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pigweed / third_party / github / project-chip / connectedhomeip / 088881867fdba5193d671312313ba14b77d50796 / . / src / lib / core / CHIPError.cpp
blob: 1dc00abcbcf0c8eb080716d6fa834c7921a87521 [file] [log] [blame]
/*
*
* Copyright (c) 2020-2022 Project CHIP Authors
* Copyright (c) 2019 Google LLC.
*
* 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
* This file contains functions for working with CHIP errors.
*/
#include <stddef.h>
#include <lib/core/CHIPCore.h>
#include <lib/support/ErrorStr.h>
namespace chip {
/**
* Register a text error formatter for CHIP core errors.
*/
void RegisterCHIPLayerErrorFormatter()
{
static ErrorFormatter sCHIPErrorFormatter = { FormatCHIPError, nullptr };
RegisterErrorFormatter(&sCHIPErrorFormatter);
}
/**
* Given a CHIP error, returns a human-readable NULL-terminated C string
* describing the error.
*
* @param[in] buf Buffer into which the error string will be placed.
* @param[in] bufSize Size of the supplied buffer in bytes.
* @param[in] err The error to be described.
*
* @return true If a description string was written into the supplied buffer.
* @return false If the supplied error was not a CHIP error.
*
*/
bool FormatCHIPError(char * buf, uint16_t bufSize, CHIP_ERROR err)
{
const char * desc = nullptr;
if (!err.IsPart(ChipError::SdkPart::kCore))
{
return false;
}
#if !CHIP_CONFIG_SHORT_ERROR_STR
switch (err.AsInteger())
{
case CHIP_ERROR_SENDING_BLOCKED.AsInteger():
desc = "Sending blocked";
break;
case CHIP_ERROR_CONNECTION_ABORTED.AsInteger():
desc = "Connection aborted";
break;
case CHIP_ERROR_INCORRECT_STATE.AsInteger():
desc = "Incorrect state";
break;
case CHIP_ERROR_MESSAGE_TOO_LONG.AsInteger():
desc = "Message too long";
break;
case CHIP_ERROR_UNSUPPORTED_EXCHANGE_VERSION.AsInteger():
desc = "Unsupported exchange version";
break;
case CHIP_ERROR_TOO_MANY_UNSOLICITED_MESSAGE_HANDLERS.AsInteger():
desc = "Too many unsolicited message handlers";
break;
case CHIP_ERROR_NO_UNSOLICITED_MESSAGE_HANDLER.AsInteger():
desc = "No unsolicited message handler";
break;
case CHIP_ERROR_NO_CONNECTION_HANDLER.AsInteger():
desc = "No connection handler";
break;
case CHIP_ERROR_TOO_MANY_PEER_NODES.AsInteger():
desc = "Too many peer nodes";
break;
case CHIP_ERROR_SENTINEL.AsInteger():
desc = "Internal sentinel";
break;
case CHIP_ERROR_NO_MEMORY.AsInteger():
desc = "No memory";
break;
case CHIP_ERROR_NO_MESSAGE_HANDLER.AsInteger():
desc = "No message handler";
break;
case CHIP_ERROR_MESSAGE_INCOMPLETE.AsInteger():
desc = "Message incomplete";
break;
case CHIP_ERROR_DATA_NOT_ALIGNED.AsInteger():
desc = "Data not aligned";
break;
case CHIP_ERROR_UNKNOWN_KEY_TYPE.AsInteger():
desc = "Unknown key type";
break;
case CHIP_ERROR_KEY_NOT_FOUND.AsInteger():
desc = "Key not found";
break;
case CHIP_ERROR_WRONG_ENCRYPTION_TYPE.AsInteger():
desc = "Wrong encryption type";
break;
case CHIP_ERROR_TOO_MANY_KEYS.AsInteger():
desc = "Too many keys";
break;
case CHIP_ERROR_INTEGRITY_CHECK_FAILED.AsInteger():
