Ember Common Data Types

Data Structures

struct EmberReleaseTypeStruct
A structure relating version types to human readable strings.
struct EmberVersion
A version structure containing all version information.
struct EmberZigbeeNetwork
Defines a ZigBee network and the associated parameters.
struct EmberNetworkInitStruct
Defines the network initialization configuration that should be used when ::emberNetworkInit() is called by the application.
struct EmberNetworkParameters
Holds network parameters.
struct EmberMultiPhyRadioParameters
Holds radio parameters.
struct EmberApsFrame
An in-memory representation of a ZigBee APS frame of an incoming or outgoing message.
struct EmberChildData
This structure contains information about child nodes.
struct EmberBindingTableEntry
Defines an entry in the binding table.
struct EmberNeighborTableEntry
Defines an entry in the neighbor table.
struct EmberRouteTableEntry
Defines an entry in the route table.
struct EmberMulticastTableEntry
Defines an entry in the multicast table.
struct EmberMultiprotocolPriorities
struct EmberCounterInfo
struct EmberExtraCounterInfo
struct EmberEventControl
The control structure for events.
struct EmberTaskControl
The control structure for tasks.
struct EmberKeyData
This data structure contains the key data that is passed into various other functions.
struct EmberTransientKeyData
This data structure contains the transient key data that is used during Zigbee 3.0 joining.
struct EmberCertificateData
This data structure contains the certificate data that is used for Certificate Based Key Exchange (CBKE).
struct EmberPublicKeyData
This data structure contains the public key data that is used for Certificate Based Key Exchange (CBKE).
struct EmberPrivateKeyData
This data structure contains the private key data that is used for Certificate Based Key Exchange (CBKE).
struct EmberSmacData
This data structure contains the Shared Message Authentication Code (SMAC) data that is used for Certificate Based Key Exchange (CBKE).
struct EmberSignatureData
This data structure contains a DSA signature. It is the bit concatenation of the 'r' and 's' components of the signature.
struct EmberMessageDigest
This data structure contains an AES-MMO Hash (the message digest).
struct EmberAesMmoHashContext
This data structure contains the context data when calculating an AES MMO hash (message digest).
struct EmberCertificate283k1Data
This data structure contains the certificate data that is used for Certificate Based Key Exchange (CBKE) in SECT283k1 Elliptical Cryptography.
struct EmberPublicKey283k1Data
This data structure contains the public key data that is used for Certificate Based Key Exchange (CBKE) in SECT283k1 Elliptical Cryptography.
struct EmberPrivateKey283k1Data
This data structure contains the private key data that is used for Certificate Based Key Exchange (CBKE) in SECT283k1 Elliptical Cryptography.
struct EmberSignature283k1Data
This data structure contains a DSA signature used in SECT283k1 Elliptical Cryptography. It is the bit concatenation of the 'r' and 's' components of the signature.
struct EmberInitialSecurityState
This describes the Initial Security features and requirements that will be used when forming or joining the network.
struct EmberCurrentSecurityState
This describes the security features used by the stack for a joined device.
struct EmberKeyStruct
This describes a one of several different types of keys and its associated data.
struct EmberMfgSecurityStruct
This structure is used to get/set the security configuration that is stored in manufacturing tokens.
struct EmberDutyCycleLimits
A structure containing duty cycle limit configurations.
struct EmberPerDeviceDutyCycle
A structure containing, per device, overall duty cycle consumed (up to the suspend limit).
struct EmberMacFilterMatchStruct
This structure indicates a matching raw MAC message has been received by the application configured MAC filters.
struct SourceRouteTableEntry

Macros

#define EMBER_MIN_BROADCAST_ADDRESS 0xFFF8
#define emberIsZigbeeBroadcastAddress (address)   ( EMBER_MIN_BROADCAST_ADDRESS <= ((uint16_t) (address)))
#define EMBER_JOIN_DECISION_STRINGS
#define EMBER_DEVICE_UPDATE_STRINGS
#define emberInitializeNetworkParameters (parameters)   (MEMSET(parameters, 0, sizeof( EmberNetworkParameters )))
#define EMBER_COUNTER_STRINGS
#define EMBER_STANDARD_SECURITY_MODE 0x0000
This is an EmberInitialSecurityBitmask value but it does not actually set anything. It is the default mode used by the ZigBee Pro stack. It is defined here so that no legacy code is broken by referencing it.
#define EMBER_TRUST_CENTER_NODE_ID 0x0000
The short address of the trust center. This address never changes dynamically.
#define EMBER_NO_TRUST_CENTER_MODE EMBER_DISTRIBUTED_TRUST_CENTER_MODE
This is the legacy name for the Distributed Trust Center Mode.
#define EMBER_GLOBAL_LINK_KEY EMBER_TRUST_CENTER_GLOBAL_LINK_KEY
This is the legacy name for the Trust Center Global Link Key.
#define EMBER_MFG_SECURITY_CONFIG_MAGIC_NUMBER 0xCABAD11FUL
This magic number prevents accidentally changing the key settings. The ::emberSetMfgSecurityConfig() API will return EMBER_INVALID_CALL unless it is passed in.
#define EMBER_MAC_FILTER_MATCH_ENABLED_MASK 0x0001
#define EMBER_MAC_FILTER_MATCH_ON_PAN_DEST_MASK 0x0003
#define EMBER_MAC_FILTER_MATCH_ON_PAN_SOURCE_MASK 0x000C
#define EMBER_MAC_FILTER_MATCH_ON_DEST_MASK 0x0030
#define EMBER_MAC_FILTER_MATCH_ON_SOURCE_MASK 0x0080
#define EMBER_MAC_FILTER_MATCH_ENABLED 0x0000
#define EMBER_MAC_FILTER_MATCH_DISABLED 0x0001
#define EMBER_MAC_FILTER_MATCH_ON_PAN_DEST_NONE 0x0000
#define EMBER_MAC_FILTER_MATCH_ON_PAN_DEST_LOCAL 0x0001
#define EMBER_MAC_FILTER_MATCH_ON_PAN_DEST_BROADCAST 0x0002
#define EMBER_MAC_FILTER_MATCH_ON_PAN_SOURCE_NONE 0x0000
#define EMBER_MAC_FILTER_MATCH_ON_PAN_SOURCE_NON_LOCAL 0x0004
#define EMBER_MAC_FILTER_MATCH_ON_PAN_SOURCE_LOCAL 0x0008
#define EMBER_MAC_FILTER_MATCH_ON_DEST_BROADCAST_SHORT 0x0000
#define EMBER_MAC_FILTER_MATCH_ON_DEST_UNICAST_SHORT 0x0010
#define EMBER_MAC_FILTER_MATCH_ON_DEST_UNICAST_LONG 0x0020
#define EMBER_MAC_FILTER_MATCH_ON_SOURCE_LONG 0x0000
#define EMBER_MAC_FILTER_MATCH_ON_SOURCE_SHORT 0x0080
#define EMBER_MAC_FILTER_MATCH_ON_SOURCE_NONE 0x0100
#define EMBER_MAC_FILTER_MATCH_END 0x8000
#define WEAK_TEST
#define EMBER_MAX_MAC_ONLY_COUNTERS 33
Defines the maximum number of counters that are specified as reporting either on 2.4 GHz or Sub-GHz.
#define EMBER_MAX_NUM_PHYS 2
Defines the maximum number of PHYs supported.
#define PHY_INDEX_NATIVE 0
PHY index for 2.4 GHz radio interface, valid for simultaneous multi radio network.
#define PHY_INDEX_PRO2PLUS 1
PHY index for Sub-GHz radio interface, valid for simultaneous multi radio network.

Typedefs

typedef uint8_t EmberTaskId
struct {
EmberEventControl * control
void(* handler )(void)
} EmberEventData
Complete events with a control and a handler procedure.
typedef uint16_t EmberMacFilterMatchData
This is a bitmask describing a filter for MAC data messages that the stack should accept and pass through to the application.
typedef uint8_t EmberLibraryStatus
This indicates the presence, absence, or status of an Ember stack library.
typedef uint8_t EmberRadioPowerMode
Radio power mode.

