Ember data type definitions.

See Ember Common Data Types for details.

License#

Copyright 2018 Silicon Laboratories Inc. www.silabs.com

The licensor of this software is Silicon Laboratories Inc. Your use of this software is governed by the terms of Silicon Labs Master Software License Agreement (MSLA) available at www.silabs.com/about-us/legal/master-software-license-agreement. This software is distributed to you in Source Code format and is governed by the sections of the MSLA applicable to Source Code.

/***************************************************************************/
#ifndef SILABS_EMBER_TYPES_H
#define SILABS_EMBER_TYPES_H

// TODO: temporary hack
#define SIGNED_ENUM

#ifdef PLATFORM_HEADER
 #include PLATFORM_HEADER
#endif // PLATFORM_HEADER

#define MAX_IPC_VEC_ARG_CAPACITY 127

#ifndef DOXYGEN_SHOULD_SKIP_THIS
#include "stack/config/sl_zigbee_configuration_defaults.h"
#endif //DOXYGEN_SHOULD_SKIP_THIS

#include "mac-types.h"


#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_version_type_t
#else
typedef uint8_t sl_zigbee_version_type_t;
enum
#endif
{
  SL_ZIGBEE_VERSION_TYPE_PRE_RELEASE = 0x00,

  //Alpha, should be used rarely
  SL_ZIGBEE_VERSION_TYPE_ALPHA_1     = 0x11,
  SL_ZIGBEE_VERSION_TYPE_ALPHA_2     = 0x12,
  SL_ZIGBEE_VERSION_TYPE_ALPHA_3     = 0x13,
  // Leave space in case we decide to add other types in the future.
  SL_ZIGBEE_VERSION_TYPE_BETA_1      = 0x21,
  SL_ZIGBEE_VERSION_TYPE_BETA_2      = 0x22,
  SL_ZIGBEE_VERSION_TYPE_BETA_3      = 0x23,

  // Anything other than 0xAA is considered pre-release
  // Silicon Labs may define other types in the future (e.g. beta, alpha)
  // Silicon Labs chose an arbitrary number (0xAA) to allow for expansion, but
  // to prevent ambiguity in case 0x00 or 0xFF is accidentally retrieved
  // as the version type.
  SL_ZIGBEE_VERSION_TYPE_GA = 0xAA,
};

typedef struct {
  sl_zigbee_version_type_t typeNum;
  const char *typeString;
} sl_zigbee_release_type_struct_t;

#define SL_ZIGBEE_RELEASE_TYPE_TO_STRING_STRUCT_DATA     \
  { SL_ZIGBEE_VERSION_TYPE_PRE_RELEASE, "Pre-Release" }, \
  { SL_ZIGBEE_VERSION_TYPE_ALPHA_1, "Alpha 1" },         \
  { SL_ZIGBEE_VERSION_TYPE_ALPHA_2, "Alpha 2" },         \
  { SL_ZIGBEE_VERSION_TYPE_ALPHA_3, "Alpha 3" },         \
  { SL_ZIGBEE_VERSION_TYPE_BETA_1, "Beta 1" },           \
  { SL_ZIGBEE_VERSION_TYPE_BETA_2, "Beta 2" },           \
  { SL_ZIGBEE_VERSION_TYPE_BETA_3, "Beta 3" },           \
  { SL_ZIGBEE_VERSION_TYPE_GA, "GA" },                   \
  { 0xFF, NULL },

typedef struct {
  uint16_t build;
  uint8_t major;
  uint8_t minor;
  uint8_t patch;
  uint8_t special;
  sl_zigbee_version_type_t type;
} sl_zigbee_version_t;

extern const sl_zigbee_version_t sl_zigbee_version;

#ifdef ZIGBEE_STACK_ON_HOST

typedef struct {
  const char *date;
  const char *time;
} sl_zigbee_stack_build_date_time_t;

extern const sl_zigbee_stack_build_date_time_t sl_zigbee_stack_build_date_time;

#endif //ZIGBEE_STACK_ON_HOST

#define EUI64_SIZE 8

#define EXTENDED_PAN_ID_SIZE 8

#define SL_ZIGBEE_ENCRYPTION_KEY_SIZE 16

#define SL_ZIGBEE_CERTIFICATE_SIZE 48

#define SL_ZIGBEE_PUBLIC_KEY_SIZE 22

#define SL_ZIGBEE_PRIVATE_KEY_SIZE 21

#define SL_ZIGBEE_SMAC_SIZE 16

#define SL_ZIGBEE_SIGNATURE_SIZE 42

#define SL_ZIGBEE_AES_HASH_BLOCK_SIZE 16

#define SL_ZIGBEE_CERTIFICATE_283K1_SIZE 74

#define SL_ZIGBEE_PUBLIC_KEY_283K1_SIZE 37

#define SL_ZIGBEE_PRIVATE_KEY_283K1_SIZE 36

#define SL_ZIGBEE_SIGNATURE_283K1_SIZE 72

#include "buffer_manager/buffer-management.h"

//typedef uint8_t sl_802154_long_addr_t[EUI64_SIZE];

//typedef uint16_t sli_buffer_manager_buffer_t;
//typedef uint16_t Buffer;

#define NULL_BUFFER 0x0000u

//typedef uint16_t sl_802154_short_addr_t;

typedef uint16_t sl_zigbee_multicast_id_t;

//typedef uint16_t sl_802154_pan_id_t;

typedef uint16_t sl_zigbee_duty_cycle_hecto_pct_t;

#define SL_ZIGBEE_MAX_802_15_4_CHANNEL_NUMBER 26

#define SL_ZIGBEE_MIN_802_15_4_CHANNEL_NUMBER 11

#define SL_ZIGBEE_MIN_SUBGHZ_CHANNEL_NUMBER 0

#define SL_ZIGBEE_ACTIVE_SCAN_DURATION  3

#define SL_ZIGBEE_SUB_GHZ_SCAN_DURATION 5

#define SL_ZIGBEE_NUM_802_15_4_CHANNELS \
  (SL_ZIGBEE_MAX_802_15_4_CHANNEL_NUMBER - SL_ZIGBEE_MIN_802_15_4_CHANNEL_NUMBER + 1)

#define SL_ZIGBEE_ALL_802_15_4_CHANNELS_MASK 0x07FFF800UL

#define SL_ZIGBEE_MAX_CHANNELS_PER_PAGE   27

#define SL_ZIGBEE_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_28_30_31 0x07FFFFFFUL

#define SL_ZIGBEE_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGES_28_30_31   26
#define SL_ZIGBEE_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_29 0x1FF

#define SL_ZIGBEE_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGE_29   8

#define SL_ZIGBEE_MIN_SUGBHZ_PAGE_NUMBER  28

#define SL_ZIGBEE_MAX_SUGBHZ_PAGE_NUMBER  31

#define SL_ZIGBEE_ALL_CHANNEL_PAGE_MASK 0xF8000000UL

#define SL_ZIGBEE_PAGE_CHANNEL_MASK_FROM_CHANNEL_MASK(page, mask)                              \
  (((((uint32_t)(page)) << SL_ZIGBEE_MAX_CHANNELS_PER_PAGE) & SL_ZIGBEE_ALL_CHANNEL_PAGE_MASK) \
   | (((uint32_t)(mask)) & ~SL_ZIGBEE_ALL_CHANNEL_PAGE_MASK))

#define SL_ZIGBEE_PAGE_CHANNEL_MASK_FROM_CHANNEL_NUMBER(page, channel) \
  SL_ZIGBEE_PAGE_CHANNEL_MASK_FROM_CHANNEL_MASK(page, BIT32(channel))

#define SL_ZIGBEE_ZIGBEE_COORDINATOR_ADDRESS 0x0000u

#define SL_ZIGBEE_NULL_NODE_ID 0xFFFFu

#define SL_ZIGBEE_NO_CHANNEL_PAGE_IN_USE           0
#define SL_ZIGBEE_NULL_EUI64 { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }

#define SL_ZIGBEE_NULL_BINDING 0xFFu

#define SL_ZIGBEE_TABLE_ENTRY_UNUSED_NODE_ID  0xFFFFu

#define SL_ZIGBEE_MULTICAST_NODE_ID           0xFFFEu

#define SL_ZIGBEE_UNKNOWN_NODE_ID             0xFFFDu

#define SL_ZIGBEE_DISCOVERY_ACTIVE_NODE_ID    0xFFFCu

#define SL_ZIGBEE_NULL_ADDRESS_TABLE_INDEX 0xFFu

#define SL_ZIGBEE_ZDO_ENDPOINT 0u

#define SL_ZIGBEE_BROADCAST_ENDPOINT 0xFFu

#define SL_ZIGBEE_GP_ENDPOINT 0xF2u

#define SL_ZIGBEE_ZDO_PROFILE_ID  0x0000u

#define SL_ZIGBEE_WILDCARD_PROFILE_ID  0xFFFFu

#define SL_ZIGBEE_MAXIMUM_STANDARD_PROFILE_ID  0x7FFFu

#define SL_ZIGBEE_BROADCAST_TABLE_TIMEOUT_QS (20 * 4)

#define SL_ZIGBEE_MANUFACTURER_ID 0x1002u

#define SL_ZIGBEE_NULL_NETWORK_INDEX 0xFFu

#define SL_ZIGBEE_DC_LIMIT_USE_DEFAULT 0

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_leave_network_option_t
#else
typedef uint8_t sl_zigbee_leave_network_option_t;
enum
#endif
{
  SL_ZIGBEE_LEAVE_NWK_WITH_NO_OPTION      = 0x00,
  SL_ZIGBEE_LEAVE_NWK_WITH_OPTION_REJOIN  = 0x20,
  SL_ZIGBEE_LEAVE_NWK_IS_REQUESTED        = 0x40,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_stack_profile_t
#else
typedef uint8_t sl_zigbee_stack_profile_t;
enum
#endif
{
  SL_ZIGBEE_STACK_PROFILE_NONE       = 0x00,
  SL_ZIGBEE_STACK_PROFILE_ZIGBEE_PRO = 0x02,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_security_level_t
#else
typedef uint8_t sl_zigbee_security_level_t;
enum
#endif
{
  SL_ZIGBEE_SECURITY_LEVEL_NONE = 0x00,
  SL_ZIGBEE_SECURITY_LEVEL_Z3   = 0x05,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_leave_request_flags_t
#else
typedef uint8_t sl_zigbee_leave_request_flags_t;
enum
#endif
{
  SL_ZIGBEE_ZIGBEE_LEAVE_AND_REJOIN     = 0x80,

  // Note: removeChildren is treated to be deprecated and should not be used!
  // CCB 2047
  // - CCB makes the first step to deprecate the 'leave and remove children' functionality.
  // - We were proactive here and deprecated it right away.
  // SL_ZIGBEE_ZIGBEE_LEAVE_AND_REMOVE_CHILDREN = 0x40,

  SL_ZIGBEE_ZIGBEE_LEAVE_WITHOUT_REJOIN = 0x00,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_leave_reason_t
#else
typedef uint8_t sl_zigbee_leave_reason_t;
enum
#endif
{
  SL_ZIGBEE_LEAVE_REASON_NONE               = 0,
  SL_ZIGBEE_LEAVE_DUE_TO_NWK_LEAVE_MESSAGE  = 1,
  SL_ZIGBEE_LEAVE_DUE_TO_APS_REMOVE_MESSAGE = 2,
  // Currently, the stack does not process the ZDO leave message since it is optional.
  SL_ZIGBEE_LEAVE_DUE_TO_ZDO_LEAVE_MESSAGE  = 3,
  SL_ZIGBEE_LEAVE_DUE_TO_ZLL_TOUCHLINK      = 4,

  SL_ZIGBEE_LEAVE_DUE_TO_APP_EVENT_1        = 0xFF,
};


#define SL_ZIGBEE_BROADCAST_ADDRESS 0xFFFCu
#define SL_ZIGBEE_RX_ON_WHEN_IDLE_BROADCAST_ADDRESS 0xFFFDu
#define SL_ZIGBEE_SLEEPY_BROADCAST_ADDRESS 0xFFFFu

// From table 3.51 of 053474r14
// When sending many-to-one route requests, the following
// addresses are used
// 0xFFF9 indicates a non-memory-constrained many-to-one route request
// 0xFFF8 indicates a memory-constrained many-to-one route request
#define SL_ZIGBEE_MIN_BROADCAST_ADDRESS 0xFFF8u

#define sl_zigbee_is_zigbee_broadcast_address(address) \
  (SL_ZIGBEE_MIN_BROADCAST_ADDRESS <= ((uint16_t) (address)))

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_node_type_t
#else
typedef uint8_t sl_zigbee_node_type_t;
enum
#endif
{
  SL_ZIGBEE_UNKNOWN_DEVICE = 0,
  SL_ZIGBEE_DEVICE_TYPE_UNCHANGED = SL_ZIGBEE_UNKNOWN_DEVICE,
  SL_ZIGBEE_COORDINATOR = 1,
  SL_ZIGBEE_ROUTER = 2,
  SL_ZIGBEE_END_DEVICE = 3,
  SL_ZIGBEE_SLEEPY_END_DEVICE = 4,
  SL_ZIGBEE_S2S_INITIATOR_DEVICE = 5,
  SL_ZIGBEE_S2S_TARGET_DEVICE = 6,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_end_device_configuration_t
#else
typedef uint8_t sl_zigbee_end_device_configuration_t;
enum
#endif
{
  SL_ZIGBEE_END_DEVICE_CONFIG_NONE                   = 0x00,
  SL_ZIGBEE_END_DEVICE_CONFIG_PERSIST_DATA_ON_PARENT = 0x01,
};

typedef struct {
  uint16_t panId;
  uint8_t channel;
  bool allowingJoin;
  uint8_t extendedPanId[EXTENDED_PAN_ID_SIZE];
  uint8_t stackProfile;
  uint8_t nwkUpdateId;
} sl_zigbee_zigbee_network_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_network_init_bitmask_t
#else
typedef uint16_t sl_zigbee_network_init_bitmask_t;
enum
#endif
{
  SL_ZIGBEE_NETWORK_INIT_NO_OPTIONS           = 0x0000,
  SL_ZIGBEE_NETWORK_INIT_PARENT_INFO_IN_TOKEN = 0x0001,
  SL_ZIGBEE_NETWORK_INIT_END_DEVICE_REJOIN_ON_REBOOT = 0x0002,
};

typedef struct {
  sl_zigbee_network_init_bitmask_t bitmask;
} sl_zigbee_network_init_struct_t;

typedef struct {
  uint16_t nodeId;
  int8_t rssi;
  uint8_t classificationMask;
} sl_zigbee_beacon_survey_t;

typedef struct {
  sl_802154_pan_id_t panId;
  sl_802154_short_addr_t sender;
  uint8_t channel;
  uint8_t lqi;
  int8_t rssi;
  uint8_t depth;
  uint8_t nwkUpdateId;
  int8_t power;           // Only valid if enhanced beacon
  int8_t parentPriority;  // TC connectivity and long uptime from capacity field
  uint8_t supportedKeyNegotiationMethods;
  bool extended_beacon;
  bool enhanced             : 1;  // Enhanced or regular beacon
  bool permitJoin           : 1;
  bool hasCapacity          : 1;
  bool tcConnectivity       : 1;
  bool longUptime           : 1;
  bool preferParent         : 1;
  bool macDataPollKeepalive : 1;
  bool endDeviceKeepalive   : 1;
  uint8_t extendedPanId[EXTENDED_PAN_ID_SIZE];
} sl_zigbee_beacon_data_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_aps_rejoin_mode_t
#else
typedef uint8_t sl_zigbee_aps_rejoin_mode_t;
enum
#endif
{
  NO_REJOIN,
  REJOIN_ANY_LINK_KEY,
  REJOIN_NON_DEFAULT_LINK_KEY
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_aps_option_t
#else
typedef uint16_t sl_zigbee_aps_option_t;
enum
#endif
{
  SL_ZIGBEE_APS_OPTION_NONE                     = 0x0000,

#ifndef DOXYGEN_SHOULD_SKIP_THIS
  SL_ZIGBEE_APS_OPTION_ENCRYPT_WITH_TRANSIENT_KEY = 0x0001,
  SL_ZIGBEE_APS_OPTION_USE_ALIAS_SEQUENCE_NUMBER = 0x0002,
#endif

  SL_ZIGBEE_APS_OPTION_DSA_SIGN                 = 0x0010,
  SL_ZIGBEE_APS_OPTION_ENCRYPTION               = 0x0020,
  SL_ZIGBEE_APS_OPTION_RETRY                    = 0x0040,
  SL_ZIGBEE_APS_OPTION_ENABLE_ROUTE_DISCOVERY   = 0x0100,
  SL_ZIGBEE_APS_OPTION_FORCE_ROUTE_DISCOVERY    = 0x0200,
  SL_ZIGBEE_APS_OPTION_SOURCE_EUI64             = 0x0400,
  SL_ZIGBEE_APS_OPTION_DESTINATION_EUI64        = 0x0800,
  SL_ZIGBEE_APS_OPTION_ENABLE_ADDRESS_DISCOVERY = 0x1000,
  SL_ZIGBEE_APS_OPTION_POLL_RESPONSE            = 0x2000,
  SL_ZIGBEE_APS_OPTION_ZDO_RESPONSE_REQUIRED    = 0x4000,
  SL_ZIGBEE_APS_OPTION_FRAGMENT                 = SIGNED_ENUM 0x8000
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_incoming_message_type_t
#else
typedef uint8_t sl_zigbee_incoming_message_type_t;
enum
#endif
{
  SL_ZIGBEE_INCOMING_UNICAST,
  SL_ZIGBEE_INCOMING_UNICAST_REPLY,
  SL_ZIGBEE_INCOMING_MULTICAST,
  SL_ZIGBEE_INCOMING_MULTICAST_LOOPBACK,
  SL_ZIGBEE_INCOMING_BROADCAST,
  SL_ZIGBEE_INCOMING_BROADCAST_LOOPBACK
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_outgoing_message_type_t
#else
typedef uint8_t sl_zigbee_outgoing_message_type_t;
enum
#endif
{
  SL_ZIGBEE_OUTGOING_DIRECT,
  SL_ZIGBEE_OUTGOING_VIA_ADDRESS_TABLE,
  SL_ZIGBEE_OUTGOING_VIA_BINDING,
  SL_ZIGBEE_OUTGOING_MULTICAST,
  SL_ZIGBEE_OUTGOING_MULTICAST_WITH_ALIAS,
  SL_ZIGBEE_OUTGOING_BROADCAST_WITH_ALIAS,
  SL_ZIGBEE_OUTGOING_BROADCAST
};

// OLD API
#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_zigbee_command_type_t
#else
typedef uint8_t sl_zigbee_zigbee_command_type_t;
enum
#endif
{
  SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_RAW_MAC,
  SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_MAC_COMMAND,
  SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_NWK,
  SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_APS,
  SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_ZDO,
  SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_ZCL,
  SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_BEACON,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_packet_action_t
#else
typedef uint8_t sl_zigbee_packet_action_t;
enum
#endif
{
  SL_ZIGBEE_DROP_PACKET   = 0,
  SL_ZIGBEE_ACCEPT_PACKET = 1,
  SL_ZIGBEE_MANGLE_PACKET,

  SL_ZIGBEE_ACCEPT_PACKET_OVERRIDE_SECURITY,

  SL_ZIGBEE_ACCEPT_PACKET_SKIP_NWK_CRYPTO,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_zigbee_packet_type_t
#else
typedef uint8_t sl_zigbee_zigbee_packet_type_t;
enum
#endif
{
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_RAW_MAC,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_MAC_COMMAND,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_DATA,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_COMMAND,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_APS_DATA,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_APS_COMMAND,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_ZDO,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_ZCL,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_BEACON,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_INTERPAN,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_DATA_PRE_DECRYPTION,
  SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_COMMAND_PRE_DECRYPTION,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_network_status_t
#else
typedef uint8_t sl_zigbee_network_status_t;
enum
#endif
{
  SL_ZIGBEE_NO_NETWORK,
  SL_ZIGBEE_JOINING_NETWORK,
  SL_ZIGBEE_JOINED_NETWORK,
  SL_ZIGBEE_JOINED_NETWORK_NO_PARENT,
  SL_ZIGBEE_JOINED_NETWORK_S2S_INITIATOR,
  SL_ZIGBEE_JOINED_NETWORK_S2S_TARGET,
  SL_ZIGBEE_LEAVING_NETWORK
};

// The RADIO_OFF scan is not really a scan at all.  It is used to
// temporarily turn off the radio to use the TX and RX
// buffers for other purposes.
// Start the scan with:
//   sl_zigbee_start_scan(SL_ZIGBEE_START_RADIO_OFF_SCAN, 0, 0);
// Call sl_zigbee_stop_scan() to restart the radio and the MAC.