desc = "Integrity check failed";
break;
case CHIP_ERROR_INVALID_SIGNATURE.AsInteger():
desc = "Invalid signature";
break;
case CHIP_ERROR_UNSUPPORTED_MESSAGE_VERSION.AsInteger():
desc = "Unsupported message version";
break;
case CHIP_ERROR_UNSUPPORTED_ENCRYPTION_TYPE.AsInteger():
desc = "Unsupported encryption type";
break;
case CHIP_ERROR_UNSUPPORTED_SIGNATURE_TYPE.AsInteger():
desc = "Unsupported signature type";
break;
case CHIP_ERROR_INVALID_MESSAGE_LENGTH.AsInteger():
desc = "Invalid message length";
break;
case CHIP_ERROR_BUFFER_TOO_SMALL.AsInteger():
desc = "Buffer too small";
break;
case CHIP_ERROR_DUPLICATE_KEY_ID.AsInteger():
desc = "Duplicate key id";
break;
case CHIP_ERROR_WRONG_KEY_TYPE.AsInteger():
desc = "Wrong key type";
break;
case CHIP_ERROR_WELL_UNINITIALIZED.AsInteger():
desc = "Well uninitialized";
break;
case CHIP_ERROR_WELL_EMPTY.AsInteger():
desc = "Well empty";
break;
case CHIP_ERROR_INVALID_STRING_LENGTH.AsInteger():
desc = "Invalid string length";
break;
case CHIP_ERROR_INVALID_LIST_LENGTH.AsInteger():
desc = "invalid list length";
break;
case CHIP_ERROR_INVALID_INTEGRITY_TYPE.AsInteger():
desc = "Invalid integrity type";
break;
case CHIP_END_OF_TLV.AsInteger():
desc = "End of TLV";
break;
case CHIP_ERROR_TLV_UNDERRUN.AsInteger():
desc = "TLV underrun";
break;
case CHIP_ERROR_INVALID_TLV_ELEMENT.AsInteger():
desc = "Invalid TLV element";
break;
case CHIP_ERROR_INVALID_TLV_TAG.AsInteger():
desc = "Invalid TLV tag";
break;
case CHIP_ERROR_UNKNOWN_IMPLICIT_TLV_TAG.AsInteger():
desc = "Unknown implicit TLV tag";
break;
case CHIP_ERROR_WRONG_TLV_TYPE.AsInteger():
desc = "Wrong TLV type";
break;
case CHIP_ERROR_TLV_CONTAINER_OPEN.AsInteger():
desc = "TLV container open";
break;
case CHIP_ERROR_INVALID_TRANSFER_MODE.AsInteger():
desc = "Invalid transfer mode";
break;
case CHIP_ERROR_INVALID_PROFILE_ID.AsInteger():
desc = "Invalid profile id";
break;
case CHIP_ERROR_INVALID_MESSAGE_TYPE.AsInteger():
desc = "Invalid message type";
break;
case CHIP_ERROR_UNEXPECTED_TLV_ELEMENT.AsInteger():
desc = "Unexpected TLV element";
break;
case CHIP_ERROR_STATUS_REPORT_RECEIVED.AsInteger():
desc = "Status Report received from peer";
break;
case CHIP_ERROR_NOT_IMPLEMENTED.AsInteger():
desc = "Not Implemented";
break;
case CHIP_ERROR_INVALID_ADDRESS.AsInteger():
desc = "Invalid address";
break;
case CHIP_ERROR_INVALID_ARGUMENT.AsInteger():
desc = "Invalid argument";
break;
case CHIP_ERROR_TLV_TAG_NOT_FOUND.AsInteger():
desc = "TLV tag not found";
break;
case CHIP_ERROR_MISSING_SECURE_SESSION.AsInteger():
desc = "Missing secure session";
break;
case CHIP_ERROR_INVALID_ADMIN_SUBJECT.AsInteger():
desc = "CaseAdminSubject is not valid";
break;
case CHIP_ERROR_INSUFFICIENT_PRIVILEGE.AsInteger():
desc = "Required privilege was insufficient during an operation";
break;
case CHIP_ERROR_IM_MALFORMED_ATTRIBUTE_REPORT_IB.AsInteger():
desc = "Malformed Interacton Model Attribute Report IB";
break;
case CHIP_ERROR_IM_MALFORMED_COMMAND_DATA_IB.AsInteger():