Enumerations

enum EmberNodeType {
EMBER_UNKNOWN_DEVICE = 0,
EMBER_COORDINATOR = 1,
EMBER_ROUTER = 2,
EMBER_END_DEVICE = 3,
EMBER_SLEEPY_END_DEVICE = 4
}
Defines the possible types of nodes and the roles that a node might play in a network.
enum EmberEndDeviceConfiguration {
EMBER_END_DEVICE_CONFIG_NONE = 0x00,
EMBER_END_DEVICE_CONFIG_PERSIST_DATA_ON_PARENT = 0x01
}
The configuration advertised by the end device to the parent when joining/rejoining.
enum EmberNetworkInitBitmask {
EMBER_NETWORK_INIT_NO_OPTIONS = 0x0000,
EMBER_NETWORK_INIT_PARENT_INFO_IN_TOKEN = 0x0001,
EMBER_NETWORK_INIT_END_DEVICE_REJOIN_ON_REBOOT = 0x0002
}
Defines the options that should be used when initializing the node's network configuration.
enum EmberApsRejoinMode {
NO_REJOIN ,
REJOIN_ANY_LINK_KEY ,
REJOIN_NON_DEFAULT_LINK_KEY
}
Options to allow/disallow rejoins using the default link key.
enum EmberApsOption {
EMBER_APS_OPTION_NONE = 0x0000,
EMBER_APS_OPTION_DSA_SIGN = 0x0010,
EMBER_APS_OPTION_ENCRYPTION = 0x0020,
EMBER_APS_OPTION_RETRY = 0x0040,
EMBER_APS_OPTION_ENABLE_ROUTE_DISCOVERY = 0x0100,
EMBER_APS_OPTION_FORCE_ROUTE_DISCOVERY = 0x0200,
EMBER_APS_OPTION_SOURCE_EUI64 = 0x0400,
EMBER_APS_OPTION_DESTINATION_EUI64 = 0x0800,
EMBER_APS_OPTION_ENABLE_ADDRESS_DISCOVERY = 0x1000,
EMBER_APS_OPTION_POLL_RESPONSE = 0x2000,
EMBER_APS_OPTION_ZDO_RESPONSE_REQUIRED = 0x4000,
EMBER_APS_OPTION_FRAGMENT = SIGNED_ENUM 0x8000
}
Options to use when sending a message.
enum EmberIncomingMessageType {
EMBER_INCOMING_UNICAST ,
EMBER_INCOMING_UNICAST_REPLY ,
EMBER_INCOMING_MULTICAST ,
EMBER_INCOMING_MULTICAST_LOOPBACK ,
EMBER_INCOMING_BROADCAST ,
EMBER_INCOMING_BROADCAST_LOOPBACK
}
Defines the possible incoming message types.
enum EmberOutgoingMessageType {
EMBER_OUTGOING_DIRECT ,
EMBER_OUTGOING_VIA_ADDRESS_TABLE ,
EMBER_OUTGOING_VIA_BINDING ,
EMBER_OUTGOING_MULTICAST ,
EMBER_OUTGOING_MULTICAST_WITH_ALIAS ,
EMBER_OUTGOING_BROADCAST_WITH_ALIAS ,
EMBER_OUTGOING_BROADCAST
}
Defines the possible outgoing message types.
enum EmberZigbeeCommandType {
EMBER_ZIGBEE_COMMAND_TYPE_RAW_MAC ,
EMBER_ZIGBEE_COMMAND_TYPE_MAC_COMMAND ,
EMBER_ZIGBEE_COMMAND_TYPE_NWK ,
EMBER_ZIGBEE_COMMAND_TYPE_APS ,
EMBER_ZIGBEE_COMMAND_TYPE_ZDO ,
EMBER_ZIGBEE_COMMAND_TYPE_ZCL ,
EMBER_ZIGBEE_COMMAND_TYPE_BEACON
}
A type of command received by the stack.
enum EmberNetworkStatus {
EMBER_NO_NETWORK ,
EMBER_JOINING_NETWORK ,
EMBER_JOINED_NETWORK ,
EMBER_JOINED_NETWORK_NO_PARENT ,
EMBER_LEAVING_NETWORK
}
Defines the possible join states for a node.
enum EmberNetworkScanType {
EMBER_ENERGY_SCAN ,
EMBER_ACTIVE_SCAN ,
EMBER_START_RADIO_OFF_SCAN ,
EMBER_STACK_GP_CHANNEL_DELIVERY_SCAN ,
EMBER_LAST_SCAN_TYPE = EMBER_STACK_GP_CHANNEL_DELIVERY_SCAN
}
Type for a network scan.
enum EmberBindingType {
EMBER_UNUSED_BINDING = 0,
EMBER_UNICAST_BINDING = 1,
EMBER_MANY_TO_ONE_BINDING = 2,
EMBER_MULTICAST_BINDING = 3
}
Defines binding types.
enum EmberJoinDecision {
EMBER_USE_PRECONFIGURED_KEY = 0,
EMBER_SEND_KEY_IN_THE_CLEAR ,
EMBER_DENY_JOIN ,
EMBER_NO_ACTION
}
The decision made by the Trust Center when a node attempts to join.
enum EmberDeviceUpdate {
EMBER_STANDARD_SECURITY_SECURED_REJOIN = 0,
EMBER_STANDARD_SECURITY_UNSECURED_JOIN = 1,
EMBER_DEVICE_LEFT = 2,
EMBER_STANDARD_SECURITY_UNSECURED_REJOIN = 3,
EMBER_HIGH_SECURITY_SECURED_REJOIN = 0xAA
}
The Status of the Update Device message sent to the Trust Center. The device may have joined or rejoined insecurely, rejoined securely, or left. MAC Security has been deprecated and therefore there is no secure join.
enum EmberRejoinReason {
EMBER_REJOIN_REASON_NONE = 0,
EMBER_REJOIN_DUE_TO_NWK_KEY_UPDATE = 1,
EMBER_REJOIN_DUE_TO_LEAVE_MESSAGE = 2,
EMBER_REJOIN_DUE_TO_NO_PARENT = 3,
EMBER_REJOIN_DUE_TO_ZLL_TOUCHLINK = 4,
EMBER_REJOIN_DUE_TO_END_DEVICE_REBOOT = 5,
EMBER_REJOIN_DUE_TO_APP_EVENT_5 = 0xFB,
EMBER_REJOIN_DUE_TO_APP_EVENT_4 = 0xFC,
EMBER_REJOIN_DUE_TO_APP_EVENT_3 = 0xFD,
EMBER_REJOIN_DUE_TO_APP_EVENT_2 = 0xFE,
EMBER_REJOIN_DUE_TO_APP_EVENT_1 = 0xFF
}
Notes the last rejoin reason.
enum EmberClusterListId {
EMBER_INPUT_CLUSTER_LIST = 0,
EMBER_OUTPUT_CLUSTER_LIST = 1
}
Defines the lists of clusters that must be provided for each endpoint.
enum EmberEventUnits {
EMBER_EVENT_INACTIVE = 0,
EMBER_EVENT_MS_TIME ,
EMBER_EVENT_QS_TIME ,
EMBER_EVENT_MINUTE_TIME ,
EMBER_EVENT_ZERO_DELAY
}
Either marks an event as inactive or specifies the units for the event execution time.
enum EmberJoinMethod {
EMBER_USE_MAC_ASSOCIATION = 0,
EMBER_USE_NWK_REJOIN = 1,
EMBER_USE_NWK_REJOIN_HAVE_NWK_KEY = 2,
EMBER_USE_NWK_COMMISSIONING = 3
}
The type of method used for joining.
enum EmberCounterType {
EMBER_COUNTER_MAC_RX_BROADCAST = 0,
EMBER_COUNTER_MAC_TX_BROADCAST = 1,
EMBER_COUNTER_MAC_RX_UNICAST = 2,
EMBER_COUNTER_MAC_TX_UNICAST_SUCCESS = 3,
EMBER_COUNTER_MAC_TX_UNICAST_RETRY = 4,
EMBER_COUNTER_MAC_TX_UNICAST_FAILED = 5,
EMBER_COUNTER_APS_DATA_RX_BROADCAST = 6,
EMBER_COUNTER_APS_DATA_TX_BROADCAST = 7,
EMBER_COUNTER_APS_DATA_RX_UNICAST = 8,
EMBER_COUNTER_APS_DATA_TX_UNICAST_SUCCESS = 9,
EMBER_COUNTER_APS_DATA_TX_UNICAST_RETRY = 10,
EMBER_COUNTER_APS_DATA_TX_UNICAST_FAILED = 11,
EMBER_COUNTER_ROUTE_DISCOVERY_INITIATED = 12,
EMBER_COUNTER_NEIGHBOR_ADDED = 13,
EMBER_COUNTER_NEIGHBOR_REMOVED = 14,
EMBER_COUNTER_NEIGHBOR_STALE = 15,
EMBER_COUNTER_JOIN_INDICATION = 16,
EMBER_COUNTER_CHILD_REMOVED = 17,
EMBER_COUNTER_ASH_OVERFLOW_ERROR = 18,
EMBER_COUNTER_ASH_FRAMING_ERROR = 19,
EMBER_COUNTER_ASH_OVERRUN_ERROR = 20,
EMBER_COUNTER_NWK_FRAME_COUNTER_FAILURE = 21,
EMBER_COUNTER_APS_FRAME_COUNTER_FAILURE = 22,
EMBER_COUNTER_ASH_XOFF = 23,
EMBER_COUNTER_APS_LINK_KEY_NOT_AUTHORIZED = 24,
EMBER_COUNTER_NWK_DECRYPTION_FAILURE = 25,
EMBER_COUNTER_APS_DECRYPTION_FAILURE = 26,
EMBER_COUNTER_ALLOCATE_PACKET_BUFFER_FAILURE = 27,
EMBER_COUNTER_RELAYED_UNICAST = 28,
EMBER_COUNTER_PHY_TO_MAC_QUEUE_LIMIT_REACHED = 29,
EMBER_COUNTER_PACKET_VALIDATE_LIBRARY_DROPPED_COUNT = 30,
EMBER_COUNTER_TYPE_NWK_RETRY_OVERFLOW = 31,
EMBER_COUNTER_PHY_CCA_FAIL_COUNT = 32,
EMBER_COUNTER_BROADCAST_TABLE_FULL = 33,
EMBER_COUNTER_PTA_LO_PRI_REQUESTED = 34,
EMBER_COUNTER_PTA_HI_PRI_REQUESTED = 35,
EMBER_COUNTER_PTA_LO_PRI_DENIED = 36,
EMBER_COUNTER_PTA_HI_PRI_DENIED = 37,
EMBER_COUNTER_PTA_LO_PRI_TX_ABORTED = 38,
EMBER_COUNTER_PTA_HI_PRI_TX_ABORTED = 39,
EMBER_COUNTER_TYPE_COUNT = 40
}
Defines the events reported to the application by the emberCounterHandler() .
enum EmberInitialSecurityBitmask {
EMBER_DISTRIBUTED_TRUST_CENTER_MODE = 0x0002,
EMBER_TRUST_CENTER_GLOBAL_LINK_KEY = 0x0004,
EMBER_PRECONFIGURED_NETWORK_KEY_MODE = 0x0008,
EMBER_HAVE_TRUST_CENTER_EUI64 = 0x0040,
EMBER_TRUST_CENTER_USES_HASHED_LINK_KEY = 0x0084,
EMBER_HAVE_PRECONFIGURED_KEY = 0x0100,
EMBER_HAVE_NETWORK_KEY = 0x0200,
EMBER_GET_LINK_KEY_WHEN_JOINING = 0x0400,
EMBER_REQUIRE_ENCRYPTED_KEY = 0x0800,
EMBER_NO_FRAME_COUNTER_RESET = 0x1000,
EMBER_GET_PRECONFIGURED_KEY_FROM_INSTALL_CODE = 0x2000
}
This is the Initial Security Bitmask that controls the use of various security features.
enum EmberExtendedSecurityBitmask {
EMBER_JOINER_GLOBAL_LINK_KEY = 0x0010,
EMBER_EXT_NO_FRAME_COUNTER_RESET = 0x0020,
EMBER_NWK_LEAVE_REQUEST_NOT_ALLOWED = 0x0100
}
This is the Extended Security Bitmask that controls the use of various extended security features.
enum EmberCurrentSecurityBitmask {
EMBER_STANDARD_SECURITY_MODE_ = 0x0000,
EMBER_DISTRIBUTED_TRUST_CENTER_MODE_ = 0x0002,
EMBER_TRUST_CENTER_GLOBAL_LINK_KEY_ = 0x0004,
EMBER_HAVE_TRUST_CENTER_LINK_KEY = 0x0010,
EMBER_TRUST_CENTER_USES_HASHED_LINK_KEY_ = 0x0084
}
This is the Current Security Bitmask that details the use of various security features.
enum EmberKeyStructBitmask {
EMBER_KEY_HAS_SEQUENCE_NUMBER = 0x0001,
EMBER_KEY_HAS_OUTGOING_FRAME_COUNTER = 0x0002,
EMBER_KEY_HAS_INCOMING_FRAME_COUNTER = 0x0004,
EMBER_KEY_HAS_PARTNER_EUI64 = 0x0008,
EMBER_KEY_IS_AUTHORIZED = 0x0010,
EMBER_KEY_PARTNER_IS_SLEEPY = 0x0020
}
This bitmask describes the presence of fields within the EmberKeyStruct .
enum EmberKeyType {
EMBER_TRUST_CENTER_LINK_KEY = 1,
EMBER_CURRENT_NETWORK_KEY = 3,
EMBER_NEXT_NETWORK_KEY = 4,
EMBER_APPLICATION_LINK_KEY = 5
}
This denotes the type of security key.
enum EmberKeyStatus {
EMBER_KEY_STATUS_NONE = 0x00,
EMBER_APP_LINK_KEY_ESTABLISHED = 0x01,
EMBER_TRUST_CENTER_LINK_KEY_ESTABLISHED = 0x03,
EMBER_KEY_ESTABLISHMENT_TIMEOUT = 0x04,
EMBER_KEY_TABLE_FULL = 0x05,
EMBER_TC_RESPONDED_TO_KEY_REQUEST = 0x06,
EMBER_TC_APP_KEY_SENT_TO_REQUESTER = 0x07,
EMBER_TC_RESPONSE_TO_KEY_REQUEST_FAILED = 0x08,
EMBER_TC_REQUEST_KEY_TYPE_NOT_SUPPORTED = 0x09,
EMBER_TC_NO_LINK_KEY_FOR_REQUESTER = 0x0A,
EMBER_TC_REQUESTER_EUI64_UNKNOWN = 0x0B,
EMBER_TC_RECEIVED_FIRST_APP_KEY_REQUEST = 0x0C,
EMBER_TC_TIMEOUT_WAITING_FOR_SECOND_APP_KEY_REQUEST = 0x0D,
EMBER_TC_NON_MATCHING_APP_KEY_REQUEST_RECEIVED = 0x0E,
EMBER_TC_FAILED_TO_SEND_APP_KEYS = 0x0F,
EMBER_TC_FAILED_TO_STORE_APP_KEY_REQUEST = 0x10,
EMBER_TC_REJECTED_APP_KEY_REQUEST = 0x11,
EMBER_TC_FAILED_TO_GENERATE_NEW_KEY = 0x12,
EMBER_TC_FAILED_TO_SEND_TC_KEY = 0x13,
EMBER_TRUST_CENTER_IS_PRE_R21 = 0x1E,
EMBER_TC_REQUESTER_VERIFY_KEY_TIMEOUT = 0x32,
EMBER_TC_REQUESTER_VERIFY_KEY_FAILURE = 0x33,
EMBER_TC_REQUESTER_VERIFY_KEY_SUCCESS = 0x34,
EMBER_VERIFY_LINK_KEY_FAILURE = 0x64,
EMBER_VERIFY_LINK_KEY_SUCCESS = 0x65
}
This denotes the status of an attempt to establish a key with another device.
enum EmberLinkKeyRequestPolicy {
EMBER_DENY_KEY_REQUESTS = 0x00,
EMBER_ALLOW_KEY_REQUESTS = 0x01,
EMBER_GENERATE_NEW_TC_LINK_KEY = 0x02
}
This enumeration determines whether or not a Trust Center answers link key requests.
enum EmberKeySettings {
EMBER_KEY_PERMISSIONS_NONE = 0x0000,
EMBER_KEY_PERMISSIONS_READING_ALLOWED = 0x0001,
EMBER_KEY_PERMISSIONS_HASHING_ALLOWED = 0x0002
}
enum EmberMacPassthroughType {
EMBER_MAC_PASSTHROUGH_NONE = 0x00,
EMBER_MAC_PASSTHROUGH_SE_INTERPAN = 0x01,
EMBER_MAC_PASSTHROUGH_EMBERNET = 0x02,
EMBER_MAC_PASSTHROUGH_EMBERNET_SOURCE = 0x04,
EMBER_MAC_PASSTHROUGH_APPLICATION = 0x08,
EMBER_MAC_PASSTHROUGH_CUSTOM = 0x10
}
The types of MAC passthrough messages that an application may receive. This is a bitmask.
enum EmberMultiPhyNwkConfig {
EMBER_MULTI_PHY_ROUTERS_ALLOWED = 0x01,
EMBER_MULTI_PHY_BROADCASTS_ENABLED = 0x02,
EMBER_MULTI_PHY_DISABLED = 0x80
}

Functions

uint8_t * emberKeyContents ( EmberKeyData *key)
This function allows access to the actual key data bytes of the EmberKeyData structure.
uint8_t * emberCertificateContents ( EmberCertificateData *cert)
This function allows access to the actual certificate data bytes of the EmberCertificateData structure.
uint8_t * emberPublicKeyContents ( EmberPublicKeyData *key)
This function allows access to the actual public key data bytes of the EmberPublicKeyData structure.
uint8_t * emberPrivateKeyContents ( EmberPrivateKeyData *key)
This function allows access to the actual private key data bytes of the EmberPrivateKeyData structure.
uint8_t * emberSmacContents ( EmberSmacData *key)
This function allows access to the actual SMAC (Secured Message Authentication Code) data of the EmberSmacData structure.
uint8_t * emberSignatureContents ( EmberSignatureData *sig)
This function allows access to the actual ECDSA signature data of the EmberSignatureData structure.
uint8_t * emberCertificate283k1Contents ( EmberCertificate283k1Data *cert)
This function allows access to the actual certificate data bytes of the Ember283k1CertificateData structure.
uint8_t * emberPublicKey283k1Contents ( EmberPublicKey283k1Data *key)
This function allows access to the actual public key data bytes of the Ember283k1PublicKeyData structure.
uint8_t * emberPrivateKey283k1Contents ( EmberPrivateKey283k1Data *key)
This function allows access to the actual private key data bytes of the Ember283k1PrivateKeyData structure.
uint8_t * ember283k1SignatureContents (Ember283k1SignatureData *sig)
This function allows access to the actual ECDSA signature data of the Ember283k1SignatureData structure.