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_network_scan_type_t
#else
typedef uint8_t sl_zigbee_network_scan_type_t;
enum
#endif
{
  SL_ZIGBEE_ENERGY_SCAN,
  SL_ZIGBEE_ACTIVE_SCAN,
  SL_ZIGBEE_START_RADIO_OFF_SCAN,
  SL_ZIGBEE_STACK_GP_CHANNEL_DELIVERY_SCAN,
  SL_ZIGBEE_ACTIVE_SCAN_ROUTER,
  SL_ZIGBEE_LAST_SCAN_TYPE = SL_ZIGBEE_ACTIVE_SCAN_ROUTER
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_binding_type_t
#else
typedef uint8_t sl_zigbee_binding_type_t;
enum
#endif
{
  SL_ZIGBEE_UNUSED_BINDING         = 0,
  SL_ZIGBEE_UNICAST_BINDING        = 1,
  SL_ZIGBEE_MANY_TO_ONE_BINDING    = 2,
  SL_ZIGBEE_MULTICAST_BINDING      = 3,
};

#define SL_ZIGBEE_LOW_RAM_CONCENTRATOR 0xFFF8u
#define SL_ZIGBEE_HIGH_RAM_CONCENTRATOR 0xFFF9u


#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_assume_trust_center_concentrator_type_t
#else
typedef uint8_t sl_zigbee_assume_trust_center_concentrator_type_t;
enum
#endif
{
  SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_NOT_A_CONCENTRATOR = 0,
  SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_LOW_RAM_CONCENTRATOR = 1,
  SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_HIGH_RAM_CONCENTRATOR = 2
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_join_decision_t
#else
typedef uint8_t sl_zigbee_join_decision_t;
enum
#endif
{
  SL_ZIGBEE_USE_PRECONFIGURED_KEY = 0,
  SL_ZIGBEE_SEND_KEY_IN_THE_CLEAR,
  SL_ZIGBEE_DENY_JOIN,
  SL_ZIGBEE_NO_ACTION,
  SL_ZIGBEE_ALLOW_REJOINS_ONLY
};

#define SL_ZIGBEE_JOIN_DECISION_STRINGS \
  "use preconfigured key",              \
  "send key in the clear",              \
  "deny join",                          \
  "no action",                          \
  "allow rejoins only",

// These map to the actual values within the APS Command frame so they cannot
// be arbitrarily changed.
#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_device_update_t
#else
typedef uint8_t sl_zigbee_device_update_t;
enum
#endif
{
  SL_ZIGBEE_STANDARD_SECURITY_SECURED_REJOIN   = 0,
  SL_ZIGBEE_STANDARD_SECURITY_UNSECURED_JOIN   = 1,
  SL_ZIGBEE_DEVICE_LEFT                        = 2,
  SL_ZIGBEE_STANDARD_SECURITY_UNSECURED_REJOIN = 3,
};

#define SL_ZIGBEE_DEVICE_UPDATE_STRINGS \
  "secured rejoin",                     \
  "UNsecured join",                     \
  "device left",                        \
  "UNsecured rejoin",

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_rejoin_reason_t
#else
typedef uint8_t sl_zigbee_rejoin_reason_t;
enum
#endif
{
  SL_ZIGBEE_REJOIN_REASON_NONE           = 0,
  SL_ZIGBEE_REJOIN_DUE_TO_NWK_KEY_UPDATE = 1,
  SL_ZIGBEE_REJOIN_DUE_TO_LEAVE_MESSAGE  = 2,
  SL_ZIGBEE_REJOIN_DUE_TO_NO_PARENT      = 3,
  SL_ZIGBEE_REJOIN_DUE_TO_ZLL_TOUCHLINK  = 4,
  SL_ZIGBEE_REJOIN_DUE_TO_END_DEVICE_REBOOT = 5,

  // App. Framework events
  // 0xA0 - 0xE0
  // See af.h for a subset of defined rejoin reasons

  // Customer-defined Events
  //   These are numbered down from 0xFF so their assigned values
  //   need not change if more application events are needed.
  SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_5       = 0xFB,
  SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_4       = 0xFC,
  SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_3       = 0xFD,
  SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_2       = 0xFE,
  SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_1       = 0xFF,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_cluster_list_id_t
#else
typedef uint8_t sl_zigbee_cluster_list_id_t;
enum
#endif
{
  SL_ZIGBEE_INPUT_CLUSTER_LIST            = 0,
  SL_ZIGBEE_OUTPUT_CLUSTER_LIST           = 1
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_event_units_t
#else
typedef uint8_t sl_zigbee_event_units_t;
enum
#endif
{
  SL_ZIGBEE_EVENT_INACTIVE = 0,
  SL_ZIGBEE_EVENT_MS_TIME,
  SL_ZIGBEE_EVENT_QS_TIME,
  SL_ZIGBEE_EVENT_MINUTE_TIME,
  SL_ZIGBEE_EVENT_ZERO_DELAY
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_join_method_t
#else
typedef uint8_t sl_zigbee_join_method_t;
enum
#endif
{
  SL_ZIGBEE_USE_MAC_ASSOCIATION         = 0,

  SL_ZIGBEE_USE_NWK_REJOIN              = 1,

  /* For networks where the "permit joining" flag is never turned
   * on, devices will need to use a NWK Rejoin.  If those devices have been
   * preconfigured with the  NWK key (including sequence number), they can use
   * a secured rejoin.  This is only necessary for end devices since they need
   * a parent.  Routers can simply use the ::SL_ZIGBEE_USE_CONFIGURED_NWK_STATE
   * join method below.
   */
  SL_ZIGBEE_USE_NWK_REJOIN_HAVE_NWK_KEY = 2,

  SL_ZIGBEE_USE_CONFIGURED_NWK_STATE    = 3,

  SL_ZIGBEE_USE_NWK_COMMISSIONING_JOIN = 4,

  SL_ZIGBEE_USE_NWK_COMMISSIONING_REJOIN = 5,

  SL_ZIGBEE_USE_NWK_COMMISSIONING_REJOIN_HAVE_NWK_KEY = 6,
};

typedef struct {
  uint8_t   extendedPanId[EXTENDED_PAN_ID_SIZE];
  uint16_t  panId;
  int8_t   radioTxPower;
  uint8_t   radioChannel;
  sl_zigbee_join_method_t joinMethod;

  sl_802154_short_addr_t nwkManagerId;
  uint8_t nwkUpdateId;
  uint32_t channels;
} sl_zigbee_network_parameters_t;

#if defined(DOXYGEN_SHOULD_SKIP_THIS) || defined(ZNET_HEADER_SCRIPT)
#define sl_zigbee_initialize_network_parameters(parameters) \
  (memset(parameters, 0, sizeof(sl_zigbee_network_parameters_t)))
#else
void sl_zigbee_initialize_network_parameters(sl_zigbee_network_parameters_t* parameters);
#endif

typedef struct {
  int8_t radioTxPower;
  uint8_t radioPage;
  uint8_t radioChannel;
} sl_zigbee_multi_phy_radio_parameters_t;

typedef struct {
  uint16_t profileId;
  uint16_t clusterId;
  uint8_t sourceEndpoint;
  uint8_t destinationEndpoint;
  sl_zigbee_aps_option_t options;
  uint16_t groupId;
  uint8_t sequence;
  uint8_t radius;
} sl_zigbee_aps_frame_t;

typedef struct {
  sl_802154_long_addr_t eui64;
  sl_zigbee_node_type_t type;
  sl_802154_short_addr_t id;
  uint8_t phy;
  uint8_t power;
  uint8_t timeout;
  uint32_t remainingTimeout;
} sl_zigbee_child_data_t;

typedef struct {
  sl_zigbee_binding_type_t type;
  uint8_t local;
  uint16_t clusterId;
  uint8_t remote;
  sl_802154_long_addr_t identifier;
  uint8_t networkIndex;
} sl_zigbee_binding_table_entry_t;

typedef struct {
  uint16_t shortId;
  uint8_t  averageLqi;
  uint8_t  inCost;
  uint8_t  outCost;
  uint8_t  age;
  sl_802154_long_addr_t longId;
} sl_zigbee_neighbor_table_entry_t;

typedef struct {
  uint16_t destination;
  uint16_t nextHop;
  uint8_t status;
  uint8_t age;
  uint8_t concentratorType;
  uint8_t routeRecordState;
} sl_zigbee_route_table_entry_t;

typedef struct {
  sl_zigbee_multicast_id_t multicastId;
  uint8_t endpoint;
  uint8_t networkIndex;
} sl_zigbee_multicast_table_entry_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_counter_type_t
#else
typedef uint8_t sl_zigbee_counter_type_t;
enum
#endif
{
  SL_ZIGBEE_COUNTER_MAC_RX_BROADCAST = 0,
  SL_ZIGBEE_COUNTER_MAC_TX_BROADCAST = 1,
  SL_ZIGBEE_COUNTER_MAC_RX_UNICAST = 2,
  SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_SUCCESS = 3,
  SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_RETRY = 4,
  SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_FAILED = 5,

  SL_ZIGBEE_COUNTER_APS_DATA_RX_BROADCAST = 6,
  SL_ZIGBEE_COUNTER_APS_DATA_TX_BROADCAST = 7,
  SL_ZIGBEE_COUNTER_APS_DATA_RX_UNICAST = 8,
  SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_SUCCESS = 9,
  SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_RETRY = 10,
  /* The APS layer unsuccessfully transmitted a data unicast.
   * destinationNodeId: NWK destination address
   * data: number of APS retries (>=0) consumed for this unicast.
   */
  SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_FAILED = 11,

  SL_ZIGBEE_COUNTER_ROUTE_DISCOVERY_INITIATED = 12,

  SL_ZIGBEE_COUNTER_NEIGHBOR_ADDED = 13,
  SL_ZIGBEE_COUNTER_NEIGHBOR_REMOVED = 14,
  SL_ZIGBEE_COUNTER_NEIGHBOR_STALE = 15,

  SL_ZIGBEE_COUNTER_JOIN_INDICATION = 16,
  SL_ZIGBEE_COUNTER_CHILD_REMOVED = 17,

  SL_ZIGBEE_COUNTER_ASH_OVERFLOW_ERROR = 18,
  SL_ZIGBEE_COUNTER_ASH_FRAMING_ERROR = 19,
  SL_ZIGBEE_COUNTER_ASH_OVERRUN_ERROR = 20,

  SL_ZIGBEE_COUNTER_NWK_FRAME_COUNTER_FAILURE = 21,

  SL_ZIGBEE_COUNTER_APS_FRAME_COUNTER_FAILURE = 22,

  SL_ZIGBEE_COUNTER_ASH_XOFF = 23,

  SL_ZIGBEE_COUNTER_APS_LINK_KEY_NOT_AUTHORIZED = 24,

  SL_ZIGBEE_COUNTER_NWK_DECRYPTION_FAILURE = 25,

  SL_ZIGBEE_COUNTER_APS_DECRYPTION_FAILURE = 26,

  SL_ZIGBEE_COUNTER_ALLOCATE_PACKET_BUFFER_FAILURE = 27,

  SL_ZIGBEE_COUNTER_RELAYED_UNICAST = 28,

  SL_ZIGBEE_COUNTER_PHY_TO_MAC_QUEUE_LIMIT_REACHED = 29,

  SL_ZIGBEE_COUNTER_PACKET_VALIDATE_LIBRARY_DROPPED_COUNT = 30,

  SL_ZIGBEE_COUNTER_TYPE_NWK_RETRY_OVERFLOW = 31,

  SL_ZIGBEE_COUNTER_PHY_CCA_FAIL_COUNT = 32,

  SL_ZIGBEE_COUNTER_BROADCAST_TABLE_FULL = 33,

  SL_ZIGBEE_COUNTER_PTA_LO_PRI_REQUESTED = 34,

  SL_ZIGBEE_COUNTER_PTA_HI_PRI_REQUESTED = 35,

  SL_ZIGBEE_COUNTER_PTA_LO_PRI_DENIED = 36,

  SL_ZIGBEE_COUNTER_PTA_HI_PRI_DENIED = 37,

  SL_ZIGBEE_COUNTER_PTA_LO_PRI_TX_ABORTED = 38,

  SL_ZIGBEE_COUNTER_PTA_HI_PRI_TX_ABORTED = 39,

  SL_ZIGBEE_COUNTER_ADDRESS_CONFLICT_SENT = 40,

  SL_ZIGBEE_COUNTER_TYPE_COUNT = 41,
};

typedef struct {
  uint8_t backgroundRx;
  uint8_t tx;
  uint8_t activeRx;
} sl_zigbee_multiprotocol_priorities_t;

#define SL_ZIGBEE_COUNTER_STRINGS    \
  "Mac Rx Bcast",                    \
  "Mac Tx Bcast",                    \
  "Mac Rx Ucast",                    \
  "Mac Tx Ucast",                    \
  "Mac Tx Ucast Retry",              \
  "Mac Tx Ucast Fail",               \
  "APS Rx Bcast",                    \
  "APS Tx Bcast",                    \
  "APS Rx Ucast",                    \
  "APS Tx Ucast Success",            \
  "APS Tx Ucast Retry",              \
  "APS Tx Ucast Fail",               \
  "Route Disc Initiated",            \
  "Neighbor Added",                  \
  "Neighbor Removed",                \
  "Neighbor Stale",                  \
  "Join Indication",                 \
  "Child Moved",                     \
  "ASH Overflow",                    \
  "ASH Frame Error",                 \
  "ASH Overrun Error",               \
  "NWK FC Failure",                  \
  "APS FC Failure",                  \
  "ASH XOff",                        \
  "APS Unauthorized Key",            \
  "NWK Decrypt Failures",            \
  "APS Decrypt Failures",            \
  "Packet Buffer Allocate Failures", \
  "Relayed Ucast",                   \
  "Phy to MAC queue limit reached",  \
  "Packet Validate drop count",      \
  "NWK retry overflow",              \
  "CCA Failures",                    \
  "Broadcast table full",            \
  "PTA Lo Pri Req",                  \
  "PTA Hi Pri Req",                  \
  "PTA Lo Pri Denied",               \
  "PTA Hi Pri Denied",               \
  "PTA Lo Pri Tx Abrt",              \
  "PTA Hi Pri Tx Abrt",              \
  "Address Conflict Sent",           \
  NULL

typedef struct {
  uint8_t data;   // For now, might be number of retries or other values that previously were assigned to data.
  void *otherFields;  // For now, this might be destination nodeId, or phyIndex or both(extraCounterInfo).
} sl_zigbee_counter_info_t;

typedef struct {
  uint8_t phy_index;
  sl_802154_short_addr_t destinationNodeId;
  void *otherExtraFields;   //For now, this is NULL.
} sl_zigbee_extra_counters_info_t;

typedef uint8_t sl_zigbee_task_id_t;

//----------------------------------------------------------------
// Events and event queues.

typedef struct {
  sl_zigbee_event_units_t status;
  sl_zigbee_task_id_t taskid;
  uint32_t timeToExecute;
} sl_zigbee_event_control_t;

typedef struct {
  sl_zigbee_event_control_t *control;
  void (*handler)(void);
} sl_zigbee_event_data_t;

typedef struct {
  // The time when the next event associated with this task will fire.
  uint32_t nextEventTime;
  // The list of events associated with this task.
  sl_zigbee_event_data_t *events;
  // A flag that indicates the task has something to do other than events.
  bool busy;
} sl_zigbee_task_control_t;


#define SL_ZIGBEE_TX_POWER_MODE_DEFAULT             0x0000
#define SL_ZIGBEE_TX_POWER_MODE_BOOST               0x0001
#define SL_ZIGBEE_TX_POWER_MODE_ALTERNATE           0x0002
#define SL_ZIGBEE_TX_POWER_MODE_BOOST_AND_ALTERNATE (SL_ZIGBEE_TX_POWER_MODE_BOOST \
                                                     | SL_ZIGBEE_TX_POWER_MODE_ALTERNATE)
#ifndef DOXYGEN_SHOULD_SKIP_THIS
// The application does not ever need to call sl_802154_set_tx_power_mode() with the
// txPowerMode parameter set to this value.  This value is used internally by
// the stack to indicate that the default token configuration has not been
// overridden by a prior call to sl_802154_set_tx_power_mode().
#define SL_ZIGBEE_TX_POWER_MODE_USE_TOKEN           0x8000
#endif //DOXYGEN_SHOULD_SKIP_THIS



#define SL_ZIGBEE_PRIVATE_PROFILE_ID  0xC00Eu

#define SL_ZIGBEE_PRIVATE_PROFILE_ID_START 0xC00Du

#define SL_ZIGBEE_PRIVATE_PROFILE_ID_END   0xC016u

#define SL_ZIGBEE_REPORT_COUNTERS_REQUEST 0x0003u

#define SL_ZIGBEE_REPORT_COUNTERS_RESPONSE 0x8003u

#define SL_ZIGBEE_REPORT_AND_CLEAR_COUNTERS_REQUEST 0x0004u

#define SL_ZIGBEE_REPORT_AND_CLEAR_COUNTERS_RESPONSE 0x8004u

#define SL_ZIGBEE_OTA_CERTIFICATE_UPGRADE_CLUSTER 0x0005u


typedef struct {
  uint8_t contents[SL_ZIGBEE_ENCRYPTION_KEY_SIZE];
} sl_zigbee_key_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_CERTIFICATE_SIZE];
} sl_zigbee_certificate_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_PUBLIC_KEY_SIZE];
} sl_zigbee_public_key_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_PRIVATE_KEY_SIZE];
} sl_zigbee_private_key_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_SMAC_SIZE];
} sl_zigbee_smac_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_SIGNATURE_SIZE];
} sl_zigbee_signature_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_AES_HASH_BLOCK_SIZE];
} sl_zigbee_message_digest_t;

typedef struct {
  uint8_t result[SL_ZIGBEE_AES_HASH_BLOCK_SIZE];
  uint32_t length;
} sl_zigbee_aes_mmo_hash_context_t;

typedef struct {
  /* This is the certificate byte data. */
  uint8_t contents[SL_ZIGBEE_CERTIFICATE_283K1_SIZE];
} sl_zigbee_certificate_283k1_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_PUBLIC_KEY_283K1_SIZE];
} sl_zigbee_public_key_283k1_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_PRIVATE_KEY_283K1_SIZE];
} sl_zigbee_private_key_283k1_data_t;

typedef struct {
  uint8_t contents[SL_ZIGBEE_SIGNATURE_283K1_SIZE];
} sl_zigbee_signature_283k1_data_t;

#define SL_ZIGBEE_STANDARD_SECURITY_MODE 0x0000

#define SL_ZIGBEE_TRUST_CENTER_NODE_ID 0x0000u

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_initial_security_bitmask_t
#else
typedef uint16_t sl_zigbee_initial_security_bitmask_t;
enum
#endif
{
  SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE       = 0x0002,
  SL_ZIGBEE_TRUST_CENTER_GLOBAL_LINK_KEY        = 0x0004,
  SL_ZIGBEE_PRECONFIGURED_NETWORK_KEY_MODE      = 0x0008,

#if !defined DOXYGEN_SHOULD_SKIP_THIS
  // Hidden fields used internally.
  SL_ZIGBEE_HAVE_TRUST_CENTER_UNKNOWN_KEY_TOKEN = 0x0010,
  SL_ZIGBEE_HAVE_TRUST_CENTER_LINK_KEY_TOKEN    = 0x0020,
#endif
  SL_ZIGBEE_HAVE_TRUST_CENTER_EUI64             = 0x0040,

  SL_ZIGBEE_TRUST_CENTER_USES_HASHED_LINK_KEY   = 0x0084,

  SL_ZIGBEE_HAVE_PRECONFIGURED_KEY              = 0x0100,
  SL_ZIGBEE_HAVE_NETWORK_KEY                    = 0x0200,
  SL_ZIGBEE_GET_LINK_KEY_WHEN_JOINING           = 0x0400,
  SL_ZIGBEE_REQUIRE_ENCRYPTED_KEY               = 0x0800,
  SL_ZIGBEE_NO_FRAME_COUNTER_RESET              = 0x1000,
  SL_ZIGBEE_GET_PRECONFIGURED_KEY_FROM_INSTALL_CODE = 0x2000,

#if !defined DOXYGEN_SHOULD_SKIP_THIS
  // Internal data
  EM_SAVED_IN_TOKEN                         = 0x4000,
  #define EM_SECURITY_INITIALIZED           0x00008000L
#else
  /* All other bits are reserved and must be zero. */
#endif
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_extended_security_bitmask_t
#else
typedef uint16_t sl_zigbee_extended_security_bitmask_t;
enum
#endif
{
#ifndef DOXYGEN_SHOULD_SKIP_THIS
  // If this bit is set, the 'key token data' field is set in the Initial
  // Security Bitmask to 0 (No Preconfig Key token). Otherwise, the
  // field is left as is.
  SL_ZIGBEE_PRECONFIG_KEY_NOT_VALID       = 0x0001,
#endif

  // bits 2-3 are unused.
  SL_ZIGBEE_SECURE_NETWORK_KEY_ROTATION   = 0x0002,

  SL_ZIGBEE_JOINER_GLOBAL_LINK_KEY        = 0x0010,

  SL_ZIGBEE_EXT_NO_FRAME_COUNTER_RESET    = 0x0020,

  SL_ZIGBEE_NWK_LEAVE_WITHOUT_REJOIN_NOT_ALLOWED = 0x0040,

  // Bit 7 reserved for future use (stored in TOKEN).

  SL_ZIGBEE_NWK_LEAVE_REQUEST_NOT_ALLOWED = 0x0100,

#ifndef DOXYGEN_SHOULD_SKIP_THIS
  SL_ZIGBEE_R18_STACK_BEHAVIOR            = 0x0200,
#endif

  // Bit 10 is reserved for future use (stored in TOKEN).
  // Bit 11 is reserved for future use(stored in RAM).

#ifndef DOXYGEN_SHOULD_SKIP_THIS
  // Bit 12 - This denotes whether an end device should discard or accept ZDO Leave
  // from a network node other than its parent.
  SL_ZIGBEE_ZDO_LEAVE_FROM_NON_PARENT_NOT_ALLOWED = 0x1000,
#endif

  // Bits 13-15 are unused.
};

#define SL_ZIGBEE_TC_SUPPORTS_FC_SYNC   0x00800000UL

#define SL_ZIGBEE_NO_TRUST_CENTER_MODE   SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE

#define SL_ZIGBEE_GLOBAL_LINK_KEY   SL_ZIGBEE_TRUST_CENTER_GLOBAL_LINK_KEY

#if !defined DOXYGEN_SHOULD_SKIP_THIS
  #define NO_TRUST_CENTER_KEY_TOKEN        0x0000
  #define TRUST_CENTER_KEY_TOKEN_MASK      0x0030
  #define SECURITY_BIT_TOKEN_MASK          0x71FF
// If this bit is on, it indicates that the TC token does not hold the TC key
// It lives in PSA at a fixed ID (see ZB SM)
  #define TRUST_CENTER_KEY_LIVES_IN_PSA    0x8000

  #define SECURITY_LOWER_BIT_MASK          0x000000FF  // ""
  #define SECURITY_UPPER_BIT_MASK          0x00FF0000L // ""
#endif

typedef struct {
  uint16_t bitmask;
  sl_zigbee_key_data_t preconfiguredKey;
  sl_zigbee_key_data_t networkKey;
  uint8_t networkKeySequenceNumber;
  sl_802154_long_addr_t preconfiguredTrustCenterEui64;
} sl_zigbee_initial_security_state_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_current_security_bitmask_t
#else
typedef uint16_t sl_zigbee_current_security_bitmask_t;
enum
#endif
{
#if defined DOXYGEN_SHOULD_SKIP_THIS
  // These options are the same for Initial and Current Security state.