desc = "Malformed Interacton Model Command Data IB";
break;
case CHIP_ERROR_IM_MALFORMED_EVENT_STATUS_IB.AsInteger():
desc = "Malformed Interacton Model Event Status IB";
break;
case CHIP_ERROR_IM_MALFORMED_STATUS_RESPONSE_MESSAGE.AsInteger():
desc = "Malformed Interacton Model Status Response IB";
break;
case CHIP_ERROR_INVALID_PATH_LIST.AsInteger():
desc = "Invalid TLV path list";
break;
case CHIP_ERROR_INVALID_DATA_LIST.AsInteger():
desc = "Invalid TLV data list";
break;
case CHIP_ERROR_TRANSACTION_CANCELED.AsInteger():
desc = "Transaction canceled";
break;
case CHIP_ERROR_LISTENER_ALREADY_STARTED.AsInteger():
desc = "Listener already started";
break;
case CHIP_ERROR_LISTENER_ALREADY_STOPPED.AsInteger():
desc = "Listener already stopped";
break;
case CHIP_ERROR_INVALID_SUBSCRIPTION.AsInteger():
desc = "Invalid Subscription Id";
break;
case CHIP_ERROR_TIMEOUT.AsInteger():
desc = "Timeout";
break;
case CHIP_ERROR_INVALID_DEVICE_DESCRIPTOR.AsInteger():
desc = "Invalid device descriptor";
break;
case CHIP_ERROR_UNSUPPORTED_DEVICE_DESCRIPTOR_VERSION.AsInteger():
desc = "Unsupported device descriptor version";
break;
case CHIP_END_OF_INPUT.AsInteger():
desc = "End of input";
break;
case CHIP_ERROR_RATE_LIMIT_EXCEEDED.AsInteger():
desc = "Rate limit exceeded";
break;
case CHIP_ERROR_SECURITY_MANAGER_BUSY.AsInteger():
desc = "Security manager busy";
break;
case CHIP_ERROR_INVALID_PASE_PARAMETER.AsInteger():
desc = "Invalid PASE parameter";
break;
case CHIP_ERROR_PASE_SUPPORTS_ONLY_CONFIG1.AsInteger():
desc = "PASE supports only Config1";
break;
case CHIP_ERROR_NO_COMMON_PASE_CONFIGURATIONS.AsInteger():
desc = "No supported PASE configurations in common";
break;
case CHIP_ERROR_INVALID_PASE_CONFIGURATION.AsInteger():
desc = "Invalid PASE configuration";
break;
case CHIP_ERROR_KEY_CONFIRMATION_FAILED.AsInteger():
desc = "Key confirmation failed";
break;
case CHIP_ERROR_INVALID_USE_OF_SESSION_KEY.AsInteger():
desc = "Invalid use of session key";
break;
case CHIP_ERROR_CONNECTION_CLOSED_UNEXPECTEDLY.AsInteger():
desc = "Connection closed unexpectedly";
break;
case CHIP_ERROR_MISSING_TLV_ELEMENT.AsInteger():
desc = "Missing TLV element";
break;
case CHIP_ERROR_RANDOM_DATA_UNAVAILABLE.AsInteger():
desc = "Random data unavailable";
break;
case CHIP_ERROR_UNSUPPORTED_HOST_PORT_ELEMENT.AsInteger():
desc = "Unsupported type in host/port list";
break;
case CHIP_ERROR_INVALID_HOST_SUFFIX_INDEX.AsInteger():
desc = "Invalid suffix index in host/port list";
break;
case CHIP_ERROR_HOST_PORT_LIST_EMPTY.AsInteger():
desc = "Host/port empty";
break;
case CHIP_ERROR_UNSUPPORTED_AUTH_MODE.AsInteger():
desc = "Unsupported authentication mode";
break;
case CHIP_ERROR_INVALID_SERVICE_EP.AsInteger():
desc = "Invalid service endpoint";
break;
case CHIP_ERROR_INVALID_DIRECTORY_ENTRY_TYPE.AsInteger():
desc = "Invalid directory entry type";
break;
case CHIP_ERROR_FORCED_RESET.AsInteger():
desc = "Service manager forced reset";
break;
case CHIP_ERROR_NO_ENDPOINT.AsInteger():
