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/**
*
* Copyright (c) 2020 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.
*/
/**
*
* Copyright (c) 2020 Silicon Labs
*
* 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.
*/
/***************************************************************************/
/**
* @file
* @brief This file contains the code to manipulate
*the Smart Energy attribute table. This handles
*external calls to read/write the table, as well as
*internal ones.
*******************************************************************************
******************************************************************************/
// this file contains all the common includes for clusters in the zcl-util
#include <app/util/attribute-storage.h>
// for pulling in defines dealing with EITHER server or client
#include "app/util/common.h"
#include <app-common/zap-generated/callback.h>
#include <app/util/error-mapping.h>
#include <app/util/odd-sized-integers.h>
#include <app/reporting/reporting.h>
#include <protocols/interaction_model/Constants.h>
using namespace chip;
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// External Declarations
//------------------------------------------------------------------------------
// Forward Declarations
//------------------------------------------------------------------------------
// Globals
EmberAfStatus emberAfWriteAttributeExternal(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t mask,
uint8_t * dataPtr, EmberAfAttributeType dataType)
{
EmberAfAttributeWritePermission extWritePermission =
emberAfAllowNetworkWriteAttributeCallback(endpoint, cluster, attributeID, mask, dataPtr, dataType);
switch (extWritePermission)
{
case EMBER_ZCL_ATTRIBUTE_WRITE_PERMISSION_DENY_WRITE:
return EMBER_ZCL_STATUS_FAILURE;
case EMBER_ZCL_ATTRIBUTE_WRITE_PERMISSION_ALLOW_WRITE_NORMAL:
case EMBER_ZCL_ATTRIBUTE_WRITE_PERMISSION_ALLOW_WRITE_OF_READ_ONLY:
return emAfWriteAttribute(endpoint, cluster, attributeID, mask, dataPtr, dataType,
(extWritePermission == EMBER_ZCL_ATTRIBUTE_WRITE_PERMISSION_ALLOW_WRITE_OF_READ_ONLY), false);
default:
return (EmberAfStatus) extWritePermission;
}
}
//@deprecated use emberAfWriteServerAttribute or emberAfWriteClientAttribute
EmberAfStatus emberAfWriteAttribute(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t mask,
uint8_t * dataPtr, EmberAfAttributeType dataType)
{
return emAfWriteAttribute(endpoint, cluster, attributeID, mask, dataPtr, dataType,
true, // override read-only?
false); // just test?
}
EmberAfStatus emberAfWriteClientAttribute(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t * dataPtr,
EmberAfAttributeType dataType)
{
return emAfWriteAttribute(endpoint, cluster, attributeID, CLUSTER_MASK_CLIENT, dataPtr, dataType,
true, // override read-only?
false); // just test?
}
EmberAfStatus emberAfWriteServerAttribute(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t * dataPtr,
EmberAfAttributeType dataType)
{
return emAfWriteAttribute(endpoint, cluster, attributeID, CLUSTER_MASK_SERVER, dataPtr, dataType,
true, // override read-only?
false); // just test?
}
EmberAfStatus emberAfVerifyAttributeWrite(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t mask,
uint8_t * dataPtr, EmberAfAttributeType dataType)
{
return emAfWriteAttribute(endpoint, cluster, attributeID, mask, dataPtr, dataType,
false, // override read-only?
true); // just test?