Miscellaneous Ember Types

enum EmberVersionType {
EMBER_VERSION_TYPE_PRE_RELEASE = 0x00,
EMBER_VERSION_TYPE_ALPHA_1 = 0x11,
EMBER_VERSION_TYPE_ALPHA_2 = 0x12,
EMBER_VERSION_TYPE_ALPHA_3 = 0x13,
EMBER_VERSION_TYPE_BETA_1 = 0x21,
EMBER_VERSION_TYPE_BETA_2 = 0x22,
EMBER_VERSION_TYPE_BETA_3 = 0x23,
EMBER_VERSION_TYPE_GA = 0xAA
}
Type of Ember software version.
enum EmberLeaveRequestFlags {
EMBER_ZIGBEE_LEAVE_AND_REJOIN = 0x80,
EMBER_ZIGBEE_LEAVE_AND_REMOVE_CHILDREN = 0x40
}
EmberReleaseTypeStruct Data that relates release type to the correct string.
enum EmberLeaveReason {
EMBER_LEAVE_REASON_NONE = 0,
EMBER_LEAVE_DUE_TO_NWK_LEAVE_MESSAGE = 1,
EMBER_LEAVE_DUE_TO_APS_REMOVE_MESSAGE = 2,
EMBER_LEAVE_DUE_TO_ZDO_LEAVE_MESSAGE = 3,
EMBER_LEAVE_DUE_TO_ZLL_TOUCHLINK = 4,
EMBER_LEAVE_DUE_TO_APP_EVENT_1 = 0xFF
}
EmberReleaseTypeStruct Data that relates release type to the correct string.
typedef uint8_t EmberStatus
EmberReleaseTypeStruct Data that relates release type to the correct string.
typedef uint8_t EmberEUI64 [ EUI64_SIZE ]
EUI 64-bit ID (an IEEE address).
typedef uint8_t EmberMessageBuffer
Incoming and outgoing messages are stored in buffers. These buffers are allocated and freed as needed.
typedef uint16_t EmberNodeId
16-bit ZigBee network address.
typedef uint16_t EmberMulticastId
16-bit ZigBee multicast group identifier.
typedef uint16_t EmberPanId
802.15.4 PAN ID.
typedef uint16_t EmberDutyCycleHectoPct
The percent of duty cycle for a limit.
const EmberVersion emberVersion
A structure containing the version information.
#define EMBER_RELEASE_TYPE_TO_STRING_STRUCT_DATA
EmberReleaseTypeStruct Data that relates release type to the correct string.
#define EUI64_SIZE 8
Size of EUI64 (an IEEE address) in bytes (8).
#define EXTENDED_PAN_ID_SIZE 8
Size of an extended PAN identifier in bytes (8).
#define EMBER_ENCRYPTION_KEY_SIZE 16
Size of an encryption key in bytes (16).
#define EMBER_CERTIFICATE_SIZE 48
Size of Implicit Certificates used for Certificate-based Key Exchange(CBKE).
#define EMBER_PUBLIC_KEY_SIZE 22
Size of Public Keys used in Elliptical Cryptography ECMQV algorithms.
#define EMBER_PRIVATE_KEY_SIZE 21
Size of Private Keys used in Elliptical Cryptography ECMQV algorithms.
#define EMBER_SMAC_SIZE 16
Size of the SMAC used in Elliptical Cryptography ECMQV algorithms.
#define EMBER_SIGNATURE_SIZE 42
Size of the DSA signature used in Elliptical Cryptography Digital Signature Algorithms.
#define EMBER_AES_HASH_BLOCK_SIZE 16
The size of AES-128 MMO hash is 16-bytes. This is defined in the core. ZigBee specification.
#define EMBER_CERTIFICATE_283K1_SIZE 74
Size of Implicit Certificates used for Certificate Based Key Exchange using the ECC283K1 curve in bytes.
#define EMBER_PUBLIC_KEY_283K1_SIZE 37
Size of Public Keys used in SECT283k1 Elliptical Cryptography ECMQV algorithms.
#define EMBER_PRIVATE_KEY_283K1_SIZE 36
Size of Private Keys used SECT283k1 in Elliptical Cryptography ECMQV algorithms.
#define EMBER_SIGNATURE_283K1_SIZE 72
Size of the DSA signature used in SECT283k1 Elliptical Cryptography Digital Signature Algorithms.
#define __EMBERSTATUS_TYPE__
Return type for Ember functions.
#define EMBER_MAX_802_15_4_CHANNEL_NUMBER 26
The maximum 802.15.4 channel number is 26.
#define EMBER_MIN_802_15_4_CHANNEL_NUMBER 11
The minimum 2.4GHz 802.15.4 channel number is 11.
#define EMBER_MIN_SUBGHZ_CHANNEL_NUMBER 0
The minimum SubGhz channel number is 0.
#define EMBER_ACTIVE_SCAN_DURATION 3
#define EMBER_SUB_GHZ_SCAN_DURATION 5
The SubGhz scan duration is 5.
#define EMBER_NUM_802_15_4_CHANNELS ( EMBER_MAX_802_15_4_CHANNEL_NUMBER - EMBER_MIN_802_15_4_CHANNEL_NUMBER + 1)
There are sixteen 802.15.4 channels.
#define EMBER_ALL_802_15_4_CHANNELS_MASK 0x07FFF800UL
A bitmask to scan all 2.4 GHz 802.15.4 channels.
#define EMBER_MAX_CHANNELS_PER_PAGE 27
The maximum channels per page are 27 page bits 31...27, channel bits 26...0.
#define EMBER_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_28_30_31 0x07FFFFFFUL
Sub-GHz channel bitmasks for pages 28, 30, 31.
#define EMBER_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGES_28_30_31 26
The maximum SubGhz channel number on pages 28, 30, 31 is 26.
#define EMBER_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_29 0x1FF
SubGhz channel bitmasks for page 29.
#define EMBER_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGE_29 8
The maximum SubGhz channel number on page 29 is 8.
#define EMBER_MIN_SUGBHZ_PAGE_NUMBER 28
The minimum SubGhz page number is 28.
#define EMBER_MAX_SUGBHZ_PAGE_NUMBER 31
The maximum SubGhz page number is 31.
#define EMBER_ALL_CHANNEL_PAGE_MASK 0xF8000000UL
A bitmask for the channel page within a channel mask.
#define EMBER_PAGE_CHANNEL_MASK_FROM_CHANNEL_MASK (page, mask)
A page-channel mask for a given page and channel mask.
#define EMBER_PAGE_CHANNEL_MASK_FROM_CHANNEL_NUMBER (page, channel) EMBER_PAGE_CHANNEL_MASK_FROM_CHANNEL_MASK (page, BIT32(channel))
A page-channel mask for a given page and channel.
#define EMBER_ZIGBEE_COORDINATOR_ADDRESS 0x0000
The network ID of the coordinator in a ZigBee network is 0x0000.
#define EMBER_NULL_NODE_ID 0xFFFF
A distinguished network ID that will never be assigned to any node. It is used to indicate the absence of a node ID.
#define EMBER_NO_CHANNEL_PAGE_IN_USE 0
The channel page value used to indicate just the 2.4GHz channels.
#define EMBER_NULL_EUI64 { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }
A distinguished EUI64 that is commonly used to indicate an invalid EUI64.
#define EMBER_NULL_BINDING 0xFF
A distinguished binding index used to indicate the absence of a binding.
#define EMBER_TABLE_ENTRY_UNUSED_NODE_ID 0xFFFF
A distinguished network ID that will never be assigned to any node.
#define EMBER_MULTICAST_NODE_ID 0xFFFE
A distinguished network ID that will never be assigned to any node. This value is returned when getting the remote node ID from the binding table and the given binding table index refers to a multicast binding entry.
#define EMBER_UNKNOWN_NODE_ID 0xFFFD
A distinguished network ID that will never be assigned to any node. This value is used when getting the remote node ID from the address or binding tables. It indicates that the address or binding table entry is currently in use but the node ID corresponding to the EUI64 in the table is currently unknown.
#define EMBER_DISCOVERY_ACTIVE_NODE_ID 0xFFFC
A distinguished network ID that will never be assigned to any node. This value is used when getting the remote node ID from the address or binding tables. It indicates that the address or binding table entry is currently in use and network address discovery is underway.
#define EMBER_NULL_ADDRESS_TABLE_INDEX 0xFF
A distinguished address table index used to indicate the absence of an address table entry.
#define EMBER_ZDO_ENDPOINT 0
The endpoint where the ZigBee Device Object (ZDO) resides.
#define EMBER_BROADCAST_ENDPOINT 0xFF
The broadcast endpoint, as defined in the ZigBee spec.
#define EMBER_ZDO_PROFILE_ID 0x0000
The profile ID used by the ZigBee Device Object (ZDO).
#define EMBER_WILDCARD_PROFILE_ID 0xFFFF
The profile ID used to address all the public profiles.
#define EMBER_MAXIMUM_STANDARD_PROFILE_ID 0x7FFF
The maximum value for a profile ID in the standard profile range.
#define EMBER_BROADCAST_TABLE_TIMEOUT_QS (20 * 4)
The broadcast table entry timeout, which specifies, in quarter seconds, how long an entry persists in the local device's broadcast table.
#define EMBER_MANUFACTURER_ID 0x1002
Ember's Manufacturer ID.
#define EMBER_DC_LIMIT_USE_DEFAULT 0
Use Ember's default duty cycle limit configurations.

ZigBee Broadcast Addresses

ZigBee specifies three different broadcast addresses that reach different collections of nodes. Broadcasts are normally sent only to routers. Broadcasts can also be forwarded to end devices, either all of them or only those that do not sleep. Broadcasting to end devices is both significantly more resource-intensive and significantly less reliable than broadcasting to routers.

#define EMBER_BROADCAST_ADDRESS 0xFFFC
#define EMBER_RX_ON_WHEN_IDLE_BROADCAST_ADDRESS 0xFFFD
#define EMBER_SLEEPY_BROADCAST_ADDRESS 0xFFFF

Ember Concentrator Types

#define EMBER_LOW_RAM_CONCENTRATOR 0xFFF8
#define EMBER_HIGH_RAM_CONCENTRATOR 0xFFF9

txPowerModes for emberSetTxPowerMode and mfglibSetPower

#define EMBER_TX_POWER_MODE_DEFAULT 0x0000
The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value to disable all power mode options, resulting in normal power mode and bi-directional RF transmitter output.
#define EMBER_TX_POWER_MODE_BOOST 0x0001
The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value to enable boost power mode.
#define EMBER_TX_POWER_MODE_ALTERNATE 0x0002
The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value to enable the alternate transmitter output.
#define EMBER_TX_POWER_MODE_BOOST_AND_ALTERNATE
The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value to enable both boost mode and the alternate transmitter output.

Counters Request Definitions

#define EMBER_PRIVATE_PROFILE_ID 0xC00E
This is a ZigBee application profile ID that has been assigned to Ember Corporation.
#define EMBER_PRIVATE_PROFILE_ID_START 0xC00D
Ember's first private profile ID.
#define EMBER_PRIVATE_PROFILE_ID_END 0xC016
Ember's last private profile ID.
#define EMBER_REPORT_COUNTERS_REQUEST 0x0003
#define EMBER_REPORT_COUNTERS_RESPONSE 0x8003
#define EMBER_REPORT_AND_CLEAR_COUNTERS_REQUEST 0x0004
#define EMBER_REPORT_AND_CLEAR_COUNTERS_RESPONSE 0x8004
#define EMBER_OTA_CERTIFICATE_UPGRADE_CLUSTER 0x0005

ZDO response status.

Most responses to ZDO commands contain a status byte. The meaning of this byte is defined by the ZigBee Device Profile.

enum EmberZdoStatus {
EMBER_ZDP_SUCCESS = 0x00,
EMBER_ZDP_INVALID_REQUEST_TYPE = 0x80,
EMBER_ZDP_DEVICE_NOT_FOUND = 0x81,
EMBER_ZDP_INVALID_ENDPOINT = 0x82,
EMBER_ZDP_NOT_ACTIVE = 0x83,
EMBER_ZDP_NOT_SUPPORTED = 0x84,
EMBER_ZDP_TIMEOUT = 0x85,
EMBER_ZDP_NO_MATCH = 0x86,
EMBER_ZDP_NO_ENTRY = 0x88,
EMBER_ZDP_NO_DESCRIPTOR = 0x89,
EMBER_ZDP_INSUFFICIENT_SPACE = 0x8a,
EMBER_ZDP_NOT_PERMITTED = 0x8b,
EMBER_ZDP_TABLE_FULL = 0x8c,
EMBER_ZDP_NOT_AUTHORIZED = 0x8d,
EMBER_ZDP_DEVICE_BINDING_TABLE_FULL = 0x8e,
EMBER_ZDP_INVALID_INDEX = 0x8f,
EMBER_NWK_ALREADY_PRESENT = 0xC5,
EMBER_NWK_TABLE_FULL = 0xC7,
EMBER_NWK_UNKNOWN_DEVICE = 0xC8
}

Network and IEEE Address Request/Response

Defines for ZigBee device profile cluster IDs follow. These include descriptions of the formats of the messages.

Note that each message starts with a 1-byte transaction sequence number. This sequence number is used to match a response command frame to the request frame that it is replying to. The application shall maintain a 1-byte counter that is copied into this field and incremented by one for each command sent. When a value of 0xff is reached, the next command shall re-start the counter with a value of 0x00.