desc = "No endpoint was available to send the message";
break;
case CHIP_ERROR_INVALID_DESTINATION_NODE_ID.AsInteger():
desc = "Invalid destination node id";
break;
case CHIP_ERROR_NOT_CONNECTED.AsInteger():
desc = "Not connected";
break;
case CHIP_ERROR_NO_SW_UPDATE_AVAILABLE.AsInteger():
desc = "No SW update available";
break;
case CHIP_ERROR_CA_CERT_NOT_FOUND.AsInteger():
desc = "CA certificate not found";
break;
case CHIP_ERROR_CERT_PATH_LEN_CONSTRAINT_EXCEEDED.AsInteger():
desc = "Certificate path length constraint exceeded";
break;
case CHIP_ERROR_CERT_PATH_TOO_LONG.AsInteger():
desc = "Certificate path too long";
break;
case CHIP_ERROR_CERT_USAGE_NOT_ALLOWED.AsInteger():
desc = "Requested certificate usage is not allowed";
break;
case CHIP_ERROR_CERT_EXPIRED.AsInteger():
desc = "Certificate expired";
break;
case CHIP_ERROR_CERT_NOT_VALID_YET.AsInteger():
desc = "Certificate not yet valid";
break;
case CHIP_ERROR_UNSUPPORTED_CERT_FORMAT.AsInteger():
desc = "Unsupported certificate format";
break;
case CHIP_ERROR_UNSUPPORTED_ELLIPTIC_CURVE.AsInteger():
desc = "Unsupported elliptic curve";
break;
case CHIP_CERT_NOT_USED.AsInteger():
desc = "Certificate was not used in chain validation";
break;
case CHIP_ERROR_CERT_NOT_FOUND.AsInteger():
desc = "Certificate not found";
break;
case CHIP_ERROR_INVALID_CASE_PARAMETER.AsInteger():
desc = "Invalid CASE parameter";
break;
case CHIP_ERROR_UNSUPPORTED_CASE_CONFIGURATION.AsInteger():
desc = "Unsupported CASE configuration";
break;
case CHIP_ERROR_CERT_LOAD_FAILED.AsInteger():
desc = "Unable to load certificate";
break;
case CHIP_ERROR_CERT_NOT_TRUSTED.AsInteger():
desc = "Certificate not trusted";
break;
case CHIP_ERROR_INVALID_ACCESS_TOKEN.AsInteger():
desc = "Invalid access token";
break;
case CHIP_ERROR_WRONG_CERT_DN.AsInteger():
desc = "Wrong certificate distinguished name";
break;
case CHIP_ERROR_INVALID_PROVISIONING_BUNDLE.AsInteger():
desc = "Invalid provisioning bundle";
break;
case CHIP_ERROR_PROVISIONING_BUNDLE_DECRYPTION_ERROR.AsInteger():
desc = "Provisioning bundle decryption error";
break;
case CHIP_ERROR_PASE_RECONFIGURE_REQUIRED.AsInteger():
desc = "PASE reconfiguration required";
break;
case CHIP_ERROR_WRONG_NODE_ID.AsInteger():
desc = "Wrong node ID";
break;
case CHIP_ERROR_CONN_ACCEPTED_ON_WRONG_PORT.AsInteger():
desc = "Connection accepted on wrong port";
break;
case CHIP_ERROR_CALLBACK_REPLACED.AsInteger():
desc = "Application callback replaced";
break;
case CHIP_ERROR_NO_CASE_AUTH_DELEGATE.AsInteger():
desc = "No CASE auth delegate set";
break;
case CHIP_ERROR_DEVICE_LOCATE_TIMEOUT.AsInteger():
desc = "Timeout attempting to locate device";
break;
case CHIP_ERROR_DEVICE_CONNECT_TIMEOUT.AsInteger():
desc = "Timeout connecting to device";
break;
case CHIP_ERROR_DEVICE_AUTH_TIMEOUT.AsInteger():
desc = "Timeout authenticating device";
break;
case CHIP_ERROR_MESSAGE_NOT_ACKNOWLEDGED.AsInteger():
desc = "Message not acknowledged after max retries";
break;
case CHIP_ERROR_RETRANS_TABLE_FULL.AsInteger():