}
EmberAfStatus emberAfReadAttribute(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t mask, uint8_t * dataPtr,
uint16_t readLength, EmberAfAttributeType * dataType)
{
return emAfReadAttribute(endpoint, cluster, attributeID, mask, dataPtr, readLength, dataType);
}
EmberAfStatus emberAfReadServerAttribute(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t * dataPtr,
uint16_t readLength)
{
return emAfReadAttribute(endpoint, cluster, attributeID, CLUSTER_MASK_SERVER, dataPtr, readLength, nullptr);
}
EmberAfStatus emberAfReadClientAttribute(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t * dataPtr,
uint16_t readLength)
{
return emAfReadAttribute(endpoint, cluster, attributeID, CLUSTER_MASK_CLIENT, dataPtr, readLength, nullptr);
}
static void emberAfAttributeDecodeAndPrintCluster(ClusterId cluster)
{
#if defined(EMBER_AF_PRINT_ENABLE) && defined(EMBER_AF_PRINT_ATTRIBUTES)
uint16_t index = emberAfFindClusterNameIndex(cluster);
if (index != 0xFFFF)
{
emberAfAttributesPrintln("(%p)", zclClusterNames[index].name);
}
emberAfAttributesFlush();
#endif // defined(EMBER_AF_PRINT_ENABLE) && defined(EMBER_AF_PRINT_ATTRIBUTES)
}
void emberAfPrintAttributeTable(void)
{
uint8_t data[ATTRIBUTE_LARGEST];
decltype(emberAfEndpointCount()) endpointIndex;
decltype(EmberAfEndpointType::clusterCount) clusterIndex;
uint16_t attributeIndex;
EmberAfStatus status;
for (endpointIndex = 0; endpointIndex < emberAfEndpointCount(); endpointIndex++)
{
EmberAfDefinedEndpoint * ep = &(emAfEndpoints[endpointIndex]);
emberAfAttributesPrintln("ENDPOINT %x", ep->endpoint);
emberAfAttributesPrintln("clus / side / attr / mfg /type(len)/ rw / storage / data (raw)");
emberAfAttributesFlush();
for (clusterIndex = 0; clusterIndex < ep->endpointType->clusterCount; clusterIndex++)
{
const EmberAfCluster * cluster = &(ep->endpointType->cluster[clusterIndex]);
for (attributeIndex = 0; attributeIndex < cluster->attributeCount; attributeIndex++)
{
const EmberAfAttributeMetadata * metaData = &(cluster->attributes[attributeIndex]);
// Depending on user config, this loop can take a very long time to
// run and watchdog reset will kick in. As a workaround, we'll
// manually reset the watchdog.
// halResetWatchdog();
emberAfAttributesPrint(ChipLogFormatMEI " / %p / " ChipLogFormatMEI " / ", ChipLogValueMEI(cluster->clusterId),
(emberAfAttributeIsClient(metaData) ? "clnt" : "srvr"),
ChipLogValueMEI(metaData->attributeId));
emberAfAttributesPrint("----");
emberAfAttributesPrint(
" / %x (%x) / %p / %p / ", metaData->attributeType, emberAfAttributeSize(metaData),
(metaData->IsReadOnly() ? "RO" : "RW"),
(metaData->IsNonVolatile() ? " nonvolatile " : (metaData->IsExternal() ? " extern " : " RAM ")));
emberAfAttributesFlush();
status = emAfReadAttribute(ep->endpoint, cluster->clusterId, metaData->attributeId,
(emberAfAttributeIsClient(metaData) ? CLUSTER_MASK_CLIENT : CLUSTER_MASK_SERVER), data,
ATTRIBUTE_LARGEST, nullptr);
if (status == EMBER_ZCL_STATUS_UNSUPPORTED_ATTRIBUTE)
{
emberAfAttributesPrintln("Unsupported");
}
else
{
uint16_t length;
if (emberAfIsStringAttributeType(metaData->attributeType))
{
length = static_cast<uint16_t>(emberAfStringLength(data) + 1);
}
else if (emberAfIsLongStringAttributeType(metaData->attributeType))
{
length = static_cast<uint16_t>(emberAfLongStringLength(data) + 2);
}
else
{
length = emberAfAttributeSize(metaData);
}
UNUSED_VAR(length);
emberAfAttributesPrintBuffer(data, length, true);
emberAfAttributesFlush();
emberAfAttributeDecodeAndPrintCluster(cluster->clusterId);
}
}
}
emberAfAttributesFlush();
}
}
//------------------------------------------------------------------------------
// Internal Functions
// Helper for determining whether a value is a null value.
template <typename T>
static bool IsNullValue(const uint8_t * data)
{
using Traits = app::NumericAttributeTraits<T>;
// We don't know how data is aligned, so safely copy it over to the relevant
// StorageType value.
typename Traits::StorageType val;
memcpy(&val, data, sizeof(val));
return Traits::IsNullValue(val);
}
static bool IsNullValue(const uint8_t * data, uint16_t dataLen, bool isAttributeSigned)
{
if (dataLen > 4)
{
// We don't support this, just like emberAfCompareValues does not.