Network request: <transaction sequence number: 1>
<EUI64:8> <type:1> <start index:1>
IEEE request: <transaction sequence number: 1>
<node ID:2> <type:1> <start index:1>
<type> = 0x00 single address response, ignore the start index
= 0x01 extended response -> sends kid 's IDs as well
Response: <transaction sequence number: 1>
<status:1> <EUI64:8> <node ID:2>
<ID count:1> <start index:1> <child ID:2>*
#define NETWORK_ADDRESS_REQUEST 0x0000
#define NETWORK_ADDRESS_RESPONSE 0x8000
#define IEEE_ADDRESS_REQUEST 0x0001
#define IEEE_ADDRESS_RESPONSE 0x8001

Node Descriptor Request/Response


Request: <transaction sequence number: 1> <node ID:2>
Response: <transaction sequence number: 1> <status:1> <node ID:2>
// <node descriptor: 13>
//
// Node Descriptor field is divided into subfields of bitmasks as follows:
// (Note: All lengths below are given in bits rather than bytes.)
// Logical Type: 3
// Complex Descriptor Available: 1
// User Descriptor Available: 1
// (reserved/unused): 3
// APS Flags: 3
// Frequency Band: 5
// MAC capability flags: 8
// Manufacturer Code: 16
// Maximum buffer size: 8
// Maximum incoming transfer size: 16
// Server mask: 16
// Maximum outgoing transfer size: 16
// Descriptor Capability Flags: 8
// See ZigBee document 053474, Section 2.3.2.3 for more details.
#define NODE_DESCRIPTOR_REQUEST 0x0002
#define NODE_DESCRIPTOR_RESPONSE 0x8002

Power Descriptor Request / Response


Request: <transaction sequence number: 1> <node ID:2>
Response: <transaction sequence number: 1> <status:1> <node ID:2>
<current power mode, available power sources:1>
<current power source, current power source level:1>
// See ZigBee document 053474, Section 2.3.2.4 for more details.
#define POWER_DESCRIPTOR_REQUEST 0x0003
#define POWER_DESCRIPTOR_RESPONSE 0x8003

Simple Descriptor Request / Response


Request: <transaction sequence number: 1>
<node ID:2> <endpoint:1>
Response: <transaction sequence number: 1>
<status:1> <node ID:2> <length:1> <endpoint:1>
<app profile ID:2> <app device ID:2>
<app device version, app flags:1>
<input cluster count:1> <input cluster:2>*
<output cluster count:1> <output cluster:2>*
#define SIMPLE_DESCRIPTOR_REQUEST 0x0004
#define SIMPLE_DESCRIPTOR_RESPONSE 0x8004

Active Endpoints Request / Response


Request: <transaction sequence number: 1> <node ID:2>
Response: <transaction sequence number: 1>
<status:1> <node ID:2> <endpoint count:1> <endpoint:1>*
#define ACTIVE_ENDPOINTS_REQUEST 0x0005
#define ACTIVE_ENDPOINTS_RESPONSE 0x8005

Match Descriptors Request / Response


Request: <transaction sequence number: 1>
<node ID:2> <app profile ID:2>
<input cluster count:1> <input cluster:2>*
<output cluster count:1> <output cluster:2>*
Response: <transaction sequence number: 1>
<status:1> <node ID:2> <endpoint count:1> <endpoint:1>*
#define MATCH_DESCRIPTORS_REQUEST 0x0006
#define MATCH_DESCRIPTORS_RESPONSE 0x8006

Discovery Cache Request / Response


Request: <transaction sequence number: 1>
<source node ID:2> <source EUI64:8>
Response: <transaction sequence number: 1>
<status (== EMBER_ZDP_SUCCESS ):1>
#define DISCOVERY_CACHE_REQUEST 0x0012
#define DISCOVERY_CACHE_RESPONSE 0x8012

End Device Announce and End Device Announce Response


Request: <transaction sequence number: 1>
<node ID:2> <EUI64:8> <capabilities:1>
No response is sent.
#define END_DEVICE_ANNOUNCE 0x0013
#define END_DEVICE_ANNOUNCE_RESPONSE 0x8013

System Server Discovery Request / Response


This is broadcast and only servers which have matching services respond. The response contains the request services that the recipient provides.

Request: <transaction sequence number: 1> <server mask:2>
Response: <transaction sequence number: 1>
<status (== EMBER_ZDP_SUCCESS ):1> <server mask:2>
#define SYSTEM_SERVER_DISCOVERY_REQUEST 0x0015
#define SYSTEM_SERVER_DISCOVERY_RESPONSE 0x8015

Parent Announce and Parent Announce Response


This is broadcast and only servers which have matching children respond. The response contains the list of children that the recipient now holds.

Request: <transaction sequence number: 1>
<number of children:1> <child EUI64:8> <child Age:4>*
Response: <transaction sequence number: 1>
<number of children:1> <child EUI64:8> <child Age:4>*
#define PARENT_ANNOUNCE 0x001F
#define PARENT_ANNOUNCE_RESPONSE 0x801F

ZDO server mask bits


These are used in server discovery requests and responses.

enum EmberZdoServerMask {
EMBER_ZDP_PRIMARY_TRUST_CENTER = 0x0001,
EMBER_ZDP_SECONDARY_TRUST_CENTER = 0x0002,
EMBER_ZDP_PRIMARY_BINDING_TABLE_CACHE = 0x0004,
EMBER_ZDP_SECONDARY_BINDING_TABLE_CACHE = 0x0008,
EMBER_ZDP_PRIMARY_DISCOVERY_CACHE = 0x0010,
EMBER_ZDP_SECONDARY_DISCOVERY_CACHE = 0x0020,
EMBER_ZDP_NETWORK_MANAGER = 0x0040
}

Find Node Cache Request / Response


This is broadcast and only discovery servers which have the information for the device of interest, or the device of interest itself, respond. The requesting device can then direct any service discovery requests to the responder.

Request: <transaction sequence number: 1>
<device of interest ID:2> <d-of-i EUI64:8>
Response: <transaction sequence number: 1>
<responder ID:2> <device of interest ID:2> <d-of-i EUI64:8>
#define FIND_NODE_CACHE_REQUEST 0x001C
#define FIND_NODE_CACHE_RESPONSE 0x801C

End Device Bind Request / Response


Request: <transaction sequence number: 1>
<node ID:2> <EUI64:8> <endpoint:1> <app profile ID:2>
<input cluster count:1> <input cluster:2>*
<output cluster count:1> <output cluster:2>*
Response: <transaction sequence number: 1> <status:1>
#define END_DEVICE_BIND_REQUEST 0x0020
#define END_DEVICE_BIND_RESPONSE 0x8020

Binding types and Request / Response


Bind and unbind have the same formats. There are two possible formats, depending on whether the destination is a group address or a device address. Device addresses include an endpoint, groups don't.

Request: <transaction sequence number: 1>
<source EUI64:8> <source endpoint:1>
<cluster ID:2> <destination address:3 or 10>
Destination address:
<0x01:1> <destination group:2>
Or:
<0x03:1> <destination EUI64:8> <destination endpoint:1>
Response: <transaction sequence number: 1> <status:1>
#define UNICAST_BINDING 0x03
#define UNICAST_MANY_TO_ONE_BINDING 0x83
#define MULTICAST_BINDING 0x01
#define BIND_REQUEST 0x0021
#define BIND_RESPONSE 0x8021
#define UNBIND_REQUEST 0x0022
#define UNBIND_RESPONSE 0x8022

LQI Table Request / Response


Request: <transaction sequence number: 1> <start index:1>
Response: <transaction sequence number: 1> <status:1>
<neighbor table entries:1> <start index:1>
<entry count:1> <entry:22>*
<entry> = <extended PAN ID:8> <EUI64:8> <node ID:2>
<device type, rx on when idle, relationship:1>
<permit joining:1> <depth:1> <LQI:1>

The device-type byte has the following fields:

Name Mask Values
device type 0x03 0x00 coordinator
0x01 router
0x02 end device
0x03 unknown
rx mode 0x0C 0x00 off when idle
0x04 on when idle
0x08 unknown
relationship 0x70 0x00 parent
0x10 child
0x20 sibling
0x30 other
0x40 previous child
reserved 0x10

The permit-joining byte has the following fields

Name Mask Values
permit joining 0x03 0x00 not accepting join requests
0x01 accepting join requests
0x02 unknown
reserved 0xFC
#define LQI_TABLE_REQUEST 0x0031
#define LQI_TABLE_RESPONSE 0x8031

Routing Table Request / Response


Request: <transaction sequence number: 1> <start index:1>
Response: <transaction sequence number: 1> <status:1>
<routing table entries:1> <start index:1>
<entry count:1> <entry:5>*
<entry> = <destination address:2>
<status:1>
<next hop:2>

The status byte has the following fields:

Name Mask Values
status 0x07 0x00 active
0x01 discovery underway
0x02 discovery failed
0x03 inactive
0x04 validation underway
flags 0x38
0x08 memory constrained
0x10 many-to-one
0x20 route record required
reserved 0xC0
#define ROUTING_TABLE_REQUEST 0x0032
#define ROUTING_TABLE_RESPONSE 0x8032

Binding Table Request / Response


Request: <transaction sequence number: 1> <start index:1>
Response: <transaction sequence number: 1>
<status:1> <binding table entries:1> <start index:1>
<entry count:1> <entry:14/21>*
<entry> = <source EUI64:8> <source endpoint:1> <cluster ID:2>
<dest addr mode:1> <dest:2/8> <dest endpoint:0/1>


Note
If Dest. Address Mode = 0x03, then the Long Dest. Address will be used and Dest. endpoint will be included. If Dest. Address Mode = 0x01, then the Short Dest. Address will be used and there will be no Dest. endpoint.
#define BINDING_TABLE_REQUEST 0x0033
#define BINDING_TABLE_RESPONSE 0x8033

Leave Request / Response


Request: <transaction sequence number: 1> <EUI64:8> <flags:1>
The flag bits are:
0x40 remove children
0x80 rejoin
Response: <transaction sequence number: 1> <status:1>
#define LEAVE_REQUEST 0x0034
#define LEAVE_RESPONSE 0x8034
#define LEAVE_REQUEST_REMOVE_CHILDREN_FLAG 0x40
#define LEAVE_REQUEST_REJOIN_FLAG 0x80

Permit Joining Request / Response


Request: <transaction sequence number: 1>
<duration:1> <permit authentication:1>
Response: <transaction sequence number: 1> <status:1>
#define PERMIT_JOINING_REQUEST 0x0036
#define PERMIT_JOINING_RESPONSE 0x8036

Network Update Request / Response


Request: <transaction sequence number: 1>
<scan channels:4> <duration:1> <count:0/1> <manager:0/2>
If the duration is in 0x00 ... 0x05, 'count' is present but
not 'manager' . Perform 'count' scans of the given duration on the
given channels.
If duration is 0xFE, 'channels' should have a single channel
and 'count' and 'manager' are not present. Switch to the indicated
channel.
If duration is 0xFF, 'count' is not present. Set the active
channels and the network manager ID to the values given.
Unicast requests always get a response, which is INVALID_REQUEST if the
duration is not a legal value.
Response: <transaction sequence number: 1> <status:1>
<scanned channels:4> <transmissions:2> <failures:2>
<energy count:1> <energy:1>*
#define NWK_UPDATE_REQUEST 0x0038
#define NWK_UPDATE_RESPONSE 0x8038
#define NWK_UPDATE_ENHANCED_REQUEST 0x0039
#define NWK_UPDATE_ENHANCED_RESPONSE 0x8039
#define NWK_UPDATE_IEEE_JOINING_LIST_REQUEST 0x003A
#define NWK_UPDATE_IEEE_JOINING_LIST_REPONSE 0x803A
#define NWK_UNSOLICITED_ENHANCED_UPDATE_NOTIFY 0x803B

Unsupported


Not mandatory and not supported.

#define COMPLEX_DESCRIPTOR_REQUEST 0x0010
#define COMPLEX_DESCRIPTOR_RESPONSE 0x8010
#define USER_DESCRIPTOR_REQUEST 0x0011
#define USER_DESCRIPTOR_RESPONSE 0x8011
#define DISCOVERY_REGISTER_REQUEST 0x0012
#define DISCOVERY_REGISTER_RESPONSE 0x8012
#define USER_DESCRIPTOR_SET 0x0014
#define USER_DESCRIPTOR_CONFIRM 0x8014
#define NETWORK_DISCOVERY_REQUEST 0x0030
#define NETWORK_DISCOVERY_RESPONSE 0x8030
#define DIRECT_JOIN_REQUEST 0x0035
#define DIRECT_JOIN_RESPONSE 0x8035
#define CLUSTER_ID_RESPONSE_MINIMUM 0x8000

ZDO configuration flags.

Control which ZDO requests are passed to the application. These are normally controlled via the following configuration definitions:

EMBER_APPLICATION_RECEIVES_SUPPORTED_ZDO_REQUESTS EMBER_APPLICATION_HANDLES_UNSUPPORTED_ZDO_REQUESTS EMBER_APPLICATION_HANDLES_ENDPOINT_ZDO_REQUESTS EMBER_APPLICATION_HANDLES_BINDING_ZDO_REQUESTS

See ember-configuration.h for more information.

enum EmberZdoConfigurationFlags {
EMBER_APP_RECEIVES_SUPPORTED_ZDO_REQUESTS = 0x01,
EMBER_APP_HANDLES_UNSUPPORTED_ZDO_REQUESTS = 0x02,
EMBER_APP_HANDLES_ZDO_ENDPOINT_REQUESTS = 0x04,
EMBER_APP_HANDLES_ZDO_BINDING_REQUESTS = 0x08
}

Detailed Description

See ember-types.h for source code.

Macro Definition Documentation

#define __EMBERSTATUS_TYPE__

Return type for Ember functions.

#define ACTIVE_ENDPOINTS_REQUEST   0x0005
#define ACTIVE_ENDPOINTS_RESPONSE   0x8005
#define BIND_REQUEST   0x0021
#define BIND_RESPONSE   0x8021
#define BINDING_TABLE_REQUEST   0x0033
#define BINDING_TABLE_RESPONSE   0x8033
#define CLUSTER_ID_RESPONSE_MINIMUM   0x8000
#define COMPLEX_DESCRIPTOR_REQUEST   0x0010
#define COMPLEX_DESCRIPTOR_RESPONSE   0x8010
#define DIRECT_JOIN_REQUEST   0x0035
#define DIRECT_JOIN_RESPONSE   0x8035
#define DISCOVERY_CACHE_REQUEST   0x0012
#define DISCOVERY_CACHE_RESPONSE   0x8012
#define DISCOVERY_REGISTER_REQUEST   0x0012
#define DISCOVERY_REGISTER_RESPONSE   0x8012
#define EMBER_ACTIVE_SCAN_DURATION   3

ZigBee specifies that active scans have a duration of 3 (138 msec). See documentation for emberStartScan in include/network-formation.h for more info on duration values.