  SL_ZIGBEE_STANDARD_SECURITY_MODE_             = 0x0000,
  SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE_      = 0x0002,
  SL_ZIGBEE_TRUST_CENTER_GLOBAL_LINK_KEY_       = 0x0004,
#else
  // Bit 3 reserved
#endif
  SL_ZIGBEE_HAVE_TRUST_CENTER_LINK_KEY          = 0x0010,

  SL_ZIGBEE_TRUST_CENTER_USES_HASHED_LINK_KEY_   = 0x0084,

  // Bits 1, 5, 6, and 8-15 reserved.
};

#if !defined DOXYGEN_SHOULD_SKIP_THIS
  #define INITIAL_AND_CURRENT_BITMASK         0x00FF
#endif

typedef struct {
  sl_zigbee_current_security_bitmask_t bitmask;
  sl_802154_long_addr_t trustCenterLongAddress;
} sl_zigbee_current_security_state_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_key_struct_bitmask_t
#else
typedef uint16_t sl_zigbee_key_struct_bitmask_t;
enum
#endif
{
  SL_ZIGBEE_KEY_HAS_SEQUENCE_NUMBER        = 0x0001,
  SL_ZIGBEE_KEY_HAS_OUTGOING_FRAME_COUNTER = 0x0002,
  SL_ZIGBEE_KEY_HAS_INCOMING_FRAME_COUNTER = 0x0004,
  SL_ZIGBEE_KEY_HAS_PARTNER_EUI64          = 0x0008,
  SL_ZIGBEE_KEY_IS_AUTHORIZED              = 0x0010,
  SL_ZIGBEE_KEY_PARTNER_IS_SLEEPY          = 0x0020,
  SL_ZIGBEE_UNCONFIRMED_TRANSIENT_KEY      = 0x0040,
  SL_ZIGBEE_KEY_HAS_PSA_ID                 = 0x0080,
  SL_ZIGBEE_KEY_HAS_KEY_DATA               = 0x0100,
  SL_ZIGBEE_KEY_IS_AUTHENTICATION_TOKEN    = 0x0200,
  SL_ZIGBEE_DLK_DERIVED_KEY                = 0x0400,
  SL_ZIGBEE_KEY_FC_SYNC_SUPPORTED           = 0x0800,
};

typedef struct {
  sl_802154_long_addr_t eui64;
  uint32_t incomingFrameCounter;
  sl_zigbee_key_struct_bitmask_t bitmask;
  uint16_t remainingTimeSeconds;
  uint8_t networkIndex;
  union {
    sl_zigbee_key_data_t keyData; // valid only if bitmask & SL_ZIGBEE_KEY_HAS_KEY_DATA (on some parts, keys are stored in secure storage and not RAM)
    uint32_t psa_id;      // valid only if bitmask & SL_ZIGBEE_KEY_HAS_PSA_ID (on some parts, keys are stored in secure storage and not RAM)
  };
} sl_zigbee_transient_key_data_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_key_type_t
#else
typedef uint8_t sl_zigbee_key_type_t;
enum
#endif
{
  SL_ZIGBEE_TRUST_CENTER_LINK_KEY         = 1,
  SL_ZIGBEE_CURRENT_NETWORK_KEY           = 3,
  SL_ZIGBEE_NEXT_NETWORK_KEY              = 4,
  SL_ZIGBEE_APPLICATION_LINK_KEY          = 5,
};

typedef struct {
  sl_zigbee_key_struct_bitmask_t bitmask;
  sl_zigbee_key_type_t type;
  union {
    sl_zigbee_key_data_t key;
    uint32_t psa_id;
  };
  uint32_t outgoingFrameCounter;
  uint32_t incomingFrameCounter;
  uint8_t sequenceNumber;
  sl_802154_long_addr_t partnerEUI64;
} sl_zigbee_key_struct_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_key_status_t
#else
typedef uint8_t sl_zigbee_key_status_t;
enum
#endif
{
  SL_ZIGBEE_KEY_STATUS_NONE                    = 0x00,
  SL_ZIGBEE_APP_LINK_KEY_ESTABLISHED           = 0x01,
  SL_ZIGBEE_TRUST_CENTER_LINK_KEY_ESTABLISHED  = 0x03,

  SL_ZIGBEE_KEY_ESTABLISHMENT_TIMEOUT          = 0x04,
  SL_ZIGBEE_KEY_TABLE_FULL                     = 0x05,

  // These are success status values applying only to the
  // Trust Center answering key requests.
  SL_ZIGBEE_TC_RESPONDED_TO_KEY_REQUEST        = 0x06,
  SL_ZIGBEE_TC_APP_KEY_SENT_TO_REQUESTER       = 0x07,

  // These are failure status values applying only to the
  // Trust Center answering key requests.
  SL_ZIGBEE_TC_RESPONSE_TO_KEY_REQUEST_FAILED  = 0x08,
  SL_ZIGBEE_TC_REQUEST_KEY_TYPE_NOT_SUPPORTED  = 0x09,
  SL_ZIGBEE_TC_NO_LINK_KEY_FOR_REQUESTER       = 0x0A,
  SL_ZIGBEE_TC_REQUESTER_EUI64_UNKNOWN         = 0x0B,
  SL_ZIGBEE_TC_RECEIVED_FIRST_APP_KEY_REQUEST  = 0x0C,
  SL_ZIGBEE_TC_TIMEOUT_WAITING_FOR_SECOND_APP_KEY_REQUEST = 0x0D,
  SL_ZIGBEE_TC_NON_MATCHING_APP_KEY_REQUEST_RECEIVED      = 0x0E,
  SL_ZIGBEE_TC_FAILED_TO_SEND_APP_KEYS         = 0x0F,
  SL_ZIGBEE_TC_FAILED_TO_STORE_APP_KEY_REQUEST = 0x10,
  SL_ZIGBEE_TC_REJECTED_APP_KEY_REQUEST        = 0x11,
  SL_ZIGBEE_TC_FAILED_TO_GENERATE_NEW_KEY      = 0x12,
  SL_ZIGBEE_TC_FAILED_TO_SEND_TC_KEY           = 0x13,

  // These are generic status values for a key requester.
  SL_ZIGBEE_TRUST_CENTER_IS_PRE_R21            = 0x1E,

  // These are status values applying only to the Trust Center
  // verifying link keys.
  SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_TIMEOUT    = 0x32,
  SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_FAILURE    = 0x33,
  SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_SUCCESS    = 0x34,

  // These are status values applying only to the key requester
  // verifying link keys.
  SL_ZIGBEE_VERIFY_LINK_KEY_FAILURE            = 0x64,
  SL_ZIGBEE_VERIFY_LINK_KEY_SUCCESS            = 0x65,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_tc_link_key_request_policy_t
#else
typedef uint8_t sl_zigbee_tc_link_key_request_policy_t;
enum
#endif
{
  SL_ZIGBEE_DENY_TC_LINK_KEY_REQUESTS  = 0x00,
  SL_ZIGBEE_ALLOW_TC_LINK_KEY_REQUEST_AND_SEND_CURRENT_KEY = 0x01,
  // When using the following mode a unique random link key is created.
  // The key which is generated due to this mode is added to the link
  // key table. Therefore make sure that the link key table size is not
  // zero as this can result in the newly generated key not being saved
  // and communication breaking between the trust center and the nodes.
  SL_ZIGBEE_ALLOW_TC_LINK_KEY_REQUEST_AND_GENERATE_NEW_KEY = 0x02
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_app_link_key_request_policy_t
#else
typedef uint8_t sl_zigbee_app_link_key_request_policy_t;
enum
#endif
{
  SL_ZIGBEE_DENY_APP_LINK_KEY_REQUESTS  = 0x00,
  SL_ZIGBEE_ALLOW_APP_LINK_KEY_REQUEST = 0x01
};

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_key_contents(sl_zigbee_key_data_t *key);
#else
#define sl_zigbee_key_contents(key) ((key)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_certificate_contents(sl_zigbee_certificate_data_t *cert);
#else
#define sl_zigbee_certificate_contents(cert) ((cert)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_public_key_contents(sl_zigbee_public_key_data_t *key);
#else
#define sl_zigbee_public_key_contents(key) ((key)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_private_key_contents(sl_zigbee_private_key_data_t *key);
#else
#define sl_zigbee_private_key_contents(key) ((key)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_smac_contents(sl_zigbee_smac_data_t *key);
#else
#define sl_zigbee_smac_contents(key) ((key)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_signature_contents(sl_zigbee_signature_data_t *sig);
#else
#define sl_zigbee_signature_contents(sig) ((sig)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_certificate_283k1_contents(sl_zigbee_certificate_283k1_data_t *cert);
#else
#define sl_zigbee_certificate_283k1_contents(cert) ((cert)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_public_key_283k1_contents(sl_zigbee_public_key_283k1_data_t *key);
#else
#define sl_zigbee_public_key_283k1_contents(key) ((key)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* sl_zigbee_private_key_283k1_contents(sl_zigbee_private_key_283k1_data_t *key);
#else
#define sl_zigbee_private_key_283k1_contents(key) ((key)->contents)
#endif

#if defined DOXYGEN_SHOULD_SKIP_THIS
uint8_t* ember283k1SignatureContents(sl_zigbee_signature_283k1_data_t *sig);
#else
#define ember283k1SignatureContents(sig) ((sig)->contents)
#endif

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_key_settings_t
#else
typedef uint16_t sl_zigbee_key_settings_t;
enum
#endif
{
  SL_ZIGBEE_KEY_PERMISSIONS_NONE            = 0x0000,
  SL_ZIGBEE_KEY_PERMISSIONS_READING_ALLOWED = 0x0001,
  SL_ZIGBEE_KEY_PERMISSIONS_HASHING_ALLOWED = 0x0002,
};

typedef struct {
  sl_zigbee_key_settings_t keySettings;
} sl_zigbee_mfg_security_struct_t;

#define SL_LEGACY_SECURITY_CONFIG_MAGIC_NUMBER 0xCABAD11FUL

typedef struct {
  sl_zigbee_duty_cycle_hecto_pct_t limitThresh;
  sl_zigbee_duty_cycle_hecto_pct_t critThresh;
  sl_zigbee_duty_cycle_hecto_pct_t suspLimit;
} sl_zigbee_duty_cycle_limits_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_duty_cycle_state_t
#else
typedef uint8_t sl_zigbee_duty_cycle_state_t;
enum
#endif
{
  SL_ZIGBEE_DUTY_CYCLE_TRACKING_OFF                    = 0,
  SL_ZIGBEE_DUTY_CYCLE_LBT_NORMAL                      = 1,
  SL_ZIGBEE_DUTY_CYCLE_LBT_LIMITED_THRESHOLD_REACHED   = 2,
  SL_ZIGBEE_DUTY_CYCLE_LBT_CRITICAL_THRESHOLD_REACHED  = 3,
  SL_ZIGBEE_DUTY_CYCLE_LBT_SUSPEND_LIMIT_REACHED       = 4,
};

typedef struct {
  sl_802154_short_addr_t nodeId;
  sl_zigbee_duty_cycle_hecto_pct_t dutyCycleConsumed;
} sl_zigbee_per_device_duty_cycle_t;

typedef struct {
  sl_802154_short_addr_t nwk_short_address;
  uint8_t bitmask;
  uint8_t mac_interface_id;
  uint8_t nwk_index;
  uint8_t *network_packet;
  uint8_t network_packet_length;
} sl_nwk_packet_exchange_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_mac_passthrough_type_t
#else
typedef uint8_t sl_zigbee_mac_passthrough_type_t;
enum
#endif
{
  SL_802154_PASSTHROUGH_NONE             = 0x00,
  SL_802154_PASSTHROUGH_SE_INTERPAN      = 0x01,
  SL_802154_PASSTHROUGH_EMBERNET         = 0x02,
  SL_802154_PASSTHROUGH_EMBERNET_SOURCE  = 0x04,
  SL_802154_PASSTHROUGH_APPLICATION      = 0x08,
  SL_802154_PASSTHROUGH_CUSTOM           = 0x10,

#if !defined DOXYGEN_SHOULD_SKIP_THIS
  EM_MAC_PASSTHROUGH_INTERNAL_ZLL        = 0x80,
  EM_MAC_PASSTHROUGH_INTERNAL_GP         = 0x40
#endif
};

typedef struct {
  uint8_t filterIndexMatch;
  sl_zigbee_mac_passthrough_type_t legacyPassthroughType;
  sli_buffer_manager_buffer_t message;
} sl_zigbee_mac_filter_match_struct_t;


#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_zdo_status_t
#else
typedef uint8_t sl_zigbee_zdo_status_t;
enum
#endif
{
  // These values are taken from Table 48 of ZDP Errata 043238r003 and Table 2
  // of NWK 02130r10.
  SL_ZIGBEE_ZDP_SUCCESS                    = 0x00,
  // 0x01 to 0x7F are reserved
  SL_ZIGBEE_ZDP_INVALID_REQUEST_TYPE       = 0x80,
  SL_ZIGBEE_ZDP_DEVICE_NOT_FOUND           = 0x81,
  SL_ZIGBEE_ZDP_INVALID_ENDPOINT           = 0x82,
  SL_ZIGBEE_ZDP_NOT_ACTIVE                 = 0x83,
  SL_ZIGBEE_ZDP_NOT_SUPPORTED              = 0x84,
  SL_ZIGBEE_ZDP_TIMEOUT                    = 0x85,
  SL_ZIGBEE_ZDP_NO_MATCH                   = 0x86,
  // 0x87 is reserved                  = 0x87,
  SL_ZIGBEE_ZDP_NO_ENTRY                   = 0x88,
  SL_ZIGBEE_ZDP_NO_DESCRIPTOR              = 0x89,
  SL_ZIGBEE_ZDP_INSUFFICIENT_SPACE         = 0x8a,
  SL_ZIGBEE_ZDP_NOT_PERMITTED              = 0x8b,
  SL_ZIGBEE_ZDP_TABLE_FULL                 = 0x8c,
  SL_ZIGBEE_ZDP_NOT_AUTHORIZED             = 0x8d,
  SL_ZIGBEE_ZDP_DEVICE_BINDING_TABLE_FULL  = 0x8e,
  SL_ZIGBEE_ZDP_INVALID_INDEX              = 0x8f,
  SL_ZIGBEE_ZDP_FRAME_TOO_LARGE            = 0x90,
  SL_ZIGBEE_ZDP_BAD_KEY_NEGOTIATION_METHOD = 0x91,
  SL_ZIGBEE_ZDP_TEMPORARY_FAILURE          = 0x92,

  SL_ZIGBEE_APS_SECURITY_FAIL              = 0xad,

  SL_ZIGBEE_NWK_ALREADY_PRESENT            = 0xc5,
  SL_ZIGBEE_NWK_TABLE_FULL                 = 0xc7,
  SL_ZIGBEE_NWK_UNKNOWN_DEVICE             = 0xc8,

  SL_ZIGBEE_NWK_MISSING_TLV                = 0xd6,
  SL_ZIGBEE_NWK_INVALID_TLV                = 0xd7,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_zdo_server_mask_t
#else
typedef uint16_t sl_zigbee_zdo_server_mask_t;
enum
#endif
{
  SL_ZIGBEE_ZDP_PRIMARY_TRUST_CENTER          = 0x0001,
  SL_ZIGBEE_ZDP_SECONDARY_TRUST_CENTER        = 0x0002,
  SL_ZIGBEE_ZDP_PRIMARY_BINDING_TABLE_CACHE   = 0x0004,
  SL_ZIGBEE_ZDP_SECONDARY_BINDING_TABLE_CACHE = 0x0008,
  SL_ZIGBEE_ZDP_PRIMARY_DISCOVERY_CACHE       = 0x0010, 
  SL_ZIGBEE_ZDP_SECONDARY_DISCOVERY_CACHE     = 0x0020, 
  SL_ZIGBEE_ZDP_NETWORK_MANAGER               = 0x0040,
  // Bits 0x0080 to 0x8000 are reserved.
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_zdo_configuration_flags_t
#else
typedef uint8_t sl_zigbee_zdo_configuration_flags_t;
enum
#endif

{
  SL_ZIGBEE_APP_RECEIVES_SUPPORTED_ZDO_REQUESTS  = 0x01,
  SL_ZIGBEE_APP_HANDLES_UNSUPPORTED_ZDO_REQUESTS = 0x02,
  SL_ZIGBEE_APP_HANDLES_ZDO_ENDPOINT_REQUESTS    = 0x04,
  SL_ZIGBEE_APP_HANDLES_ZDO_BINDING_REQUESTS     = 0x08
};


typedef struct {
  sl_802154_short_addr_t destination;        // SL_ZIGBEE_NULL_NODE_ID if entry is marked for removal
  uint8_t closerIndex;            // The entry one hop closer to the gateway.
  uint8_t olderIndex;             // The entry touched before this one.
} sl_zigbee_source_route_table_entry_t;

#if defined(SL_ZIGBEE_SCRIPTED_TEST)
#define WEAK_TEST WEAK()//__attribute__((weak))
#else
#define WEAK_TEST
#endif

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_multi_phy_nwk_config_t
#else
typedef uint8_t sl_zigbee_multi_phy_nwk_config_t;
enum
#endif
{
  SL_ZIGBEE_MULTI_PHY_ROUTERS_ALLOWED = 0x01,
  SL_ZIGBEE_MULTI_PHY_BROADCASTS_ENABLED = 0x02,
  SL_ZIGBEE_MULTI_PHY_DISABLED = 0x80
};

#define SL_ZIGBEE_MAX_MAC_ONLY_COUNTERS 33u

#define SL_ZIGBEE_MAX_NUM_PHYS 2u

#define PHY_INDEX_NATIVE        0u

#define PHY_INDEX_PRO2PLUS      1u

typedef uint8_t sl_zigbee_radio_power_mode_t;

typedef struct {
  int8_t minRssiForReceivingPkts;
  uint16_t beaconClassificationMask;
} sl_zigbee_beacon_classification_params_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_beacon_classification_flags_t
#else
typedef uint16_t sl_zigbee_beacon_classification_flags_t;
enum
#endif
{
  PRIORITIZE_BEACONS_BASED_ON_PARENT_CLASSIFICATION  = 0x0001,  // this means we also advertise the TC connectivity and long/short uptime
  PRIORITIZE_BEACONS_BASED_ON_TC_CONNECTVITY  = 0x0002,   //this means we also advertise TC connectivity
  // The following two bits are only ADVERTISED in a beacon if Parent Classification
  // is enabled (bit 0), or tcBasedCassification (bit 1) is enabled
  TC_CONNECTIVITY       = 0x0010,
  LONG_UPTIME            = 0x0020,
  BAD_PARENT_CONNECTIVITY = 0x0040, // it indicates if the paren connection is bad.
  // Meaning rolling avg of RSSI over the last window of packets (16 for now) have been
  // lower than minRssiForReceivingPkts.
  // The rolling average is (re)initiated after the last successful (re)join.
  PREFERRED_PARENT        = 0x60  // This is information we provide for routers.
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_entropy_source_t
#else
typedef uint8_t sl_zigbee_entropy_source_t;
enum
#endif
{
  SL_ZIGBEE_ENTROPY_SOURCE_ERROR        = 0x00, // Error in identifying the entropy source.
  SL_ZIGBEE_ENTROPY_SOURCE_RADIO        = 0x01, // The default radio entropy source.
  SL_ZIGBEE_ENTROPY_SOURCE_MBEDTLS_TRNG = 0x02, // TRNG with mbed TLS support.
  SL_ZIGBEE_ENTROPY_SOURCE_MBEDTLS      = 0x03, // Other mbed TLS entropy source.
};

enum {
  SL_ZIGBEE_POLL_TIMEOUT_10_SECONDS    =  0,
  SL_ZIGBEE_POLL_TIMEOUT_2_MINUTES     =  1,
  SL_ZIGBEE_POLL_TIMEOUT_4_MINUTES     =  2,
  SL_ZIGBEE_POLL_TIMEOUT_8_MINUTES     =  3,
  SL_ZIGBEE_POLL_TIMEOUT_16_MINUTES    =  4,
  SL_ZIGBEE_POLL_TIMEOUT_32_MINUTES    =  5,
  SL_ZIGBEE_POLL_TIMEOUT_64_MINUTES    =  6,
  SL_ZIGBEE_POLL_TIMEOUT_128_MINUTES   =  7,
  SL_ZIGBEE_POLL_TIMEOUT_256_MINUTES   =  8,
  SL_ZIGBEE_POLL_TIMEOUT_512_MINUTES   =  9,
  SL_ZIGBEE_POLL_TIMEOUT_1024_MINUTES  = 10,
  SL_ZIGBEE_POLL_TIMEOUT_2048_MINUTES  = 11,
  SL_ZIGBEE_POLL_TIMEOUT_4096_MINUTES  = 12,
  SL_ZIGBEE_POLL_TIMEOUT_8192_MINUTES  = 13,
  SL_ZIGBEE_POLL_TIMEOUT_16384_MINUTES = 14,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_tc_aps_encrypt_mode_t
#else
typedef uint8_t sl_zigbee_tc_aps_encrypt_mode_t;
enum
#endif
{
  TC_APS_ENCRYPT_DEFAULT = 0x00,
  TC_APS_ENCRYPT_ENABLE = 0x01,
  TC_APS_ENCRYPT_DISABLE = 0x02,
};

typedef struct {
  uint32_t nvm3Key;
  bool isCnt;
  bool isIdx;
  uint8_t size;
  uint8_t arraySize;
} sl_zigbee_token_info_t;

typedef struct {
  uint32_t size;
  void *data;
} sl_zigbee_token_data_t;

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_keep_alive_mode_t
#else
typedef uint8_t sl_zigbee_keep_alive_mode_t;
enum
#endif
{
  SL_ZIGBEE_KEEP_ALIVE_SUPPORT_UNKNOWN     = 0x00,
  SL_802154_DATA_POLL_KEEP_ALIVE       = 0x01,
  SL_ZIGBEE_END_DEVICE_TIMEOUT_KEEP_ALIVE  = 0x02,
  SL_ZIGBEE_KEEP_ALIVE_SUPPORT_ALL         = 0x03,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_source_route_discovery_mode_t
#else
typedef uint8_t sl_zigbee_source_route_discovery_mode_t;
enum
#endif
{
  SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_OFF = 0x00,
  SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_ON = 0x01,
  SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_RESCHEDULE = 0x02,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_transmit_priority_t
#else
typedef uint8_t sl_zigbee_transmit_priority_t;
enum
#endif
{
  SL_802154_TRANSMIT_PRIORITY_HIGH,
  SL_802154_TRANSMIT_PRIORITY_NORMAL,
  SL_802154_TRANSMIT_PRIORITY_SCAN_OKAY
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_zigbee_route_record_policy_type_t
#else
typedef uint8_t sl_zigbee_route_record_policy_type_t;
enum
#endif
{
  ROUTE_RECORD_POLICY_ACK_BY_SOURCE_ROUTED_MESSAGE           = 0,
  ROUTE_RECORD_POLICY_DONT_SEND               = 1,
  ROUTE_RECORD_POLICY_NO_ACK_REQUIRED = 2,
};

#ifdef DOXYGEN_SHOULD_SKIP_THIS
enum sl_passive_ack_config_enum_t
#else
typedef uint8_t sl_passive_ack_config_enum_t;
enum
#endif
{
  SL_PASSIVE_ACK_DEFAULT_CONFIG = 0,
  SL_PASSIVE_ACK_DISABLE,
  SL_PASSIVE_ACK_THRESHOLD_WITH_REBROADCAST,
  SL_PASSIVE_ACK_THRESHOLD_NO_REBROADCAST,
  SL_PASSIVE_ACK_THRESHOLD_WITH_REBROADCAST_ALL_NODES
};

typedef struct aps_duplicate_msg_entry {
  uint32_t crc_digest;
} sl_zigbee_aps_duplicate_msg_entry_t;

// an entry in the neighbor table.  nodes directly measure the incoming
// link quality, but rely on the neighbors to tell them their outgoing link
// quality.
//
// we use an uint16_t rather than an uint8_t for the incoming link quality
// value in order to have the needed precision to perform rolling averages.
//
// the age field is incremented every neighbor exchange period, and set
// to zero upon reception of a neighbor exchange message which lists us.
// thus it indicates the time since last obtaining a valid outgoing cost.
//
// the overlap count is used in the neighbor selection algorithm
// to favor neighborhoods that have low overlap with ours.
//
// the active network key bit is used to indicate whether our neighbors
// are using the active network key (my key) or the alternate
// one.  this is important for knowing when to reset their frame counter.
// for children's frame counters, see 'child.h'.