desc = "Retransmit Table is already full";
break;
case CHIP_ERROR_INVALID_ACK_MESSAGE_COUNTER.AsInteger():
desc = "Invalid acknowledged message counter";
break;
case CHIP_ERROR_SEND_THROTTLED.AsInteger():
desc = "Sending to peer is throttled on this Exchange";
break;
case CHIP_ERROR_WRONG_MSG_VERSION_FOR_EXCHANGE.AsInteger():
desc = "Message version not supported by current exchange context";
break;
case CHIP_ERROR_UNSUPPORTED_CHIP_FEATURE.AsInteger():
desc = "Required feature not supported by this configuration";
break;
case CHIP_ERROR_UNSOLICITED_MSG_NO_ORIGINATOR.AsInteger():
desc = "Unsolicited msg with originator bit clear";
break;
case CHIP_ERROR_INVALID_FABRIC_INDEX.AsInteger():
desc = "Invalid Fabric Index";
break;
case CHIP_ERROR_TOO_MANY_CONNECTIONS.AsInteger():
desc = "Too many connections";
break;
case CHIP_ERROR_SHUT_DOWN.AsInteger():
desc = "The operation was cancelled because a shut down was initiated";
break;
case CHIP_ERROR_CANCELLED.AsInteger():
desc = "The operation has been cancelled";
break;
case CHIP_ERROR_DRBG_ENTROPY_SOURCE_FAILED.AsInteger():
desc = "DRBG entropy source failed to generate entropy data";
break;
case CHIP_ERROR_MESSAGE_COUNTER_EXHAUSTED.AsInteger():
desc = "Message counter exhausted";
break;
case CHIP_ERROR_FABRIC_EXISTS.AsInteger():
desc = "Trying to add a NOC for a fabric that already exists";
break;
case CHIP_ERROR_KEY_NOT_FOUND_FROM_PEER.AsInteger():
desc = "Key not found error code received from peer";
break;
case CHIP_ERROR_WRONG_ENCRYPTION_TYPE_FROM_PEER.AsInteger():
desc = "Wrong encryption type error code received from peer";
break;
case CHIP_ERROR_UNKNOWN_KEY_TYPE_FROM_PEER.AsInteger():
desc = "Unknown key type error code received from peer";
break;
case CHIP_ERROR_INVALID_USE_OF_SESSION_KEY_FROM_PEER.AsInteger():
desc = "Invalid use of session key error code received from peer";
break;
case CHIP_ERROR_UNSUPPORTED_ENCRYPTION_TYPE_FROM_PEER.AsInteger():
desc = "Unsupported encryption type error code received from peer";
break;
case CHIP_ERROR_INTERNAL_KEY_ERROR_FROM_PEER.AsInteger():
desc = "Internal key error code received from peer";
break;
case CHIP_ERROR_INVALID_KEY_ID.AsInteger():
desc = "Invalid key identifier";
break;
case CHIP_ERROR_INVALID_TIME.AsInteger():
desc = "Valid time value is not available";
break;
case CHIP_ERROR_LOCKING_FAILURE.AsInteger():
desc = "Failure to lock/unlock OS-provided lock";
break;
case CHIP_ERROR_UNSUPPORTED_PASSCODE_CONFIG.AsInteger():
desc = "Unsupported passcode encryption configuration";
break;
case CHIP_ERROR_PASSCODE_AUTHENTICATION_FAILED.AsInteger():
desc = "Passcode authentication failed";
break;
case CHIP_ERROR_PASSCODE_FINGERPRINT_FAILED.AsInteger():
desc = "Passcode fingerprint failed";
break;
case CHIP_ERROR_SERIALIZATION_ELEMENT_NULL.AsInteger():
desc = "Element requested is null";
break;
case CHIP_ERROR_WRONG_CERT_SIGNATURE_ALGORITHM.AsInteger():
desc = "Certificate not signed with required signature algorithm";
break;
case CHIP_ERROR_WRONG_CHIP_SIGNATURE_ALGORITHM.AsInteger():