#define EMBER_AES_HASH_BLOCK_SIZE   16

The size of AES-128 MMO hash is 16-bytes. This is defined in the core. ZigBee specification.

#define EMBER_ALL_802_15_4_CHANNELS_MASK   0x07FFF800UL

A bitmask to scan all 2.4 GHz 802.15.4 channels.

Referenced by networkRejoinCommand() , and zdoNetworkUpdateScanCommand() .

#define EMBER_ALL_CHANNEL_PAGE_MASK   0xF8000000UL

A bitmask for the channel page within a channel mask.

#define EMBER_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_28_30_31   0x07FFFFFFUL

Sub-GHz channel bitmasks for pages 28, 30, 31.

#define EMBER_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_29   0x1FF

SubGhz channel bitmasks for page 29.

#define EMBER_BROADCAST_ADDRESS   0xFFFC

Broadcast to all routers.

Referenced by emAfCliSendCommand() .

#define EMBER_BROADCAST_ENDPOINT   0xFF

The broadcast endpoint, as defined in the ZigBee spec.

#define EMBER_BROADCAST_TABLE_TIMEOUT_QS   (20 * 4)

The broadcast table entry timeout, which specifies, in quarter seconds, how long an entry persists in the local device's broadcast table.

#define EMBER_CERTIFICATE_283K1_SIZE   74

Size of Implicit Certificates used for Certificate Based Key Exchange using the ECC283K1 curve in bytes.

#define EMBER_CERTIFICATE_SIZE   48

Size of Implicit Certificates used for Certificate-based Key Exchange(CBKE).

#define EMBER_COUNTER_STRINGS

@ brief Defines the CLI enumerations for the EmberCounterType enum.

#define EMBER_DC_LIMIT_USE_DEFAULT   0

Use Ember's default duty cycle limit configurations.

#define EMBER_DEVICE_UPDATE_STRINGS
Value:
"secured rejoin" , \
"UNsecured join" , \
"device left" , \
"UNsecured rejoin" ,

@ brief Defines the CLI enumerations for the EmberDeviceUpdate enum.

#define EMBER_DISCOVERY_ACTIVE_NODE_ID   0xFFFC

A distinguished network ID that will never be assigned to any node. This value is used when getting the remote node ID from the address or binding tables. It indicates that the address or binding table entry is currently in use and network address discovery is underway.

#define EMBER_ENCRYPTION_KEY_SIZE   16

Size of an encryption key in bytes (16).

#define EMBER_GLOBAL_LINK_KEY EMBER_TRUST_CENTER_GLOBAL_LINK_KEY

This is the legacy name for the Trust Center Global Link Key.

#define EMBER_HIGH_RAM_CONCENTRATOR   0xFFF9

A concentrator with sufficient memory to store source routes for the entire network. Remote nodes stop sending route records once the concentrator has successfully received one.

#define EMBER_JOIN_DECISION_STRINGS
Value:
"use preconfigured key" , \
"send key in the clear" , \
"deny join" , \
"no action" ,

@ brief Defines the CLI enumerations for the EmberJoinDecision enum.

#define EMBER_LOW_RAM_CONCENTRATOR   0xFFF8

A concentrator with insufficient memory to store source routes for the entire network. Route records are sent to the concentrator prior to every inbound APS unicast.

#define EMBER_MAC_FILTER_MATCH_DISABLED   0x0001
#define EMBER_MAC_FILTER_MATCH_ENABLED   0x0000
#define EMBER_MAC_FILTER_MATCH_ENABLED_MASK   0x0001
#define EMBER_MAC_FILTER_MATCH_END   0x8000
#define EMBER_MAC_FILTER_MATCH_ON_DEST_BROADCAST_SHORT   0x0000
#define EMBER_MAC_FILTER_MATCH_ON_DEST_MASK   0x0030
#define EMBER_MAC_FILTER_MATCH_ON_DEST_UNICAST_LONG   0x0020
#define EMBER_MAC_FILTER_MATCH_ON_DEST_UNICAST_SHORT   0x0010
#define EMBER_MAC_FILTER_MATCH_ON_PAN_DEST_BROADCAST   0x0002
#define EMBER_MAC_FILTER_MATCH_ON_PAN_DEST_LOCAL   0x0001
#define EMBER_MAC_FILTER_MATCH_ON_PAN_DEST_MASK   0x0003
#define EMBER_MAC_FILTER_MATCH_ON_PAN_DEST_NONE   0x0000
#define EMBER_MAC_FILTER_MATCH_ON_PAN_SOURCE_LOCAL   0x0008
#define EMBER_MAC_FILTER_MATCH_ON_PAN_SOURCE_MASK   0x000C
#define EMBER_MAC_FILTER_MATCH_ON_PAN_SOURCE_NON_LOCAL   0x0004
#define EMBER_MAC_FILTER_MATCH_ON_PAN_SOURCE_NONE   0x0000
#define EMBER_MAC_FILTER_MATCH_ON_SOURCE_LONG   0x0000
#define EMBER_MAC_FILTER_MATCH_ON_SOURCE_MASK   0x0080
#define EMBER_MAC_FILTER_MATCH_ON_SOURCE_NONE   0x0100
#define EMBER_MAC_FILTER_MATCH_ON_SOURCE_SHORT   0x0080
#define EMBER_MANUFACTURER_ID   0x1002

Ember's Manufacturer ID.

#define EMBER_MAX_802_15_4_CHANNEL_NUMBER   26

The maximum 802.15.4 channel number is 26.

#define EMBER_MAX_CHANNELS_PER_PAGE   27

The maximum channels per page are 27 page bits 31...27, channel bits 26...0.

#define EMBER_MAX_MAC_ONLY_COUNTERS   33

Defines the maximum number of counters that are specified as reporting either on 2.4 GHz or Sub-GHz.

#define EMBER_MAX_NUM_PHYS   2

Defines the maximum number of PHYs supported.

#define EMBER_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGE_29   8

The maximum SubGhz channel number on page 29 is 8.

#define EMBER_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGES_28_30_31   26

The maximum SubGhz channel number on pages 28, 30, 31 is 26.

#define EMBER_MAX_SUGBHZ_PAGE_NUMBER   31

The maximum SubGhz page number is 31.

#define EMBER_MAXIMUM_STANDARD_PROFILE_ID   0x7FFF

The maximum value for a profile ID in the standard profile range.

#define EMBER_MFG_SECURITY_CONFIG_MAGIC_NUMBER   0xCABAD11FUL

This magic number prevents accidentally changing the key settings. The ::emberSetMfgSecurityConfig() API will return EMBER_INVALID_CALL unless it is passed in.

#define EMBER_MIN_802_15_4_CHANNEL_NUMBER   11

The minimum 2.4GHz 802.15.4 channel number is 11.

#define EMBER_MIN_BROADCAST_ADDRESS   0xFFF8
#define EMBER_MIN_SUBGHZ_CHANNEL_NUMBER   0

The minimum SubGhz channel number is 0.

#define EMBER_MIN_SUGBHZ_PAGE_NUMBER   28

The minimum SubGhz page number is 28.

#define EMBER_MULTICAST_NODE_ID   0xFFFE

A distinguished network ID that will never be assigned to any node. This value is returned when getting the remote node ID from the binding table and the given binding table index refers to a multicast binding entry.

#define EMBER_NO_CHANNEL_PAGE_IN_USE   0

The channel page value used to indicate just the 2.4GHz channels.

Referenced by zdoNetworkUpdateChannelCommand() .

#define EMBER_NO_TRUST_CENTER_MODE EMBER_DISTRIBUTED_TRUST_CENTER_MODE

This is the legacy name for the Distributed Trust Center Mode.

#define EMBER_NULL_ADDRESS_TABLE_INDEX   0xFF

A distinguished address table index used to indicate the absence of an address table entry.

#define EMBER_NULL_BINDING   0xFF

A distinguished binding index used to indicate the absence of a binding.

#define EMBER_NULL_EUI64   { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }

A distinguished EUI64 that is commonly used to indicate an invalid EUI64.

#define EMBER_NULL_NODE_ID   0xFFFF

A distinguished network ID that will never be assigned to any node. It is used to indicate the absence of a node ID.

Referenced by zdoEndDeviceBindRequestCommand() .

#define EMBER_NUM_802_15_4_CHANNELS   ( EMBER_MAX_802_15_4_CHANNEL_NUMBER - EMBER_MIN_802_15_4_CHANNEL_NUMBER + 1)

There are sixteen 802.15.4 channels.

#define EMBER_OTA_CERTIFICATE_UPGRADE_CLUSTER   0x0005

The cluster ID used to send and receive over the air certificate messages. This is used to field upgrade devices with Smart Energy Certificates and other security data.

#define EMBER_PAGE_CHANNEL_MASK_FROM_CHANNEL_MASK ( page,
mask
)
Value:
| (((uint32_t)(mask)) & ~ EMBER_ALL_CHANNEL_PAGE_MASK ))
#define EMBER_ALL_CHANNEL_PAGE_MASK
A bitmask for the channel page within a channel mask.
Definition: ember-types.h:293
#define EMBER_MAX_CHANNELS_PER_PAGE
The maximum channels per page are 27 page bits 31...27, channel bits 26...0.
Definition: ember-types.h:259

A page-channel mask for a given page and channel mask.

#define EMBER_PAGE_CHANNEL_MASK_FROM_CHANNEL_NUMBER ( page,
channel
) EMBER_PAGE_CHANNEL_MASK_FROM_CHANNEL_MASK (page, BIT32(channel))

A page-channel mask for a given page and channel.

#define EMBER_PRIVATE_KEY_283K1_SIZE   36

Size of Private Keys used SECT283k1 in Elliptical Cryptography ECMQV algorithms.

#define EMBER_PRIVATE_KEY_SIZE   21

Size of Private Keys used in Elliptical Cryptography ECMQV algorithms.

#define EMBER_PRIVATE_PROFILE_ID   0xC00E

This is a ZigBee application profile ID that has been assigned to Ember Corporation.

It is used to send for sending messages that have a specific, non-standard, interaction with the Ember stack. Its only current use is for stack counters requests.

#define EMBER_PRIVATE_PROFILE_ID_END   0xC016

Ember's last private profile ID.

#define EMBER_PRIVATE_PROFILE_ID_START   0xC00D

Ember's first private profile ID.

#define EMBER_PUBLIC_KEY_283K1_SIZE   37

Size of Public Keys used in SECT283k1 Elliptical Cryptography ECMQV algorithms.

#define EMBER_PUBLIC_KEY_SIZE   22

Size of Public Keys used in Elliptical Cryptography ECMQV algorithms.

#define EMBER_RELEASE_TYPE_TO_STRING_STRUCT_DATA
Value:
{ EMBER_VERSION_TYPE_PRE_RELEASE , "Pre-Release" }, \
{ EMBER_VERSION_TYPE_ALPHA_1 , "Alpha 1" }, \
{ EMBER_VERSION_TYPE_ALPHA_2 , "Alpha 2" }, \
{ EMBER_VERSION_TYPE_ALPHA_3 , "Alpha 3" }, \
{ EMBER_VERSION_TYPE_BETA_1 , "Beta 1" }, \
{ EMBER_VERSION_TYPE_BETA_2 , "Beta 2" }, \
{ EMBER_VERSION_TYPE_BETA_3 , "Beta 3" }, \
{ 0xFF, NULL },
Definition: ember-types.h:59
Definition: ember-types.h:43
Definition: ember-types.h:48
Definition: ember-types.h:51
Definition: ember-types.h:47
Definition: ember-types.h:52
Definition: ember-types.h:46
Definition: ember-types.h:50

EmberReleaseTypeStruct Data that relates release type to the correct string.

#define EMBER_REPORT_AND_CLEAR_COUNTERS_REQUEST   0x0004

The cluster ID used to request that a node respond with a report of its Ember stack counters. The node will also reset its clusters to zero after a successful response. See app/util/counters/counters-ota.h.

#define EMBER_REPORT_AND_CLEAR_COUNTERS_RESPONSE   0x8004

The cluster ID used to respond to an EMBER_REPORT_AND_CLEAR_COUNTERS_REQUEST.

#define EMBER_REPORT_COUNTERS_REQUEST   0x0003

The cluster ID used to request that a node respond with a report of its Ember stack counters. See app/util/counters/counters-ota.h.

#define EMBER_REPORT_COUNTERS_RESPONSE   0x8003

The cluster ID used to respond to an EMBER_REPORT_COUNTERS_REQUEST.

#define EMBER_RX_ON_WHEN_IDLE_BROADCAST_ADDRESS   0xFFFD

Broadcast to all non-sleepy devices.

#define EMBER_SIGNATURE_283K1_SIZE   72

Size of the DSA signature used in SECT283k1 Elliptical Cryptography Digital Signature Algorithms.

#define EMBER_SIGNATURE_SIZE   42

Size of the DSA signature used in Elliptical Cryptography Digital Signature Algorithms.

#define EMBER_SLEEPY_BROADCAST_ADDRESS   0xFFFF

Broadcast to all devices, including sleepy end devices.

Referenced by zdoNetworkUpdateChannelCommand() .

#define EMBER_SMAC_SIZE   16

Size of the SMAC used in Elliptical Cryptography ECMQV algorithms.