// the neighbor association bit indicates whether the device was added to the
// neighbor table because it associated to the local node (vs link status
// message).  it is used to help pick which neighbor to remove from the
// neighbor table.

typedef struct {
  sl_802154_short_addr_t id;
  uint16_t incoming;
  uint8_t exchange;      // 0xf0 age in neighbor exchange periods
                         // 0x07 outgoing cost (bottom 3 bits)
                         // bit 0x08 is unused
  uint8_t connectivity;  // overlap in bits 0,1
                         // bits 2 and 3 are used to store information about
                         // the previous incoming cost which can be 1,3,5,7
                         // neighbor using my active network key in bit 4
                         // bit 5 is reserved
                         // neighbor association in bit 6
                         // neighbor security capability in bit 7 (1 = high,
                         //   0 = standard)
  sl_802154_long_addr_t eui64;
  uint8_t mac_interface_table_index;
  uint8_t lqi_for_median[3];
} sl_zigbee_neighbor_table_entry_info_t;

typedef struct {
  uint16_t source;
  uint8_t  sequence;
  uint8_t  numAcks;
  uint32_t neighborBitmask;
} sl_zigbee_broadcast_table_entry_t;

typedef struct {
  // Child Table Info
  sl_mac_child_entry_t *childTable;
  uint16_t *childStatus;
  uint32_t *childTimers;
  uint16_t *childLqi;

  // Routing Table Info
  uint8_t *routeRecordTable;

  // Child Table End Device Info
  uint8_t *endDeviceTimeout;
  uint8_t endDeviceChildCount;

  // Used for sending link status more quickly at startup
  // and only used by routers.
  uint8_t fastLinkStatusCount;

  // Broadcast Table Info
  uint8_t broadcastHead;
  uint8_t inInitialBroadcastTimeout;
  uint32_t broadcastAgeCutoffIndexes;
  sl_zigbee_broadcast_table_entry_t *broadcastTable;

  // Association info
  bool permitJoining;
  bool macPermitAssociation;
  bool allowRejoinsWithWellKnownKey;

  // Parent announcement
  uint8_t parentAnnounceIndex;
  uint8_t totalInitialChildren;

  // PanId conflict info
  sl_802154_pan_id_t newPanId;
} sl_zigbee_pan_info_t;

typedef struct {
  uint8_t stackProfile;
  uint8_t nodeType;
  uint8_t zigbeeState;
  uint8_t dynamicCapabilities;

  uint8_t zigbeeNetworkSecurityLevel;
  uint32_t securityStateBitmask;
  uint8_t zigbeeSequenceNumber;
  uint8_t apsSequenceNumber;

  // Network security stuff
  uint8_t securityKeySequenceNumber;
  uint32_t nextNwkFrameCounter;

  // APS security stuff
  uint32_t incomingTcLinkKeyFrameCounter;

  // Neighbor table
  sl_zigbee_neighbor_table_entry_info_t *neighborTable;
  uint8_t neighborTableSize;
  uint8_t neighborCount;

  // Incoming frame counters table
  uint32_t* frameCounters;

  // The number of ticks since our last successful poll.  Ticks are
  // in seconds.
  uint32_t ticksSinceLastPoll; // for timing out our parent
  uint32_t msSinceLastPoll;   // for APS retry timeout adjustment

  // Transmission statistics that are reported in NWK_UPDATE_RESPONSE ZDO
  // messages.
  uint16_t unicastTxAttempts;
  uint16_t unicastTxFailures;
  uint16_t parentNwkInformation;

  // Child aging stuff
  //----------------------------------------------------------------
  // The last time we updated the child timers for each unit.
  // The milliseconds needs to be larger because we use it on children, who
  // may go a long time between calls to sl_zigbee_tick().
  uint16_t lastChildAgeTimeSeconds;
  uint32_t lastChildAgeTimeMs;

  // PAN info contains collection of elements needed to accommodate
  // single network, multi network and multi PAN use cases.
  sl_zigbee_pan_info_t *panInfoData;
} sl_zigbee_network_info_t;

// Note:
// For single network case:
//  - sl_zigbee_network_info_t and sli_zigbee_pan_info: Single instance present.
// For multi network case:
//  - sl_zigbee_network_info_t: Instance present for each network.
//  - sli_zigbee_pan_info: Single Instance present.
// For multi PAN case"
//  - sl_zigbee_network_info_t and sli_zigbee_pan_info: Instance present for each network.

#define MANUFACTURING_STRING_SIZE            16
typedef uint8_t sl_zigbee_manufacturing_string_t[MANUFACTURING_STRING_SIZE];

typedef struct {
  uint16_t profileId;
  uint16_t deviceId;
  uint8_t deviceVersion;
  uint8_t inputClusterCount;
  uint8_t outputClusterCount;
} sl_zigbee_endpoint_description_t;

typedef struct {
  uint16_t max_incoming_transfer_size;
  uint16_t max_outgoing_transfer_size;
  uint8_t capability;
} sl_zigbee_node_descriptor_info_t;

typedef struct {
  sl_802154_short_addr_t sender_short_id;
  sl_802154_long_addr_t sender_long_id;
  uint8_t binding_index;
  uint8_t address_index;
  uint8_t last_hop_lqi;
  int8_t last_hop_rssi;
  /* Timestamp of the moment when Start Frame Delimiter (SFD) was received */
  uint32_t last_hop_timestamp;
} sl_zigbee_rx_packet_info_t;

// Note:
// For single network case:
//  - sl_zigbee_network_info_t and sli_zigbee_pan_info: Single instance present.
// For multi network case:
//  - sl_zigbee_network_info_t: Instance present for each network.
//  - sli_zigbee_pan_info: Single Instance present.
// For multi PAN case"
//  - sl_zigbee_network_info_t and sli_zigbee_pan_info: Instance present for each network.

#endif // SLABS_EMBER_TYPES_H

#include "stack/include/zll-types.h"
#include "stack/include/gp-types.h"
#include "stack/include/zigbee-security-manager-types.h"

Modules#

sl_zigbee_release_type_struct_t

sl_zigbee_version_t

sl_zigbee_zigbee_network_t

sl_zigbee_network_init_struct_t

sl_zigbee_beacon_survey_t

sl_zigbee_beacon_data_t

sl_zigbee_network_parameters_t

sl_zigbee_multi_phy_radio_parameters_t

sl_zigbee_aps_frame_t

sl_zigbee_child_data_t

sl_zigbee_binding_table_entry_t

sl_zigbee_neighbor_table_entry_t

sl_zigbee_route_table_entry_t

sl_zigbee_multicast_table_entry_t

sl_zigbee_multiprotocol_priorities_t

sl_zigbee_counter_info_t

sl_zigbee_extra_counters_info_t

sl_zigbee_event_control_t

sl_zigbee_event_data_t

sl_zigbee_task_control_t

sl_zigbee_key_data_t

sl_zigbee_certificate_data_t

sl_zigbee_public_key_data_t

sl_zigbee_private_key_data_t

sl_zigbee_smac_data_t

sl_zigbee_signature_data_t

sl_zigbee_message_digest_t

sl_zigbee_aes_mmo_hash_context_t

sl_zigbee_certificate_283k1_data_t

sl_zigbee_public_key_283k1_data_t

sl_zigbee_private_key_283k1_data_t

sl_zigbee_signature_283k1_data_t

sl_zigbee_initial_security_state_t

sl_zigbee_current_security_state_t

sl_zigbee_transient_key_data_t

sl_zigbee_key_struct_t

sl_zigbee_mfg_security_struct_t

sl_zigbee_duty_cycle_limits_t

sl_zigbee_per_device_duty_cycle_t

sl_nwk_packet_exchange_t

sl_zigbee_mac_filter_match_struct_t

sl_zigbee_source_route_table_entry_t

sl_zigbee_beacon_classification_params_t

sl_zigbee_token_info_t

sl_zigbee_token_data_t

aps_duplicate_msg_entry

sl_zigbee_neighbor_table_entry_info_t

sl_zigbee_broadcast_table_entry_t

sl_zigbee_pan_info_t

sl_zigbee_network_info_t

sl_zigbee_endpoint_description_t

sl_zigbee_node_descriptor_info_t

sl_zigbee_rx_packet_info_t

Miscellaneous Ember Types#

#define

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

#define

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

#define

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

#define

Size of an encryption key in bytes (16).

#define

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

#define

Size of Public Keys used in Elliptical Cryptography ECMQV algorithms.

#define

Size of Private Keys used in Elliptical Cryptography ECMQV algorithms.

#define

Size of the SMAC used in Elliptical Cryptography ECMQV algorithms.

#define

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

#define

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

#define

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

#define

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

#define

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

#define

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

#define
NULL_BUFFER 0x0000u

EUI 64-bit ID (an IEEE address).

#define

The maximum 802.15.4 channel number is 26.

#define

The minimum 2.4GHz 802.15.4 channel number is 11.

#define

The minimum SubGhz channel number is 0.

#define

The SubGhz scan duration is 5.

#define
SL_ZIGBEE_NUM_802_15_4_CHANNELS (SL_ZIGBEE_MAX_802_15_4_CHANNEL_NUMBER - SL_ZIGBEE_MIN_802_15_4_CHANNEL_NUMBER + 1)

There are sixteen 802.15.4 channels.

#define

A bitmask to scan all 2.4 GHz 802.15.4 channels.

#define

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

#define

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

#define

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

#define

SubGhz channel bitmasks for page 29.

#define

The maximum SubGhz channel number on page 29 is 8.

#define

The minimum SubGhz page number is 28.

#define

The maximum SubGhz page number is 31.

#define

A bitmask for the channel page within a channel mask.

#define

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

#define

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

#define

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

#define

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

#define

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

#define
SL_ZIGBEE_NULL_EUI64 { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }

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

#define

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

#define

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

#define

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

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

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

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

#define

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

#define

The broadcast endpoint, as defined in the ZigBee spec.

#define

The GP endpoint, as defined in the ZigBee spec.

#define

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

#define

The profile ID used to address all the public profiles.

#define

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

#define

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

#define

Ember's Manufacturer ID.

#define

An invalid network index.

#define

Use Ember's default duty cycle limit configurations.

enum
SL_ZIGBEE_VERSION_TYPE_PRE_RELEASE = 0x00
SL_ZIGBEE_VERSION_TYPE_ALPHA_1 = 0x11
SL_ZIGBEE_VERSION_TYPE_ALPHA_2 = 0x12
SL_ZIGBEE_VERSION_TYPE_ALPHA_3 = 0x13
SL_ZIGBEE_VERSION_TYPE_BETA_1 = 0x21
SL_ZIGBEE_VERSION_TYPE_BETA_2 = 0x22
SL_ZIGBEE_VERSION_TYPE_BETA_3 = 0x23
SL_ZIGBEE_VERSION_TYPE_GA = 0xAA
}

Type of Ember software version.

enum
SL_ZIGBEE_LEAVE_NWK_WITH_NO_OPTION = 0x00
SL_ZIGBEE_LEAVE_NWK_WITH_OPTION_REJOIN = 0x20
SL_ZIGBEE_LEAVE_NWK_IS_REQUESTED = 0x40
}

Use in case zigbee leave network with options.

enum
SL_ZIGBEE_STACK_PROFILE_NONE = 0x00
SL_ZIGBEE_STACK_PROFILE_ZIGBEE_PRO = 0x02
}

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

enum
SL_ZIGBEE_SECURITY_LEVEL_NONE = 0x00
SL_ZIGBEE_SECURITY_LEVEL_Z3 = 0x05
}

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

enum
SL_ZIGBEE_ZIGBEE_LEAVE_AND_REJOIN = 0x80
SL_ZIGBEE_ZIGBEE_LEAVE_WITHOUT_REJOIN = 0x00
}

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

enum
SL_ZIGBEE_LEAVE_REASON_NONE = 0
SL_ZIGBEE_LEAVE_DUE_TO_NWK_LEAVE_MESSAGE = 1
SL_ZIGBEE_LEAVE_DUE_TO_APS_REMOVE_MESSAGE = 2
SL_ZIGBEE_LEAVE_DUE_TO_ZDO_LEAVE_MESSAGE = 3
SL_ZIGBEE_LEAVE_DUE_TO_ZLL_TOUCHLINK = 4
SL_ZIGBEE_LEAVE_DUE_TO_APP_EVENT_1 = 0xFF
}

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

typedef uint16_t

16-bit ZigBee network address.

typedef uint16_t

A structure containing the version information.

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.

Ember Concentrator Types#

enum
SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_NOT_A_CONCENTRATOR = 0
SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_LOW_RAM_CONCENTRATOR = 1
SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_HIGH_RAM_CONCENTRATOR = 2
}

To configure non trust center node to assume a concentrator type of the trust center it join to, until it receive many-to-one route request from the trust center. For the trust center node, concentrator type is configured from the concentrator plugin. The stack by default assumes trust center be a low RAM concentrator that make other devices send route record to the trust center even without receiving a many-to-one route request. The assumed concentrator type can be changed by setting appropriate value in sl_zigbee_set_assumed_trust_center_concentrator_type().

enum
SL_ZIGBEE_USE_PRECONFIGURED_KEY = 0
SL_ZIGBEE_SEND_KEY_IN_THE_CLEAR
SL_ZIGBEE_DENY_JOIN
SL_ZIGBEE_NO_ACTION
SL_ZIGBEE_ALLOW_REJOINS_ONLY
}

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

enum
SL_ZIGBEE_STANDARD_SECURITY_SECURED_REJOIN = 0
SL_ZIGBEE_STANDARD_SECURITY_UNSECURED_JOIN = 1
SL_ZIGBEE_DEVICE_LEFT = 2
SL_ZIGBEE_STANDARD_SECURITY_UNSECURED_REJOIN = 3
}

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
SL_ZIGBEE_REJOIN_REASON_NONE = 0
SL_ZIGBEE_REJOIN_DUE_TO_NWK_KEY_UPDATE = 1
SL_ZIGBEE_REJOIN_DUE_TO_LEAVE_MESSAGE = 2
SL_ZIGBEE_REJOIN_DUE_TO_NO_PARENT = 3
SL_ZIGBEE_REJOIN_DUE_TO_ZLL_TOUCHLINK = 4
SL_ZIGBEE_REJOIN_DUE_TO_END_DEVICE_REBOOT = 5
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_5 = 0xFB
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_4 = 0xFC
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_3 = 0xFD
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_2 = 0xFE
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_1 = 0xFF
}

Notes the last rejoin reason.

enum
SL_ZIGBEE_INPUT_CLUSTER_LIST = 0
SL_ZIGBEE_OUTPUT_CLUSTER_LIST = 1
}

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

enum
SL_ZIGBEE_EVENT_INACTIVE = 0
SL_ZIGBEE_EVENT_MS_TIME
SL_ZIGBEE_EVENT_QS_TIME
SL_ZIGBEE_EVENT_MINUTE_TIME
SL_ZIGBEE_EVENT_ZERO_DELAY
}

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

enum
SL_ZIGBEE_USE_MAC_ASSOCIATION = 0
SL_ZIGBEE_USE_NWK_REJOIN = 1
SL_ZIGBEE_USE_NWK_REJOIN_HAVE_NWK_KEY = 2
SL_ZIGBEE_USE_CONFIGURED_NWK_STATE = 3
SL_ZIGBEE_USE_NWK_COMMISSIONING_JOIN = 4
SL_ZIGBEE_USE_NWK_COMMISSIONING_REJOIN = 5
SL_ZIGBEE_USE_NWK_COMMISSIONING_REJOIN_HAVE_NWK_KEY = 6
}

The type of method used for joining.

enum
SL_ZIGBEE_COUNTER_MAC_RX_BROADCAST = 0
SL_ZIGBEE_COUNTER_MAC_TX_BROADCAST = 1
SL_ZIGBEE_COUNTER_MAC_RX_UNICAST = 2
SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_SUCCESS = 3
SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_RETRY = 4
SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_FAILED = 5
SL_ZIGBEE_COUNTER_APS_DATA_RX_BROADCAST = 6
SL_ZIGBEE_COUNTER_APS_DATA_TX_BROADCAST = 7
SL_ZIGBEE_COUNTER_APS_DATA_RX_UNICAST = 8
SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_SUCCESS = 9
SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_RETRY = 10
SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_FAILED = 11
SL_ZIGBEE_COUNTER_ROUTE_DISCOVERY_INITIATED = 12
SL_ZIGBEE_COUNTER_NEIGHBOR_ADDED = 13
SL_ZIGBEE_COUNTER_NEIGHBOR_REMOVED = 14
SL_ZIGBEE_COUNTER_NEIGHBOR_STALE = 15
SL_ZIGBEE_COUNTER_JOIN_INDICATION = 16
SL_ZIGBEE_COUNTER_CHILD_REMOVED = 17
SL_ZIGBEE_COUNTER_ASH_OVERFLOW_ERROR = 18
SL_ZIGBEE_COUNTER_ASH_FRAMING_ERROR = 19
SL_ZIGBEE_COUNTER_ASH_OVERRUN_ERROR = 20
SL_ZIGBEE_COUNTER_NWK_FRAME_COUNTER_FAILURE = 21
SL_ZIGBEE_COUNTER_APS_FRAME_COUNTER_FAILURE = 22
SL_ZIGBEE_COUNTER_ASH_XOFF = 23
SL_ZIGBEE_COUNTER_APS_LINK_KEY_NOT_AUTHORIZED = 24
SL_ZIGBEE_COUNTER_NWK_DECRYPTION_FAILURE = 25
SL_ZIGBEE_COUNTER_APS_DECRYPTION_FAILURE = 26
SL_ZIGBEE_COUNTER_ALLOCATE_PACKET_BUFFER_FAILURE = 27
SL_ZIGBEE_COUNTER_RELAYED_UNICAST = 28
SL_ZIGBEE_COUNTER_PHY_TO_MAC_QUEUE_LIMIT_REACHED = 29
SL_ZIGBEE_COUNTER_PACKET_VALIDATE_LIBRARY_DROPPED_COUNT = 30
SL_ZIGBEE_COUNTER_TYPE_NWK_RETRY_OVERFLOW = 31
SL_ZIGBEE_COUNTER_PHY_CCA_FAIL_COUNT = 32
SL_ZIGBEE_COUNTER_BROADCAST_TABLE_FULL = 33
SL_ZIGBEE_COUNTER_PTA_LO_PRI_REQUESTED = 34
SL_ZIGBEE_COUNTER_PTA_HI_PRI_REQUESTED = 35
SL_ZIGBEE_COUNTER_PTA_LO_PRI_DENIED = 36
SL_ZIGBEE_COUNTER_PTA_HI_PRI_DENIED = 37
SL_ZIGBEE_COUNTER_PTA_LO_PRI_TX_ABORTED = 38
SL_ZIGBEE_COUNTER_PTA_HI_PRI_TX_ABORTED = 39
SL_ZIGBEE_COUNTER_ADDRESS_CONFLICT_SENT = 40
SL_ZIGBEE_COUNTER_TYPE_COUNT = 41
}

Defines the events reported to the application by the ::sl_zigbee_counters_handler(). Usage of the destinationNodeId or data fields found in the sl_zigbee_counter_info_t or sl_zigbee_extra_counters_info_t structs is denoted for counter types that use them. (See comments accompanying enum definitions in this source file for details.)

typedef uint8_t

txPowerModes for sl_802154_set_tx_power_mode and mfglibSetPower#

#define

The application should call sl_802154_set_tx_power_mode() 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

The application should call sl_802154_set_tx_power_mode() with the txPowerMode parameter set to this value to enable boost power mode.

#define

The application should call sl_802154_set_tx_power_mode() with the txPowerMode parameter set to this value to enable the alternate transmitter output.

#define

The application should call sl_802154_set_tx_power_mode() with the txPowerMode parameter set to this value to enable both boost mode and the alternate transmitter output.

Counters Request Definitions#

#define

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

#define

Ember's first private profile ID.

#define

Ember's last private profile ID.

#define

This is an sl_zigbee_initial_security_bitmask_t 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

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

#define

This denotes that the device can require a resync of the APS frame counter.