desc = "CHIP signature not signed with required signature algorithm";
break;
case CHIP_ERROR_SCHEMA_MISMATCH.AsInteger():
desc = "Schema mismatch";
break;
case CHIP_ERROR_INVALID_INTEGER_VALUE.AsInteger():
desc = "Invalid integer value";
break;
case CHIP_ERROR_CASE_RECONFIG_REQUIRED.AsInteger():
desc = "CASE reconfiguration required";
break;
case CHIP_ERROR_TOO_MANY_CASE_RECONFIGURATIONS.AsInteger():
desc = "Too many CASE reconfigurations were received";
break;
case CHIP_ERROR_BAD_REQUEST.AsInteger():
desc = "Request cannot be processed or fulfilled";
break;
case CHIP_ERROR_INVALID_MESSAGE_FLAG.AsInteger():
desc = "Invalid message flag";
break;
case CHIP_ERROR_KEY_EXPORT_RECONFIGURE_REQUIRED.AsInteger():
desc = "Key export protocol required to reconfigure";
break;
case CHIP_ERROR_NO_COMMON_KEY_EXPORT_CONFIGURATIONS.AsInteger():
desc = "No supported key export protocol configurations in common";
break;
case CHIP_ERROR_INVALID_KEY_EXPORT_CONFIGURATION.AsInteger():
desc = "Invalid key export protocol configuration";
break;
case CHIP_ERROR_NO_KEY_EXPORT_DELEGATE.AsInteger():
desc = "No key export protocol delegate set";
break;
case CHIP_ERROR_UNAUTHORIZED_KEY_EXPORT_REQUEST.AsInteger():
desc = "Unauthorized key export request";
break;
case CHIP_ERROR_UNAUTHORIZED_KEY_EXPORT_RESPONSE.AsInteger():
desc = "Unauthorized key export response";
break;
case CHIP_ERROR_EXPORTED_KEY_AUTHENTICATION_FAILED.AsInteger():
desc = "Exported key authentication failed";
break;
case CHIP_ERROR_TOO_MANY_SHARED_SESSION_END_NODES.AsInteger():
desc = "Too many shared session end nodes";
break;
case CHIP_ERROR_IM_MALFORMED_ATTRIBUTE_DATA_IB.AsInteger():
desc = "Malformed Interaction Model Attribute Data IB";
break;
case CHIP_ERROR_WRONG_CERT_TYPE.AsInteger():
desc = "Wrong certificate type";
break;
case CHIP_ERROR_DEFAULT_EVENT_HANDLER_NOT_CALLED.AsInteger():
desc = "Default event handler not called";
break;
case CHIP_ERROR_PERSISTED_STORAGE_FAILED.AsInteger():
desc = "Persisted storage failed";
break;
case CHIP_ERROR_PERSISTED_STORAGE_VALUE_NOT_FOUND.AsInteger():
desc = "Value not found in the persisted storage";
break;
case CHIP_ERROR_IM_FABRIC_DELETED.AsInteger():
desc = "The fabric is deleted, and the corresponding IM resources are released";
break;
case CHIP_ERROR_PROFILE_STRING_CONTEXT_NOT_REGISTERED.AsInteger():
desc = "String context not registered";
break;
case CHIP_ERROR_INCOMPATIBLE_SCHEMA_VERSION.AsInteger():
desc = "Incompatible data schema version";
break;
case CHIP_ERROR_ACCESS_DENIED.AsInteger():
desc = "The CHIP message is not granted access";
break;
case CHIP_ERROR_UNKNOWN_RESOURCE_ID.AsInteger():
desc = "Unknown resource ID";
break;
case CHIP_ERROR_VERSION_MISMATCH.AsInteger():
desc = "Version mismatch";
break;
case CHIP_ERROR_UNSUPPORTED_THREAD_NETWORK_CREATE.AsInteger():
desc = "Legacy device doesn't support standalone Thread network creation";
break;
case CHIP_ERROR_INCONSISTENT_CONDITIONALITY.AsInteger():