return false;
}
switch (dataLen)
{
case 1: {
if (isAttributeSigned)
{
return IsNullValue<int8_t>(data);
}
return IsNullValue<uint8_t>(data);
}
case 2: {
if (isAttributeSigned)
{
return IsNullValue<int16_t>(data);
}
return IsNullValue<uint16_t>(data);
}
case 3: {
if (isAttributeSigned)
{
return IsNullValue<app::OddSizedInteger<3, true>>(data);
}
return IsNullValue<app::OddSizedInteger<3, false>>(data);
}
case 4: {
if (isAttributeSigned)
{
return IsNullValue<int32_t>(data);
}
return IsNullValue<uint32_t>(data);
}
}
// Not reached.
return false;
}
// writes an attribute (identified by clusterID and attrID to the given value.
// this returns:
// - EMBER_ZCL_STATUS_UNSUPPORTED_ATTRIBUTE: if attribute isnt supported by the device (the
// device is not found in the attribute table)
// - EMBER_ZCL_STATUS_INVALID_DATA_TYPE: if the data type passed in doesnt match the type
// stored in the attribute table
// - EMBER_ZCL_STATUS_READ_ONLY: if the attribute isnt writable
// - EMBER_ZCL_STATUS_INVALID_VALUE: if the value is set out of the allowable range for
// the attribute
// - EMBER_ZCL_STATUS_SUCCESS: if the attribute was found and successfully written
//
// if true is passed in for overrideReadOnlyAndDataType then the data type is
// not checked and the read-only flag is ignored. This mode is meant for
// testing or setting the initial value of the attribute on the device.
//
// if true is passed for justTest, then the type is not written but all
// checks are done to see if the type could be written
// reads the attribute specified, returns false if the attribute is not in
// the table or the data is too large, returns true and writes to dataPtr
// if the attribute is supported and the readLength specified is less than
// the length of the data.
EmberAfStatus emAfWriteAttribute(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t mask, uint8_t * data,
EmberAfAttributeType dataType, bool overrideReadOnlyAndDataType, bool justTest)
{
const EmberAfAttributeMetadata * metadata = nullptr;
EmberAfAttributeSearchRecord record;
record.endpoint = endpoint;
record.clusterId = cluster;
record.clusterMask = mask;
record.attributeId = attributeID;
emAfReadOrWriteAttribute(&record, &metadata,
nullptr, // buffer
0, // buffer size
false); // write?
// if we dont support that attribute
if (metadata == nullptr)
{
emberAfAttributesPrintln("%pep %x clus " ChipLogFormatMEI " attr " ChipLogFormatMEI " not supported",
"WRITE ERR: ", endpoint, ChipLogValueMEI(cluster), ChipLogValueMEI(attributeID));
emberAfAttributesFlush();
return EMBER_ZCL_STATUS_UNSUPPORTED_ATTRIBUTE;
}
// if the data type specified by the caller is incorrect
if (!(overrideReadOnlyAndDataType))
{
if (dataType != metadata->attributeType)
{
emberAfAttributesPrintln("%pinvalid data type", "WRITE ERR: ");
emberAfAttributesFlush();
return EMBER_ZCL_STATUS_INVALID_DATA_TYPE;
}
if (metadata->IsReadOnly())
{
emberAfAttributesPrintln("%pattr not writable", "WRITE ERR: ");
emberAfAttributesFlush();
return EMBER_ZCL_STATUS_READ_ONLY;
}
}
// if the value the attribute is being set to is out of range
// return EMBER_ZCL_STATUS_INVALID_VALUE
if ((metadata->mask & ATTRIBUTE_MASK_MIN_MAX) != 0U)
{
EmberAfDefaultAttributeValue minv = metadata->defaultValue.ptrToMinMaxValue->minValue;
EmberAfDefaultAttributeValue maxv = metadata->defaultValue.ptrToMinMaxValue->maxValue;
uint16_t dataLen = emberAfAttributeSize(metadata);
const uint8_t * minBytes;
const uint8_t * maxBytes;
if (dataLen <= 2)
{
minBytes = reinterpret_cast<const uint8_t *>(&(minv.defaultValue));
maxBytes = reinterpret_cast<const uint8_t *>(&(maxv.defaultValue));
// On big endian cpu with length 1 only the second byte counts
#if (BIGENDIAN_CPU)
if (dataLen == 1)
{
minBytes++;
maxBytes++;
}
#endif // BIGENDIAN_CPU
}
else
{
minBytes = minv.ptrToDefaultValue;
maxBytes = maxv.ptrToDefaultValue;
}
bool isAttributeSigned = emberAfIsTypeSigned(metadata->attributeType);
bool isOutOfRange = emberAfCompareValues(minBytes, data, dataLen, isAttributeSigned) == 1 ||
emberAfCompareValues(maxBytes, data, dataLen, isAttributeSigned) == -1;
if (isOutOfRange &&
// null value is always in-range for a nullable attribute.