#define
SL_ZIGBEE_NO_TRUST_CENTER_MODE SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE

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

#define
SL_ZIGBEE_GLOBAL_LINK_KEY SL_ZIGBEE_TRUST_CENTER_GLOBAL_LINK_KEY

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

#define

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

enum
SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE = 0x0002
SL_ZIGBEE_TRUST_CENTER_GLOBAL_LINK_KEY = 0x0004
SL_ZIGBEE_PRECONFIGURED_NETWORK_KEY_MODE = 0x0008
SL_ZIGBEE_HAVE_TRUST_CENTER_EUI64 = 0x0040
SL_ZIGBEE_TRUST_CENTER_USES_HASHED_LINK_KEY = 0x0084
SL_ZIGBEE_HAVE_PRECONFIGURED_KEY = 0x0100
SL_ZIGBEE_HAVE_NETWORK_KEY = 0x0200
SL_ZIGBEE_GET_LINK_KEY_WHEN_JOINING = 0x0400
SL_ZIGBEE_REQUIRE_ENCRYPTED_KEY = 0x0800
SL_ZIGBEE_NO_FRAME_COUNTER_RESET = 0x1000
SL_ZIGBEE_GET_PRECONFIGURED_KEY_FROM_INSTALL_CODE = 0x2000
}

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

enum
SL_ZIGBEE_SECURE_NETWORK_KEY_ROTATION = 0x0002
SL_ZIGBEE_JOINER_GLOBAL_LINK_KEY = 0x0010
SL_ZIGBEE_EXT_NO_FRAME_COUNTER_RESET = 0x0020
SL_ZIGBEE_NWK_LEAVE_WITHOUT_REJOIN_NOT_ALLOWED = 0x0040
SL_ZIGBEE_NWK_LEAVE_REQUEST_NOT_ALLOWED = 0x0100
}

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

enum
SL_ZIGBEE_STANDARD_SECURITY_MODE_ = 0x0000
SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE_ = 0x0002
SL_ZIGBEE_TRUST_CENTER_GLOBAL_LINK_KEY_ = 0x0004
SL_ZIGBEE_HAVE_TRUST_CENTER_LINK_KEY = 0x0010
SL_ZIGBEE_TRUST_CENTER_USES_HASHED_LINK_KEY_ = 0x0084
}

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

enum
SL_ZIGBEE_KEY_HAS_SEQUENCE_NUMBER = 0x0001
SL_ZIGBEE_KEY_HAS_OUTGOING_FRAME_COUNTER = 0x0002
SL_ZIGBEE_KEY_HAS_INCOMING_FRAME_COUNTER = 0x0004
SL_ZIGBEE_KEY_HAS_PARTNER_EUI64 = 0x0008
SL_ZIGBEE_KEY_IS_AUTHORIZED = 0x0010
SL_ZIGBEE_KEY_PARTNER_IS_SLEEPY = 0x0020
SL_ZIGBEE_UNCONFIRMED_TRANSIENT_KEY = 0x0040
SL_ZIGBEE_KEY_HAS_PSA_ID = 0x0080
SL_ZIGBEE_KEY_HAS_KEY_DATA = 0x0100
SL_ZIGBEE_KEY_IS_AUTHENTICATION_TOKEN = 0x0200
SL_ZIGBEE_DLK_DERIVED_KEY = 0x0400
SL_ZIGBEE_KEY_FC_SYNC_SUPPORTED = 0x0800
}

This bitmask describes the presence of fields within the sl_zigbee_key_struct_t.

enum
SL_ZIGBEE_TRUST_CENTER_LINK_KEY = 1
SL_ZIGBEE_CURRENT_NETWORK_KEY = 3
SL_ZIGBEE_NEXT_NETWORK_KEY = 4
SL_ZIGBEE_APPLICATION_LINK_KEY = 5
}

This denotes the type of security key.

enum
SL_ZIGBEE_KEY_STATUS_NONE = 0x00
SL_ZIGBEE_APP_LINK_KEY_ESTABLISHED = 0x01
SL_ZIGBEE_TRUST_CENTER_LINK_KEY_ESTABLISHED = 0x03
SL_ZIGBEE_KEY_ESTABLISHMENT_TIMEOUT = 0x04
SL_ZIGBEE_KEY_TABLE_FULL = 0x05
SL_ZIGBEE_TC_RESPONDED_TO_KEY_REQUEST = 0x06
SL_ZIGBEE_TC_APP_KEY_SENT_TO_REQUESTER = 0x07
SL_ZIGBEE_TC_RESPONSE_TO_KEY_REQUEST_FAILED = 0x08
SL_ZIGBEE_TC_REQUEST_KEY_TYPE_NOT_SUPPORTED = 0x09
SL_ZIGBEE_TC_NO_LINK_KEY_FOR_REQUESTER = 0x0A
SL_ZIGBEE_TC_REQUESTER_EUI64_UNKNOWN = 0x0B
SL_ZIGBEE_TC_RECEIVED_FIRST_APP_KEY_REQUEST = 0x0C
SL_ZIGBEE_TC_TIMEOUT_WAITING_FOR_SECOND_APP_KEY_REQUEST = 0x0D
SL_ZIGBEE_TC_NON_MATCHING_APP_KEY_REQUEST_RECEIVED = 0x0E
SL_ZIGBEE_TC_FAILED_TO_SEND_APP_KEYS = 0x0F
SL_ZIGBEE_TC_FAILED_TO_STORE_APP_KEY_REQUEST = 0x10
SL_ZIGBEE_TC_REJECTED_APP_KEY_REQUEST = 0x11
SL_ZIGBEE_TC_FAILED_TO_GENERATE_NEW_KEY = 0x12
SL_ZIGBEE_TC_FAILED_TO_SEND_TC_KEY = 0x13
SL_ZIGBEE_TRUST_CENTER_IS_PRE_R21 = 0x1E
SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_TIMEOUT = 0x32
SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_FAILURE = 0x33
SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_SUCCESS = 0x34
SL_ZIGBEE_VERIFY_LINK_KEY_FAILURE = 0x64
SL_ZIGBEE_VERIFY_LINK_KEY_SUCCESS = 0x65
}

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

enum
SL_ZIGBEE_DENY_TC_LINK_KEY_REQUESTS = 0x00
SL_ZIGBEE_ALLOW_TC_LINK_KEY_REQUEST_AND_SEND_CURRENT_KEY = 0x01
SL_ZIGBEE_ALLOW_TC_LINK_KEY_REQUEST_AND_GENERATE_NEW_KEY = 0x02
}

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

enum
SL_ZIGBEE_DENY_APP_LINK_KEY_REQUESTS = 0x00
SL_ZIGBEE_ALLOW_APP_LINK_KEY_REQUEST = 0x01
}

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

enum
SL_ZIGBEE_KEY_PERMISSIONS_NONE = 0x0000
SL_ZIGBEE_KEY_PERMISSIONS_READING_ALLOWED = 0x0001
SL_ZIGBEE_KEY_PERMISSIONS_HASHING_ALLOWED = 0x0002
}

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

enum
SL_ZIGBEE_DUTY_CYCLE_TRACKING_OFF = 0
SL_ZIGBEE_DUTY_CYCLE_LBT_NORMAL = 1
SL_ZIGBEE_DUTY_CYCLE_LBT_LIMITED_THRESHOLD_REACHED = 2
SL_ZIGBEE_DUTY_CYCLE_LBT_CRITICAL_THRESHOLD_REACHED = 3
SL_ZIGBEE_DUTY_CYCLE_LBT_SUSPEND_LIMIT_REACHED = 4
}

Duty cycle states.

enum
SL_802154_PASSTHROUGH_NONE = 0x00
SL_802154_PASSTHROUGH_SE_INTERPAN = 0x01
SL_802154_PASSTHROUGH_EMBERNET = 0x02
SL_802154_PASSTHROUGH_EMBERNET_SOURCE = 0x04
SL_802154_PASSTHROUGH_APPLICATION = 0x08
SL_802154_PASSTHROUGH_CUSTOM = 0x10
}

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

uint8_t *
sl_zigbee_key_contents(sl_zigbee_key_data_t *key)

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

uint8_t *
sl_zigbee_certificate_contents(sl_zigbee_certificate_data_t *cert)

Get access to the actual certificate data bytes of the sl_zigbee_certificate_data_t structure.

uint8_t *
sl_zigbee_public_key_contents(sl_zigbee_public_key_data_t *key)

Get access to the actual public key data bytes of the sl_zigbee_public_key_data_t structure.

uint8_t *
sl_zigbee_private_key_contents(sl_zigbee_private_key_data_t *key)

Get access to the actual private key data bytes of the sl_zigbee_private_key_data_t structure.

uint8_t *
sl_zigbee_smac_contents(sl_zigbee_smac_data_t *key)

Get access to the actual SMAC (Secured Message Authentication Code) data of the sl_zigbee_smac_data_t structure.

uint8_t *
sl_zigbee_signature_contents(sl_zigbee_signature_data_t *sig)

Get access to the actual ECDSA signature data of the sl_zigbee_signature_data_t structure.

uint8_t *
sl_zigbee_certificate_283k1_contents(sl_zigbee_certificate_283k1_data_t *cert)

Get access to the actual certificate data bytes of the sl_zigbee_283k1_certificate_data_t structure.

uint8_t *
sl_zigbee_public_key_283k1_contents(sl_zigbee_public_key_283k1_data_t *key)

Get access to the actual public key data bytes of the sl_zigbee_283k1_public_key_data_t structure.

uint8_t *
sl_zigbee_private_key_283k1_contents(sl_zigbee_private_key_283k1_data_t *key)

Get access to the actual private key data bytes of the sl_zigbee_283k1_private_key_data_t structure.

uint8_t *
ember283k1SignatureContents(sl_zigbee_signature_283k1_data_t *sig)

Get access to the actual ECDSA signature data of the sl_zigbee_signature_283k1_data_t structure.

ZDO configuration flags.#

Control which ZDO requests are passed to the application. These are normally controlled via the following configuration definitions:SL_ZIGBEE_APPLICATION_RECEIVES_SUPPORTED_ZDO_REQUESTS SL_ZIGBEE_APPLICATION_HANDLES_UNSUPPORTED_ZDO_REQUESTS SL_ZIGBEE_APPLICATION_HANDLES_ENDPOINT_ZDO_REQUESTS SL_ZIGBEE_APPLICATION_HANDLES_BINDING_ZDO_REQUESTSSee ember-configuration.h for more information.

#define

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

#define

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

#define

Defines the maximum number of PHYs supported.

#define

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

#define

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

enum
SL_ZIGBEE_APP_RECEIVES_SUPPORTED_ZDO_REQUESTS = 0x01
SL_ZIGBEE_APP_HANDLES_UNSUPPORTED_ZDO_REQUESTS = 0x02
SL_ZIGBEE_APP_HANDLES_ZDO_ENDPOINT_REQUESTS = 0x04
SL_ZIGBEE_APP_HANDLES_ZDO_BINDING_REQUESTS = 0x08
}

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

enum
SL_ZIGBEE_MULTI_PHY_ROUTERS_ALLOWED = 0x01
SL_ZIGBEE_MULTI_PHY_BROADCASTS_ENABLED = 0x02
SL_ZIGBEE_MULTI_PHY_DISABLED = 0x80
}

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

enum
PRIORITIZE_BEACONS_BASED_ON_PARENT_CLASSIFICATION = 0x0001
PRIORITIZE_BEACONS_BASED_ON_TC_CONNECTVITY = 0x0002
TC_CONNECTIVITY = 0x0010
LONG_UPTIME = 0x0020
BAD_PARENT_CONNECTIVITY = 0x0040
PREFERRED_PARENT = 0x60
}

Defines beacon classification flags.

enum
SL_ZIGBEE_ENTROPY_SOURCE_ERROR = 0x00
SL_ZIGBEE_ENTROPY_SOURCE_RADIO = 0x01
SL_ZIGBEE_ENTROPY_SOURCE_MBEDTLS_TRNG = 0x02
SL_ZIGBEE_ENTROPY_SOURCE_MBEDTLS = 0x03
}

Defines the entropy source used by the stack.

enum
@0 {
SL_ZIGBEE_POLL_TIMEOUT_10_SECONDS = 0
SL_ZIGBEE_POLL_TIMEOUT_2_MINUTES = 1
SL_ZIGBEE_POLL_TIMEOUT_4_MINUTES = 2
SL_ZIGBEE_POLL_TIMEOUT_8_MINUTES = 3
SL_ZIGBEE_POLL_TIMEOUT_16_MINUTES = 4
SL_ZIGBEE_POLL_TIMEOUT_32_MINUTES = 5
SL_ZIGBEE_POLL_TIMEOUT_64_MINUTES = 6
SL_ZIGBEE_POLL_TIMEOUT_128_MINUTES = 7
SL_ZIGBEE_POLL_TIMEOUT_256_MINUTES = 8
SL_ZIGBEE_POLL_TIMEOUT_512_MINUTES = 9
SL_ZIGBEE_POLL_TIMEOUT_1024_MINUTES = 10
SL_ZIGBEE_POLL_TIMEOUT_2048_MINUTES = 11
SL_ZIGBEE_POLL_TIMEOUT_4096_MINUTES = 12
SL_ZIGBEE_POLL_TIMEOUT_8192_MINUTES = 13
SL_ZIGBEE_POLL_TIMEOUT_16384_MINUTES = 14
}

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

enum
TC_APS_ENCRYPT_DEFAULT = 0x00
TC_APS_ENCRYPT_ENABLE = 0x01
TC_APS_ENCRYPT_DISABLE = 0x02
}

Defines the trust center APS encryption mode when sending a newer (alternate) network key to a device. The value settings below do not take effect when sending the initial network key during joining or rejoining.

typedef uint8_t

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
SL_ZIGBEE_ZDP_SUCCESS = 0x00
SL_ZIGBEE_ZDP_INVALID_REQUEST_TYPE = 0x80
SL_ZIGBEE_ZDP_DEVICE_NOT_FOUND = 0x81
SL_ZIGBEE_ZDP_INVALID_ENDPOINT = 0x82
SL_ZIGBEE_ZDP_NOT_ACTIVE = 0x83
SL_ZIGBEE_ZDP_NOT_SUPPORTED = 0x84
SL_ZIGBEE_ZDP_TIMEOUT = 0x85
SL_ZIGBEE_ZDP_NO_MATCH = 0x86
SL_ZIGBEE_ZDP_NO_ENTRY = 0x88
SL_ZIGBEE_ZDP_NO_DESCRIPTOR = 0x89
SL_ZIGBEE_ZDP_INSUFFICIENT_SPACE = 0x8a
SL_ZIGBEE_ZDP_NOT_PERMITTED = 0x8b
SL_ZIGBEE_ZDP_TABLE_FULL = 0x8c
SL_ZIGBEE_ZDP_NOT_AUTHORIZED = 0x8d
SL_ZIGBEE_ZDP_DEVICE_BINDING_TABLE_FULL = 0x8e
SL_ZIGBEE_ZDP_INVALID_INDEX = 0x8f
SL_ZIGBEE_ZDP_FRAME_TOO_LARGE = 0x90
SL_ZIGBEE_ZDP_BAD_KEY_NEGOTIATION_METHOD = 0x91
SL_ZIGBEE_ZDP_TEMPORARY_FAILURE = 0x92
SL_ZIGBEE_APS_SECURITY_FAIL = 0xad
SL_ZIGBEE_NWK_ALREADY_PRESENT = 0xc5
SL_ZIGBEE_NWK_TABLE_FULL = 0xc7
SL_ZIGBEE_NWK_UNKNOWN_DEVICE = 0xc8
SL_ZIGBEE_NWK_MISSING_TLV = 0xd6
SL_ZIGBEE_NWK_INVALID_TLV = 0xd7
}

ZDO server mask bits#

These are used in server discovery requests and responses.

enum
SL_ZIGBEE_ZDP_PRIMARY_TRUST_CENTER = 0x0001
SL_ZIGBEE_ZDP_SECONDARY_TRUST_CENTER = 0x0002
SL_ZIGBEE_ZDP_PRIMARY_BINDING_TABLE_CACHE = 0x0004
SL_ZIGBEE_ZDP_SECONDARY_BINDING_TABLE_CACHE = 0x0008
SL_ZIGBEE_ZDP_PRIMARY_DISCOVERY_CACHE = 0x0010
SL_ZIGBEE_ZDP_SECONDARY_DISCOVERY_CACHE = 0x0020
SL_ZIGBEE_ZDP_NETWORK_MANAGER = 0x0040
}

Macros#

#define
#define

Returns true if nodeId (short address) is a broadcast address.

Enumerations#

enum
SL_ZIGBEE_UNKNOWN_DEVICE = 0
SL_ZIGBEE_DEVICE_TYPE_UNCHANGED = SL_ZIGBEE_UNKNOWN_DEVICE
SL_ZIGBEE_COORDINATOR = 1
SL_ZIGBEE_ROUTER = 2
SL_ZIGBEE_END_DEVICE = 3
SL_ZIGBEE_SLEEPY_END_DEVICE = 4
SL_ZIGBEE_S2S_INITIATOR_DEVICE = 5
SL_ZIGBEE_S2S_TARGET_DEVICE = 6
}

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

enum
SL_ZIGBEE_END_DEVICE_CONFIG_NONE = 0x00
SL_ZIGBEE_END_DEVICE_CONFIG_PERSIST_DATA_ON_PARENT = 0x01
}

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

enum
SL_ZIGBEE_NETWORK_INIT_NO_OPTIONS = 0x0000
SL_ZIGBEE_NETWORK_INIT_PARENT_INFO_IN_TOKEN = 0x0001
SL_ZIGBEE_NETWORK_INIT_END_DEVICE_REJOIN_ON_REBOOT = 0x0002
}

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

enum
NO_REJOIN
REJOIN_ANY_LINK_KEY
REJOIN_NON_DEFAULT_LINK_KEY
}

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

enum
SL_ZIGBEE_APS_OPTION_NONE = 0x0000
SL_ZIGBEE_APS_OPTION_DSA_SIGN = 0x0010
SL_ZIGBEE_APS_OPTION_ENCRYPTION = 0x0020
SL_ZIGBEE_APS_OPTION_RETRY = 0x0040
SL_ZIGBEE_APS_OPTION_ENABLE_ROUTE_DISCOVERY = 0x0100
SL_ZIGBEE_APS_OPTION_FORCE_ROUTE_DISCOVERY = 0x0200
SL_ZIGBEE_APS_OPTION_SOURCE_EUI64 = 0x0400
SL_ZIGBEE_APS_OPTION_DESTINATION_EUI64 = 0x0800
SL_ZIGBEE_APS_OPTION_ENABLE_ADDRESS_DISCOVERY = 0x1000
SL_ZIGBEE_APS_OPTION_POLL_RESPONSE = 0x2000
SL_ZIGBEE_APS_OPTION_ZDO_RESPONSE_REQUIRED = 0x4000
SL_ZIGBEE_APS_OPTION_FRAGMENT = SIGNED_ENUM 0x8000
}

Options to use when sending a message.

enum
SL_ZIGBEE_INCOMING_UNICAST
SL_ZIGBEE_INCOMING_UNICAST_REPLY
SL_ZIGBEE_INCOMING_MULTICAST
SL_ZIGBEE_INCOMING_MULTICAST_LOOPBACK
SL_ZIGBEE_INCOMING_BROADCAST
SL_ZIGBEE_INCOMING_BROADCAST_LOOPBACK
}

Defines the possible incoming message types.

enum
SL_ZIGBEE_OUTGOING_DIRECT
SL_ZIGBEE_OUTGOING_VIA_ADDRESS_TABLE
SL_ZIGBEE_OUTGOING_VIA_BINDING
SL_ZIGBEE_OUTGOING_MULTICAST
SL_ZIGBEE_OUTGOING_MULTICAST_WITH_ALIAS
SL_ZIGBEE_OUTGOING_BROADCAST_WITH_ALIAS
SL_ZIGBEE_OUTGOING_BROADCAST
}

Defines the possible outgoing message types.

enum
SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_RAW_MAC
SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_MAC_COMMAND
SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_NWK
SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_APS
SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_ZDO
SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_ZCL
SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_BEACON
}

A type of command received by the stack.

enum
SL_ZIGBEE_DROP_PACKET = 0
SL_ZIGBEE_ACCEPT_PACKET = 1
SL_ZIGBEE_MANGLE_PACKET
SL_ZIGBEE_ACCEPT_PACKET_OVERRIDE_SECURITY
SL_ZIGBEE_ACCEPT_PACKET_SKIP_NWK_CRYPTO
}

indication of the action taken on a packet

enum
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_RAW_MAC
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_MAC_COMMAND
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_DATA
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_COMMAND
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_APS_DATA
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_APS_COMMAND
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_ZDO
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_ZCL
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_BEACON
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_INTERPAN
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_DATA_PRE_DECRYPTION
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_COMMAND_PRE_DECRYPTION
}

A type of packet received by the stack.

enum
SL_ZIGBEE_NO_NETWORK
SL_ZIGBEE_JOINING_NETWORK
SL_ZIGBEE_JOINED_NETWORK
SL_ZIGBEE_JOINED_NETWORK_NO_PARENT
SL_ZIGBEE_JOINED_NETWORK_S2S_INITIATOR
SL_ZIGBEE_JOINED_NETWORK_S2S_TARGET
SL_ZIGBEE_LEAVING_NETWORK
}

Defines the possible join states for a node.

enum
SL_ZIGBEE_ENERGY_SCAN
SL_ZIGBEE_ACTIVE_SCAN
SL_ZIGBEE_START_RADIO_OFF_SCAN
SL_ZIGBEE_STACK_GP_CHANNEL_DELIVERY_SCAN
SL_ZIGBEE_ACTIVE_SCAN_ROUTER
SL_ZIGBEE_LAST_SCAN_TYPE = SL_ZIGBEE_ACTIVE_SCAN_ROUTER
}

Type for a network scan.

enum
SL_ZIGBEE_UNUSED_BINDING = 0
SL_ZIGBEE_UNICAST_BINDING = 1
SL_ZIGBEE_MANY_TO_ONE_BINDING = 2
SL_ZIGBEE_MULTICAST_BINDING = 3
}

Defines binding types.

enum
SL_ZIGBEE_KEEP_ALIVE_SUPPORT_UNKNOWN = 0x00
SL_802154_DATA_POLL_KEEP_ALIVE = 0x01
SL_ZIGBEE_END_DEVICE_TIMEOUT_KEEP_ALIVE = 0x02
SL_ZIGBEE_KEEP_ALIVE_SUPPORT_ALL = 0x03
}

Type of Ember keep alive method defining the keep alive message type that a parent accepts to prevent child aging. This is configured in a parent router and communicated and stored in an end-device.

enum
SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_OFF = 0x00
SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_ON = 0x01
SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_RESCHEDULE = 0x02
}

Types of source route discovery modes used by the concentrator.

enum
SL_802154_TRANSMIT_PRIORITY_HIGH
SL_802154_TRANSMIT_PRIORITY_NORMAL
SL_802154_TRANSMIT_PRIORITY_SCAN_OKAY
}

Packet transmit priorities in terms of getting into the MAC queue.

enum
ROUTE_RECORD_POLICY_ACK_BY_SOURCE_ROUTED_MESSAGE = 0
ROUTE_RECORD_POLICY_DONT_SEND = 1
ROUTE_RECORD_POLICY_NO_ACK_REQUIRED = 2
}

Policies for sending a route record to the concentrator.

enum
SL_PASSIVE_ACK_DEFAULT_CONFIG = 0
SL_PASSIVE_ACK_DISABLE
SL_PASSIVE_ACK_THRESHOLD_WITH_REBROADCAST
SL_PASSIVE_ACK_THRESHOLD_NO_REBROADCAST
SL_PASSIVE_ACK_THRESHOLD_WITH_REBROADCAST_ALL_NODES
}

Passive ack config enum.

Typedefs#

represents a single entry in the APS duplicate rejection table

typedef uint8_t
sl_zigbee_manufacturing_string_t[MANUFACTURING_STRING_SIZE]

Miscellaneous Ember Types Documentation#

SL_ZIGBEE_RELEASE_TYPE_TO_STRING_STRUCT_DATA#

#define SL_ZIGBEE_RELEASE_TYPE_TO_STRING_STRUCT_DATA
Value:
{ SL_ZIGBEE_VERSION_TYPE_PRE_RELEASE, "Pre-Release" }, \
{ SL_ZIGBEE_VERSION_TYPE_ALPHA_1, "Alpha 1" }, \
{ SL_ZIGBEE_VERSION_TYPE_ALPHA_2, "Alpha 2" }, \
{ SL_ZIGBEE_VERSION_TYPE_ALPHA_3, "Alpha 3" }, \
{ SL_ZIGBEE_VERSION_TYPE_BETA_1, "Beta 1" }, \
{ SL_ZIGBEE_VERSION_TYPE_BETA_2, "Beta 2" }, \
{ SL_ZIGBEE_VERSION_TYPE_BETA_3, "Beta 3" }, \
{ SL_ZIGBEE_VERSION_TYPE_GA, "GA" }, \
{ 0xFF, NULL },

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.


Definition at line 90 of file stack/include/sl_zigbee_types.h

EUI64_SIZE#

#define EUI64_SIZE
Value:
8

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


Definition at line 138 of file stack/include/sl_zigbee_types.h

EXTENDED_PAN_ID_SIZE#

#define EXTENDED_PAN_ID_SIZE
Value:
8

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


Definition at line 143 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ENCRYPTION_KEY_SIZE#

#define SL_ZIGBEE_ENCRYPTION_KEY_SIZE
Value:
16

Size of an encryption key in bytes (16).


Definition at line 148 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_CERTIFICATE_SIZE#

#define SL_ZIGBEE_CERTIFICATE_SIZE
Value:
48

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


Definition at line 154 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_PUBLIC_KEY_SIZE#

#define SL_ZIGBEE_PUBLIC_KEY_SIZE
Value:
22

Size of Public Keys used in Elliptical Cryptography ECMQV algorithms.


Definition at line 159 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_PRIVATE_KEY_SIZE#

#define SL_ZIGBEE_PRIVATE_KEY_SIZE
Value:
21

Size of Private Keys used in Elliptical Cryptography ECMQV algorithms.


Definition at line 164 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_SMAC_SIZE#

#define SL_ZIGBEE_SMAC_SIZE
Value:
16

Size of the SMAC used in Elliptical Cryptography ECMQV algorithms.