desc = "The Trait Instance is already being updated with a different conditionality";
break;
case CHIP_ERROR_LOCAL_DATA_INCONSISTENT.AsInteger():
desc = "The local data does not match any known version of the Trait Instance";
break;
case CHIP_EVENT_ID_FOUND.AsInteger():
desc = "Event ID matching criteria was found";
break;
case CHIP_ERROR_INTERNAL.AsInteger():
desc = "Internal error";
break;
case CHIP_ERROR_OPEN_FAILED.AsInteger():
desc = "Open file failed";
break;
case CHIP_ERROR_READ_FAILED.AsInteger():
desc = "Read from file failed";
break;
case CHIP_ERROR_WRITE_FAILED.AsInteger():
desc = "Write to file failed";
break;
case CHIP_ERROR_DECODE_FAILED.AsInteger():
desc = "Decoding failed";
break;
case CHIP_ERROR_SESSION_KEY_SUSPENDED.AsInteger():
desc = "Session key suspended";
break;
case CHIP_ERROR_UNSUPPORTED_WIRELESS_REGULATORY_DOMAIN.AsInteger():
desc = "Unsupported wireless regulatory domain";
break;
case CHIP_ERROR_UNSUPPORTED_WIRELESS_OPERATING_LOCATION.AsInteger():
desc = "Unsupported wireless operating location";
break;
case CHIP_ERROR_MDNS_COLLISION.AsInteger():
desc = "mDNS collision";
break;
case CHIP_ERROR_IM_MALFORMED_ATTRIBUTE_PATH_IB.AsInteger():
desc = "Malformed Interacton Model Attribute Path IB";
break;
case CHIP_ERROR_IM_MALFORMED_EVENT_PATH_IB.AsInteger():
desc = "Malformed Interacton Model Event Path IB";
break;
case CHIP_ERROR_IM_MALFORMED_COMMAND_PATH_IB.AsInteger():
desc = "Malformed Interacton Model Command Path IB";
break;
case CHIP_ERROR_IM_MALFORMED_ATTRIBUTE_STATUS_IB.AsInteger():
desc = "Malformed Interacton Model Attribute Status IB";
break;
case CHIP_ERROR_IM_MALFORMED_EVENT_DATA_IB.AsInteger():
desc = "Malformed Interacton Model Event Data IB";
break;
case CHIP_ERROR_IM_MALFORMED_STATUS_IB.AsInteger():
desc = "Malformed Interacton Model Status IB";
break;
case CHIP_ERROR_PEER_NODE_NOT_FOUND.AsInteger():
desc = "Unable to find the peer node";
break;
case CHIP_ERROR_HSM.AsInteger():
desc = "Hardware security module";
break;
case CHIP_ERROR_INTERMEDIATE_CA_NOT_REQUIRED.AsInteger():
desc = "Intermediate CA not required";
break;
case CHIP_ERROR_REAL_TIME_NOT_SYNCED.AsInteger():
desc = "Real time not synchronized";
break;
case CHIP_ERROR_UNEXPECTED_EVENT.AsInteger():
desc = "Unexpected event";
break;
case CHIP_ERROR_ENDPOINT_POOL_FULL.AsInteger():
desc = "Endpoint pool full";
break;
case CHIP_ERROR_INBOUND_MESSAGE_TOO_BIG.AsInteger():
desc = "Inbound message too big";
break;
case CHIP_ERROR_OUTBOUND_MESSAGE_TOO_BIG.AsInteger():
desc = "Outbound message too big";
break;
case CHIP_ERROR_DUPLICATE_MESSAGE_RECEIVED.AsInteger():
desc = "Duplicate message received";
break;
case CHIP_ERROR_INVALID_PUBLIC_KEY.AsInteger():
desc = "Invalid public key";
break;
case CHIP_ERROR_FABRIC_MISMATCH_ON_ICA.AsInteger():
desc = "Fabric mismatch on ICA";
break;
case CHIP_ERROR_MESSAGE_COUNTER_OUT_OF_WINDOW.AsInteger():
desc = "Message id out of window";
break;
case CHIP_ERROR_REBOOT_SIGNAL_RECEIVED.AsInteger():
desc = "Termination signal is received";
break;
case CHIP_ERROR_NO_SHARED_TRUSTED_ROOT.AsInteger():
