters
// ****************************************
void emberAfInit()
{
emberAfInitializeAttributes(EMBER_BROADCAST_ENDPOINT);
MATTER_PLUGINS_INIT
emAfCallInits();
}
// Cluster init functions that don't have a cluster implementation to define
// them in.
void MatterBallastConfigurationPluginServerInitCallback() {}
void MatterBooleanStatePluginServerInitCallback() {}
void MatterElectricalMeasurementPluginServerInitCallback() {}
void MatterRelativeHumidityMeasurementPluginServerInitCallback() {}
void MatterIlluminanceMeasurementPluginServerInitCallback() {}
void MatterBinaryInputBasicPluginServerInitCallback() {}
void MatterPressureMeasurementPluginServerInitCallback() {}
void MatterTemperatureMeasurementPluginServerInitCallback() {}
void MatterFlowMeasurementPluginServerInitCallback() {}
void MatterOnOffSwitchConfigurationPluginServerInitCallback() {}
void MatterThermostatUserInterfaceConfigurationPluginServerInitCallback() {}
void MatterBridgedDeviceBasicInformationPluginServerInitCallback() {}
void MatterPowerConfigurationPluginServerInitCallback() {}
void MatterPowerProfilePluginServerInitCallback() {}
void MatterPulseWidthModulationPluginServerInitCallback() {}
void MatterAlarmsPluginServerInitCallback() {}
void MatterTimePluginServerInitCallback() {}
void MatterAclPluginServerInitCallback() {}
void MatterPollControlPluginServerInitCallback() {}
void MatterUnitLocalizationPluginServerInitCallback() {}
void MatterTimeSynchronizationPluginServerInitCallback() {}
void MatterProxyValidPluginServerInitCallback() {}
void MatterProxyDiscoveryPluginServerInitCallback() {}
void MatterProxyConfigurationPluginServerInitCallback() {}
void MatterFanControlPluginServerInitCallback() {}
void MatterActivatedCarbonFilterMonitoringPluginServerInitCallback() {}
void MatterCeramicFilterMonitoringPluginServerInitCallback() {}
void MatterElectrostaticFilterMonitoringPluginServerInitCallback() {}
void MatterFuelTankMonitoringPluginServerInitCallback() {}
void MatterHepaFilterMonitoringPluginServerInitCallback() {}
void MatterInkCartridgeMonitoringPluginServerInitCallback() {}
void MatterIonizingFilterMonitoringPluginServerInitCallback() {}
void MatterOzoneFilterMonitoringPluginServerInitCallback() {}
void MatterTonerCartridgeMonitoringPluginServerInitCallback() {}
void MatterUvFilterMonitoringPluginServerInitCallback() {}
void MatterWaterTankMonitoringPluginServerInitCallback() {}
void MatterZeoliteFilterMonitoringPluginServerInitCallback() {}
void MatterAirQualityPluginServerInitCallback() {}
void MatterCarbonMonoxideConcentrationMeasurementPluginServerInitCallback() {}
void MatterCarbonDioxideConcentrationMeasurementPluginServerInitCallback() {}
void MatterFormaldehydeConcentrationMeasurementPluginServerInitCallback() {}
void MatterNitrogenDioxideConcentrationMeasurementPluginServerInitCallback() {}
void MatterOzoneConcentrationMeasurementPluginServerInitCallback() {}
void MatterPm10ConcentrationMeasurementPluginServerInitCallback() {}
void MatterPm1ConcentrationMeasurementPluginServerInitCallback() {}
void MatterPm25ConcentrationMeasurementPluginServerInitCallback() {}
void MatterRadonConcentrationMeasurementPluginServerInitCallback() {}
void MatterTotalVolatileOrganicCompoundsConcentrationMeasurementPluginServerInitCallback() {}
// ****************************************
// Print out information about each cluster
// ****************************************
uint16_t emberAfFindClusterNameIndex(ClusterId cluster)
{
static_assert(sizeof(ClusterId) == 4, "May need to adjust our index type or somehow define it in terms of cluster id type");
uint16_t index = 0;
while (zclClusterNames[index].id != kInvalidClusterId)
{
if (zclClusterNames[index].id == cluster)
{
return index;
}
index++;
}
return 0xFFFF;
}
void emberAfCopyString(uint8_t * dest, const uint8_t * src, size_t size)
{
if (src == nullptr)
{
dest[0] = 0; // Zero out the length of string
}
else if (src[0] == 0xFF)
{
dest[0] = src[0];
}
else
{
uint8_t length = emberAfStringLength(src);
if (size < length)
{
// Since we have checked that size < length, size must be able to fit into the type of length.