Definition at line 169 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_SIGNATURE_SIZE#

#define SL_ZIGBEE_SIGNATURE_SIZE
Value:
42

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


Definition at line 175 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_AES_HASH_BLOCK_SIZE#

#define SL_ZIGBEE_AES_HASH_BLOCK_SIZE
Value:
16

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


Definition at line 180 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_CERTIFICATE_283K1_SIZE#

#define SL_ZIGBEE_CERTIFICATE_283K1_SIZE
Value:
74

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


Definition at line 186 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_PUBLIC_KEY_283K1_SIZE#

#define SL_ZIGBEE_PUBLIC_KEY_283K1_SIZE
Value:
37

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


Definition at line 191 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_PRIVATE_KEY_283K1_SIZE#

#define SL_ZIGBEE_PRIVATE_KEY_283K1_SIZE
Value:
36

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


Definition at line 196 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_SIGNATURE_283K1_SIZE#

#define SL_ZIGBEE_SIGNATURE_283K1_SIZE
Value:
72

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


Definition at line 202 of file stack/include/sl_zigbee_types.h

NULL_BUFFER#

#define NULL_BUFFER
Value:
0x0000u

EUI 64-bit ID (an IEEE address).

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.


Definition at line 223 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MAX_802_15_4_CHANNEL_NUMBER#

#define SL_ZIGBEE_MAX_802_15_4_CHANNEL_NUMBER
Value:
26

The maximum 802.15.4 channel number is 26.


Definition at line 249 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MIN_802_15_4_CHANNEL_NUMBER#

#define SL_ZIGBEE_MIN_802_15_4_CHANNEL_NUMBER
Value:
11

The minimum 2.4GHz 802.15.4 channel number is 11.


Definition at line 254 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MIN_SUBGHZ_CHANNEL_NUMBER#

#define SL_ZIGBEE_MIN_SUBGHZ_CHANNEL_NUMBER
Value:
0

The minimum SubGhz channel number is 0.


Definition at line 259 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ACTIVE_SCAN_DURATION#

#define SL_ZIGBEE_ACTIVE_SCAN_DURATION
Value:
3

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


Definition at line 266 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_SUB_GHZ_SCAN_DURATION#

#define SL_ZIGBEE_SUB_GHZ_SCAN_DURATION
Value:
5

The SubGhz scan duration is 5.


Definition at line 271 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_NUM_802_15_4_CHANNELS#

#define SL_ZIGBEE_NUM_802_15_4_CHANNELS
Value:
  (SL_ZIGBEE_MAX_802_15_4_CHANNEL_NUMBER - SL_ZIGBEE_MIN_802_15_4_CHANNEL_NUMBER + 1)

There are sixteen 802.15.4 channels.


Definition at line 276 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ALL_802_15_4_CHANNELS_MASK#

#define SL_ZIGBEE_ALL_802_15_4_CHANNELS_MASK
Value:
0x07FFF800UL

A bitmask to scan all 2.4 GHz 802.15.4 channels.


Definition at line 282 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MAX_CHANNELS_PER_PAGE#

#define SL_ZIGBEE_MAX_CHANNELS_PER_PAGE
Value:
27

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


Definition at line 288 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_28_30_31#

#define SL_ZIGBEE_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_28_30_31
Value:
0x07FFFFFFUL

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


Definition at line 293 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGES_28_30_31#

#define SL_ZIGBEE_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGES_28_30_31
Value:
26

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


Definition at line 298 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_29#

#define SL_ZIGBEE_ALL_SUBGHZ_CHANNELS_MASK_FOR_PAGES_29
Value:
0x1FF

SubGhz channel bitmasks for page 29.


Definition at line 302 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGE_29#

#define SL_ZIGBEE_MAX_SUBGHZ_CHANNEL_NUMBER_ON_PAGE_29
Value:
8

The maximum SubGhz channel number on page 29 is 8.


Definition at line 307 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MIN_SUGBHZ_PAGE_NUMBER#

#define SL_ZIGBEE_MIN_SUGBHZ_PAGE_NUMBER
Value:
28

The minimum SubGhz page number is 28.


Definition at line 312 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MAX_SUGBHZ_PAGE_NUMBER#

#define SL_ZIGBEE_MAX_SUGBHZ_PAGE_NUMBER
Value:
31

The maximum SubGhz page number is 31.


Definition at line 317 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ALL_CHANNEL_PAGE_MASK#

#define SL_ZIGBEE_ALL_CHANNEL_PAGE_MASK
Value:
0xF8000000UL

A bitmask for the channel page within a channel mask.


Definition at line 322 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_PAGE_CHANNEL_MASK_FROM_CHANNEL_MASK#

#define SL_ZIGBEE_PAGE_CHANNEL_MASK_FROM_CHANNEL_MASK
Value:
(((((uint32_t)(page)) << SL_ZIGBEE_MAX_CHANNELS_PER_PAGE) & SL_ZIGBEE_ALL_CHANNEL_PAGE_MASK) \
| (((uint32_t)(mask)) & ~SL_ZIGBEE_ALL_CHANNEL_PAGE_MASK))

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


Definition at line 327 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_PAGE_CHANNEL_MASK_FROM_CHANNEL_NUMBER#

#define SL_ZIGBEE_PAGE_CHANNEL_MASK_FROM_CHANNEL_NUMBER
Value:
(page, channel)

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


Definition at line 334 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ZIGBEE_COORDINATOR_ADDRESS#

#define SL_ZIGBEE_ZIGBEE_COORDINATOR_ADDRESS
Value:
0x0000u

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


Definition at line 340 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_NULL_NODE_ID#

#define SL_ZIGBEE_NULL_NODE_ID
Value:
0xFFFFu

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


Definition at line 346 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_NO_CHANNEL_PAGE_IN_USE#

#define SL_ZIGBEE_NO_CHANNEL_PAGE_IN_USE
Value:
0

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


Definition at line 351 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_NULL_EUI64#

#define SL_ZIGBEE_NULL_EUI64
Value:
{ 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }

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


Definition at line 356 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_NULL_BINDING#

#define SL_ZIGBEE_NULL_BINDING
Value:
0xFFu

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


Definition at line 362 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_TABLE_ENTRY_UNUSED_NODE_ID#

#define SL_ZIGBEE_TABLE_ENTRY_UNUSED_NODE_ID
Value:
0xFFFFu

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.


Definition at line 373 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MULTICAST_NODE_ID#

#define SL_ZIGBEE_MULTICAST_NODE_ID
Value:
0xFFFEu

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.


Definition at line 381 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_UNKNOWN_NODE_ID#

#define SL_ZIGBEE_UNKNOWN_NODE_ID
Value:
0xFFFDu

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.


Definition at line 390 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_DISCOVERY_ACTIVE_NODE_ID#

#define SL_ZIGBEE_DISCOVERY_ACTIVE_NODE_ID
Value:
0xFFFCu

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.


Definition at line 399 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_NULL_ADDRESS_TABLE_INDEX#

#define SL_ZIGBEE_NULL_ADDRESS_TABLE_INDEX
Value:
0xFFu

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


Definition at line 405 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ZDO_ENDPOINT#

#define SL_ZIGBEE_ZDO_ENDPOINT
Value:
0u

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


Definition at line 410 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_BROADCAST_ENDPOINT#

#define SL_ZIGBEE_BROADCAST_ENDPOINT
Value:
0xFFu

The broadcast endpoint, as defined in the ZigBee spec.


Definition at line 415 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_GP_ENDPOINT#

#define SL_ZIGBEE_GP_ENDPOINT
Value:
0xF2u

The GP endpoint, as defined in the ZigBee spec.


Definition at line 420 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_ZDO_PROFILE_ID#

#define SL_ZIGBEE_ZDO_PROFILE_ID
Value:
0x0000u

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


Definition at line 425 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_WILDCARD_PROFILE_ID#

#define SL_ZIGBEE_WILDCARD_PROFILE_ID
Value:
0xFFFFu

The profile ID used to address all the public profiles.


Definition at line 430 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MAXIMUM_STANDARD_PROFILE_ID#

#define SL_ZIGBEE_MAXIMUM_STANDARD_PROFILE_ID
Value:
0x7FFFu

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


Definition at line 435 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_BROADCAST_TABLE_TIMEOUT_QS#

#define SL_ZIGBEE_BROADCAST_TABLE_TIMEOUT_QS
Value:
(20 * 4)

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


Definition at line 441 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MANUFACTURER_ID#

#define SL_ZIGBEE_MANUFACTURER_ID
Value:
0x1002u

Ember's Manufacturer ID.


Definition at line 446 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_NULL_NETWORK_INDEX#

#define SL_ZIGBEE_NULL_NETWORK_INDEX
Value:
0xFFu

An invalid network index.


Definition at line 451 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_DC_LIMIT_USE_DEFAULT#

#define SL_ZIGBEE_DC_LIMIT_USE_DEFAULT
Value:
0

Use Ember's default duty cycle limit configurations.


Definition at line 456 of file stack/include/sl_zigbee_types.h

sl_zigbee_version_type_t#

sl_zigbee_version_type_t

Type of Ember software version.

Enumerator
SL_ZIGBEE_VERSION_TYPE_PRE_RELEASE
SL_ZIGBEE_VERSION_TYPE_ALPHA_1
SL_ZIGBEE_VERSION_TYPE_ALPHA_2
SL_ZIGBEE_VERSION_TYPE_ALPHA_3
SL_ZIGBEE_VERSION_TYPE_BETA_1
SL_ZIGBEE_VERSION_TYPE_BETA_2
SL_ZIGBEE_VERSION_TYPE_BETA_3
SL_ZIGBEE_VERSION_TYPE_GA

Definition at line 54 of file stack/include/sl_zigbee_types.h

sl_zigbee_leave_network_option_t#

sl_zigbee_leave_network_option_t

Use in case zigbee leave network with options.

Enumerator
SL_ZIGBEE_LEAVE_NWK_WITH_NO_OPTION

Leave with no option.

SL_ZIGBEE_LEAVE_NWK_WITH_OPTION_REJOIN

Leave with option rejoin.

SL_ZIGBEE_LEAVE_NWK_IS_REQUESTED

Leave is requested.


Definition at line 462 of file stack/include/sl_zigbee_types.h

sl_zigbee_stack_profile_t#

sl_zigbee_stack_profile_t

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

Enumerator
SL_ZIGBEE_STACK_PROFILE_NONE
SL_ZIGBEE_STACK_PROFILE_ZIGBEE_PRO

Definition at line 477 of file stack/include/sl_zigbee_types.h

sl_zigbee_security_level_t#

sl_zigbee_security_level_t

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

Enumerator
SL_ZIGBEE_SECURITY_LEVEL_NONE
SL_ZIGBEE_SECURITY_LEVEL_Z3

Definition at line 488 of file stack/include/sl_zigbee_types.h

sl_zigbee_leave_request_flags_t#

sl_zigbee_leave_request_flags_t

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

Enumerator
SL_ZIGBEE_ZIGBEE_LEAVE_AND_REJOIN

Leave and rejoin.

SL_ZIGBEE_ZIGBEE_LEAVE_WITHOUT_REJOIN

Leave.


Definition at line 499 of file stack/include/sl_zigbee_types.h

sl_zigbee_leave_reason_t#

sl_zigbee_leave_reason_t

sl_zigbee_release_type_struct_t Data that relates release type to the correct string.

Enumerator
SL_ZIGBEE_LEAVE_REASON_NONE
SL_ZIGBEE_LEAVE_DUE_TO_NWK_LEAVE_MESSAGE
SL_ZIGBEE_LEAVE_DUE_TO_APS_REMOVE_MESSAGE
SL_ZIGBEE_LEAVE_DUE_TO_ZDO_LEAVE_MESSAGE
SL_ZIGBEE_LEAVE_DUE_TO_ZLL_TOUCHLINK
SL_ZIGBEE_LEAVE_DUE_TO_APP_EVENT_1

Definition at line 519 of file stack/include/sl_zigbee_types.h

sl_zigbee_multicast_id_t#

typedef uint16_t sl_zigbee_multicast_id_t

16-bit ZigBee network address.

16-bit ZigBee multicast group identifier.


Definition at line 231 of file stack/include/sl_zigbee_types.h

sl_zigbee_duty_cycle_hecto_pct_t#

typedef uint16_t sl_zigbee_duty_cycle_hecto_pct_t

802.15.4 PAN ID.

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%).


Definition at line 244 of file stack/include/sl_zigbee_types.h

sl_zigbee_version#

const sl_zigbee_version_t sl_zigbee_version

A structure containing the version information.


Definition at line 116 of file stack/include/sl_zigbee_types.h

ZigBee Broadcast Addresses Documentation#

SL_ZIGBEE_BROADCAST_ADDRESS#

#define SL_ZIGBEE_BROADCAST_ADDRESS
Value:
0xFFFCu

Broadcast to all routers.


Definition at line 549 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_RX_ON_WHEN_IDLE_BROADCAST_ADDRESS#

#define SL_ZIGBEE_RX_ON_WHEN_IDLE_BROADCAST_ADDRESS
Value:
0xFFFDu

Broadcast to all non-sleepy devices.


Definition at line 551 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_SLEEPY_BROADCAST_ADDRESS#

#define SL_ZIGBEE_SLEEPY_BROADCAST_ADDRESS
Value:
0xFFFFu

Broadcast to all devices, including sleepy end devices.


Definition at line 553 of file stack/include/sl_zigbee_types.h

Ember Concentrator Types Documentation#

SL_ZIGBEE_LOW_RAM_CONCENTRATOR#

#define SL_ZIGBEE_LOW_RAM_CONCENTRATOR
Value:
0xFFF8u

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.


Definition at line 1023 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_HIGH_RAM_CONCENTRATOR#

#define SL_ZIGBEE_HIGH_RAM_CONCENTRATOR
Value:
0xFFF9u

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.


Definition at line 1028 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_JOIN_DECISION_STRINGS#

#define SL_ZIGBEE_JOIN_DECISION_STRINGS
Value:
"use preconfigured key", \
"send key in the clear", \
"deny join", \
"no action", \
"allow rejoins only",

@ brief Defines the CLI enumerations for the sl_zigbee_join_decision_t enum.


Definition at line 1082 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_DEVICE_UPDATE_STRINGS#

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

@ brief Defines the CLI enumerations for the sl_zigbee_device_update_t enum.


Definition at line 1112 of file stack/include/sl_zigbee_types.h

sl_zigbee_initialize_network_parameters#

#define sl_zigbee_initialize_network_parameters
Value:
(parameters)

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.


Definition at line 1298 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_COUNTER_STRINGS#

#define SL_ZIGBEE_COUNTER_STRINGS

@ brief Defines the CLI enumerations for the sl_zigbee_counter_type_t enum.


Definition at line 1719 of file stack/include/sl_zigbee_types.h

sl_zigbee_assume_trust_center_concentrator_type_t#

sl_zigbee_assume_trust_center_concentrator_type_t

To configure non trust center node to assume a concentrator type of the trust center it join to, until it receive many-to-one route request from the trust center. For the trust center node, concentrator type is configured from the concentrator plugin. The stack by default assumes trust center be a low RAM concentrator that make other devices send route record to the trust center even without receiving a many-to-one route request. The assumed concentrator type can be changed by setting appropriate value in sl_zigbee_set_assumed_trust_center_concentrator_type().

Enumerator
SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_NOT_A_CONCENTRATOR

To assume trust center is not a concentrator.

SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_LOW_RAM_CONCENTRATOR

To assume trust center is a low RAM concentrator.

SL_ZIGBEE_ASSUME_TRUST_CENTER_IS_HIGH_RAM_CONCENTRATOR

To assume trust center is a high RAM concentrator.


Definition at line 1043 of file stack/include/sl_zigbee_types.h

sl_zigbee_join_decision_t#

sl_zigbee_join_decision_t

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

Enumerator
SL_ZIGBEE_USE_PRECONFIGURED_KEY

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

SL_ZIGBEE_SEND_KEY_IN_THE_CLEAR

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

SL_ZIGBEE_DENY_JOIN

Deny join.

SL_ZIGBEE_NO_ACTION

Take no action.

SL_ZIGBEE_ALLOW_REJOINS_ONLY

Allow rejoins only.


Definition at line 1061 of file stack/include/sl_zigbee_types.h

sl_zigbee_device_update_t#

sl_zigbee_device_update_t

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
SL_ZIGBEE_STANDARD_SECURITY_SECURED_REJOIN
SL_ZIGBEE_STANDARD_SECURITY_UNSECURED_JOIN
SL_ZIGBEE_DEVICE_LEFT
SL_ZIGBEE_STANDARD_SECURITY_UNSECURED_REJOIN

Definition at line 1097 of file stack/include/sl_zigbee_types.h

sl_zigbee_rejoin_reason_t#

sl_zigbee_rejoin_reason_t

Notes the last rejoin reason.

Enumerator
SL_ZIGBEE_REJOIN_REASON_NONE
SL_ZIGBEE_REJOIN_DUE_TO_NWK_KEY_UPDATE
SL_ZIGBEE_REJOIN_DUE_TO_LEAVE_MESSAGE
SL_ZIGBEE_REJOIN_DUE_TO_NO_PARENT
SL_ZIGBEE_REJOIN_DUE_TO_ZLL_TOUCHLINK
SL_ZIGBEE_REJOIN_DUE_TO_END_DEVICE_REBOOT
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_5
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_4
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_3
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_2
SL_ZIGBEE_REJOIN_DUE_TO_APP_EVENT_1

Definition at line 1122 of file stack/include/sl_zigbee_types.h

sl_zigbee_cluster_list_id_t#

sl_zigbee_cluster_list_id_t

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

Enumerator
SL_ZIGBEE_INPUT_CLUSTER_LIST

Input clusters the endpoint will accept.

SL_ZIGBEE_OUTPUT_CLUSTER_LIST

Output clusters the endpoint can send.


Definition at line 1153 of file stack/include/sl_zigbee_types.h

sl_zigbee_event_units_t#

sl_zigbee_event_units_t

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

Enumerator
SL_ZIGBEE_EVENT_INACTIVE

The event is not scheduled to run.

SL_ZIGBEE_EVENT_MS_TIME

The execution time is in approximate milliseconds.

SL_ZIGBEE_EVENT_QS_TIME

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

SL_ZIGBEE_EVENT_MINUTE_TIME

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

SL_ZIGBEE_EVENT_ZERO_DELAY

The event is scheduled to run at the earliest opportunity.


Definition at line 1170 of file stack/include/sl_zigbee_types.h

sl_zigbee_join_method_t#

sl_zigbee_join_method_t

The type of method used for joining.

Enumerator
SL_ZIGBEE_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.

SL_ZIGBEE_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 sl_zigbee_join_decision_t on the Trust Center returned by the sl_zigbee_internal_trust_center_join_handler().

SL_ZIGBEE_USE_NWK_REJOIN_HAVE_NWK_KEY
SL_ZIGBEE_USE_CONFIGURED_NWK_STATE

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.

SL_ZIGBEE_USE_NWK_COMMISSIONING_JOIN

This enumeration causes an unencrypted Network Commissioning Request to be sent out with joinType set to initial join. The trust center may respond by establishing a new dynamic link key and then sending the network key. Network Commissioning Requests should only be sent to parents that support processing of the command.

SL_ZIGBEE_USE_NWK_COMMISSIONING_REJOIN

This enumeration causes an unencrypted Network Commissioning Request to be sent out with joinType set to rejoin. The trust center may respond by establishing a new dynamic link key and then sending the network key. Network Commissioning Requests should only be sent to parents that support processing of the command.

SL_ZIGBEE_USE_NWK_COMMISSIONING_REJOIN_HAVE_NWK_KEY

This enumeration causes an encrypted Network Commissioning Request to be sent out with joinType set to rejoin. This enumeration is used by devices that already have the network key and wish to recover connection to a parent or the network in general. Network Commissioning Requests should only be sent to parents that support processing of the command.


Definition at line 1194 of file stack/include/sl_zigbee_types.h

sl_zigbee_counter_type_t#

sl_zigbee_counter_type_t

Defines the events reported to the application by the ::sl_zigbee_counters_handler(). Usage of the destinationNodeId or data fields found in the sl_zigbee_counter_info_t or sl_zigbee_extra_counters_info_t structs is denoted for counter types that use them. (See comments accompanying enum definitions in this source file for details.)

Enumerator
SL_ZIGBEE_COUNTER_MAC_RX_BROADCAST

The MAC received a broadcast Data frame, Command frame, or Beacon destinationNodeId: BROADCAST_ADDRESS or Data frames or sender node ID for Beacon frames data: not used

SL_ZIGBEE_COUNTER_MAC_TX_BROADCAST

The MAC transmitted a broadcast Data frame, Command frame or Beacon. destinationNodeId: BROADCAST_ADDRESS data: not used

SL_ZIGBEE_COUNTER_MAC_RX_UNICAST

The MAC received a unicast Data or Command frame destinationNodeId: MAC layer source or SL_ZIGBEE_UNKNOWN_NODE_ID if no 16-bit source node ID is present in the frame data: not used

SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_SUCCESS

The MAC successfully transmitted a unicast Data or Command frame Note: Only frames with a 16-bit destination node ID are counted. destinationNodeId: MAC layer destination address data: not used

SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_RETRY

The MAC retried a unicast Data or Command frame after initial Tx attempt. Note: CSMA-related failures are tracked separately via SL_ZIGBEE_COUNTER_PHY_CCA_FAIL_COUNT. destinationNodeId: MAC layer destination or SL_ZIGBEE_UNKNOWN_NODE_ID if no 16-bit destination node ID is present in the frame data: number of retries (after initial Tx attempt) accumulated so far for this packet. (Should always be >0.)

SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_FAILED

The MAC unsuccessfully transmitted a unicast Data or Command frame. Note: Only frames with a 16-bit destination node ID are counted. destinationNodeId: MAC layer destination address data: not used

SL_ZIGBEE_COUNTER_APS_DATA_RX_BROADCAST

The APS layer received a data broadcast. destinationNodeId: sender's node ID data: not used

SL_ZIGBEE_COUNTER_APS_DATA_TX_BROADCAST

The APS layer transmitted a data broadcast.

SL_ZIGBEE_COUNTER_APS_DATA_RX_UNICAST

The APS layer received a data unicast. destinationNodeId: sender's node ID data: not used

SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_SUCCESS

The APS layer successfully transmitted a data unicast. destinationNodeId: NWK destination address data: number of APS retries (>=0) consumed for this unicast.

SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_RETRY

The APS layer retried a unicast Data frame. This is a placeholder and is not used by the ::sl_zigbee_counters_handler() callback. Instead, the number of APS retries are returned in the data parameter of the callback for the SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_SUCCESS and SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_FAILED types. However, our supplied Counters component code will attempt to collect this information from the aforementioned counters and populate this counter. Note that this counter's behavior differs from that of SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_RETRY .

SL_ZIGBEE_COUNTER_APS_DATA_TX_UNICAST_FAILED
SL_ZIGBEE_COUNTER_ROUTE_DISCOVERY_INITIATED

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

SL_ZIGBEE_COUNTER_NEIGHBOR_ADDED

An entry was added to the neighbor table.

SL_ZIGBEE_COUNTER_NEIGHBOR_REMOVED

An entry was removed from the neighbor table.