#define EMBER_STANDARD_SECURITY_MODE   0x0000

This is an EmberInitialSecurityBitmask value but it does not actually set anything. It is the default mode used by the ZigBee Pro stack. It is defined here so that no legacy code is broken by referencing it.

#define EMBER_SUB_GHZ_SCAN_DURATION   5

The SubGhz scan duration is 5.

#define EMBER_TABLE_ENTRY_UNUSED_NODE_ID   0xFFFF

A distinguished network ID that will never be assigned to any node.

This value is used when setting or getting the remote node ID in the address table or getting the remote node ID from the binding table. It indicates that the address or binding table entry is not in use.

#define EMBER_TRUST_CENTER_NODE_ID   0x0000

The short address of the trust center. This address never changes dynamically.

#define EMBER_TX_POWER_MODE_ALTERNATE   0x0002

The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value to enable the alternate transmitter output.

#define EMBER_TX_POWER_MODE_BOOST   0x0001

The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value to enable boost power mode.

#define EMBER_TX_POWER_MODE_BOOST_AND_ALTERNATE
Value:
#define EMBER_TX_POWER_MODE_ALTERNATE
The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value ...
Definition: ember-types.h:1499
#define EMBER_TX_POWER_MODE_BOOST
The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value ...
Definition: ember-types.h:1494

The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value to enable both boost mode and the alternate transmitter output.

#define EMBER_TX_POWER_MODE_DEFAULT   0x0000

The application should call ::emberSetTxPowerMode() with the txPowerMode parameter set to this value to disable all power mode options, resulting in normal power mode and bi-directional RF transmitter output.

#define EMBER_UNKNOWN_NODE_ID   0xFFFD

A distinguished network ID that will never be assigned to any node. This value is used when getting the remote node ID from the address or binding tables. It indicates that the address or binding table entry is currently in use but the node ID corresponding to the EUI64 in the table is currently unknown.

#define EMBER_WILDCARD_PROFILE_ID   0xFFFF

The profile ID used to address all the public profiles.

#define EMBER_ZDO_ENDPOINT   0

The endpoint where the ZigBee Device Object (ZDO) resides.

#define EMBER_ZDO_PROFILE_ID   0x0000

The profile ID used by the ZigBee Device Object (ZDO).

#define EMBER_ZIGBEE_COORDINATOR_ADDRESS   0x0000

The network ID of the coordinator in a ZigBee network is 0x0000.

#define emberInitializeNetworkParameters ( parameters ) (MEMSET(parameters, 0, sizeof( EmberNetworkParameters )))
#define emberIsZigbeeBroadcastAddress ( address ) ( EMBER_MIN_BROADCAST_ADDRESS <= ((uint16_t) (address)))
#define END_DEVICE_ANNOUNCE   0x0013
#define END_DEVICE_ANNOUNCE_RESPONSE   0x8013
#define END_DEVICE_BIND_REQUEST   0x0020
#define END_DEVICE_BIND_RESPONSE   0x8020
#define EUI64_SIZE   8

Size of EUI64 (an IEEE address) in bytes (8).

Referenced by zdoEndDeviceBindRequestCommand() .

#define EXTENDED_PAN_ID_SIZE   8

Size of an extended PAN identifier in bytes (8).

#define FIND_NODE_CACHE_REQUEST   0x001C
#define FIND_NODE_CACHE_RESPONSE   0x801C
#define IEEE_ADDRESS_REQUEST   0x0001

Referenced by emAfCliServiceDiscoveryCallback() .

#define IEEE_ADDRESS_RESPONSE   0x8001
#define LEAVE_REQUEST   0x0034
#define LEAVE_REQUEST_REJOIN_FLAG   0x80
#define LEAVE_REQUEST_REMOVE_CHILDREN_FLAG   0x40
#define LEAVE_RESPONSE   0x8034
#define LQI_TABLE_REQUEST   0x0031
#define LQI_TABLE_RESPONSE   0x8031
#define MATCH_DESCRIPTORS_REQUEST   0x0006

Referenced by emAfCliServiceDiscoveryCallback() .

#define MATCH_DESCRIPTORS_RESPONSE   0x8006
#define MULTICAST_BINDING   0x01

Referenced by zdoEndDeviceBindRequestCommand() .

#define NETWORK_ADDRESS_REQUEST   0x0000

Referenced by emAfCliServiceDiscoveryCallback() .

#define NETWORK_ADDRESS_RESPONSE   0x8000
#define NETWORK_DISCOVERY_REQUEST   0x0030
#define NETWORK_DISCOVERY_RESPONSE   0x8030
#define NODE_DESCRIPTOR_REQUEST   0x0002
#define NODE_DESCRIPTOR_RESPONSE   0x8002
#define NWK_UNSOLICITED_ENHANCED_UPDATE_NOTIFY   0x803B
#define NWK_UPDATE_ENHANCED_REQUEST   0x0039
#define NWK_UPDATE_ENHANCED_RESPONSE   0x8039
#define NWK_UPDATE_IEEE_JOINING_LIST_REPONSE   0x803A
#define NWK_UPDATE_IEEE_JOINING_LIST_REQUEST   0x003A
#define NWK_UPDATE_REQUEST   0x0038
#define NWK_UPDATE_RESPONSE   0x8038
#define PARENT_ANNOUNCE   0x001F
#define PARENT_ANNOUNCE_RESPONSE   0x801F
#define PERMIT_JOINING_REQUEST   0x0036
#define PERMIT_JOINING_RESPONSE   0x8036
#define PHY_INDEX_NATIVE   0

PHY index for 2.4 GHz radio interface, valid for simultaneous multi radio network.

#define PHY_INDEX_PRO2PLUS   1

PHY index for Sub-GHz radio interface, valid for simultaneous multi radio network.

Referenced by networkMultiPhyStartCommand() , and networkMultiPhyStopCommand() .

#define POWER_DESCRIPTOR_REQUEST   0x0003
#define POWER_DESCRIPTOR_RESPONSE   0x8003
#define ROUTING_TABLE_REQUEST   0x0032
#define ROUTING_TABLE_RESPONSE   0x8032
#define SIMPLE_DESCRIPTOR_REQUEST   0x0004
#define SIMPLE_DESCRIPTOR_RESPONSE   0x8004
#define SYSTEM_SERVER_DISCOVERY_REQUEST   0x0015
#define SYSTEM_SERVER_DISCOVERY_RESPONSE   0x8015
#define UNBIND_REQUEST   0x0022
#define UNBIND_RESPONSE   0x8022
#define UNICAST_BINDING   0x03

Referenced by zdoBindCommand() , and zdoEndDeviceBindRequestCommand() .

#define UNICAST_MANY_TO_ONE_BINDING   0x83
#define USER_DESCRIPTOR_CONFIRM   0x8014
#define USER_DESCRIPTOR_REQUEST   0x0011
#define USER_DESCRIPTOR_RESPONSE   0x8011
#define USER_DESCRIPTOR_SET   0x0014
#define WEAK_TEST

Typedef Documentation

typedef uint16_t EmberDutyCycleHectoPct

The percent of duty cycle for a limit.

Duty cycle, limits, and thresholds are reported in units of percent * 100 (i.e., 10000 = 100.00%, 1 = 0.01%).

typedef uint8_t EmberEUI64[ EUI64_SIZE ]

EUI 64-bit ID (an IEEE address).

typedef { ... } EmberEventData

Complete events with a control and a handler procedure.

An application typically creates an array of events along with their handlers. The main loop passes the array to ::emberRunEvents() to call the handlers of any events whose time has arrived.

typedef uint8_t EmberLibraryStatus

This indicates the presence, absence, or status of an Ember stack library.

typedef uint16_t EmberMacFilterMatchData

This is a bitmask describing a filter for MAC data messages that the stack should accept and pass through to the application.

typedef uint8_t EmberMessageBuffer

Incoming and outgoing messages are stored in buffers. These buffers are allocated and freed as needed.

Buffers are 32 bytes in length and can be linked together to hold longer messages.

See packet-buffer.h for APIs related to stack and linked buffers.

typedef uint16_t EmberMulticastId

16-bit ZigBee multicast group identifier.

typedef uint16_t EmberNodeId

16-bit ZigBee network address.

typedef uint16_t EmberPanId

802.15.4 PAN ID.

typedef uint8_t EmberRadioPowerMode

Radio power mode.

typedef uint8_t EmberStatus

EmberReleaseTypeStruct Data that relates release type to the correct string.

typedef uint8_t EmberTaskId

brief An identifier for a task.

Enumeration Type Documentation

Options to use when sending a message.

The discover-route, APS-retry, and APS-indirect options may be used together. Poll response cannot be combined with any other options.

Enumerator
EMBER_APS_OPTION_NONE

No options.

EMBER_APS_OPTION_DSA_SIGN

This signs the application layer message body (APS Frame not included) and appends the ECDSA signature to the end of the message, which is needed by Smart Energy applications and requires the CBKE and ECC libraries. The ::emberDsaSignHandler() function is called after DSA signing is complete but before the message has been sent by the APS layer. Note that when passing a buffer to the stack for DSA signing, the final byte in the buffer has a special significance as an indicator of how many leading bytes should be ignored for signature purposes. See the API documentation of emberDsaSign() or the dsaSign EZSP command for more details about this requirement.

EMBER_APS_OPTION_ENCRYPTION

Send the message using APS Encryption using the Link Key shared with the destination node to encrypt the data at the APS Level.

EMBER_APS_OPTION_RETRY

Resend the message using the APS retry mechanism. This option and the enable route discovery option must be enabled for an existing route to be repaired automatically.

EMBER_APS_OPTION_ENABLE_ROUTE_DISCOVERY

Send the message with the NWK 'enable route discovery' flag, which causes a route discovery to be initiated if no route to the destination is known. Note that in the mesh stack, this option and the APS retry option must be enabled an existing route to be repaired automatically.

EMBER_APS_OPTION_FORCE_ROUTE_DISCOVERY

Send the message with the NWK 'force route discovery' flag, which causes a route discovery to be initiated even if one is known.

EMBER_APS_OPTION_SOURCE_EUI64

Include the source EUI64 in the network frame.

EMBER_APS_OPTION_DESTINATION_EUI64

Include the destination EUI64 in the network frame.

EMBER_APS_OPTION_ENABLE_ADDRESS_DISCOVERY

Send a ZDO request to discover the node ID of the destination if it is not already known.

EMBER_APS_OPTION_POLL_RESPONSE

This message is being sent in response to a call to ::emberPollHandler(). It causes the message to be sent immediately instead of being queued up until the next poll from the (end device) destination.

EMBER_APS_OPTION_ZDO_RESPONSE_REQUIRED

This incoming message is a valid ZDO request and the application is responsible for sending a ZDO response. This flag is used only within emberIncomingMessageHandler() when EMBER_APPLICATION_RECEIVES_UNSUPPORTED_ZDO_REQUESTS is defined.

EMBER_APS_OPTION_FRAGMENT

This message is part of a fragmented message. This option may only be set for unicasts. The groupId field gives the index of this fragment in the low-order byte. If the low-order byte is zero this is the first fragment and the high-order byte contains the number of fragments in the message.

Options to allow/disallow rejoins using the default link key.

Enumerator
NO_REJOIN
REJOIN_ANY_LINK_KEY
REJOIN_NON_DEFAULT_LINK_KEY

Defines binding types.

Enumerator
EMBER_UNUSED_BINDING

A binding that is currently not in use.

EMBER_UNICAST_BINDING

A unicast binding whose 64-bit identifier is the destination EUI64.

EMBER_MANY_TO_ONE_BINDING

A unicast binding whose 64-bit identifier is the many-to-one destination EUI64. Route discovery should be disabled when sending unicasts via many-to-one bindings.

EMBER_MULTICAST_BINDING

A multicast binding whose 64-bit identifier is the group address. This binding can be used to send messages to the group and to receive messages sent to the group.

Defines the lists of clusters that must be provided for each endpoint.

Enumerator
EMBER_INPUT_CLUSTER_LIST

Input clusters the endpoint will accept.

EMBER_OUTPUT_CLUSTER_LIST

Output clusters the endpoint can send.

Defines the events reported to the application by the emberCounterHandler() .

Enumerator
EMBER_COUNTER_MAC_RX_BROADCAST

The MAC received a broadcast.

EMBER_COUNTER_MAC_TX_BROADCAST

The MAC transmitted a broadcast.

EMBER_COUNTER_MAC_RX_UNICAST

The MAC received a unicast.

EMBER_COUNTER_MAC_TX_UNICAST_SUCCESS

The MAC successfully transmitted a unicast.

EMBER_COUNTER_MAC_TX_UNICAST_RETRY

The MAC retried a unicast. This is a placeholder and is not used by the emberCounterHandler() callback. Instead, the number of MAC retries are returned in the data parameter of the callback for the EMBER_COUNTER_MAC_TX_UNICAST_SUCCESS and EMBER_COUNTER_MAC_TX_UNICAST_FAILED types.

EMBER_COUNTER_MAC_TX_UNICAST_FAILED

The MAC unsuccessfully transmitted a unicast.

EMBER_COUNTER_APS_DATA_RX_BROADCAST

The APS layer received a data broadcast.

EMBER_COUNTER_APS_DATA_TX_BROADCAST

The APS layer transmitted a data broadcast.

EMBER_COUNTER_APS_DATA_RX_UNICAST

The APS layer received a data unicast.

EMBER_COUNTER_APS_DATA_TX_UNICAST_SUCCESS

The APS layer successfully transmitted a data unicast.

EMBER_COUNTER_APS_DATA_TX_UNICAST_RETRY

The APS layer retried a data unicast. This is a placeholder and is not used by the emberCounterHandler() callback. Instead, the number of APS retries are returned in the data parameter of the callback for the EMBER_COUNTER_APS_DATA_TX_UNICAST_SUCCESS and EMBER_COUNTER_APS_DATA_TX_UNICAST_FAILED types.