length = static_cast<decltype(length)>(size);
}
memmove(dest + 1, src + 1, length);
dest[0] = length;
}
}
void emberAfCopyLongString(uint8_t * dest, const uint8_t * src, size_t size)
{
if (src == nullptr)
{
dest[0] = dest[1] = 0; // Zero out the length of string
}
else if ((src[0] == 0xFF) && (src[1] == 0xFF))
{
dest[0] = 0xFF;
dest[1] = 0xFF;
}
else
{
uint16_t length = emberAfLongStringLength(src);
if (size < length)
{
// Since we have checked that size < length, size must be able to fit into the type of length.
length = static_cast<decltype(length)>(size);
}
memmove(dest + 2, src + 2, length);
dest[0] = EMBER_LOW_BYTE(length);
dest[1] = EMBER_HIGH_BYTE(length);
}
}
#if (BIGENDIAN_CPU)
#define EM_BIG_ENDIAN true
#else
#define EM_BIG_ENDIAN false
#endif
// You can pass in val1 as NULL, which will assume that it is
// pointing to an array of all zeroes. This is used so that
// default value of NULL is treated as all zeroes.
int8_t emberAfCompareValues(const uint8_t * val1, const uint8_t * val2, uint16_t len, bool signedNumber)
{
if (len == 0)
{
// no length means nothing to compare. Shouldn't even happen, since len is sizeof(some-integer-type).
return 0;
}
if (signedNumber)
{ // signed number comparison
if (len <= 4)
{ // only number with 32-bits or less is supported
int32_t accum1 = 0x0;
int32_t accum2 = 0x0;
int32_t all1s = -1;
for (uint16_t i = 0; i < len; i++)
{
uint8_t j = (val1 == nullptr ? 0 : (EM_BIG_ENDIAN ? val1[i] : val1[(len - 1) - i]));
accum1 |= j << (8 * (len - 1 - i));
uint8_t k = (EM_BIG_ENDIAN ? val2[i] : val2[(len - 1) - i]);
accum2 |= k << (8 * (len - 1 - i));
}
// sign extending, no need for 32-bits numbers
if (len < 4)
{
if ((accum1 & (1 << (8 * len - 1))) != 0)
{ // check sign
accum1 |= all1s - ((1 << (len * 8)) - 1);
}
if ((accum2 & (1 << (8 * len - 1))) != 0)
{ // check sign
accum2 |= all1s - ((1 << (len * 8)) - 1);
}
}
if (accum1 > accum2)
{
return 1;
}
if (accum1 < accum2)
{
return -1;
}
return 0;
}
// not supported
return 0;
}
// regular unsigned number comparison
for (uint16_t i = 0; i < len; i++)
{
uint8_t j = (val1 == nullptr ? 0 : (EM_BIG_ENDIAN ? val1[i] : val1[(len - 1) - i]));
uint8_t k = (EM_BIG_ENDIAN ? val2[i] : val2[(len - 1) - i]);
if (j > k)
{
return 1;
}
if (k > j)
{
return -1;
}
}
return 0;
}
// Zigbee spec says types between signed 8 bit and signed 64 bit
bool emberAfIsTypeSigned(EmberAfAttributeType dataType)
{
return (dataType >= ZCL_INT8S_ATTRIBUTE_TYPE && dataType <= ZCL_INT64S_ATTRIBUTE_TYPE);
}
bool emberAfContainsAttribute(chip::EndpointId endpoint, chip::ClusterId clusterId, chip::AttributeId attributeId)
{
return (emberAfGetServerAttributeIndexByAttributeId(endpoint, clusterId, attributeId) != UINT16_MAX);
}
bool emberAfIsKnownVolatileAttribute(chip::EndpointId endpoint, chip::ClusterId clusterId, chip::AttributeId attributeId)
{
const EmberAfAttributeMetadata * metadata = emberAfLocateAttributeMetadata(endpoint, clusterId, attributeId);
if (metadata == nullptr)
{
return false;
}
return !metadata->IsAutomaticallyPersisted() && !metadata->IsExternal();
}