SL_ZIGBEE_COUNTER_NEIGHBOR_STALE

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

SL_ZIGBEE_COUNTER_JOIN_INDICATION

A node joined or rejoined to the network via this node. destinationNodeId: node ID of child data: not used

SL_ZIGBEE_COUNTER_CHILD_REMOVED

An entry was removed from the child table. destinationNodeId: node ID of child data: not used

SL_ZIGBEE_COUNTER_ASH_OVERFLOW_ERROR

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

SL_ZIGBEE_COUNTER_ASH_FRAMING_ERROR

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

SL_ZIGBEE_COUNTER_ASH_OVERRUN_ERROR

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

SL_ZIGBEE_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.

SL_ZIGBEE_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. destinationNodeId: node ID of MAC source that relayed the message data: not used

SL_ZIGBEE_COUNTER_ASH_XOFF

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

SL_ZIGBEE_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. destinationNodeId: SL_ZIGBEE_NULL_NODE_ID data: APS key table index related to the sender

SL_ZIGBEE_COUNTER_NWK_DECRYPTION_FAILURE

A NWK encrypted message was received but dropped because decryption failed. destinationNodeId: sender of the dropped packet data: not used

SL_ZIGBEE_COUNTER_APS_DECRYPTION_FAILURE

An APS encrypted message was received but dropped because decryption failed. destinationNodeId: sender of the dropped packet data: not used

SL_ZIGBEE_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.

SL_ZIGBEE_COUNTER_RELAYED_UNICAST

The number of relayed unicast packets. destinationId: NWK layer destination address of relayed packet data: not used

SL_ZIGBEE_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 (sli_mac_phy_to_mac_queue_length). The limit will determine how many messages are accepted by the PHY between calls to sl_zigbee_tick(). After that limit is reached, packets will be dropped. The counter records the number of dropped packets.

NOTE: For each call to sl_zigbee_counters_handler() 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.

destinationNodeId: not used data: number of dropped packets represented by this counter event phyIndex: present

SL_ZIGBEE_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. destinationNodeId: not used data: type of validation condition that failed

SL_ZIGBEE_COUNTER_TYPE_NWK_RETRY_OVERFLOW

The number of times the NWK retry queue is full and a new message failed to be added. destinationNodeId; not used data: NWK retry queue size that has been exceeded

SL_ZIGBEE_COUNTER_PHY_CCA_FAIL_COUNT

The number of times the PHY layer was unable to transmit due to a failed CCA (Clear Channel Assessment) attempt. See also: SL_ZIGBEE_COUNTER_MAC_TX_UNICAST_RETRY. destinationNodeId: MAC layer destination or SL_ZIGBEE_UNKNOWN_NODE_ID if no 16-bit destination node ID is present in the frame data: not used

SL_ZIGBEE_COUNTER_BROADCAST_TABLE_FULL

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

SL_ZIGBEE_COUNTER_PTA_LO_PRI_REQUESTED

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

SL_ZIGBEE_COUNTER_PTA_HI_PRI_REQUESTED

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

SL_ZIGBEE_COUNTER_PTA_LO_PRI_DENIED

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

SL_ZIGBEE_COUNTER_PTA_HI_PRI_DENIED

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

SL_ZIGBEE_COUNTER_PTA_LO_PRI_TX_ABORTED

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

SL_ZIGBEE_COUNTER_PTA_HI_PRI_TX_ABORTED

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

SL_ZIGBEE_COUNTER_ADDRESS_CONFLICT_SENT

The number of times an address conflict has caused node_id change, and an address conflict error is sent

SL_ZIGBEE_COUNTER_TYPE_COUNT

A placeholder giving the number of Ember counter types.


Definition at line 1463 of file stack/include/sl_zigbee_types.h

sl_zigbee_task_id_t#

typedef uint8_t sl_zigbee_task_id_t

brief An identifier for a task.


Definition at line 1775 of file stack/include/sl_zigbee_types.h

txPowerModes for sl_802154_set_tx_power_mode and mfglibSetPower Documentation#

SL_ZIGBEE_TX_POWER_MODE_DEFAULT#

#define SL_ZIGBEE_TX_POWER_MODE_DEFAULT
Value:
0x0000

The application should call sl_802154_set_tx_power_mode() 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.


Definition at line 1833 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_TX_POWER_MODE_BOOST#

#define SL_ZIGBEE_TX_POWER_MODE_BOOST
Value:
0x0001

The application should call sl_802154_set_tx_power_mode() with the txPowerMode parameter set to this value to enable boost power mode.


Definition at line 1837 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_TX_POWER_MODE_ALTERNATE#

#define SL_ZIGBEE_TX_POWER_MODE_ALTERNATE
Value:
0x0002

The application should call sl_802154_set_tx_power_mode() with the txPowerMode parameter set to this value to enable the alternate transmitter output.


Definition at line 1842 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_TX_POWER_MODE_BOOST_AND_ALTERNATE#

#define SL_ZIGBEE_TX_POWER_MODE_BOOST_AND_ALTERNATE
Value:
(SL_ZIGBEE_TX_POWER_MODE_BOOST \
| SL_ZIGBEE_TX_POWER_MODE_ALTERNATE)

The application should call sl_802154_set_tx_power_mode() with the txPowerMode parameter set to this value to enable both boost mode and the alternate transmitter output.


Definition at line 1847 of file stack/include/sl_zigbee_types.h

Counters Request Definitions Documentation#

SL_ZIGBEE_PRIVATE_PROFILE_ID#

#define SL_ZIGBEE_PRIVATE_PROFILE_ID
Value:
0xC00Eu

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.


Definition at line 1871 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_PRIVATE_PROFILE_ID_START#

#define SL_ZIGBEE_PRIVATE_PROFILE_ID_START
Value:
0xC00Du

Ember's first private profile ID.


Definition at line 1876 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_PRIVATE_PROFILE_ID_END#

#define SL_ZIGBEE_PRIVATE_PROFILE_ID_END
Value:
0xC016u

Ember's last private profile ID.


Definition at line 1881 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_REPORT_COUNTERS_REQUEST#

#define SL_ZIGBEE_REPORT_COUNTERS_REQUEST
Value:
0x0003u

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.


Definition at line 1886 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_REPORT_COUNTERS_RESPONSE#

#define SL_ZIGBEE_REPORT_COUNTERS_RESPONSE
Value:
0x8003u

The cluster ID used to respond to an SL_ZIGBEE_REPORT_COUNTERS_REQUEST.


Definition at line 1889 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_REPORT_AND_CLEAR_COUNTERS_REQUEST#

#define SL_ZIGBEE_REPORT_AND_CLEAR_COUNTERS_REQUEST
Value:
0x0004u

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.


Definition at line 1895 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_REPORT_AND_CLEAR_COUNTERS_RESPONSE#

#define SL_ZIGBEE_REPORT_AND_CLEAR_COUNTERS_RESPONSE
Value:
0x8004u

The cluster ID used to respond to an SL_ZIGBEE_REPORT_AND_CLEAR_COUNTERS_REQUEST.


Definition at line 1898 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_OTA_CERTIFICATE_UPGRADE_CLUSTER#

#define SL_ZIGBEE_OTA_CERTIFICATE_UPGRADE_CLUSTER
Value:
0x0005u

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.


Definition at line 1904 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_STANDARD_SECURITY_MODE#

#define SL_ZIGBEE_STANDARD_SECURITY_MODE
Value:
0x0000

This is an sl_zigbee_initial_security_bitmask_t 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.


Definition at line 1992 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_TRUST_CENTER_NODE_ID#

#define SL_ZIGBEE_TRUST_CENTER_NODE_ID
Value:
0x0000u

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


Definition at line 1997 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_TC_SUPPORTS_FC_SYNC#

#define SL_ZIGBEE_TC_SUPPORTS_FC_SYNC
Value:
0x00800000UL

This denotes that the device can require a resync of the APS frame counter.


Definition at line 2157 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_NO_TRUST_CENTER_MODE#

#define SL_ZIGBEE_NO_TRUST_CENTER_MODE
Value:
SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE

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


Definition at line 2161 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_GLOBAL_LINK_KEY#

#define SL_ZIGBEE_GLOBAL_LINK_KEY
Value:
SL_ZIGBEE_TRUST_CENTER_GLOBAL_LINK_KEY

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


Definition at line 2165 of file stack/include/sl_zigbee_types.h

SL_LEGACY_SECURITY_CONFIG_MAGIC_NUMBER#

#define SL_LEGACY_SECURITY_CONFIG_MAGIC_NUMBER
Value:
0xCABAD11FUL

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


Definition at line 2621 of file stack/include/sl_zigbee_types.h

sl_zigbee_initial_security_bitmask_t#

sl_zigbee_initial_security_bitmask_t

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

Enumerator
SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE

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

SL_ZIGBEE_TRUST_CENTER_GLOBAL_LINK_KEY

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

SL_ZIGBEE_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.

SL_ZIGBEE_HAVE_TRUST_CENTER_EUI64

This denotes that the sl_zigbee_initial_security_state_t::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 sl_zigbee_initial_security_state_t::preconfiguredTrustCenterEui64 must be populated with the appropriate EUI64.

SL_ZIGBEE_TRUST_CENTER_USES_HASHED_LINK_KEY

This denotes that the sl_zigbee_initial_security_state_t::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.

SL_ZIGBEE_HAVE_PRECONFIGURED_KEY

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

SL_ZIGBEE_HAVE_NETWORK_KEY

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

SL_ZIGBEE_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).

SL_ZIGBEE_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.

SL_ZIGBEE_NO_FRAME_COUNTER_RESET

This denotes whether the device should NOT reset its outgoing frame counters (both NWK and APS) when sl_zigbee_set_initial_security_state() 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 SL_ZIGBEE_EXT_NO_FRAME_COUNTER_RESET field.

SL_ZIGBEE_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 sl_zigbee_set_initial_security_state() will fail.


Definition at line 2003 of file stack/include/sl_zigbee_types.h

sl_zigbee_extended_security_bitmask_t#

sl_zigbee_extended_security_bitmask_t

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

Enumerator
SL_ZIGBEE_SECURE_NETWORK_KEY_ROTATION

This denotes that the network key update can only happen if the network key update request is unicast and encrypted i.e. broadcast network key update requests will not be processed if bit 1 is set

SL_ZIGBEE_JOINER_GLOBAL_LINK_KEY

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

SL_ZIGBEE_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.

SL_ZIGBEE_NWK_LEAVE_WITHOUT_REJOIN_NOT_ALLOWED

This denotes whether a device should discard or accept network leave without rejoin commands.

SL_ZIGBEE_NWK_LEAVE_REQUEST_NOT_ALLOWED

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


Definition at line 2095 of file stack/include/sl_zigbee_types.h

sl_zigbee_current_security_bitmask_t#

sl_zigbee_current_security_bitmask_t

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

Enumerator
SL_ZIGBEE_STANDARD_SECURITY_MODE_

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

SL_ZIGBEE_DISTRIBUTED_TRUST_CENTER_MODE_

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

SL_ZIGBEE_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.

SL_ZIGBEE_HAVE_TRUST_CENTER_LINK_KEY

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

SL_ZIGBEE_TRUST_CENTER_USES_HASHED_LINK_KEY_

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


Definition at line 2223 of file stack/include/sl_zigbee_types.h

sl_zigbee_key_struct_bitmask_t#

sl_zigbee_key_struct_bitmask_t

This bitmask describes the presence of fields within the sl_zigbee_key_struct_t.

Enumerator
SL_ZIGBEE_KEY_HAS_SEQUENCE_NUMBER

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

SL_ZIGBEE_KEY_HAS_OUTGOING_FRAME_COUNTER

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

SL_ZIGBEE_KEY_HAS_INCOMING_FRAME_COUNTER

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

SL_ZIGBEE_KEY_HAS_PARTNER_EUI64

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

SL_ZIGBEE_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).

SL_ZIGBEE_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.

SL_ZIGBEE_UNCONFIRMED_TRANSIENT_KEY

This indicates that the transient key which is being added is unconfirmed. This bit is set when we add a transient key while the sl_zigbee_tc_link_key_request_policy_t is SL_ZIGBEE_ALLOW_TC_LINK_KEY_REQUEST_AND_GENERATE_NEW_KEY

SL_ZIGBEE_KEY_HAS_PSA_ID

This indicates that the actual key data is stored in PSA, and the respective PSA ID is recorded in the psa_id field.

SL_ZIGBEE_KEY_HAS_KEY_DATA

This indicates that the keyData field has valid data. On certain parts and depending on the security configuration, keys may live in secure storage and are not exportable. In such cases, keyData will not house the actual key contents.

SL_ZIGBEE_KEY_IS_AUTHENTICATION_TOKEN

This indicates that the key represents a Device Authentication Token and is not an encryption key. The Authentication token is persisted for the lifetime of the device on the network and used to validate and update the device connection. It is only removed when the device leaves or is decommissioned from the network

SL_ZIGBEE_DLK_DERIVED_KEY

This indicates that the key has been derived by the Dynamic Link Key feature.

SL_ZIGBEE_KEY_FC_SYNC_SUPPORTED

This indicates that the device this key is being used to communicate with supports the APS frame counter synchronization procedure.


Definition at line 2273 of file stack/include/sl_zigbee_types.h

sl_zigbee_key_type_t#

sl_zigbee_key_type_t

This denotes the type of security key.

Enumerator
SL_ZIGBEE_TRUST_CENTER_LINK_KEY

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

SL_ZIGBEE_CURRENT_NETWORK_KEY

This denotes that the key is the Current Network Key.

SL_ZIGBEE_NEXT_NETWORK_KEY

This denotes that the key is the Next Network Key.

SL_ZIGBEE_APPLICATION_LINK_KEY

This denotes that the key is an Application Link Key.


Definition at line 2345 of file stack/include/sl_zigbee_types.h

sl_zigbee_key_status_t#

sl_zigbee_key_status_t

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

Enumerator
SL_ZIGBEE_KEY_STATUS_NONE
SL_ZIGBEE_APP_LINK_KEY_ESTABLISHED
SL_ZIGBEE_TRUST_CENTER_LINK_KEY_ESTABLISHED
SL_ZIGBEE_KEY_ESTABLISHMENT_TIMEOUT
SL_ZIGBEE_KEY_TABLE_FULL
SL_ZIGBEE_TC_RESPONDED_TO_KEY_REQUEST
SL_ZIGBEE_TC_APP_KEY_SENT_TO_REQUESTER
SL_ZIGBEE_TC_RESPONSE_TO_KEY_REQUEST_FAILED
SL_ZIGBEE_TC_REQUEST_KEY_TYPE_NOT_SUPPORTED
SL_ZIGBEE_TC_NO_LINK_KEY_FOR_REQUESTER
SL_ZIGBEE_TC_REQUESTER_EUI64_UNKNOWN
SL_ZIGBEE_TC_RECEIVED_FIRST_APP_KEY_REQUEST
SL_ZIGBEE_TC_TIMEOUT_WAITING_FOR_SECOND_APP_KEY_REQUEST
SL_ZIGBEE_TC_NON_MATCHING_APP_KEY_REQUEST_RECEIVED
SL_ZIGBEE_TC_FAILED_TO_SEND_APP_KEYS
SL_ZIGBEE_TC_FAILED_TO_STORE_APP_KEY_REQUEST
SL_ZIGBEE_TC_REJECTED_APP_KEY_REQUEST
SL_ZIGBEE_TC_FAILED_TO_GENERATE_NEW_KEY
SL_ZIGBEE_TC_FAILED_TO_SEND_TC_KEY
SL_ZIGBEE_TRUST_CENTER_IS_PRE_R21
SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_TIMEOUT
SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_FAILURE
SL_ZIGBEE_TC_REQUESTER_VERIFY_KEY_SUCCESS
SL_ZIGBEE_VERIFY_LINK_KEY_FAILURE
SL_ZIGBEE_VERIFY_LINK_KEY_SUCCESS

Definition at line 2397 of file stack/include/sl_zigbee_types.h

sl_zigbee_tc_link_key_request_policy_t#

sl_zigbee_tc_link_key_request_policy_t

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

Enumerator
SL_ZIGBEE_DENY_TC_LINK_KEY_REQUESTS
SL_ZIGBEE_ALLOW_TC_LINK_KEY_REQUEST_AND_SEND_CURRENT_KEY
SL_ZIGBEE_ALLOW_TC_LINK_KEY_REQUEST_AND_GENERATE_NEW_KEY

Definition at line 2449 of file stack/include/sl_zigbee_types.h

sl_zigbee_app_link_key_request_policy_t#

sl_zigbee_app_link_key_request_policy_t

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

Enumerator
SL_ZIGBEE_DENY_APP_LINK_KEY_REQUESTS
SL_ZIGBEE_ALLOW_APP_LINK_KEY_REQUEST

Definition at line 2469 of file stack/include/sl_zigbee_types.h

sl_zigbee_key_settings_t#

sl_zigbee_key_settings_t

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.

Enumerator
SL_ZIGBEE_KEY_PERMISSIONS_NONE
SL_ZIGBEE_KEY_PERMISSIONS_READING_ALLOWED
SL_ZIGBEE_KEY_PERMISSIONS_HASHING_ALLOWED

Definition at line 2599 of file stack/include/sl_zigbee_types.h

sl_zigbee_duty_cycle_state_t#

sl_zigbee_duty_cycle_state_t

Duty cycle states.

Applications have no control over the state but the callback exposes state changes to the application.

Enumerator
SL_ZIGBEE_DUTY_CYCLE_TRACKING_OFF

No duty cycle tracking or metrics are taking place.

SL_ZIGBEE_DUTY_CYCLE_LBT_NORMAL

Duty Cycle is tracked and has not exceeded any thresholds.

SL_ZIGBEE_DUTY_CYCLE_LBT_LIMITED_THRESHOLD_REACHED

The limited threshold of the total duty cycle allotment was exceeded.

SL_ZIGBEE_DUTY_CYCLE_LBT_CRITICAL_THRESHOLD_REACHED

The critical threshold of the total duty cycle allotment was exceeded.

SL_ZIGBEE_DUTY_CYCLE_LBT_SUSPEND_LIMIT_REACHED

The suspend limit was reached and all outbound transmissions are blocked.


Definition at line 2645 of file stack/include/sl_zigbee_types.h

sl_zigbee_mac_passthrough_type_t#

sl_zigbee_mac_passthrough_type_t

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

Enumerator
SL_802154_PASSTHROUGH_NONE

No MAC passthrough messages.

SL_802154_PASSTHROUGH_SE_INTERPAN

SE InterPAN messages.

SL_802154_PASSTHROUGH_EMBERNET

EmberNet and first generation (v1) standalone bootloader messages.

SL_802154_PASSTHROUGH_EMBERNET_SOURCE

EmberNet messages filtered by their source address.

SL_802154_PASSTHROUGH_APPLICATION

Application-specific passthrough messages.

SL_802154_PASSTHROUGH_CUSTOM

Custom inter-pan filter.


Definition at line 2698 of file stack/include/sl_zigbee_types.h

sl_zigbee_key_contents#

uint8_t * sl_zigbee_key_contents (sl_zigbee_key_data_t * key)

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

Parameters
N/Akey

A pointer to an sl_zigbee_key_data_t structure.

Returns

  • uint8_t* Returns a pointer to the first byte of the Key data.


Definition at line 2487 of file stack/include/sl_zigbee_types.h

sl_zigbee_certificate_contents#

uint8_t * sl_zigbee_certificate_contents (sl_zigbee_certificate_data_t * cert)

Get access to the actual certificate data bytes of the sl_zigbee_certificate_data_t structure.

Parameters
N/Acert

A pointer to an sl_zigbee_certificate_data_t structure.

Returns

  • uint8_t* Returns a pointer to the first byte of the certificate data.


Definition at line 2500 of file stack/include/sl_zigbee_types.h

sl_zigbee_public_key_contents#

uint8_t * sl_zigbee_public_key_contents (sl_zigbee_public_key_data_t * key)

Get access to the actual public key data bytes of the sl_zigbee_public_key_data_t structure.

Parameters
N/Akey

A pointer to an sl_zigbee_public_key_data_t structure.

Returns

  • uint8_t* Returns a pointer to the first byte of the public key data.


Definition at line 2513 of file stack/include/sl_zigbee_types.h

sl_zigbee_private_key_contents#

uint8_t * sl_zigbee_private_key_contents (sl_zigbee_private_key_data_t * key)

Get access to the actual private key data bytes of the sl_zigbee_private_key_data_t structure.

Parameters
N/Akey

A pointer to an sl_zigbee_private_key_data_t structure.

Returns

  • uint8_t* Returns a pointer to the first byte of the private key data.


Definition at line 2526 of file stack/include/sl_zigbee_types.h

sl_zigbee_smac_contents#

uint8_t * sl_zigbee_smac_contents (sl_zigbee_smac_data_t * key)

Get access to the actual SMAC (Secured Message Authentication Code) data of the sl_zigbee_smac_data_t structure.

Parameters
N/Akey

Definition at line 2536 of file stack/include/sl_zigbee_types.h

sl_zigbee_signature_contents#

uint8_t * sl_zigbee_signature_contents (sl_zigbee_signature_data_t * sig)

Get access to the actual ECDSA signature data of the sl_zigbee_signature_data_t structure.

Parameters
N/Asig

Definition at line 2545 of file stack/include/sl_zigbee_types.h

sl_zigbee_certificate_283k1_contents#

uint8_t * sl_zigbee_certificate_283k1_contents (sl_zigbee_certificate_283k1_data_t * cert)

Get access to the actual certificate data bytes of the sl_zigbee_283k1_certificate_data_t structure.

Parameters
N/Acert

A pointer to an ::sl_zigbee_283k1_certificate_data_t structure.

Returns

  • uint8_t* Returns a pointer to the first byte of the certificate data.


Definition at line 2558 of file stack/include/sl_zigbee_types.h

sl_zigbee_public_key_283k1_contents#

uint8_t * sl_zigbee_public_key_283k1_contents (sl_zigbee_public_key_283k1_data_t * key)

Get access to the actual public key data bytes of the sl_zigbee_283k1_public_key_data_t structure.

Parameters
N/Akey

A pointer to an sl_zigbee_283k1_public_key_data_t structure.

Returns

  • uint8_t* Returns a pointer to the first byte of the public key data.


Definition at line 2571 of file stack/include/sl_zigbee_types.h

sl_zigbee_private_key_283k1_contents#

uint8_t * sl_zigbee_private_key_283k1_contents (sl_zigbee_private_key_283k1_data_t * key)

Get access to the actual private key data bytes of the sl_zigbee_283k1_private_key_data_t structure.

Parameters
N/Akey

A pointer to an sl_zigbee_283k1_private_key_data_t structure.

Returns

  • uint8_t* Returns a pointer to the first byte of the private key data.


Definition at line 2584 of file stack/include/sl_zigbee_types.h

ember283k1SignatureContents#

uint8_t * ember283k1SignatureContents (sl_zigbee_signature_283k1_data_t * sig)

Get access to the actual ECDSA signature data of the sl_zigbee_signature_283k1_data_t structure.