EMBER_COUNTER_APS_DATA_TX_UNICAST_FAILED

The APS layer unsuccessfully transmitted a data unicast.

EMBER_COUNTER_ROUTE_DISCOVERY_INITIATED

The network layer successfully submitted a new route discovery to the MAC.

EMBER_COUNTER_NEIGHBOR_ADDED

An entry was added to the neighbor table.

EMBER_COUNTER_NEIGHBOR_REMOVED

An entry was removed from the neighbor table.

EMBER_COUNTER_NEIGHBOR_STALE

A neighbor table entry became stale because it had not been heard from.

EMBER_COUNTER_JOIN_INDICATION

A node joined or rejoined to the network via this node.

EMBER_COUNTER_CHILD_REMOVED

An entry was removed from the child table.

EMBER_COUNTER_ASH_OVERFLOW_ERROR

EZSP-UART only. An overflow error occurred in the UART.

EMBER_COUNTER_ASH_FRAMING_ERROR

EZSP-UART only. A framing error occurred in the UART.

EMBER_COUNTER_ASH_OVERRUN_ERROR

EZSP-UART only. An overrun error occurred in the UART.

EMBER_COUNTER_NWK_FRAME_COUNTER_FAILURE

A message was dropped at the Network layer because the NWK frame counter was not higher than the last message seen from that source.

EMBER_COUNTER_APS_FRAME_COUNTER_FAILURE

A message was dropped at the APS layer because the APS frame counter was not higher than the last message seen from that source.

EMBER_COUNTER_ASH_XOFF

EZSP-UART only. An XOFF was transmitted by the UART.

EMBER_COUNTER_APS_LINK_KEY_NOT_AUTHORIZED

An encrypted message was dropped by the APS layer because the sender's key has not been authenticated. As a result, the key is not authorized for use in APS data messages.

EMBER_COUNTER_NWK_DECRYPTION_FAILURE

A NWK encrypted message was received but dropped because decryption failed.

EMBER_COUNTER_APS_DECRYPTION_FAILURE

An APS encrypted message was received but dropped because decryption failed.

EMBER_COUNTER_ALLOCATE_PACKET_BUFFER_FAILURE

The number of failures to allocate a set of linked packet buffers. This doesn't necessarily mean that the packet buffer count was 0 at the time, but that the number requested was greater than the number free.

EMBER_COUNTER_RELAYED_UNICAST

The number of relayed unicast packets.

EMBER_COUNTER_PHY_TO_MAC_QUEUE_LIMIT_REACHED

The number of times a packet was dropped due to reaching the preset PHY-to-MAC queue limit (emMaxPhyToMacQueueLength). The limit will determine how many messages are accepted by the PHY between calls to emberTick(). After that limit is reached, packets will be dropped. The number of dropped packets will be recorded in this counter.

NOTE: For each call to emberCounterHandler() there may be more than 1 packet that was dropped due to the limit reached. The actual number of packets dropped will be returned in the 'data' parameter passed to that function.

EMBER_COUNTER_PACKET_VALIDATE_LIBRARY_DROPPED_COUNT

The number of times a packet was dropped due to the packet-validate library checking a packet and rejecting it due to length or other formatting problems.

EMBER_COUNTER_TYPE_NWK_RETRY_OVERFLOW

The number of times the NWK retry queue is full and a new message failed to be added.

EMBER_COUNTER_PHY_CCA_FAIL_COUNT

The number of times the PHY layer was unable to transmit due to a failed CCA.

EMBER_COUNTER_BROADCAST_TABLE_FULL

The number of times a NWK broadcast was dropped because the broadcast table was full.

EMBER_COUNTER_PTA_LO_PRI_REQUESTED

The number of times a low-priority packet traffic arbitration request has been made.

EMBER_COUNTER_PTA_HI_PRI_REQUESTED

The number of times a high-priority packet traffic arbitration request has been made.

EMBER_COUNTER_PTA_LO_PRI_DENIED

The number of times a low-priority packet traffic arbitration request has been denied.

EMBER_COUNTER_PTA_HI_PRI_DENIED

The number of times a high-priority packet traffic arbitration request has been denied.

EMBER_COUNTER_PTA_LO_PRI_TX_ABORTED

The number of times a low-priority packet traffic arbitration transmission has been aborted.

EMBER_COUNTER_PTA_HI_PRI_TX_ABORTED

The number of times a high-priority packet traffic arbitration transmission has been aborted.

EMBER_COUNTER_TYPE_COUNT

A placeholder giving the number of Ember counter types.

This is the Current Security Bitmask that details the use of various security features.

Enumerator
EMBER_STANDARD_SECURITY_MODE_

This denotes that the device is running in a network with ZigBee Standard Security.

EMBER_DISTRIBUTED_TRUST_CENTER_MODE_

This denotes that the device is running in a network without a centralized Trust Center.

EMBER_TRUST_CENTER_GLOBAL_LINK_KEY_

This denotes that the device has a Global Link Key. The Trust Center Link Key is the same across multiple nodes.

EMBER_HAVE_TRUST_CENTER_LINK_KEY

This denotes that the node has a Trust Center Link Key.

EMBER_TRUST_CENTER_USES_HASHED_LINK_KEY_

This denotes that the Trust Center is using a Hashed Link Key.

The Status of the Update Device message sent to the Trust Center. The device may have joined or rejoined insecurely, rejoined securely, or left. MAC Security has been deprecated and therefore there is no secure join.

Enumerator
EMBER_STANDARD_SECURITY_SECURED_REJOIN
EMBER_STANDARD_SECURITY_UNSECURED_JOIN
EMBER_DEVICE_LEFT
EMBER_STANDARD_SECURITY_UNSECURED_REJOIN
EMBER_HIGH_SECURITY_SECURED_REJOIN

The configuration advertised by the end device to the parent when joining/rejoining.

Enumerator
EMBER_END_DEVICE_CONFIG_NONE
EMBER_END_DEVICE_CONFIG_PERSIST_DATA_ON_PARENT

Either marks an event as inactive or specifies the units for the event execution time.

Enumerator
EMBER_EVENT_INACTIVE

The event is not scheduled to run.

EMBER_EVENT_MS_TIME

The execution time is in approximate milliseconds.

EMBER_EVENT_QS_TIME

The execution time is in 'binary' quarter seconds (256 approximate milliseconds each).

EMBER_EVENT_MINUTE_TIME

The execution time is in 'binary' minutes (65536 approximate milliseconds each).

EMBER_EVENT_ZERO_DELAY

The event is scheduled to run at the earliest opportunity.

This is the Extended Security Bitmask that controls the use of various extended security features.

Enumerator
EMBER_JOINER_GLOBAL_LINK_KEY

This denotes whether a joiner node (router or end-device) uses a Global Link Key or a Unique Link Key.

EMBER_EXT_NO_FRAME_COUNTER_RESET

This denotes whether the device's outgoing frame counter is allowed to be reset during forming or joining. If the flag is set, the outgoing frame counter is not allowed to be reset. If the flag is not set, the frame counter is allowed to be reset.

EMBER_NWK_LEAVE_REQUEST_NOT_ALLOWED

This denotes whether a router node should discard or accept network Leave Commands.

Defines the possible incoming message types.

Enumerator
EMBER_INCOMING_UNICAST

Unicast.

EMBER_INCOMING_UNICAST_REPLY

Unicast reply.

EMBER_INCOMING_MULTICAST

Multicast.

EMBER_INCOMING_MULTICAST_LOOPBACK

Multicast sent by the local device.

EMBER_INCOMING_BROADCAST

Broadcast.

EMBER_INCOMING_BROADCAST_LOOPBACK

Broadcast sent by the local device.

This is the Initial Security Bitmask that controls the use of various security features.

Enumerator
EMBER_DISTRIBUTED_TRUST_CENTER_MODE

Enables Distributed Trust Center Mode for the device forming the network. (Previously known as EMBER_NO_TRUST_CENTER_MODE )

EMBER_TRUST_CENTER_GLOBAL_LINK_KEY

Enables a Global Link Key for the Trust Center. All nodes will share the same Trust Center Link Key.

EMBER_PRECONFIGURED_NETWORK_KEY_MODE

Enables devices that perform MAC Association with a pre-configured Network Key to join the network. It is only set on the Trust Center.

EMBER_HAVE_TRUST_CENTER_EUI64

This denotes that the EmberInitialSecurityState::preconfiguredTrustCenterEui64 has a value in it containing the trust center EUI64. The device will only join a network and accept commands from a trust center with that EUI64. Normally this bit is NOT set and the EUI64 of the trust center is learned during the join process. When commissioning a device to join onto an existing network that is using a trust center and without sending any messages, this bit must be set and the field EmberInitialSecurityState::preconfiguredTrustCenterEui64 must be populated with the appropriate EUI64.

EMBER_TRUST_CENTER_USES_HASHED_LINK_KEY

This denotes that the EmberInitialSecurityState::preconfiguredKey is not the actual Link Key but a Root Key known only to the Trust Center. It is hashed with the IEEE Address of the destination device to create the actual Link Key used in encryption. This is bit is only used by the Trust Center. The joining device need not set this.

EMBER_HAVE_PRECONFIGURED_KEY

This denotes that the EmberInitialSecurityState::preconfiguredKey element has valid data that should be used to configure the initial security state.

EMBER_HAVE_NETWORK_KEY

This denotes that the EmberInitialSecurityState::networkKey element has valid data that should be used to configure the initial security state.

EMBER_GET_LINK_KEY_WHEN_JOINING

This denotes to a joining node that it should attempt to acquire a Trust Center Link Key during joining. This is necessary if the device does not have a pre-configured key, or wants to obtain a new one (since it may be using a well-known key during joining).

EMBER_REQUIRE_ENCRYPTED_KEY

This denotes that a joining device should only accept an encrypted network key from the Trust Center (using its pre-configured key). A key sent in-the-clear by the Trust Center will be rejected and the join will fail. This option is only valid when using a pre-configured key.

EMBER_NO_FRAME_COUNTER_RESET

This denotes whether the device should NOT reset its outgoing frame counters (both NWK and APS) when ::emberSetInitialSecurityState() is called. Normally it is advised to reset the frame counter before joining a new network. However, when a device is joining to the same network again (but not using ::emberRejoinNetwork()), it should keep the NWK and APS frame counters stored in its tokens.

NOTE: The application is allowed to dynamically change the behavior via EMBER_EXT_NO_FRAME_COUNTER_RESET field.

EMBER_GET_PRECONFIGURED_KEY_FROM_INSTALL_CODE

This denotes that the device should obtain its pre-configured key from an installation code stored in the manufacturing token. The token contains a value that will be hashed to obtain the actual pre-configured key. If that token is not valid, the call to ::emberSetInitialSecurityState() will fail.

The decision made by the Trust Center when a node attempts to join.

Enumerator
EMBER_USE_PRECONFIGURED_KEY

Allow the node to join. The node has the key.

EMBER_SEND_KEY_IN_THE_CLEAR

Allow the node to join. Send the key to the node.

EMBER_DENY_JOIN

Deny join.

EMBER_NO_ACTION

Take no action.

The type of method used for joining.

Enumerator
EMBER_USE_MAC_ASSOCIATION

Devices normally use MAC association to join a network, which respects the "permit joining" flag in the MAC beacon. This value should be used by default.

EMBER_USE_NWK_REJOIN

For networks where the "permit joining" flag is never turned on, devices will need to use a ZigBee NWK Rejoin. This value causes the rejoin to be sent withOUT NWK security and the Trust Center will be asked to send the NWK key to the device. The NWK key sent to the device can be encrypted with the device's corresponding Trust Center link key. That is determined by the EmberJoinDecision on the Trust Center returned by the ::emberTrustCenterJoinHandler().

EMBER_USE_NWK_REJOIN_HAVE_NWK_KEY
EMBER_USE_NWK_COMMISSIONING

For networks where all network and security information is known ahead of time, a router device may be commissioned such that it does not need to send any messages to begin communicating on the network.

Enumerator
EMBER_KEY_PERMISSIONS_NONE
EMBER_KEY_PERMISSIONS_READING_ALLOWED
EMBER_KEY_PERMISSIONS_HASHING_ALLOWED

This denotes the status of an attempt to establish a key with another device.

Enumerator
EMBER_KEY_STATUS_NONE
EMBER_APP_LINK_KEY_ESTABLISHED
EMBER_TRUST_CENTER_LINK_KEY_ESTABLISHED
EMBER_KEY_ESTABLISHMENT_TIMEOUT
EMBER_KEY_TABLE_FULL
EMBER_TC_RESPONDED_TO_KEY_REQUEST
EMBER_TC_APP_KEY_SENT_TO_REQUESTER
EMBER_TC_RESPONSE_TO_KEY_REQUEST_FAILED
EMBER_TC_REQUEST_KEY_TYPE_NOT_SUPPORTED
EMBER_TC_NO_LINK_KEY_FOR_REQUESTER
EMBER_TC_REQUESTER_EUI64_UNKNOWN
EMBER_TC_RECEIVED_FIRST_APP_KEY_REQUEST
EMBER_TC_TIMEOUT_WAITING_FOR_SECOND_APP_KEY_REQUEST
EMBER_TC_NON_MATCHING_APP_KEY_REQUEST_RECEIVED
EMBER_TC_FAILED_TO_SEND_APP_KEYS
EMBER_TC_FAILED_TO_STORE_APP_KEY_REQUEST
EMBER_TC_REJECTED_APP_KEY_REQUEST
EMBER_TC_FAILED_TO_GENERATE_NEW_KEY
EMBER_TC_FAILED_TO_SEND_TC_KEY
EMBER_TRUST_CENTER_IS_PRE_R21
EMBER_TC_REQUESTER_VERIFY_KEY_TIMEOUT
EMBER_TC_REQUESTER_VERIFY_KEY_FAILURE
EMBER_TC_REQUESTER_VERIFY_KEY_SUCCESS
EMBER_VERIFY_LINK_KEY_FAILURE
EMBER_VERIFY_LINK_KEY_SUCCESS

This bitmask describes the presence of fields within the EmberKeyStruct .