(!metadata->IsNullable() || !IsNullValue(data, dataLen, isAttributeSigned)))
{
return EMBER_ZCL_STATUS_INVALID_VALUE;
}
}
// write the data unless this is only a test
if (!justTest)
{
const app::ConcreteAttributePath attributePath(endpoint, cluster, attributeID);
// Pre write attribute callback for all attribute changes,
// regardless of cluster.
Protocols::InteractionModel::Status imStatus =
MatterPreAttributeChangeCallback(attributePath, mask, dataType, emberAfAttributeSize(metadata), data);
if (imStatus != Protocols::InteractionModel::Status::Success)
{
return app::ToEmberAfStatus(imStatus);
}
// Pre-write attribute callback specific
// to the cluster that the attribute lives in.
EmberAfStatus status =
emAfClusterPreAttributeChangedCallback(attributePath, mask, dataType, emberAfAttributeSize(metadata), data);
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
return status;
}
// write the attribute
status = emAfReadOrWriteAttribute(&record,
nullptr, // metadata
data,
0, // buffer size - unused
true); // write?
if (status != EMBER_ZCL_STATUS_SUCCESS)
{
return status;
}
// Save the attribute to persistent storage if needed
// The callee will weed out attributes that do not need to be stored.
emAfSaveAttributeToStorageIfNeeded(data, endpoint, cluster, metadata);
MatterReportingAttributeChangeCallback(endpoint, cluster, attributeID, mask, dataType, data);
// Post write attribute callback for all attributes changes, regardless
// of cluster.
MatterPostAttributeChangeCallback(attributePath, mask, dataType, emberAfAttributeSize(metadata), data);
// Post-write attribute callback specific
// to the cluster that the attribute lives in.
emAfClusterAttributeChangedCallback(attributePath, mask);
}
else
{
// bug: 11618, we are not handling properly external attributes
// in this case... We need to do something. We don't really
// know if it will succeed.
emberAfAttributesPrintln("WRITE: no write, just a test");
emberAfAttributesFlush();
}
return EMBER_ZCL_STATUS_SUCCESS;
}
// If dataPtr is NULL, no data is copied to the caller.
// readLength should be 0 in that case.
EmberAfStatus emAfReadAttribute(EndpointId endpoint, ClusterId cluster, AttributeId attributeID, uint8_t mask, uint8_t * dataPtr,
uint16_t readLength, EmberAfAttributeType * dataType)
{
const EmberAfAttributeMetadata * metadata = nullptr;
EmberAfAttributeSearchRecord record;
EmberAfStatus status;
record.endpoint = endpoint;
record.clusterId = cluster;
record.clusterMask = mask;
record.attributeId = attributeID;
status = emAfReadOrWriteAttribute(&record, &metadata, dataPtr, readLength,
false); // write?
if (status == EMBER_ZCL_STATUS_SUCCESS)
{
// It worked! If the user asked for the type, set it before returning.
if (dataType != nullptr)
{
(*dataType) = metadata->attributeType;
}
}
else
{ // failed, print debug info
if (status == EMBER_ZCL_STATUS_INSUFFICIENT_SPACE)
{
emberAfAttributesPrintln("READ: attribute size too large for caller");
emberAfAttributesFlush();
}
}
return status;
}