Parameters
N/Asig

Definition at line 2593 of file stack/include/sl_zigbee_types.h

ZDO configuration flags. Documentation#

WEAK_TEST#

#define WEAK_TEST

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


Definition at line 2842 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MAX_MAC_ONLY_COUNTERS#

#define SL_ZIGBEE_MAX_MAC_ONLY_COUNTERS
Value:
33u

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


Definition at line 2861 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MAX_NUM_PHYS#

#define SL_ZIGBEE_MAX_NUM_PHYS
Value:
2u

Defines the maximum number of PHYs supported.


Definition at line 2867 of file stack/include/sl_zigbee_types.h

PHY_INDEX_NATIVE#

#define PHY_INDEX_NATIVE
Value:
0u

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


Definition at line 2872 of file stack/include/sl_zigbee_types.h

PHY_INDEX_PRO2PLUS#

#define PHY_INDEX_PRO2PLUS
Value:
1u

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


Definition at line 2877 of file stack/include/sl_zigbee_types.h

sl_zigbee_zdo_configuration_flags_t#

sl_zigbee_zdo_configuration_flags_t

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

Enumerator
SL_ZIGBEE_APP_RECEIVES_SUPPORTED_ZDO_REQUESTS
SL_ZIGBEE_APP_HANDLES_UNSUPPORTED_ZDO_REQUESTS
SL_ZIGBEE_APP_HANDLES_ZDO_ENDPOINT_REQUESTS
SL_ZIGBEE_APP_HANDLES_ZDO_BINDING_REQUESTS

Definition at line 2818 of file stack/include/sl_zigbee_types.h

sl_zigbee_multi_phy_nwk_config_t#

sl_zigbee_multi_phy_nwk_config_t

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

Enumerator
SL_ZIGBEE_MULTI_PHY_ROUTERS_ALLOWED
SL_ZIGBEE_MULTI_PHY_BROADCASTS_ENABLED
SL_ZIGBEE_MULTI_PHY_DISABLED

Definition at line 2846 of file stack/include/sl_zigbee_types.h

sl_zigbee_beacon_classification_flags_t#

sl_zigbee_beacon_classification_flags_t

Defines beacon classification flags.

Enumerator
PRIORITIZE_BEACONS_BASED_ON_PARENT_CLASSIFICATION
PRIORITIZE_BEACONS_BASED_ON_TC_CONNECTVITY
TC_CONNECTIVITY
LONG_UPTIME
BAD_PARENT_CONNECTIVITY
PREFERRED_PARENT

Definition at line 2893 of file stack/include/sl_zigbee_types.h

sl_zigbee_entropy_source_t#

sl_zigbee_entropy_source_t

Defines the entropy source used by the stack.

Enumerator
SL_ZIGBEE_ENTROPY_SOURCE_ERROR
SL_ZIGBEE_ENTROPY_SOURCE_RADIO
SL_ZIGBEE_ENTROPY_SOURCE_MBEDTLS_TRNG
SL_ZIGBEE_ENTROPY_SOURCE_MBEDTLS

Definition at line 2916 of file stack/include/sl_zigbee_types.h

@0#

@0

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

Enumerator
SL_ZIGBEE_POLL_TIMEOUT_10_SECONDS
SL_ZIGBEE_POLL_TIMEOUT_2_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_4_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_8_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_16_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_32_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_64_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_128_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_256_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_512_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_1024_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_2048_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_4096_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_8192_MINUTES
SL_ZIGBEE_POLL_TIMEOUT_16384_MINUTES

Definition at line 2928 of file stack/include/sl_zigbee_types.h

sl_zigbee_tc_aps_encrypt_mode_t#

sl_zigbee_tc_aps_encrypt_mode_t

Defines the trust center APS encryption mode when sending a newer (alternate) network key to a device. The value settings below do not take effect when sending the initial network key during joining or rejoining.

Enumerator
TC_APS_ENCRYPT_DEFAULT

Default: don't encrypt broadcasts, encrypt unicasts

TC_APS_ENCRYPT_ENABLE

Encrypt both broadcasts and unicasts

TC_APS_ENCRYPT_DISABLE

Do not encrypt broadcasts and unicasts


Definition at line 2952 of file stack/include/sl_zigbee_types.h

sl_zigbee_radio_power_mode_t#

typedef uint8_t sl_zigbee_radio_power_mode_t

Radio power mode.


Definition at line 2882 of file stack/include/sl_zigbee_types.h

ZDO response status. Documentation#

sl_zigbee_zdo_status_t#

sl_zigbee_zdo_status_t
Enumerator
SL_ZIGBEE_ZDP_SUCCESS
SL_ZIGBEE_ZDP_INVALID_REQUEST_TYPE
SL_ZIGBEE_ZDP_DEVICE_NOT_FOUND
SL_ZIGBEE_ZDP_INVALID_ENDPOINT
SL_ZIGBEE_ZDP_NOT_ACTIVE
SL_ZIGBEE_ZDP_NOT_SUPPORTED
SL_ZIGBEE_ZDP_TIMEOUT
SL_ZIGBEE_ZDP_NO_MATCH
SL_ZIGBEE_ZDP_NO_ENTRY
SL_ZIGBEE_ZDP_NO_DESCRIPTOR
SL_ZIGBEE_ZDP_INSUFFICIENT_SPACE
SL_ZIGBEE_ZDP_NOT_PERMITTED
SL_ZIGBEE_ZDP_TABLE_FULL
SL_ZIGBEE_ZDP_NOT_AUTHORIZED
SL_ZIGBEE_ZDP_DEVICE_BINDING_TABLE_FULL
SL_ZIGBEE_ZDP_INVALID_INDEX
SL_ZIGBEE_ZDP_FRAME_TOO_LARGE
SL_ZIGBEE_ZDP_BAD_KEY_NEGOTIATION_METHOD
SL_ZIGBEE_ZDP_TEMPORARY_FAILURE
SL_ZIGBEE_APS_SECURITY_FAIL
SL_ZIGBEE_NWK_ALREADY_PRESENT
SL_ZIGBEE_NWK_TABLE_FULL
SL_ZIGBEE_NWK_UNKNOWN_DEVICE
SL_ZIGBEE_NWK_MISSING_TLV
SL_ZIGBEE_NWK_INVALID_TLV

Definition at line 2744 of file stack/include/sl_zigbee_types.h

ZDO server mask bits Documentation#

sl_zigbee_zdo_server_mask_t#

sl_zigbee_zdo_server_mask_t
Enumerator
SL_ZIGBEE_ZDP_PRIMARY_TRUST_CENTER
SL_ZIGBEE_ZDP_SECONDARY_TRUST_CENTER
SL_ZIGBEE_ZDP_PRIMARY_BINDING_TABLE_CACHE
SL_ZIGBEE_ZDP_SECONDARY_BINDING_TABLE_CACHE
SL_ZIGBEE_ZDP_PRIMARY_DISCOVERY_CACHE
SL_ZIGBEE_ZDP_SECONDARY_DISCOVERY_CACHE

DEPRECATED

SL_ZIGBEE_ZDP_NETWORK_MANAGER

DEPRECATED


Definition at line 2789 of file stack/include/sl_zigbee_types.h

Macro Definition Documentation#

SIGNED_ENUM#

#define SIGNED_ENUM

Definition at line 24 of file stack/include/sl_zigbee_types.h

MAX_IPC_VEC_ARG_CAPACITY#

#define MAX_IPC_VEC_ARG_CAPACITY
Value:
127

Definition at line 30 of file stack/include/sl_zigbee_types.h

SL_ZIGBEE_MIN_BROADCAST_ADDRESS#

#define SL_ZIGBEE_MIN_BROADCAST_ADDRESS
Value:
0xFFF8u

Definition at line 562 of file stack/include/sl_zigbee_types.h

sl_zigbee_is_zigbee_broadcast_address#

#define sl_zigbee_is_zigbee_broadcast_address
Value:
(address)

Returns true if nodeId (short address) is a broadcast address.


Definition at line 567 of file stack/include/sl_zigbee_types.h

MANUFACTURING_STRING_SIZE#

#define MANUFACTURING_STRING_SIZE
Value:
16

Definition at line 3273 of file stack/include/sl_zigbee_types.h

Enumeration Documentation#

sl_zigbee_node_type_t#

sl_zigbee_node_type_t

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

Enumerator
SL_ZIGBEE_UNKNOWN_DEVICE

The device is not joined.

SL_ZIGBEE_DEVICE_TYPE_UNCHANGED

Device type has not changed since last join.

SL_ZIGBEE_COORDINATOR

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

SL_ZIGBEE_ROUTER

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

SL_ZIGBEE_END_DEVICE

Communicates only with its parent and will not relay messages.

SL_ZIGBEE_SLEEPY_END_DEVICE

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

SL_ZIGBEE_S2S_INITIATOR_DEVICE

Sleepy end device which transmits with wake up frames (CSL).

SL_ZIGBEE_S2S_TARGET_DEVICE

Sleepy end device which duty cycles the radio Rx (CSL).


Definition at line 575 of file stack/include/sl_zigbee_types.h

sl_zigbee_end_device_configuration_t#

sl_zigbee_end_device_configuration_t

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

Enumerator
SL_ZIGBEE_END_DEVICE_CONFIG_NONE
SL_ZIGBEE_END_DEVICE_CONFIG_PERSIST_DATA_ON_PARENT

Definition at line 605 of file stack/include/sl_zigbee_types.h

sl_zigbee_network_init_bitmask_t#

sl_zigbee_network_init_bitmask_t

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

Enumerator
SL_ZIGBEE_NETWORK_INIT_NO_OPTIONS
SL_ZIGBEE_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.

SL_ZIGBEE_NETWORK_INIT_END_DEVICE_REJOIN_ON_REBOOT

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


Definition at line 632 of file stack/include/sl_zigbee_types.h

sl_zigbee_aps_rejoin_mode_t#

sl_zigbee_aps_rejoin_mode_t

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

Enumerator
NO_REJOIN
REJOIN_ANY_LINK_KEY
REJOIN_NON_DEFAULT_LINK_KEY

Definition at line 696 of file stack/include/sl_zigbee_types.h

sl_zigbee_aps_option_t#

sl_zigbee_aps_option_t

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
SL_ZIGBEE_APS_OPTION_NONE

No options.

SL_ZIGBEE_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 sl_zigbee_dsa_sign_handler() 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 sl_zigbee_dsa_sign() or the dsaSign EZSP command for more details about this requirement.

SL_ZIGBEE_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.

SL_ZIGBEE_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.

SL_ZIGBEE_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.

SL_ZIGBEE_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.

SL_ZIGBEE_APS_OPTION_SOURCE_EUI64

Include the source EUI64 in the network frame.

SL_ZIGBEE_APS_OPTION_DESTINATION_EUI64

Include the destination EUI64 in the network frame.

SL_ZIGBEE_APS_OPTION_ENABLE_ADDRESS_DISCOVERY

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

SL_ZIGBEE_APS_OPTION_POLL_RESPONSE

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

SL_ZIGBEE_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 sl_zigbee_incoming_message_handler() when EMBER_APPLICATION_RECEIVES_UNSUPPORTED_ZDO_REQUESTS is defined.

SL_ZIGBEE_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.


Definition at line 714 of file stack/include/sl_zigbee_types.h

sl_zigbee_incoming_message_type_t#

sl_zigbee_incoming_message_type_t

Defines the possible incoming message types.

Enumerator
SL_ZIGBEE_INCOMING_UNICAST

Unicast.

SL_ZIGBEE_INCOMING_UNICAST_REPLY

Unicast reply.

SL_ZIGBEE_INCOMING_MULTICAST

Multicast.

SL_ZIGBEE_INCOMING_MULTICAST_LOOPBACK

Multicast sent by the local device.

SL_ZIGBEE_INCOMING_BROADCAST

Broadcast.

SL_ZIGBEE_INCOMING_BROADCAST_LOOPBACK

Broadcast sent by the local device.


Definition at line 785 of file stack/include/sl_zigbee_types.h

sl_zigbee_outgoing_message_type_t#

sl_zigbee_outgoing_message_type_t

Defines the possible outgoing message types.

Enumerator
SL_ZIGBEE_OUTGOING_DIRECT

Unicast sent directly to an sl_802154_short_addr_t.

SL_ZIGBEE_OUTGOING_VIA_ADDRESS_TABLE

Unicast sent using an entry in the address table.

SL_ZIGBEE_OUTGOING_VIA_BINDING

Unicast sent using an entry in the binding table.

SL_ZIGBEE_OUTGOING_MULTICAST

Multicast message. This value is passed to sl_zigbee_message_sent_handler() only. It may not be passed to sl_zigbee_send_unicast().

SL_ZIGBEE_OUTGOING_MULTICAST_WITH_ALIAS

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

SL_ZIGBEE_OUTGOING_BROADCAST_WITH_ALIAS

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

SL_ZIGBEE_OUTGOING_BROADCAST

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


Definition at line 809 of file stack/include/sl_zigbee_types.h

sl_zigbee_zigbee_command_type_t#

sl_zigbee_zigbee_command_type_t

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
SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_RAW_MAC

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

SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_MAC_COMMAND

Describes an 802.15.4 MAC layer command.

SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_NWK

Describes a ZigBee Network layer command.

SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_APS

Describes a ZigBee Application Support layer command.

SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_ZDO

Describes a ZigBee Device Object command.

SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_ZCL

Describes a ZigBee Cluster Library command.

SL_ZIGBEE_ZIGBEE_COMMAND_TYPE_BEACON

Not a MAC command, but enumerated here for simplicity.


Definition at line 843 of file stack/include/sl_zigbee_types.h

sl_zigbee_packet_action_t#

sl_zigbee_packet_action_t

indication of the action taken on a packet

Enumerator
SL_ZIGBEE_DROP_PACKET
SL_ZIGBEE_ACCEPT_PACKET
SL_ZIGBEE_MANGLE_PACKET
SL_ZIGBEE_ACCEPT_PACKET_OVERRIDE_SECURITY

This action allows unencrypted packets to pass through the stack. We only support this action in the network layer for now. WARNING: Using this packet handler action may have serious security implications

SL_ZIGBEE_ACCEPT_PACKET_SKIP_NWK_CRYPTO

This action allows unencrypted incoming packets to skip NWK decryption as well as outgoing packets to skip NWK encryption irrespective of the encryption flag in the NWK header. We only support this action in the network layer for now.


Definition at line 867 of file stack/include/sl_zigbee_types.h

sl_zigbee_zigbee_packet_type_t#

sl_zigbee_zigbee_packet_type_t

A type of packet received by the stack.

This enum provides a way to indicate which protocol layer in the Ember stack an incoming packet is meant for, or from which protocol layer an outgoing command is being sent from.

Enumerator
SL_ZIGBEE_ZIGBEE_PACKET_TYPE_RAW_MAC

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

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_MAC_COMMAND

Describes an 802.15.4 MAC layer command.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_DATA

Describes a ZigBee Network layer data message.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_COMMAND

Describes a ZigBee Network layer command.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_APS_DATA

Describes a ZigBee Application Support layer data message.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_APS_COMMAND

Describes a ZigBee Application Support layer command.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_ZDO

Describes a ZigBee Device Object command.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_ZCL

Describes a ZigBee Cluster Library command.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_BEACON

Distinguishing between raw MAC and beacons for simplicity

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_INTERPAN

Describes a ZigBee Light Link message.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_DATA_PRE_DECRYPTION

Describes a ZigBee Network layer data message prior to (potential) decryption.

SL_ZIGBEE_ZIGBEE_PACKET_TYPE_NWK_COMMAND_PRE_DECRYPTION

Describes a ZigBee Network layer command prior to (potential) decryption.


Definition at line 896 of file stack/include/sl_zigbee_types.h

sl_zigbee_network_status_t#

sl_zigbee_network_status_t

Defines the possible join states for a node.

Enumerator
SL_ZIGBEE_NO_NETWORK

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

SL_ZIGBEE_JOINING_NETWORK

The node is currently attempting to join a network.

SL_ZIGBEE_JOINED_NETWORK

The node is joined to a network.

SL_ZIGBEE_JOINED_NETWORK_NO_PARENT

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

SL_ZIGBEE_JOINED_NETWORK_S2S_INITIATOR

The node is a Sleepy-to-Sleepy initiator

SL_ZIGBEE_JOINED_NETWORK_S2S_TARGET

The node is a Sleepy-to-Sleepy target

SL_ZIGBEE_LEAVING_NETWORK

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


Definition at line 932 of file stack/include/sl_zigbee_types.h

sl_zigbee_network_scan_type_t#

sl_zigbee_network_scan_type_t

Type for a network scan.

Enumerator
SL_ZIGBEE_ENERGY_SCAN

An energy scan scans each channel for its RSSI value.

SL_ZIGBEE_ACTIVE_SCAN

An active scan scans each channel for available networks. Use this scan type during network-steering to filter for beacons with available child capacity. The network found callback sl_zigbee_af_network_found_cb fires for all received beacons, while only beacons matching the capacity criteria and therefore viable for joining are cached

SL_ZIGBEE_START_RADIO_OFF_SCAN

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

SL_ZIGBEE_STACK_GP_CHANNEL_DELIVERY_SCAN

A green power channel delivery scan.

SL_ZIGBEE_ACTIVE_SCAN_ROUTER

An active scan scans each channel for available networks. Use this scan type during network-steering to filter for and cache beacons with available router capacity - Note that this scan type temporarily sets nodeType to SL_ZIGBEE_ROUTER for the duration of the scan process. The network found callback sl_zigbee_af_network_found_cb fires for all received beacons, while only beacons matching the capacity criteria and therefore viable for joining are cached

SL_ZIGBEE_LAST_SCAN_TYPE

Definition at line 967 of file stack/include/sl_zigbee_types.h

sl_zigbee_binding_type_t#

sl_zigbee_binding_type_t

Defines binding types.

Enumerator
SL_ZIGBEE_UNUSED_BINDING

A binding that is currently not in use.

SL_ZIGBEE_UNICAST_BINDING

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

SL_ZIGBEE_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.

SL_ZIGBEE_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.


Definition at line 995 of file stack/include/sl_zigbee_types.h

sl_zigbee_keep_alive_mode_t#

sl_zigbee_keep_alive_mode_t

Type of Ember keep alive method defining the keep alive message type that a parent accepts to prevent child aging. This is configured in a parent router and communicated and stored in an end-device.

SL_ZIGBEE_KEEP_ALIVE_SUPPORT_UNKNOWN which is initialized at end-device boot time, means parent's keep alive mechanism is unknown to end-device.

SL_802154_DATA_POLL_KEEP_ALIVE means that the parent does not need explicit keep alive messages and will use incoming mac data polls as a sign that a child should not be aged out.

SL_ZIGBEE_END_DEVICE_TIMEOUT_KEEP_ALIVE means that the parent needs explicit keep alive messages (net work timeout requests) to keep the child in its child table.

SL_ZIGBEE_KEEP_ALIVE_SUPPORT_ALL basically maps to SL_802154_DATA_POLL_KEEP_ALIVE as the preferred approach between the two.

Enumerator
SL_ZIGBEE_KEEP_ALIVE_SUPPORT_UNKNOWN
SL_802154_DATA_POLL_KEEP_ALIVE
SL_ZIGBEE_END_DEVICE_TIMEOUT_KEEP_ALIVE
SL_ZIGBEE_KEEP_ALIVE_SUPPORT_ALL

Definition at line 3013 of file stack/include/sl_zigbee_types.h

sl_zigbee_source_route_discovery_mode_t#

sl_zigbee_source_route_discovery_mode_t

Types of source route discovery modes used by the concentrator.

SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_OFF no source route discovery is scheduled SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_ON source routes discovery is scheduled, and it is triggered periodically SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_RESCHEDULE source routes discoveries are re-scheduled to be sent once immediately and then triggered periodically

Enumerator
SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_OFF

off

SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_ON

on

SL_ZIGBEE_SOURCE_ROUTE_DISCOVERY_RESCHEDULE

reschedule


Definition at line 3034 of file stack/include/sl_zigbee_types.h

sl_zigbee_transmit_priority_t#

sl_zigbee_transmit_priority_t

Packet transmit priorities in terms of getting into the MAC queue.

SL_802154_TRANSMIT_PRIORITY_HIGH High priority headers go on the front of the queue. SL_802154_TRANSMIT_PRIORITY_NORMAL Normal priority headers go on the back of the queue. SL_802154_TRANSMIT_PRIORITY_SCAN_OKAY Normally, only beacon requests and orphan notifications can be sent during a scan. They are submitted with SCAN_OKAY and go on the front of the queue. Other packets could be submitted with this priority, but it is not recommended.

Enumerator
SL_802154_TRANSMIT_PRIORITY_HIGH
SL_802154_TRANSMIT_PRIORITY_NORMAL
SL_802154_TRANSMIT_PRIORITY_SCAN_OKAY

Definition at line 3059 of file stack/include/sl_zigbee_types.h

sl_zigbee_route_record_policy_type_t#

sl_zigbee_route_record_policy_type_t

Policies for sending a route record to the concentrator.

When sending a unicast to a concentrator, the message may be preceded by a route record packet depending on the type of concentrator and the route record policy

Enumerator
ROUTE_RECORD_POLICY_ACK_BY_SOURCE_ROUTED_MESSAGE

ROUTE_RECORD_POLICY_ACK_BY_SOURCE_ROUTED_MESSAGE is the default policy A low RAM concentrator will be sent a route record ahead of any unicast A high RAM concentrator will be sent a route record ahead of any unicast until a source routed unicast is received from it.

ROUTE_RECORD_POLICY_DONT_SEND

ROUTE_RECORD_POLICY_DONT_SEND policy means that the local node never sends a route record message (Note: Non-compliant)

ROUTE_RECORD_POLICY_NO_ACK_REQUIRED

ROUTE_RECORD_POLICY_NO_ACK_REQUIRED A low RAM concentrator will be sent a route record ahead of any unicast A high RAM concentrator will be sent a route record ahead of any unicast (Note: Non-compliant)


Definition at line 3078 of file stack/include/sl_zigbee_types.h

sl_passive_ack_config_enum_t#

sl_passive_ack_config_enum_t

Passive ack config enum.

Enumerator
SL_PASSIVE_ACK_DEFAULT_CONFIG
SL_PASSIVE_ACK_DISABLE
SL_PASSIVE_ACK_THRESHOLD_WITH_REBROADCAST
SL_PASSIVE_ACK_THRESHOLD_NO_REBROADCAST
SL_PASSIVE_ACK_THRESHOLD_WITH_REBROADCAST_ALL_NODES

Definition at line 3104 of file stack/include/sl_zigbee_types.h

Typedef Documentation#

sl_zigbee_aps_duplicate_msg_entry_t#

typedef struct aps_duplicate_msg_entry sl_zigbee_aps_duplicate_msg_entry_t

represents a single entry in the APS duplicate rejection table


Definition at line 3122 of file stack/include/sl_zigbee_types.h

sl_zigbee_manufacturing_string_t#

typedef uint8_t sl_zigbee_manufacturing_string_t[MANUFACTURING_STRING_SIZE] [MANUFACTURING_STRING_SIZE]

Definition at line 3274 of file stack/include/sl_zigbee_types.h