Enumerator
EMBER_KEY_HAS_SEQUENCE_NUMBER

This indicates that the key has a sequence number associated with it. (i.e., a Network Key).

EMBER_KEY_HAS_OUTGOING_FRAME_COUNTER

This indicates that the key has an outgoing frame counter and the corresponding value within the EmberKeyStruct has been populated.

EMBER_KEY_HAS_INCOMING_FRAME_COUNTER

This indicates that the key has an incoming frame counter and the corresponding value within the EmberKeyStruct has been populated.

EMBER_KEY_HAS_PARTNER_EUI64

This indicates that the key has an associated Partner EUI64 address and the corresponding value within the EmberKeyStruct has been populated.

EMBER_KEY_IS_AUTHORIZED

This indicates the key is authorized for use in APS data messages. If the key is not authorized for use in APS data messages it has not yet gone through a key agreement protocol, such as CBKE (i.e., ECC).

EMBER_KEY_PARTNER_IS_SLEEPY

This indicates that the partner associated with the link is a sleepy end device. This bit is set automatically if the local device hears a device announce from the partner indicating it is not an 'RX on when idle' device.

This denotes the type of security key.

Enumerator
EMBER_TRUST_CENTER_LINK_KEY

This denotes that the key is a Trust Center Link Key.

EMBER_CURRENT_NETWORK_KEY

This denotes that the key is the Current Network Key.

EMBER_NEXT_NETWORK_KEY

This denotes that the key is the Next Network Key.

EMBER_APPLICATION_LINK_KEY

This denotes that the key is an Application Link Key.

EmberReleaseTypeStruct Data that relates release type to the correct string.

Enumerator
EMBER_LEAVE_REASON_NONE
EMBER_LEAVE_DUE_TO_NWK_LEAVE_MESSAGE
EMBER_LEAVE_DUE_TO_APS_REMOVE_MESSAGE
EMBER_LEAVE_DUE_TO_ZDO_LEAVE_MESSAGE
EMBER_LEAVE_DUE_TO_ZLL_TOUCHLINK
EMBER_LEAVE_DUE_TO_APP_EVENT_1

EmberReleaseTypeStruct Data that relates release type to the correct string.

Enumerator
EMBER_ZIGBEE_LEAVE_AND_REJOIN

Leave and rejoin.

EMBER_ZIGBEE_LEAVE_AND_REMOVE_CHILDREN

Send all children leave command.

This enumeration determines whether or not a Trust Center answers link key requests.

Enumerator
EMBER_DENY_KEY_REQUESTS
EMBER_ALLOW_KEY_REQUESTS
EMBER_GENERATE_NEW_TC_LINK_KEY

The types of MAC passthrough messages that an application may receive. This is a bitmask.

Enumerator
EMBER_MAC_PASSTHROUGH_NONE

No MAC passthrough messages.

EMBER_MAC_PASSTHROUGH_SE_INTERPAN

SE InterPAN messages.

EMBER_MAC_PASSTHROUGH_EMBERNET

EmberNet and first generation (v1) standalone bootloader messages.

EMBER_MAC_PASSTHROUGH_EMBERNET_SOURCE

EmberNet messages filtered by their source address.

EMBER_MAC_PASSTHROUGH_APPLICATION

Application-specific passthrough messages.

EMBER_MAC_PASSTHROUGH_CUSTOM

Custom inter-pan filter.

Enumerator
EMBER_MULTI_PHY_ROUTERS_ALLOWED
EMBER_MULTI_PHY_BROADCASTS_ENABLED
EMBER_MULTI_PHY_DISABLED

Defines the options that should be used when initializing the node's network configuration.

Enumerator
EMBER_NETWORK_INIT_NO_OPTIONS
EMBER_NETWORK_INIT_PARENT_INFO_IN_TOKEN

The Parent Node ID and EUI64 are stored in a token. This prevents the need to perform an Orphan scan on startup.

EMBER_NETWORK_INIT_END_DEVICE_REJOIN_ON_REBOOT

Z3 compliant end devices on a network must send a rejoin request on reboot.

Type for a network scan.

Enumerator
EMBER_ENERGY_SCAN

An energy scan scans each channel for its RSSI value.

EMBER_ACTIVE_SCAN

An active scan scans each channel for available networks.

EMBER_START_RADIO_OFF_SCAN

A fake scan that is used to turn off the radio.

EMBER_STACK_GP_CHANNEL_DELIVERY_SCAN

A green power channel delivery scan.

EMBER_LAST_SCAN_TYPE

Defines the possible join states for a node.

Enumerator
EMBER_NO_NETWORK

The node is not associated with a network in any way.

EMBER_JOINING_NETWORK

The node is currently attempting to join a network.

EMBER_JOINED_NETWORK

The node is joined to a network.

EMBER_JOINED_NETWORK_NO_PARENT

The node is an end device joined to a network but its parent is not responding.

EMBER_LEAVING_NETWORK

The node is in the process of leaving its current network.

Defines the possible types of nodes and the roles that a node might play in a network.

Enumerator
EMBER_UNKNOWN_DEVICE

The device is not joined.

EMBER_COORDINATOR

Will relay messages and can act as a parent to other nodes.

EMBER_ROUTER

Will relay messages and can act as a parent to other nodes.

EMBER_END_DEVICE

Communicates only with its parent and will not relay messages.

EMBER_SLEEPY_END_DEVICE

An end device whose radio can be turned off to save power. The application must call ::emberPollForData() to receive messages.

Defines the possible outgoing message types.

Enumerator
EMBER_OUTGOING_DIRECT

Unicast sent directly to an EmberNodeId.

EMBER_OUTGOING_VIA_ADDRESS_TABLE

Unicast sent using an entry in the address table.

EMBER_OUTGOING_VIA_BINDING

Unicast sent using an entry in the binding table.

EMBER_OUTGOING_MULTICAST

Multicast message. This value is passed to emberMessageSentHandler() only. It may not be passed to emberSendUnicast().

EMBER_OUTGOING_MULTICAST_WITH_ALIAS

An aliased multicast message. This value is passed to emberMessageSentHandler() only. It may not be passed to emberSendUnicast().

EMBER_OUTGOING_BROADCAST_WITH_ALIAS

An aliased Broadcast message. This value is passed to emberMessageSentHandler() only. It may not be passed to emberSendUnicast().

EMBER_OUTGOING_BROADCAST

A broadcast message. This value is passed to emberMessageSentHandler() only. It may not be passed to emberSendUnicast().

Notes the last rejoin reason.

Enumerator
EMBER_REJOIN_REASON_NONE
EMBER_REJOIN_DUE_TO_NWK_KEY_UPDATE
EMBER_REJOIN_DUE_TO_LEAVE_MESSAGE
EMBER_REJOIN_DUE_TO_NO_PARENT
EMBER_REJOIN_DUE_TO_ZLL_TOUCHLINK
EMBER_REJOIN_DUE_TO_END_DEVICE_REBOOT
EMBER_REJOIN_DUE_TO_APP_EVENT_5
EMBER_REJOIN_DUE_TO_APP_EVENT_4
EMBER_REJOIN_DUE_TO_APP_EVENT_3
EMBER_REJOIN_DUE_TO_APP_EVENT_2
EMBER_REJOIN_DUE_TO_APP_EVENT_1

Type of Ember software version.

Enumerator
EMBER_VERSION_TYPE_PRE_RELEASE
EMBER_VERSION_TYPE_ALPHA_1
EMBER_VERSION_TYPE_ALPHA_2
EMBER_VERSION_TYPE_ALPHA_3
EMBER_VERSION_TYPE_BETA_1
EMBER_VERSION_TYPE_BETA_2
EMBER_VERSION_TYPE_BETA_3
EMBER_VERSION_TYPE_GA
Enumerator
EMBER_APP_RECEIVES_SUPPORTED_ZDO_REQUESTS
EMBER_APP_HANDLES_UNSUPPORTED_ZDO_REQUESTS
EMBER_APP_HANDLES_ZDO_ENDPOINT_REQUESTS
EMBER_APP_HANDLES_ZDO_BINDING_REQUESTS
Enumerator
EMBER_ZDP_PRIMARY_TRUST_CENTER
EMBER_ZDP_SECONDARY_TRUST_CENTER
EMBER_ZDP_PRIMARY_BINDING_TABLE_CACHE
EMBER_ZDP_SECONDARY_BINDING_TABLE_CACHE
EMBER_ZDP_PRIMARY_DISCOVERY_CACHE
EMBER_ZDP_SECONDARY_DISCOVERY_CACHE
EMBER_ZDP_NETWORK_MANAGER
Enumerator
EMBER_ZDP_SUCCESS
EMBER_ZDP_INVALID_REQUEST_TYPE
EMBER_ZDP_DEVICE_NOT_FOUND
EMBER_ZDP_INVALID_ENDPOINT
EMBER_ZDP_NOT_ACTIVE
EMBER_ZDP_NOT_SUPPORTED
EMBER_ZDP_TIMEOUT
EMBER_ZDP_NO_MATCH
EMBER_ZDP_NO_ENTRY
EMBER_ZDP_NO_DESCRIPTOR
EMBER_ZDP_INSUFFICIENT_SPACE
EMBER_ZDP_NOT_PERMITTED
EMBER_ZDP_TABLE_FULL
EMBER_ZDP_NOT_AUTHORIZED
EMBER_ZDP_DEVICE_BINDING_TABLE_FULL
EMBER_ZDP_INVALID_INDEX
EMBER_NWK_ALREADY_PRESENT
EMBER_NWK_TABLE_FULL
EMBER_NWK_UNKNOWN_DEVICE

A type of command received by the stack.

This enumeration indicates which protocol layer in the Ember stack an incoming command was meant for, or from which protocol layer an outgoing command is being sent.

Enumerator
EMBER_ZIGBEE_COMMAND_TYPE_RAW_MAC

Describes an 802.15.4 raw MAC message, unprocessed by the stack.

EMBER_ZIGBEE_COMMAND_TYPE_MAC_COMMAND

Describes an 802.15.4 MAC layer command.

EMBER_ZIGBEE_COMMAND_TYPE_NWK

Describes a ZigBee Network layer command.

EMBER_ZIGBEE_COMMAND_TYPE_APS

Describes a ZigBee Application Support layer command.

EMBER_ZIGBEE_COMMAND_TYPE_ZDO

Describes a ZigBee Device Object command.

EMBER_ZIGBEE_COMMAND_TYPE_ZCL

Describes a ZigBee Cluster Library command.

EMBER_ZIGBEE_COMMAND_TYPE_BEACON

Not a MAC command, but enumerated here for simplicity.

Function Documentation

uint8_t* ember283k1SignatureContents ( Ember283k1SignatureData * sig )

This function allows access to the actual ECDSA signature data of the Ember283k1SignatureData structure.

uint8_t* emberCertificate283k1Contents ( EmberCertificate283k1Data * cert )

This function allows access to the actual certificate data bytes of the Ember283k1CertificateData structure.

Parameters
cert A pointer to an ::Ember283k1CertificateData structure.
Returns
uint8_t* Returns a pointer to the first byte of the certificate data.
uint8_t* emberCertificateContents ( EmberCertificateData * cert )

This function allows access to the actual certificate data bytes of the EmberCertificateData structure.

Parameters
cert A pointer to an EmberCertificateData structure.
Returns
uint8_t* Returns a pointer to the first byte of the certificate data.
uint8_t* emberKeyContents ( EmberKeyData * key )

This function allows access to the actual key data bytes of the EmberKeyData structure.

Parameters
key A pointer to an EmberKeyData structure.
Returns
uint8_t* Returns a pointer to the first byte of the Key data.

Referenced by printKeyInfo() , and printKeyTable() .

uint8_t* emberPrivateKey283k1Contents ( EmberPrivateKey283k1Data * key )

This function allows access to the actual private key data bytes of the Ember283k1PrivateKeyData structure.

Parameters
key A pointer to an Ember283k1PrivateKeyData structure.
Returns
uint8_t* Returns a pointer to the first byte of the private key data.
uint8_t* emberPrivateKeyContents ( EmberPrivateKeyData * key )

This function allows access to the actual private key data bytes of the EmberPrivateKeyData structure.

Parameters
key A pointer to an EmberPrivateKeyData structure.
Returns
uint8_t* Returns a pointer to the first byte of the private key data.
uint8_t* emberPublicKey283k1Contents ( EmberPublicKey283k1Data * key )

This function allows access to the actual public key data bytes of the Ember283k1PublicKeyData structure.

Parameters
key A pointer to an Ember283k1PublicKeyData structure.
Returns
uint8_t* Returns a pointer to the first byte of the public key data.
uint8_t* emberPublicKeyContents ( EmberPublicKeyData * key )

This function allows access to the actual public key data bytes of the EmberPublicKeyData structure.

Parameters
key A pointer to an EmberPublicKeyData structure.
Returns
uint8_t* Returns a pointer to the first byte of the public key data.
uint8_t* emberSignatureContents ( EmberSignatureData * sig )

This function allows access to the actual ECDSA signature data of the EmberSignatureData structure.

uint8_t* emberSmacContents ( EmberSmacData * key )

This function allows access to the actual SMAC (Secured Message Authentication Code) data of the EmberSmacData structure.

Variable Documentation

const EmberVersion emberVersion

A structure containing the version information.