desc = "No shared trusted root";
break;
case CHIP_ERROR_IM_STATUS_CODE_RECEIVED.AsInteger():
desc = "Interaction Model Error";
break;
case CHIP_ERROR_IM_MALFORMED_COMMAND_STATUS_IB.AsInteger():
desc = "Malformed Interaction Model Command Status IB";
break;
case CHIP_ERROR_IM_MALFORMED_INVOKE_RESPONSE_IB.AsInteger():
desc = "Malformed Interaction Model Invoke Response IB";
break;
case CHIP_ERROR_IM_MALFORMED_INVOKE_REQUEST_MESSAGE.AsInteger():
desc = "Malformed Interaction Model Invoke Request Message";
break;
case CHIP_ERROR_IM_MALFORMED_INVOKE_RESPONSE_MESSAGE.AsInteger():
desc = "Malformed Interaction Model Invoke Response Message";
break;
case CHIP_ERROR_IM_MALFORMED_ATTRIBUTE_REPORT_MESSAGE.AsInteger():
desc = "Malformed Interaction Model Attribute Report Message";
break;
case CHIP_ERROR_IM_MALFORMED_WRITE_REQUEST_MESSAGE.AsInteger():
desc = "Malformed Interaction Model Write Request Message";
break;
case CHIP_ERROR_IM_MALFORMED_EVENT_FILTER_IB.AsInteger():
desc = "Malformed Interaction Model Event Filter IB";
break;
case CHIP_ERROR_IM_MALFORMED_READ_REQUEST_MESSAGE.AsInteger():
desc = "Malformed Interaction Model Read Request Message";
break;
case CHIP_ERROR_IM_MALFORMED_SUBSCRIBE_REQUEST_MESSAGE.AsInteger():
desc = "Malformed Interaction Model Subscribe Request Message";
break;
case CHIP_ERROR_IM_MALFORMED_SUBSCRIBE_RESPONSE_MESSAGE.AsInteger():
desc = "Malformed Interaction Model Subscribe Response Message";
break;
case CHIP_ERROR_IM_MALFORMED_EVENT_REPORT_IB.AsInteger():
desc = "Malformed Interaction Model Event Report IB";
break;
case CHIP_ERROR_IM_MALFORMED_CLUSTER_PATH_IB.AsInteger():
desc = "Malformed Interaction Model Cluster Path IB";
break;
case CHIP_ERROR_IM_MALFORMED_DATA_VERSION_FILTER_IB.AsInteger():
desc = "Malformed Interaction Model Data Version Filter IB";
break;
case CHIP_ERROR_NOT_FOUND.AsInteger():
desc = "The item referenced in the function call was not found";
break;
case CHIP_ERROR_IM_MALFORMED_TIMED_REQUEST_MESSAGE.AsInteger():
desc = "Malformed Interaction Model Timed Request Message";
break;
case CHIP_ERROR_INVALID_FILE_IDENTIFIER.AsInteger():
desc = "The file identifier, encoded in the first few bytes of a processed file, has unexpected value";
break;
case CHIP_ERROR_BUSY.AsInteger():
desc = "The Resource is busy and cannot process the request";
break;
case CHIP_ERROR_MAX_RETRY_EXCEEDED.AsInteger():
desc = "The maximum retry limit has been exceeded";
break;
case CHIP_ERROR_PROVIDER_LIST_EXHAUSTED.AsInteger():
desc = "The provider list has been exhausted";
break;
case CHIP_ERROR_ANOTHER_COMMISSIONING_IN_PROGRESS.AsInteger():
desc = "Another commissioning in progress";
break;
case CHIP_ERROR_INVALID_SCHEME_PREFIX.AsInteger():
desc = "The scheme field contains an invalid prefix";
break;
case CHIP_ERROR_MISSING_URI_SEPARATOR.AsInteger():
desc = "The URI separator is missing";
break;
}
#endif // !CHIP_CONFIG_SHORT_ERROR_STR
FormatError(buf, bufSize, "CHIP", err, desc);
return true;
}
} // namespace chip