/* packet-zbee-zcl.c * Dissector routines for the ZigBee Cluster Library (ZCL) * By Fred Fierling * Copyright 2009 Exegin Technologies Limited * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * Used Owen Kirby's packet-zbee-aps module as a template. Based * on ZigBee Cluster Library Specification document 075123r02ZB * * SPDX-License-Identifier: GPL-2.0-or-later */ /* Include Files */ #include "config.h" #include #include #include "packet-zbee.h" #include "packet-zbee-nwk.h" #include "packet-zbee-zcl.h" /************************* * Function Declarations * ************************* */ void proto_register_zbee_zcl(void); void proto_reg_handoff_zbee_zcl(void); /* Command Dissector Helpers */ static void dissect_zcl_write_attr_resp (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_config_report (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_config_report_resp (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_read_report_config (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_read_report_config_resp (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_default_resp (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset); static void dissect_zcl_discover_attr (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset); static void dissect_zcl_discover_attr_resp (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_read_attr_struct(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree, guint* offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_write_attr_struct(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree, guint* offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_write_attr_struct_resp(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree, guint* offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); static void dissect_zcl_discover_cmd_rec(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree, guint* offset); static void dissect_zcl_discover_cmd_rec_resp(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree, guint* offset); //static void dissect_zcl_discover_attr_extended_resp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); /* Helper routines */ static void dissect_zcl_attr_data_general(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint16 attr_id, guint data_type, guint16 cluster_id, guint16 mfr_code, gboolean client_attr); static void zcl_dump_data(tvbuff_t *tvb, guint offset, packet_info *pinfo, proto_tree *tree); static void dissect_zcl_array_type(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint8 elements_type, guint16 elements_num, gboolean client_attr); static void dissect_zcl_set_type(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint8 elements_type, guint16 elements_num, gboolean client_attr); static zbee_zcl_cluster_desc *zbee_zcl_get_cluster_desc(guint16 cluster_id, guint16 mfr_code); static void dissect_zcl_discover_cmd_attr_extended_resp(tvbuff_t* tvb, packet_info* pinfo _U_, proto_tree* tree, guint* offset, guint16 cluster_id, guint16 mfr_code, gboolean direction); /******************** * Global Variables * ******************** */ /* Header Field Indices. */ static int proto_zbee_zcl = -1; static int hf_zbee_zcl_fcf_frame_type = -1; static int hf_zbee_zcl_fcf_mfr_spec = -1; static int hf_zbee_zcl_fcf_dir = -1; static int hf_zbee_zcl_fcf_disable_default_resp = -1; static int hf_zbee_zcl_mfr_code = -1; static int hf_zbee_zcl_tran_seqno = -1; static int hf_zbee_zcl_cmd_id = -1; static int hf_zbee_zcl_cs_cmd_id = -1; static int hf_zbee_zcl_cmd_id_rsp = -1; static int hf_zbee_zcl_attr_id = -1; static int hf_zbee_zcl_attr_data_type = -1; static int hf_zbee_zcl_attr_access_ctrl = -1; static int hf_zbee_zcl_indicator = -1; static int hf_zbee_zcl_index = -1; static int hf_zbee_zcl_cmd_start = -1; static int hf_zbee_zcl_cmd_maxnum = -1; static int hf_zbee_zcl_attr_boolean = -1; static int hf_zbee_zcl_attr_bitmap8 = -1; static int hf_zbee_zcl_attr_bitmap16 = -1; static int hf_zbee_zcl_attr_bitmap24 = -1; static int hf_zbee_zcl_attr_bitmap32 = -1; static int hf_zbee_zcl_attr_bitmap40 = -1; static int hf_zbee_zcl_attr_bitmap48 = -1; static int hf_zbee_zcl_attr_bitmap56 = -1; static int hf_zbee_zcl_attr_bitmap64 = -1; static int hf_zbee_zcl_attr_uint8 = -1; static int hf_zbee_zcl_attr_uint16 = -1; static int hf_zbee_zcl_attr_uint24 = -1; static int hf_zbee_zcl_attr_uint32 = -1; static int hf_zbee_zcl_attr_uint40 = -1; static int hf_zbee_zcl_attr_uint48 = -1; static int hf_zbee_zcl_attr_uint56 = -1; static int hf_zbee_zcl_attr_uint64 = -1; static int hf_zbee_zcl_attr_int8 = -1; static int hf_zbee_zcl_attr_int16 = -1; static int hf_zbee_zcl_attr_int24 = -1; static int hf_zbee_zcl_attr_int32 = -1; static int hf_zbee_zcl_attr_int64 = -1; /* static int hf_zbee_zcl_attr_semi = -1; */ static int hf_zbee_zcl_attr_float = -1; static int hf_zbee_zcl_attr_double = -1; static int hf_zbee_zcl_attr_bytes = -1; static int hf_zbee_zcl_attr_minint = -1; static int hf_zbee_zcl_attr_maxint = -1; static int hf_zbee_zcl_attr_timeout = -1; static int hf_zbee_zcl_attr_cid = -1; static int hf_zbee_zcl_attr_hours = -1; static int hf_zbee_zcl_attr_mins = -1; static int hf_zbee_zcl_attr_secs = -1; static int hf_zbee_zcl_attr_csecs = -1; static int hf_zbee_zcl_attr_yy = -1; static int hf_zbee_zcl_attr_mm = -1; static int hf_zbee_zcl_attr_md = -1; static int hf_zbee_zcl_attr_wd = -1; static int hf_zbee_zcl_attr_utc = -1; static int hf_zbee_zcl_attr_status = -1; static int hf_zbee_zcl_attr_dir = -1; static int hf_zbee_zcl_attr_dis = -1; static int hf_zbee_zcl_attr_start = -1; static int hf_zbee_zcl_attr_maxnum = -1; static int hf_zbee_zcl_attr_str = -1; static int hf_zbee_zcl_attr_ostr = -1; static int hf_zbee_zcl_attr_array_elements_type = -1; static int hf_zbee_zcl_attr_array_elements_num = -1; static int hf_zbee_zcl_attr_set_elements_type = -1; static int hf_zbee_zcl_attr_set_elements_num = -1; static int hf_zbee_zcl_attr_bag_elements_type = -1; static int hf_zbee_zcl_attr_bag_elements_num = -1; /* Subtree indices. */ static gint ett_zbee_zcl = -1; static gint ett_zbee_zcl_fcf = -1; static gint ett_zbee_zcl_attr[ZBEE_ZCL_NUM_ATTR_ETT]; static gint ett_zbee_zcl_sel[ZBEE_ZCL_NUM_IND_FIELD]; static gint ett_zbee_zcl_array_elements[ZBEE_ZCL_NUM_ARRAY_ELEM_ETT]; static expert_field ei_cfg_rpt_rsp_short_non_success = EI_INIT; static expert_field ei_zbee_zero_length_element = EI_INIT; /* Dissector List. */ static dissector_table_t zbee_zcl_dissector_table; /* Global variables */ static guint16 zcl_cluster_id = -1; static guint16 zcl_mfr_code = -1; static GList *acluster_desc = NULL; /********************/ /* Field Names */ /********************/ /* Frame Type Names */ static const value_string zbee_zcl_frame_types[] = { { ZBEE_ZCL_FCF_PROFILE_WIDE, "Profile-wide" }, { ZBEE_ZCL_FCF_CLUSTER_SPEC, "Cluster-specific" }, { 0, NULL } }; /* ZCL Command Names */ static const value_string zbee_zcl_cmd_names[] = { { ZBEE_ZCL_CMD_READ_ATTR, "Read Attributes" }, { ZBEE_ZCL_CMD_READ_ATTR_RESP, "Read Attributes Response" }, { ZBEE_ZCL_CMD_WRITE_ATTR, "Write Attributes" }, { ZBEE_ZCL_CMD_WRITE_ATTR_UNDIVIDED, "Write Attributes Undivided" }, { ZBEE_ZCL_CMD_WRITE_ATTR_RESP, "Write Attributes Response" }, { ZBEE_ZCL_CMD_WRITE_ATTR_NO_RESP, "Write Attributes No Response" }, { ZBEE_ZCL_CMD_CONFIG_REPORT, "Configure Reporting" }, { ZBEE_ZCL_CMD_CONFIG_REPORT_RESP, "Configure Reporting Response" }, { ZBEE_ZCL_CMD_READ_REPORT_CONFIG, "Read Reporting Configuration" }, { ZBEE_ZCL_CMD_READ_REPORT_CONFIG_RESP, "Read Reporting Configuration Response" }, { ZBEE_ZCL_CMD_REPORT_ATTR, "Report Attributes" }, { ZBEE_ZCL_CMD_DEFAULT_RESP, "Default Response" }, { ZBEE_ZCL_CMD_DISCOVER_ATTR, "Discover Attributes" }, { ZBEE_ZCL_CMD_DISCOVER_ATTR_RESP, "Discover Attributes Response" }, { ZBEE_ZCL_CMD_READ_ATTR_STRUCT, "Read Attributes Structured" }, { ZBEE_ZCL_CMD_WRITE_ATTR_STRUCT, "Write Attributes Structured" }, { ZBEE_ZCL_CMD_WRITE_ATTR_STRUCT_RESP, "Write Attributes Structured Response" }, { ZBEE_ZCL_CMD_DISCOVER_CMDS_REC, "Discover Commands Received" }, { ZBEE_ZCL_CMD_DISCOVER_CMDS_REC_RESP, "Discover Commands Received Response" }, { 0, NULL } }; static value_string_ext zbee_zcl_cmd_names_ext = VALUE_STRING_EXT_INIT(zbee_zcl_cmd_names); /* ZCL Cluster-Specific Command Names */ static const value_string zbee_zcl_cs_cmd_names[] = { { 0, NULL } }; /* ZigBee Manufacturer Code Table */ /* Per: 053874r74, June 2021 */ const value_string zbee_mfr_code_names[] = { { ZBEE_MFG_CODE_PANASONIC_RF4CE, ZBEE_MFG_PANASONIC }, { ZBEE_MFG_CODE_SONY_RF4CE, ZBEE_MFG_SONY }, { ZBEE_MFG_CODE_SAMSUNG_RF4CE, ZBEE_MFG_SAMSUNG }, { ZBEE_MFG_CODE_PHILIPS_RF4CE, ZBEE_MFG_PHILIPS }, { ZBEE_MFG_CODE_FREESCALE_RF4CE, ZBEE_MFG_FREESCALE }, { ZBEE_MFG_CODE_OKI_SEMI_RF4CE, ZBEE_MFG_OKI_SEMI }, { ZBEE_MFG_CODE_TI_RF4CE, ZBEE_MFG_TI }, { ZBEE_MFG_CODE_CIRRONET, ZBEE_MFG_CIRRONET }, { ZBEE_MFG_CODE_CHIPCON, ZBEE_MFG_CHIPCON }, { ZBEE_MFG_CODE_EMBER, ZBEE_MFG_EMBER }, { ZBEE_MFG_CODE_NTS, ZBEE_MFG_NTS }, { ZBEE_MFG_CODE_FREESCALE, ZBEE_MFG_FREESCALE }, { ZBEE_MFG_CODE_IPCOM, ZBEE_MFG_IPCOM }, { ZBEE_MFG_CODE_SAN_JUAN, ZBEE_MFG_SAN_JUAN }, { ZBEE_MFG_CODE_TUV, ZBEE_MFG_TUV }, { ZBEE_MFG_CODE_COMPXS, ZBEE_MFG_COMPXS }, { ZBEE_MFG_CODE_BM, ZBEE_MFG_BM }, { ZBEE_MFG_CODE_AWAREPOINT, ZBEE_MFG_AWAREPOINT }, { ZBEE_MFG_CODE_PHILIPS, ZBEE_MFG_PHILIPS }, { ZBEE_MFG_CODE_LUXOFT, ZBEE_MFG_LUXOFT }, { ZBEE_MFG_CODE_KORWIN, ZBEE_MFG_KORWIN }, { ZBEE_MFG_CODE_1_RF, ZBEE_MFG_1_RF }, { ZBEE_MFG_CODE_STG, ZBEE_MFG_STG }, { ZBEE_MFG_CODE_TELEGESIS, ZBEE_MFG_TELEGESIS }, { ZBEE_MFG_CODE_VISIONIC, ZBEE_MFG_VISIONIC }, { ZBEE_MFG_CODE_INSTA, ZBEE_MFG_INSTA }, { ZBEE_MFG_CODE_ATALUM, ZBEE_MFG_ATALUM }, { ZBEE_MFG_CODE_ATMEL, ZBEE_MFG_ATMEL }, { ZBEE_MFG_CODE_DEVELCO, ZBEE_MFG_DEVELCO }, { ZBEE_MFG_CODE_HONEYWELL1, ZBEE_MFG_HONEYWELL }, { ZBEE_MFG_CODE_RADIO_PULSE, ZBEE_MFG_RADIO_PULSE }, { ZBEE_MFG_CODE_RENESAS, ZBEE_MFG_RENESAS }, { ZBEE_MFG_CODE_XANADU, ZBEE_MFG_XANADU }, { ZBEE_MFG_CODE_NEC, ZBEE_MFG_NEC }, { ZBEE_MFG_CODE_YAMATAKE, ZBEE_MFG_YAMATAKE }, { ZBEE_MFG_CODE_TENDRIL, ZBEE_MFG_TENDRIL }, { ZBEE_MFG_CODE_ASSA, ZBEE_MFG_ASSA }, { ZBEE_MFG_CODE_MAXSTREAM, ZBEE_MFG_MAXSTREAM }, { ZBEE_MFG_CODE_NEUROCOM, ZBEE_MFG_NEUROCOM }, { ZBEE_MFG_CODE_III, ZBEE_MFG_III }, { ZBEE_MFG_CODE_VANTAGE, ZBEE_MFG_VANTAGE }, { ZBEE_MFG_CODE_ICONTROL, ZBEE_MFG_ICONTROL }, { ZBEE_MFG_CODE_RAYMARINE, ZBEE_MFG_RAYMARINE }, { ZBEE_MFG_CODE_LSR, ZBEE_MFG_LSR }, { ZBEE_MFG_CODE_ONITY, ZBEE_MFG_ONITY }, { ZBEE_MFG_CODE_MONO, ZBEE_MFG_MONO }, { ZBEE_MFG_CODE_RFT, ZBEE_MFG_RFT }, { ZBEE_MFG_CODE_ITRON, ZBEE_MFG_ITRON }, { ZBEE_MFG_CODE_TRITECH, ZBEE_MFG_TRITECH }, { ZBEE_MFG_CODE_EMBEDIT, ZBEE_MFG_EMBEDIT }, { ZBEE_MFG_CODE_S3C, ZBEE_MFG_S3C }, { ZBEE_MFG_CODE_SIEMENS, ZBEE_MFG_SIEMENS }, { ZBEE_MFG_CODE_MINDTECH, ZBEE_MFG_MINDTECH }, { ZBEE_MFG_CODE_LGE, ZBEE_MFG_LGE }, { ZBEE_MFG_CODE_MITSUBISHI, ZBEE_MFG_MITSUBISHI }, { ZBEE_MFG_CODE_JOHNSON, ZBEE_MFG_JOHNSON }, { ZBEE_MFG_CODE_PRI, ZBEE_MFG_PRI }, { ZBEE_MFG_CODE_KNICK, ZBEE_MFG_KNICK }, { ZBEE_MFG_CODE_VICONICS, ZBEE_MFG_VICONICS }, { ZBEE_MFG_CODE_FLEXIPANEL, ZBEE_MFG_FLEXIPANEL }, { ZBEE_MFG_CODE_PIASIM, ZBEE_MFG_PIASIM }, { ZBEE_MFG_CODE_TRANE, ZBEE_MFG_TRANE }, { ZBEE_MFG_CODE_JENNIC, ZBEE_MFG_JENNIC }, { ZBEE_MFG_CODE_LIG, ZBEE_MFG_LIG }, { ZBEE_MFG_CODE_ALERTME, ZBEE_MFG_ALERTME }, { ZBEE_MFG_CODE_DAINTREE, ZBEE_MFG_DAINTREE }, { ZBEE_MFG_CODE_AIJI, ZBEE_MFG_AIJI }, { ZBEE_MFG_CODE_TEL_ITALIA, ZBEE_MFG_TEL_ITALIA }, { ZBEE_MFG_CODE_MIKROKRETS, ZBEE_MFG_MIKROKRETS }, { ZBEE_MFG_CODE_OKI_SEMI, ZBEE_MFG_OKI_SEMI }, { ZBEE_MFG_CODE_NEWPORT, ZBEE_MFG_NEWPORT }, { ZBEE_MFG_CODE_C4, ZBEE_MFG_C4 }, { ZBEE_MFG_CODE_STM, ZBEE_MFG_STM }, { ZBEE_MFG_CODE_ASN, ZBEE_MFG_ASN }, { ZBEE_MFG_CODE_DCSI, ZBEE_MFG_DCSI }, { ZBEE_MFG_CODE_FRANCE_TEL, ZBEE_MFG_FRANCE_TEL }, { ZBEE_MFG_CODE_MUNET, ZBEE_MFG_MUNET }, { ZBEE_MFG_CODE_AUTANI, ZBEE_MFG_AUTANI }, { ZBEE_MFG_CODE_COL_VNET, ZBEE_MFG_COL_VNET }, { ZBEE_MFG_CODE_AEROCOMM, ZBEE_MFG_AEROCOMM }, { ZBEE_MFG_CODE_SI_LABS, ZBEE_MFG_SI_LABS }, { ZBEE_MFG_CODE_INNCOM, ZBEE_MFG_INNCOM }, { ZBEE_MFG_CODE_CANNON, ZBEE_MFG_CANNON }, { ZBEE_MFG_CODE_SYNAPSE, ZBEE_MFG_SYNAPSE }, { ZBEE_MFG_CODE_FPS, ZBEE_MFG_FPS }, { ZBEE_MFG_CODE_CLS, ZBEE_MFG_CLS }, { ZBEE_MFG_CODE_CRANE, ZBEE_MFG_CRANE }, { ZBEE_MFG_CODE_MOBILARM, ZBEE_MFG_MOBILARM }, { ZBEE_MFG_CODE_IMONITOR, ZBEE_MFG_IMONITOR }, { ZBEE_MFG_CODE_BARTECH, ZBEE_MFG_BARTECH }, { ZBEE_MFG_CODE_MESHNETICS, ZBEE_MFG_MESHNETICS }, { ZBEE_MFG_CODE_LS_IND, ZBEE_MFG_LS_IND }, { ZBEE_MFG_CODE_CASON, ZBEE_MFG_CASON }, { ZBEE_MFG_CODE_WLESS_GLUE, ZBEE_MFG_WLESS_GLUE }, { ZBEE_MFG_CODE_ELSTER, ZBEE_MFG_ELSTER }, { ZBEE_MFG_CODE_SMS_TEC, ZBEE_MFG_SMS_TEC }, { ZBEE_MFG_CODE_ONSET, ZBEE_MFG_ONSET }, { ZBEE_MFG_CODE_RIGA, ZBEE_MFG_RIGA }, { ZBEE_MFG_CODE_ENERGATE, ZBEE_MFG_ENERGATE }, { ZBEE_MFG_CODE_CONMED, ZBEE_MFG_CONMED }, { ZBEE_MFG_CODE_POWERMAND, ZBEE_MFG_POWERMAND }, { ZBEE_MFG_CODE_SCHNEIDER, ZBEE_MFG_SCHNEIDER }, { ZBEE_MFG_CODE_EATON, ZBEE_MFG_EATON }, { ZBEE_MFG_CODE_TELULAR, ZBEE_MFG_TELULAR }, { ZBEE_MFG_CODE_DELPHI, ZBEE_MFG_DELPHI }, { ZBEE_MFG_CODE_EPISENSOR, ZBEE_MFG_EPISENSOR }, { ZBEE_MFG_CODE_LANDIS_GYR, ZBEE_MFG_LANDIS_GYR }, { ZBEE_MFG_CODE_KABA, ZBEE_MFG_KABA }, { ZBEE_MFG_CODE_SHURE, ZBEE_MFG_SHURE }, { ZBEE_MFG_CODE_COMVERGE, ZBEE_MFG_COMVERGE }, { ZBEE_MFG_CODE_DBS_LODGING, ZBEE_MFG_DBS_LODGING }, { ZBEE_MFG_CODE_ENERGY_AWARE, ZBEE_MFG_ENERGY_AWARE }, { ZBEE_MFG_CODE_HIDALGO, ZBEE_MFG_HIDALGO }, { ZBEE_MFG_CODE_AIR2APP, ZBEE_MFG_AIR2APP }, { ZBEE_MFG_CODE_AMX, ZBEE_MFG_AMX }, { ZBEE_MFG_CODE_EDMI, ZBEE_MFG_EDMI }, { ZBEE_MFG_CODE_CYAN, ZBEE_MFG_CYAN }, { ZBEE_MFG_CODE_SYS_SPA, ZBEE_MFG_SYS_SPA }, { ZBEE_MFG_CODE_TELIT, ZBEE_MFG_TELIT }, { ZBEE_MFG_CODE_KAGA, ZBEE_MFG_KAGA }, { ZBEE_MFG_CODE_4_NOKS, ZBEE_MFG_4_NOKS }, { ZBEE_MFG_CODE_CERTICOM, ZBEE_MFG_CERTICOM }, { ZBEE_MFG_CODE_GRIDPOINT, ZBEE_MFG_GRIDPOINT }, { ZBEE_MFG_CODE_PROFILE_SYS, ZBEE_MFG_PROFILE_SYS }, { ZBEE_MFG_CODE_COMPACTA, ZBEE_MFG_COMPACTA }, { ZBEE_MFG_CODE_FREESTYLE, ZBEE_MFG_FREESTYLE }, { ZBEE_MFG_CODE_ALEKTRONA, ZBEE_MFG_ALEKTRONA }, { ZBEE_MFG_CODE_COMPUTIME, ZBEE_MFG_COMPUTIME }, { ZBEE_MFG_CODE_REMOTE_TECH, ZBEE_MFG_REMOTE_TECH }, { ZBEE_MFG_CODE_WAVECOM, ZBEE_MFG_WAVECOM }, { ZBEE_MFG_CODE_ENERGY, ZBEE_MFG_ENERGY }, { ZBEE_MFG_CODE_GE, ZBEE_MFG_GE }, { ZBEE_MFG_CODE_JETLUN, ZBEE_MFG_JETLUN }, { ZBEE_MFG_CODE_CIPHER, ZBEE_MFG_CIPHER }, { ZBEE_MFG_CODE_CORPORATE, ZBEE_MFG_CORPORATE }, { ZBEE_MFG_CODE_ECOBEE, ZBEE_MFG_ECOBEE }, { ZBEE_MFG_CODE_SMK, ZBEE_MFG_SMK }, { ZBEE_MFG_CODE_MESHWORKS, ZBEE_MFG_MESHWORKS }, { ZBEE_MFG_CODE_ELLIPS, ZBEE_MFG_ELLIPS }, { ZBEE_MFG_CODE_SECURE, ZBEE_MFG_SECURE }, { ZBEE_MFG_CODE_CEDO, ZBEE_MFG_CEDO }, { ZBEE_MFG_CODE_TOSHIBA, ZBEE_MFG_TOSHIBA }, { ZBEE_MFG_CODE_DIGI, ZBEE_MFG_DIGI }, { ZBEE_MFG_CODE_UBILOGIX, ZBEE_MFG_UBILOGIX }, { ZBEE_MFG_CODE_ECHELON, ZBEE_MFG_ECHELON }, { ZBEE_MFG_CODE_GREEN_ENERGY, ZBEE_MFG_GREEN_ENERGY }, { ZBEE_MFG_CODE_SILVER_SPRING, ZBEE_MFG_SILVER_SPRING }, { ZBEE_MFG_CODE_BLACK, ZBEE_MFG_BLACK }, { ZBEE_MFG_CODE_AZTECH_ASSOC, ZBEE_MFG_AZTECH_ASSOC }, { ZBEE_MFG_CODE_A_AND_D, ZBEE_MFG_A_AND_D }, { ZBEE_MFG_CODE_RAINFOREST, ZBEE_MFG_RAINFOREST }, { ZBEE_MFG_CODE_CARRIER, ZBEE_MFG_CARRIER }, { ZBEE_MFG_CODE_SYCHIP, ZBEE_MFG_SYCHIP }, { ZBEE_MFG_CODE_OPEN_PEAK, ZBEE_MFG_OPEN_PEAK }, { ZBEE_MFG_CODE_PASSIVE, ZBEE_MFG_PASSIVE }, { ZBEE_MFG_CODE_MMB, ZBEE_MFG_MMB }, { ZBEE_MFG_CODE_LEVITON, ZBEE_MFG_LEVITON }, { ZBEE_MFG_CODE_KOREA_ELEC, ZBEE_MFG_KOREA_ELEC }, { ZBEE_MFG_CODE_COMCAST1, ZBEE_MFG_COMCAST }, { ZBEE_MFG_CODE_NEC_ELEC, ZBEE_MFG_NEC_ELEC }, { ZBEE_MFG_CODE_NETVOX, ZBEE_MFG_NETVOX }, { ZBEE_MFG_CODE_UCONTROL, ZBEE_MFG_UCONTROL }, { ZBEE_MFG_CODE_EMBEDIA, ZBEE_MFG_EMBEDIA }, { ZBEE_MFG_CODE_SENSUS, ZBEE_MFG_SENSUS }, { ZBEE_MFG_CODE_SUNRISE, ZBEE_MFG_SUNRISE }, { ZBEE_MFG_CODE_MEMTECH, ZBEE_MFG_MEMTECH }, { ZBEE_MFG_CODE_FREEBOX, ZBEE_MFG_FREEBOX }, { ZBEE_MFG_CODE_M2_LABS, ZBEE_MFG_M2_LABS }, { ZBEE_MFG_CODE_BRITISH_GAS, ZBEE_MFG_BRITISH_GAS }, { ZBEE_MFG_CODE_SENTEC, ZBEE_MFG_SENTEC }, { ZBEE_MFG_CODE_NAVETAS, ZBEE_MFG_NAVETAS }, { ZBEE_MFG_CODE_LIGHTSPEED, ZBEE_MFG_LIGHTSPEED }, { ZBEE_MFG_CODE_OKI, ZBEE_MFG_OKI }, { ZBEE_MFG_CODE_SISTEMAS, ZBEE_MFG_SISTEMAS }, { ZBEE_MFG_CODE_DOMETIC, ZBEE_MFG_DOMETIC }, { ZBEE_MFG_CODE_APLS, ZBEE_MFG_APLS }, { ZBEE_MFG_CODE_ENERGY_HUB, ZBEE_MFG_ENERGY_HUB }, { ZBEE_MFG_CODE_KAMSTRUP, ZBEE_MFG_KAMSTRUP }, { ZBEE_MFG_CODE_ECHOSTAR, ZBEE_MFG_ECHOSTAR }, { ZBEE_MFG_CODE_ENERNOC, ZBEE_MFG_ENERNOC }, { ZBEE_MFG_CODE_ELTAV, ZBEE_MFG_ELTAV }, { ZBEE_MFG_CODE_BELKIN, ZBEE_MFG_BELKIN }, { ZBEE_MFG_CODE_XSTREAMHD, ZBEE_MFG_XSTREAMHD }, { ZBEE_MFG_CODE_SATURN_SOUTH, ZBEE_MFG_SATURN_SOUTH }, { ZBEE_MFG_CODE_GREENTRAP, ZBEE_MFG_GREENTRAP }, { ZBEE_MFG_CODE_SMARTSYNCH, ZBEE_MFG_SMARTSYNCH }, { ZBEE_MFG_CODE_NYCE, ZBEE_MFG_NYCE }, { ZBEE_MFG_CODE_ICM_CONTROLS, ZBEE_MFG_ICM_CONTROLS }, { ZBEE_MFG_CODE_MILLENNIUM, ZBEE_MFG_MILLENNIUM }, { ZBEE_MFG_CODE_MOTOROLA, ZBEE_MFG_MOTOROLA }, { ZBEE_MFG_CODE_EMERSON, ZBEE_MFG_EMERSON }, { ZBEE_MFG_CODE_RADIO_THERMOSTAT, ZBEE_MFG_RADIO_THERMOSTAT }, { ZBEE_MFG_CODE_OMRON, ZBEE_MFG_OMRON }, { ZBEE_MFG_CODE_GIINII, ZBEE_MFG_GIINII }, { ZBEE_MFG_CODE_FUJITSU, ZBEE_MFG_FUJITSU }, { ZBEE_MFG_CODE_PEEL, ZBEE_MFG_PEEL }, { ZBEE_MFG_CODE_ACCENT, ZBEE_MFG_ACCENT }, { ZBEE_MFG_CODE_BYTESNAP, ZBEE_MFG_BYTESNAP }, { ZBEE_MFG_CODE_NEC_TOKIN, ZBEE_MFG_NEC_TOKIN }, { ZBEE_MFG_CODE_G4S_JUSTICE, ZBEE_MFG_G4S_JUSTICE }, { ZBEE_MFG_CODE_TRILLIANT, ZBEE_MFG_TRILLIANT }, { ZBEE_MFG_CODE_ELECTROLUX, ZBEE_MFG_ELECTROLUX }, { ZBEE_MFG_CODE_ONZO, ZBEE_MFG_ONZO }, { ZBEE_MFG_CODE_ENTEK, ZBEE_MFG_ENTEK }, { ZBEE_MFG_CODE_PHILIPS2, ZBEE_MFG_PHILIPS }, { ZBEE_MFG_CODE_MAINSTREAM, ZBEE_MFG_MAINSTREAM }, { ZBEE_MFG_CODE_INDESIT, ZBEE_MFG_INDESIT }, { ZBEE_MFG_CODE_THINKECO, ZBEE_MFG_THINKECO }, { ZBEE_MFG_CODE_2D2C, ZBEE_MFG_2D2C }, { ZBEE_MFG_CODE_GREENPEAK, ZBEE_MFG_GREENPEAK }, { ZBEE_MFG_CODE_INTERCEL, ZBEE_MFG_INTERCEL }, { ZBEE_MFG_CODE_LG, ZBEE_MFG_LG }, { ZBEE_MFG_CODE_MITSUMI1, ZBEE_MFG_MITSUMI1 }, { ZBEE_MFG_CODE_MITSUMI2, ZBEE_MFG_MITSUMI2 }, { ZBEE_MFG_CODE_ZENTRUM, ZBEE_MFG_ZENTRUM }, { ZBEE_MFG_CODE_NEST, ZBEE_MFG_NEST }, { ZBEE_MFG_CODE_EXEGIN, ZBEE_MFG_EXEGIN }, { ZBEE_MFG_CODE_HONEYWELL2, ZBEE_MFG_HONEYWELL }, { ZBEE_MFG_CODE_TAKAHATA, ZBEE_MFG_TAKAHATA }, { ZBEE_MFG_CODE_SUMITOMO, ZBEE_MFG_SUMITOMO }, { ZBEE_MFG_CODE_GE_ENERGY, ZBEE_MFG_GE_ENERGY }, { ZBEE_MFG_CODE_GE_APPLIANCES, ZBEE_MFG_GE_APPLIANCES }, { ZBEE_MFG_CODE_RADIOCRAFTS, ZBEE_MFG_RADIOCRAFTS }, { ZBEE_MFG_CODE_CEIVA, ZBEE_MFG_CEIVA }, { ZBEE_MFG_CODE_TEC_CO, ZBEE_MFG_TEC_CO }, { ZBEE_MFG_CODE_CHAMELEON, ZBEE_MFG_CHAMELEON }, { ZBEE_MFG_CODE_SAMSUNG, ZBEE_MFG_SAMSUNG }, { ZBEE_MFG_CODE_RUWIDO, ZBEE_MFG_RUWIDO }, { ZBEE_MFG_CODE_HUAWEI_1, ZBEE_MFG_HUAWEI }, { ZBEE_MFG_CODE_HUAWEI_2, ZBEE_MFG_HUAWEI }, { ZBEE_MFG_CODE_GREENWAVE, ZBEE_MFG_GREENWAVE }, { ZBEE_MFG_CODE_BGLOBAL, ZBEE_MFG_BGLOBAL }, { ZBEE_MFG_CODE_MINDTECK, ZBEE_MFG_MINDTECK }, { ZBEE_MFG_CODE_INGERSOLL_RAND, ZBEE_MFG_INGERSOLL_RAND }, { ZBEE_MFG_CODE_DIUS, ZBEE_MFG_DIUS }, { ZBEE_MFG_CODE_EMBEDDED, ZBEE_MFG_EMBEDDED }, { ZBEE_MFG_CODE_ABB, ZBEE_MFG_ABB }, { ZBEE_MFG_CODE_SONY, ZBEE_MFG_SONY }, { ZBEE_MFG_CODE_GENUS, ZBEE_MFG_GENUS }, { ZBEE_MFG_CODE_UNIVERSAL1, ZBEE_MFG_UNIVERSAL }, { ZBEE_MFG_CODE_UNIVERSAL2, ZBEE_MFG_UNIVERSAL }, { ZBEE_MFG_CODE_METRUM, ZBEE_MFG_METRUM }, { ZBEE_MFG_CODE_CISCO, ZBEE_MFG_CISCO }, { ZBEE_MFG_CODE_UBISYS, ZBEE_MFG_UBISYS }, { ZBEE_MFG_CODE_CONSERT, ZBEE_MFG_CONSERT }, { ZBEE_MFG_CODE_CRESTRON, ZBEE_MFG_CRESTRON }, { ZBEE_MFG_CODE_ENPHASE, ZBEE_MFG_ENPHASE }, { ZBEE_MFG_CODE_INVENSYS, ZBEE_MFG_INVENSYS }, { ZBEE_MFG_CODE_MUELLER, ZBEE_MFG_MUELLER }, { ZBEE_MFG_CODE_AAC_TECH, ZBEE_MFG_AAC_TECH }, { ZBEE_MFG_CODE_U_NEXT, ZBEE_MFG_U_NEXT }, { ZBEE_MFG_CODE_STEELCASE, ZBEE_MFG_STEELCASE }, { ZBEE_MFG_CODE_TELEMATICS, ZBEE_MFG_TELEMATICS }, { ZBEE_MFG_CODE_SAMIL, ZBEE_MFG_SAMIL }, { ZBEE_MFG_CODE_PACE, ZBEE_MFG_PACE }, { ZBEE_MFG_CODE_OSBORNE, ZBEE_MFG_OSBORNE }, { ZBEE_MFG_CODE_POWERWATCH, ZBEE_MFG_POWERWATCH }, { ZBEE_MFG_CODE_CANDELED, ZBEE_MFG_CANDELED }, { ZBEE_MFG_CODE_FLEXGRID, ZBEE_MFG_FLEXGRID }, { ZBEE_MFG_CODE_HUMAX, ZBEE_MFG_HUMAX }, { ZBEE_MFG_CODE_UNIVERSAL, ZBEE_MFG_UNIVERSAL }, { ZBEE_MFG_CODE_ADVANCED_ENERGY, ZBEE_MFG_ADVANCED_ENERGY }, { ZBEE_MFG_CODE_BEGA, ZBEE_MFG_BEGA }, { ZBEE_MFG_CODE_BRUNEL, ZBEE_MFG_BRUNEL }, { ZBEE_MFG_CODE_PANASONIC, ZBEE_MFG_PANASONIC }, { ZBEE_MFG_CODE_ESYSTEMS, ZBEE_MFG_ESYSTEMS }, { ZBEE_MFG_CODE_PANAMAX, ZBEE_MFG_PANAMAX }, { ZBEE_MFG_CODE_PHYSICAL, ZBEE_MFG_PHYSICAL }, { ZBEE_MFG_CODE_EM_LITE, ZBEE_MFG_EM_LITE }, { ZBEE_MFG_CODE_OSRAM, ZBEE_MFG_OSRAM }, { ZBEE_MFG_CODE_2_SAVE, ZBEE_MFG_2_SAVE }, { ZBEE_MFG_CODE_PLANET, ZBEE_MFG_PLANET }, { ZBEE_MFG_CODE_AMBIENT, ZBEE_MFG_AMBIENT }, { ZBEE_MFG_CODE_PROFALUX, ZBEE_MFG_PROFALUX }, { ZBEE_MFG_CODE_BILLION, ZBEE_MFG_BILLION }, { ZBEE_MFG_CODE_EMBERTEC, ZBEE_MFG_EMBERTEC }, { ZBEE_MFG_CODE_IT_WATCHDOGS, ZBEE_MFG_IT_WATCHDOGS }, { ZBEE_MFG_CODE_RELOC, ZBEE_MFG_RELOC }, { ZBEE_MFG_CODE_INTEL, ZBEE_MFG_INTEL }, { ZBEE_MFG_CODE_TREND, ZBEE_MFG_TREND }, { ZBEE_MFG_CODE_MOXA, ZBEE_MFG_MOXA }, { ZBEE_MFG_CODE_QEES, ZBEE_MFG_QEES }, { ZBEE_MFG_CODE_SAYME, ZBEE_MFG_SAYME }, { ZBEE_MFG_CODE_PENTAIR, ZBEE_MFG_PENTAIR }, { ZBEE_MFG_CODE_ORBIT, ZBEE_MFG_ORBIT }, { ZBEE_MFG_CODE_CALIFORNIA, ZBEE_MFG_CALIFORNIA }, { ZBEE_MFG_CODE_COMCAST2, ZBEE_MFG_COMCAST }, { ZBEE_MFG_CODE_IDT, ZBEE_MFG_IDT }, { ZBEE_MFG_CODE_PIXELA, ZBEE_MFG_PIXELA }, { ZBEE_MFG_CODE_TIVO, ZBEE_MFG_TIVO }, { ZBEE_MFG_CODE_FIDURE, ZBEE_MFG_FIDURE }, { ZBEE_MFG_CODE_MARVELL, ZBEE_MFG_MARVELL }, { ZBEE_MFG_CODE_WASION, ZBEE_MFG_WASION }, { ZBEE_MFG_CODE_JASCO, ZBEE_MFG_JASCO }, { ZBEE_MFG_CODE_SHENZHEN, ZBEE_MFG_SHENZHEN }, { ZBEE_MFG_CODE_NETCOMM, ZBEE_MFG_NETCOMM }, { ZBEE_MFG_CODE_DEFINE, ZBEE_MFG_DEFINE }, { ZBEE_MFG_CODE_IN_HOME_DISP, ZBEE_MFG_IN_HOME_DISP }, { ZBEE_MFG_CODE_MIELE, ZBEE_MFG_MIELE }, { ZBEE_MFG_CODE_TELEVES, ZBEE_MFG_TELEVES }, { ZBEE_MFG_CODE_LABELEC, ZBEE_MFG_LABELEC }, { ZBEE_MFG_CODE_CHINA_ELEC, ZBEE_MFG_CHINA_ELEC }, { ZBEE_MFG_CODE_VECTORFORM, ZBEE_MFG_VECTORFORM }, { ZBEE_MFG_CODE_BUSCH_JAEGER, ZBEE_MFG_BUSCH_JAEGER }, { ZBEE_MFG_CODE_REDPINE, ZBEE_MFG_REDPINE }, { ZBEE_MFG_CODE_BRIDGES, ZBEE_MFG_BRIDGES }, { ZBEE_MFG_CODE_SERCOMM, ZBEE_MFG_SERCOMM }, { ZBEE_MFG_CODE_WSH, ZBEE_MFG_WSH }, { ZBEE_MFG_CODE_BOSCH, ZBEE_MFG_BOSCH }, { ZBEE_MFG_CODE_EZEX, ZBEE_MFG_EZEX }, { ZBEE_MFG_CODE_DRESDEN, ZBEE_MFG_DRESDEN }, { ZBEE_MFG_CODE_MEAZON, ZBEE_MFG_MEAZON }, { ZBEE_MFG_CODE_CROW, ZBEE_MFG_CROW }, { ZBEE_MFG_CODE_HARVARD, ZBEE_MFG_HARVARD }, { ZBEE_MFG_CODE_ANDSON, ZBEE_MFG_ANDSON }, { ZBEE_MFG_CODE_ADHOCO, ZBEE_MFG_ADHOCO }, { ZBEE_MFG_CODE_WAXMAN, ZBEE_MFG_WAXMAN }, { ZBEE_MFG_CODE_OWON, ZBEE_MFG_OWON }, { ZBEE_MFG_CODE_HITRON, ZBEE_MFG_HITRON }, { ZBEE_MFG_CODE_SCEMTEC, ZBEE_MFG_SCEMTEC }, { ZBEE_MFG_CODE_WEBEE, ZBEE_MFG_WEBEE }, { ZBEE_MFG_CODE_GRID2HOME, ZBEE_MFG_GRID2HOME }, { ZBEE_MFG_CODE_TELINK, ZBEE_MFG_TELINK }, { ZBEE_MFG_CODE_JASMINE, ZBEE_MFG_JASMINE }, { ZBEE_MFG_CODE_BIDGELY, ZBEE_MFG_BIDGELY }, { ZBEE_MFG_CODE_LUTRON, ZBEE_MFG_LUTRON }, { ZBEE_MFG_CODE_IJENKO, ZBEE_MFG_IJENKO }, { ZBEE_MFG_CODE_STARFIELD, ZBEE_MFG_STARFIELD }, { ZBEE_MFG_CODE_TCP, ZBEE_MFG_TCP }, { ZBEE_MFG_CODE_ROGERS, ZBEE_MFG_ROGERS }, { ZBEE_MFG_CODE_CREE, ZBEE_MFG_CREE }, { ZBEE_MFG_CODE_ROBERT_BOSCH_LLC, ZBEE_MFG_ROBERT_BOSCH_LLC }, { ZBEE_MFG_CODE_IBIS, ZBEE_MFG_IBIS }, { ZBEE_MFG_CODE_QUIRKY, ZBEE_MFG_QUIRKY }, { ZBEE_MFG_CODE_EFERGY, ZBEE_MFG_EFERGY }, { ZBEE_MFG_CODE_SMARTLABS, ZBEE_MFG_SMARTLABS }, { ZBEE_MFG_CODE_EVERSPRING, ZBEE_MFG_EVERSPRING }, { ZBEE_MFG_CODE_SWANN, ZBEE_MFG_SWANN }, { ZBEE_MFG_CODE_SONETER, ZBEE_MFG_SONETER }, { ZBEE_MFG_CODE_SAMSUNG_SDS, ZBEE_MFG_SAMSUNG_SDS }, { ZBEE_MFG_CODE_UNIBAND_ELECTRO, ZBEE_MFG_UNIBAND_ELECTRO }, { ZBEE_MFG_CODE_ACCTON_TECHNOLOGY, ZBEE_MFG_ACCTON_TECHNOLOGY }, { ZBEE_MFG_CODE_BOSCH_THERMOTECH, ZBEE_MFG_BOSCH_THERMOTECH }, { ZBEE_MFG_CODE_WINCOR_NIXDORF, ZBEE_MFG_WINCOR_NIXDORF }, { ZBEE_MFG_CODE_OHSUNG_ELECTRO, ZBEE_MFG_OHSUNG_ELECTRO }, { ZBEE_MFG_CODE_ZEN_WITHIN, ZBEE_MFG_ZEN_WITHIN }, { ZBEE_MFG_CODE_TECH_4_HOME, ZBEE_MFG_TECH_4_HOME }, { ZBEE_MFG_CODE_NANOLEAF, ZBEE_MFG_NANOLEAF }, { ZBEE_MFG_CODE_KEEN_HOME, ZBEE_MFG_KEEN_HOME }, { ZBEE_MFG_CODE_POLY_CONTROL, ZBEE_MFG_POLY_CONTROL }, { ZBEE_MFG_CODE_EASTFIELD_LIGHT, ZBEE_MFG_EASTFIELD_LIGHT }, { ZBEE_MFG_CODE_IP_DATATEL, ZBEE_MFG_IP_DATATEL }, { ZBEE_MFG_CODE_LUMI_UNITED_TECH, ZBEE_MFG_LUMI_UNITED_TECH }, { ZBEE_MFG_CODE_SENGLED_OPTOELEC, ZBEE_MFG_SENGLED_OPTOELEC }, { ZBEE_MFG_CODE_REMOTE_SOLUTION, ZBEE_MFG_REMOTE_SOLUTION }, { ZBEE_MFG_CODE_ABB_GENWAY_XIAMEN, ZBEE_MFG_ABB_GENWAY_XIAMEN }, { ZBEE_MFG_CODE_ZHEJIANG_REXENSE, ZBEE_MFG_ZHEJIANG_REXENSE }, { ZBEE_MFG_CODE_FOREE_TECHNOLOGY, ZBEE_MFG_FOREE_TECHNOLOGY }, { ZBEE_MFG_CODE_OPEN_ACCESS_TECH, ZBEE_MFG_OPEN_ACCESS_TECH }, { ZBEE_MFG_CODE_INNR_LIGHTNING, ZBEE_MFG_INNR_LIGHTNING }, { ZBEE_MFG_CODE_TECHWORLD, ZBEE_MFG_TECHWORLD }, { ZBEE_MFG_CODE_LEEDARSON_LIGHT, ZBEE_MFG_LEEDARSON_LIGHT }, { ZBEE_MFG_CODE_ARZEL_ZONING, ZBEE_MFG_ARZEL_ZONING }, { ZBEE_MFG_CODE_HOLLEY_TECH, ZBEE_MFG_HOLLEY_TECH }, { ZBEE_MFG_CODE_BELDON_TECH, ZBEE_MFG_BELDON_TECH }, { ZBEE_MFG_CODE_FLEXTRONICS, ZBEE_MFG_FLEXTRONICS }, { ZBEE_MFG_CODE_SHENZHEN_MEIAN, ZBEE_MFG_SHENZHEN_MEIAN }, { ZBEE_MFG_CODE_LOWES, ZBEE_MFG_LOWES }, { ZBEE_MFG_CODE_SIGMA_CONNECT, ZBEE_MFG_SIGMA_CONNECT }, { ZBEE_MFG_CODE_WULIAN, ZBEE_MFG_WULIAN }, { ZBEE_MFG_CODE_PLUGWISE_BV, ZBEE_MFG_PLUGWISE_BV }, { ZBEE_MFG_CODE_TITAN_PRODUCTS, ZBEE_MFG_TITAN_PRODUCTS }, { ZBEE_MFG_CODE_ECOSPECTRAL, ZBEE_MFG_ECOSPECTRAL }, { ZBEE_MFG_CODE_D_LINK, ZBEE_MFG_D_LINK }, { ZBEE_MFG_CODE_TECHNICOLOR_HOME, ZBEE_MFG_TECHNICOLOR_HOME }, { ZBEE_MFG_CODE_OPPLE_LIGHTING, ZBEE_MFG_OPPLE_LIGHTING }, { ZBEE_MFG_CODE_WISTRON_NEWEB, ZBEE_MFG_WISTRON_NEWEB }, { ZBEE_MFG_CODE_QMOTION_SHADES, ZBEE_MFG_QMOTION_SHADES }, { ZBEE_MFG_CODE_INSTA_ELEKTRO, ZBEE_MFG_INSTA_ELEKTRO }, { ZBEE_MFG_CODE_SHANGHAI_VANCOUNT, ZBEE_MFG_SHANGHAI_VANCOUNT }, { ZBEE_MFG_CODE_IKEA_OF_SWEDEN, ZBEE_MFG_IKEA_OF_SWEDEN }, { ZBEE_MFG_CODE_RT_RK, ZBEE_MFG_RT_RK }, { ZBEE_MFG_CODE_SHENZHEN_FEIBIT, ZBEE_MFG_SHENZHEN_FEIBIT }, { ZBEE_MFG_CODE_EU_CONTROLS, ZBEE_MFG_EU_CONTROLS }, { ZBEE_MFG_CODE_TELKONET, ZBEE_MFG_TELKONET }, { ZBEE_MFG_CODE_THERMAL_SOLUTION, ZBEE_MFG_THERMAL_SOLUTION }, { ZBEE_MFG_CODE_POM_CUBE, ZBEE_MFG_POM_CUBE }, { ZBEE_MFG_CODE_EI_ELECTRONICS, ZBEE_MFG_EI_ELECTRONICS }, { ZBEE_MFG_CODE_OPTOGA, ZBEE_MFG_OPTOGA }, { ZBEE_MFG_CODE_STELPRO, ZBEE_MFG_STELPRO }, { ZBEE_MFG_CODE_LYNXUS_TECH, ZBEE_MFG_LYNXUS_TECH }, { ZBEE_MFG_CODE_SEMICONDUCTOR_COM, ZBEE_MFG_SEMICONDUCTOR_COM }, { ZBEE_MFG_CODE_TP_LINK, ZBEE_MFG_TP_LINK }, { ZBEE_MFG_CODE_LEDVANCE_LLC, ZBEE_MFG_LEDVANCE_LLC }, { ZBEE_MFG_CODE_NORTEK, ZBEE_MFG_NORTEK }, { ZBEE_MFG_CODE_IREVO_ASSA_ABBLOY, ZBEE_MFG_IREVO_ASSA_ABBLOY }, { ZBEE_MFG_CODE_MIDEA, ZBEE_MFG_MIDEA }, { ZBEE_MFG_CODE_ZF_FRIEDRICHSHAF, ZBEE_MFG_ZF_FRIEDRICHSHAF }, { ZBEE_MFG_CODE_CHECKIT, ZBEE_MFG_CHECKIT }, { ZBEE_MFG_CODE_ACLARA, ZBEE_MFG_ACLARA }, { ZBEE_MFG_CODE_NOKIA, ZBEE_MFG_NOKIA }, { ZBEE_MFG_CODE_GOLDCARD_HIGHTECH, ZBEE_MFG_GOLDCARD_HIGHTECH }, { ZBEE_MFG_CODE_GEORGE_WILSON, ZBEE_MFG_GEORGE_WILSON }, { ZBEE_MFG_CODE_EASY_SAVER_CO, ZBEE_MFG_EASY_SAVER_CO }, { ZBEE_MFG_CODE_ZTE_CORPORATION, ZBEE_MFG_ZTE_CORPORATION }, { ZBEE_MFG_CODE_ARRIS, ZBEE_MFG_ARRIS }, { ZBEE_MFG_CODE_RELIANCE_BIG_TV, ZBEE_MFG_RELIANCE_BIG_TV }, { ZBEE_MFG_CODE_INSIGHT_ENERGY, ZBEE_MFG_INSIGHT_ENERGY }, { ZBEE_MFG_CODE_THOMAS_RESEARCH, ZBEE_MFG_THOMAS_RESEARCH }, { ZBEE_MFG_CODE_LI_SENG_TECH, ZBEE_MFG_LI_SENG_TECH }, { ZBEE_MFG_CODE_SYSTEM_LEVEL_SOLU, ZBEE_MFG_SYSTEM_LEVEL_SOLU }, { ZBEE_MFG_CODE_MATRIX_LABS, ZBEE_MFG_MATRIX_LABS }, { ZBEE_MFG_CODE_SINOPE_TECH, ZBEE_MFG_SINOPE_TECH }, { ZBEE_MFG_CODE_JIUZHOU_GREEBLE, ZBEE_MFG_JIUZHOU_GREEBLE }, { ZBEE_MFG_CODE_GUANGZHOU_LANVEE, ZBEE_MFG_GUANGZHOU_LANVEE }, { ZBEE_MFG_CODE_VENSTAR, ZBEE_MFG_VENSTAR }, { ZBEE_MFG_CODE_SLV, ZBEE_MFG_SLV }, { ZBEE_MFG_CODE_HALO_SMART_LABS, ZBEE_MFG_HALO_SMART_LABS }, { ZBEE_MFG_CODE_SCOUT_SECURITY, ZBEE_MFG_SCOUT_SECURITY }, { ZBEE_MFG_CODE_ALIBABA_CHINA, ZBEE_MFG_ALIBABA_CHINA }, { ZBEE_MFG_CODE_RESOLUTION_PROD, ZBEE_MFG_RESOLUTION_PROD }, { ZBEE_MFG_CODE_SMARTLOK_INC, ZBEE_MFG_SMARTLOK_INC }, { ZBEE_MFG_CODE_LUX_PRODUCTS_CORP, ZBEE_MFG_LUX_PRODUCTS_CORP }, { ZBEE_MFG_CODE_VIMAR_SPA, ZBEE_MFG_VIMAR_SPA }, { ZBEE_MFG_CODE_UNIVERSAL_LIGHT, ZBEE_MFG_UNIVERSAL_LIGHT }, { ZBEE_MFG_CODE_ROBERT_BOSCH_GMBH, ZBEE_MFG_ROBERT_BOSCH_GMBH }, { ZBEE_MFG_CODE_ACCENTURE, ZBEE_MFG_ACCENTURE }, { ZBEE_MFG_CODE_HEIMAN_TECHNOLOGY, ZBEE_MFG_HEIMAN_TECHNOLOGY }, { ZBEE_MFG_CODE_SHENZHEN_HOMA, ZBEE_MFG_SHENZHEN_HOMA }, { ZBEE_MFG_CODE_VISION_ELECTRO, ZBEE_MFG_VISION_ELECTRO }, { ZBEE_MFG_CODE_LENOVO, ZBEE_MFG_LENOVO }, { ZBEE_MFG_CODE_PRESCIENSE_RD, ZBEE_MFG_PRESCIENSE_RD }, { ZBEE_MFG_CODE_SHENZHEN_SEASTAR, ZBEE_MFG_SHENZHEN_SEASTAR }, { ZBEE_MFG_CODE_SENSATIVE_AB, ZBEE_MFG_SENSATIVE_AB }, { ZBEE_MFG_CODE_SOLAREDGE, ZBEE_MFG_SOLAREDGE }, { ZBEE_MFG_CODE_ZIPATO, ZBEE_MFG_ZIPATO }, { ZBEE_MFG_CODE_CHINA_FIRE_SEC, ZBEE_MFG_CHINA_FIRE_SEC }, { ZBEE_MFG_CODE_QUBY_BV, ZBEE_MFG_QUBY_BV }, { ZBEE_MFG_CODE_HANGZHOU_ROOMBANK, ZBEE_MFG_HANGZHOU_ROOMBANK }, { ZBEE_MFG_CODE_AMAZON_LAB126, ZBEE_MFG_AMAZON_LAB126 }, { ZBEE_MFG_CODE_PAULMANN_LICHT, ZBEE_MFG_PAULMANN_LICHT }, { ZBEE_MFG_CODE_SHENZHEN_ORVIBO, ZBEE_MFG_SHENZHEN_ORVIBO }, { ZBEE_MFG_CODE_TCI_TELECOMM, ZBEE_MFG_TCI_TELECOMM }, { ZBEE_MFG_CODE_MUELLER_LICHT_INT, ZBEE_MFG_MUELLER_LICHT_INT }, { ZBEE_MFG_CODE_AURORA_LIMITED, ZBEE_MFG_AURORA_LIMITED }, { ZBEE_MFG_CODE_SMART_DCC, ZBEE_MFG_SMART_DCC }, { ZBEE_MFG_CODE_SHANGHAI_UMEINFO, ZBEE_MFG_SHANGHAI_UMEINFO }, { ZBEE_MFG_CODE_CARBON_TRACK, ZBEE_MFG_CARBON_TRACK }, { ZBEE_MFG_CODE_SOMFY, ZBEE_MFG_SOMFY }, { ZBEE_MFG_CODE_VIESSMAN_ELEKTRO, ZBEE_MFG_VIESSMAN_ELEKTRO }, { ZBEE_MFG_CODE_HILDEBRAND_TECH, ZBEE_MFG_HILDEBRAND_TECH }, { ZBEE_MFG_CODE_ONKYO_TECH, ZBEE_MFG_ONKYO_TECH }, { ZBEE_MFG_CODE_SHENZHEN_SUNRICH, ZBEE_MFG_SHENZHEN_SUNRICH }, { ZBEE_MFG_CODE_XIU_XIU_TECH, ZBEE_MFG_XIU_XIU_TECH }, { ZBEE_MFG_CODE_ZUMTOBEL_GROUP, ZBEE_MFG_ZUMTOBEL_GROUP }, { ZBEE_MFG_CODE_SHENZHEN_KAADAS, ZBEE_MFG_SHENZHEN_KAADAS }, { ZBEE_MFG_CODE_SHANGHAI_XIAOYAN, ZBEE_MFG_SHANGHAI_XIAOYAN }, { ZBEE_MFG_CODE_CYPRESS_SEMICOND, ZBEE_MFG_CYPRESS_SEMICOND }, { ZBEE_MFG_CODE_XAL_GMBH, ZBEE_MFG_XAL_GMBH }, { ZBEE_MFG_CODE_INERGY_SYSTEMS, ZBEE_MFG_INERGY_SYSTEMS }, { ZBEE_MFG_CODE_ALFRED_KARCHER, ZBEE_MFG_ALFRED_KARCHER }, { ZBEE_MFG_CODE_ADUROLIGHT_MANU, ZBEE_MFG_ADUROLIGHT_MANU }, { ZBEE_MFG_CODE_GROUPE_MULLER, ZBEE_MFG_GROUPE_MULLER }, { ZBEE_MFG_CODE_V_MARK_ENTERPRI, ZBEE_MFG_V_MARK_ENTERPRI }, { ZBEE_MFG_CODE_LEAD_ENERGY_AG, ZBEE_MFG_LEAD_ENERGY_AG }, { ZBEE_MFG_CODE_UIOT_GROUP, ZBEE_MFG_UIOT_GROUP }, { ZBEE_MFG_CODE_AXXESS_INDUSTRIES, ZBEE_MFG_AXXESS_INDUSTRIES }, { ZBEE_MFG_CODE_THIRD_REALITY_INC, ZBEE_MFG_THIRD_REALITY_INC }, { ZBEE_MFG_CODE_DSR_CORPORATION, ZBEE_MFG_DSR_CORPORATION }, { ZBEE_MFG_CODE_GUANGZHOU_VENSI, ZBEE_MFG_GUANGZHOU_VENSI }, { ZBEE_MFG_CODE_SCHLAGE_LOCK_ALL, ZBEE_MFG_SCHLAGE_LOCK_ALL }, { ZBEE_MFG_CODE_NET2GRID, ZBEE_MFG_NET2GRID }, { ZBEE_MFG_CODE_AIRAM_ELECTRIC, ZBEE_MFG_AIRAM_ELECTRIC }, { ZBEE_MFG_CODE_IMMAX_WPB_CZ, ZBEE_MFG_IMMAX_WPB_CZ }, { ZBEE_MFG_CODE_ZIV_AUTOMATION, ZBEE_MFG_ZIV_AUTOMATION }, { ZBEE_MFG_CODE_HANGZHOU_IMAGIC, ZBEE_MFG_HANGZHOU_IMAGIC }, { ZBEE_MFG_CODE_XIAMEN_LEELEN, ZBEE_MFG_XIAMEN_LEELEN }, { ZBEE_MFG_CODE_OVERKIZ_SAS, ZBEE_MFG_OVERKIZ_SAS }, { ZBEE_MFG_CODE_FLONIDAN, ZBEE_MFG_FLONIDAN }, { ZBEE_MFG_CODE_HDL_AUTOATION, ZBEE_MFG_HDL_AUTOATION }, { ZBEE_MFG_CODE_ARDOMUS_NETWORKS, ZBEE_MFG_ARDOMUS_NETWORKS}, { ZBEE_MFG_CODE_SAMJIN_CO, ZBEE_MFG_SAMJIN_CO}, { ZBEE_MFG_CODE_SPRUE_AEGIS_PLC, ZBEE_MFG_SPRUE_AEGIS_PLC }, { ZBEE_MFG_CODE_INDRA_SISTEMAS, ZBEE_MFG_INDRA_SISTEMAS }, { ZBEE_MFG_CODE_JBT_SMART_LIGHT, ZBEE_MFG_JBT_SMART_LIGHT }, { ZBEE_MFG_CODE_GE_LIGHTING_CURRE, ZBEE_MFG_GE_LIGHTING_CURRE }, { ZBEE_MFG_CODE_DANFOSS, ZBEE_MFG_DANFOSS }, { ZBEE_MFG_CODE_NIVISS_PHP_SP, ZBEE_MFG_NIVISS_PHP_SP }, { ZBEE_MFG_CODE_FENGLIYUAN_ENERGY, ZBEE_MFG_FENGLIYUAN_ENERGY }, { ZBEE_MFG_CODE_NEXELEC, ZBEE_MFG_NEXELEC }, { ZBEE_MFG_CODE_SICHUAN_BEHOME_PR, ZBEE_MFG_SICHUAN_BEHOME_PR }, { ZBEE_MFG_CODE_FUJIAN_STARNET, ZBEE_MFG_FUJIAN_STARNET }, { ZBEE_MFG_CODE_TOSHIBA_VISUAL_SO, ZBEE_MFG_TOSHIBA_VISUAL_SO }, { ZBEE_MFG_CODE_LATCHABLE_INC, ZBEE_MFG_LATCHABLE_INC }, { ZBEE_MFG_CODE_LS_DEUTSCHLAND, ZBEE_MFG_LS_DEUTSCHLAND }, { ZBEE_MFG_CODE_GLEDOPTO_CO_LTD, ZBEE_MFG_GLEDOPTO_CO_LTD }, { ZBEE_MFG_CODE_THE_HOME_DEPOT, ZBEE_MFG_THE_HOME_DEPOT }, { ZBEE_MFG_CODE_NEONLITE_INTERNAT, ZBEE_MFG_NEONLITE_INTERNAT }, { ZBEE_MFG_CODE_ARLO_TECHNOLOGIES, ZBEE_MFG_ARLO_TECHNOLOGIES }, { ZBEE_MFG_CODE_XINGLUO_TECH, ZBEE_MFG_XINGLUO_TECH }, { ZBEE_MFG_CODE_SIMON_ELECTRIC_CH, ZBEE_MFG_SIMON_ELECTRIC_CH }, { ZBEE_MFG_CODE_HANGZHOU_GREATSTA, ZBEE_MFG_HANGZHOU_GREATSTA }, { ZBEE_MFG_CODE_SEQUENTRIC_ENERGY, ZBEE_MFG_SEQUENTRIC_ENERGY }, { ZBEE_MFG_CODE_SOLUM_CO_LTD, ZBEE_MFG_SOLUM_CO_LTD }, { ZBEE_MFG_CODE_EAGLERISE_ELEC, ZBEE_MFG_EAGLERISE_ELEC }, { ZBEE_MFG_CODE_FANTEM_TECH, ZBEE_MFG_FANTEM_TECH }, { ZBEE_MFG_CODE_YUNDING_NETWORK, ZBEE_MFG_YUNDING_NETWORK }, { ZBEE_MFG_CODE_ATLANTIC_GROUP, ZBEE_MFG_ATLANTIC_GROUP }, { ZBEE_MFG_CODE_XIAMEN_INTRETECH, ZBEE_MFG_XIAMEN_INTRETECH }, { ZBEE_MFG_CODE_TUYA_GLOBAL_INC, ZBEE_MFG_TUYA_GLOBAL_INC }, { ZBEE_MFG_CODE_XIAMEN_DNAKE_INTE, ZBEE_MFG_XIAMEN_DNAKE_INTE }, { ZBEE_MFG_CODE_NIKO_NV, ZBEE_MFG_NIKO_NV }, { ZBEE_MFG_CODE_EMPORIA_ENERGY, ZBEE_MFG_EMPORIA_ENERGY }, { ZBEE_MFG_CODE_SIKOM_AS, ZBEE_MFG_SIKOM_AS }, { ZBEE_MFG_CODE_AXIS_LABS_INC, ZBEE_MFG_AXIS_LABS_INC }, { ZBEE_MFG_CODE_CURRENT_PRODUCTS, ZBEE_MFG_CURRENT_PRODUCTS }, { ZBEE_MFG_CODE_METERSIT_SRL, ZBEE_MFG_METERSIT_SRL }, { ZBEE_MFG_CODE_HORNBACH_BAUMARKT, ZBEE_MFG_HORNBACH_BAUMARKT }, { ZBEE_MFG_CODE_DICEWORLD_SRL_A, ZBEE_MFG_DICEWORLD_SRL_A }, { ZBEE_MFG_CODE_ARC_TECHNOLOGY, ZBEE_MFG_ARC_TECHNOLOGY }, { ZBEE_MFG_CODE_KONKE_INFORMATION, ZBEE_MFG_KONKE_INFORMATION }, { ZBEE_MFG_CODE_SALTO_SYSTEMS_SL, ZBEE_MFG_SALTO_SYSTEMS_SL }, { ZBEE_MFG_CODE_SHYUGJ_TECHNOLOGY, ZBEE_MFG_SHYUGJ_TECHNOLOGY }, { ZBEE_MFG_CODE_BRAYDEN_AUTOMA, ZBEE_MFG_BRAYDEN_AUTOMA }, { ZBEE_MFG_CODE_ENVIRONEXUS_PTY, ZBEE_MFG_ENVIRONEXUS_PTY }, { ZBEE_MFG_CODE_ELTRA_NV_SA, ZBEE_MFG_ELTRA_NV_SA }, { ZBEE_MFG_CODE_XIAMOMI_COMMUNI, ZBEE_MFG_XIAMOMI_COMMUNI }, { ZBEE_MFG_CODE_SHUNCOM_ELECTRON, ZBEE_MFG_SHUNCOM_ELECTRON }, { ZBEE_MFG_CODE_VOLTALIS_SA, ZBEE_MFG_VOLTALIS_SA }, { ZBEE_MFG_CODE_FEELUX_CO_LTD, ZBEE_MFG_FEELUX_CO_LTD }, { ZBEE_MFG_CODE_SMARTPLUS_INC, ZBEE_MFG_SMARTPLUS_INC }, { ZBEE_MFG_CODE_HALEMEIER_GMBH, ZBEE_MFG_HALEMEIER_GMBH }, { ZBEE_MFG_CODE_TRUST_INTL, ZBEE_MFG_TRUST_INTL }, { ZBEE_MFG_CODE_DUKE_ENERGY, ZBEE_MFG_DUKE_ENERGY }, { ZBEE_MFG_CODE_CALIX, ZBEE_MFG_CALIX }, { ZBEE_MFG_CODE_ADEO, ZBEE_MFG_ADEO }, { ZBEE_MFG_CODE_CONNECTED_RESP, ZBEE_MFG_CONNECTED_RESP }, { ZBEE_MFG_CODE_STROYENERGOKOM, ZBEE_MFG_STROYENERGOKOM }, { ZBEE_MFG_CODE_LUMITECH_LIGHT, ZBEE_MFG_LUMITECH_LIGHT }, { ZBEE_MFG_CODE_VERDANT_ENVIRO , ZBEE_MFG_VERDANT_ENVIRO }, { ZBEE_MFG_CODE_ALFRED_INTL, ZBEE_MFG_ALFRED_INTL }, { ZBEE_MFG_CODE_SANSI_LED_LIGHT, ZBEE_MFG_SANSI_LED_LIGHT }, { ZBEE_MFG_CODE_MINDTREE, ZBEE_MFG_MINDTREE }, { ZBEE_MFG_CODE_NORDIC_SEMI, ZBEE_MFG_NORDIC_SEMI }, { ZBEE_MFG_CODE_SITERWELL_ELEC, ZBEE_MFG_SITERWELL_ELEC }, { ZBEE_MFG_CODE_BRILONER_LEUCHTEN, ZBEE_MFG_BRILONER_LEUCHTEN }, { ZBEE_MFG_CODE_SHENZHEN_SEI_TECH, ZBEE_MFG_SHENZHEN_SEI_TECH }, { ZBEE_MFG_CODE_COPPER_LABS, ZBEE_MFG_COPPER_LABS }, { ZBEE_MFG_CODE_DELTA_DORE, ZBEE_MFG_DELTA_DORE }, { ZBEE_MFG_CODE_HAGER_GROUP, ZBEE_MFG_HAGER_GROUP }, { ZBEE_MFG_CODE_SHENZHEN_COOLKIT, ZBEE_MFG_SHENZHEN_COOLKIT }, { ZBEE_MFG_CODE_HANGZHOU_SKY_LIGHT,ZBEE_MFG_HANGZHOU_SKY_LIGHT }, { ZBEE_MFG_CODE_E_ON_SE, ZBEE_MFG_E_ON_SE }, { ZBEE_MFG_CODE_LIDL_STIFTUNG, ZBEE_MFG_LIDL_STIFTUNG }, { ZBEE_MFG_CODE_SICHUAN_CHANGHONG, ZBEE_MFG_SICHUAN_CHANGHONG }, { ZBEE_MFG_CODE_NODON, ZBEE_MFG_NODON }, { ZBEE_MFG_CODE_JIANGXI_INNOTECH, ZBEE_MFG_JIANGXI_INNOTECH }, { ZBEE_MFG_CODE_MERCATOR_PTY, ZBEE_MFG_MERCATOR_PTY }, { ZBEE_MFG_CODE_BEIJING_RUYING, ZBEE_MFG_BEIJING_RUYING }, { ZBEE_MFG_CODE_EGLO_LEUCHTEN, ZBEE_MFG_EGLO_LEUCHTEN }, { ZBEE_MFG_CODE_PIETRO_FIORENTINI, ZBEE_MFG_PIETRO_FIORENTINI }, { ZBEE_MFG_CODE_ZEHNDER_GROUP, ZBEE_MFG_ZEHNDER_GROUP }, { ZBEE_MFG_CODE_BRK_BRANDS, ZBEE_MFG_BRK_BRANDS }, { ZBEE_MFG_CODE_ASKEY_COMPUTER, ZBEE_MFG_ASKEY_COMPUTER }, { ZBEE_MFG_CODE_PASSIVEBOLT, ZBEE_MFG_PASSIVEBOLT }, { ZBEE_MFG_CODE_AVM_AUDIOVISUELLE, ZBEE_MFG_AVM_AUDIOVISUELLE }, { ZBEE_MFG_CODE_NINGBO_SUNTECH, ZBEE_MFG_NINGBO_SUNTECH }, { ZBEE_MFG_CODE_SOCIETE_EN_COMMAND,ZBEE_MFG_SOCIETE_EN_COMMAND }, { ZBEE_MFG_CODE_VIVINT_SMART_HOME, ZBEE_MFG_VIVINT_SMART_HOME }, { ZBEE_MFG_CODE_NAMRON, ZBEE_MFG_NAMRON }, { ZBEE_MFG_CODE_RADEMACHER_GERA, ZBEE_MFG_RADEMACHER_GERA }, { ZBEE_MFG_CODE_OMO_SYSTEMS, ZBEE_MFG_OMO_SYSTEMS }, { ZBEE_MFG_CODE_SIGLIS, ZBEE_MFG_SIGLIS }, { ZBEE_MFG_CODE_IMHOTEP_CREATION, ZBEE_MFG_IMHOTEP_CREATION }, { ZBEE_MFG_CODE_ICASA, ZBEE_MFG_ICASA }, { ZBEE_MFG_CODE_LEVEL_HOME, ZBEE_MFG_LEVEL_HOME }, { ZBEE_MFG_CODE_TIS_CONTROL, ZBEE_MFG_TIS_CONTROL }, { ZBEE_MFG_CODE_RADISYS_INDIA, ZBEE_MFG_RADISYS_INDIA }, { ZBEE_MFG_CODE_VEEA, ZBEE_MFG_VEEA }, { ZBEE_MFG_CODE_FELL_TECHNOLOGY, ZBEE_MFG_FELL_TECHNOLOGY }, { ZBEE_MFG_CODE_SOWILO_DESIGN, ZBEE_MFG_SOWILO_DESIGN }, { ZBEE_MFG_CODE_LEXI_DEVICES, ZBEE_MFG_LEXI_DEVICES }, { ZBEE_MFG_CODE_LIFI_LABS, ZBEE_MFG_LIFI_LABS }, { ZBEE_MFG_CODE_GRUNDFOS_HOLDING, ZBEE_MFG_GRUNDFOS_HOLDING }, { ZBEE_MFG_CODE_SOURCING_CREATION, ZBEE_MFG_SOURCING_CREATION }, { ZBEE_MFG_CODE_KRAKEN_TECH, ZBEE_MFG_KRAKEN_TECHNOLOGIES }, { ZBEE_MFG_CODE_EVE_SYSTEMS, ZBEE_MFG_EVE_SYSTEMS }, { ZBEE_MFG_CODE_LITE_ON_TECH, ZBEE_MFG_LITE_ON_TECHNOLOGY }, { ZBEE_MFG_CODE_FOCALCREST, ZBEE_MFG_FOCALCREST }, { ZBEE_MFG_CODE_BOUFFALO_LAB, ZBEE_MFG_BOUFFALO_LAB }, { ZBEE_MFG_CODE_WYZE_LABS, ZBEE_MFG_WYZE_LABS }, { ZBEE_MFG_CODE_DATEK_WIRLESS, ZBEE_MFG_DATEK_WIRLESS }, { ZBEE_MFG_CODE_GEWISS_SPA, ZBEE_MFG_GEWISS_SPA }, { ZBEE_MFG_CODE_CLIMAX_TECH, ZBEE_MFG_CLIMAX_TECH }, { 0, NULL } }; static value_string_ext zbee_mfr_code_names_ext = VALUE_STRING_EXT_INIT(zbee_mfr_code_names); /* ZCL Attribute Status Names */ const value_string zbee_zcl_status_names[] = { { ZBEE_ZCL_STAT_SUCCESS, "Success"}, { ZBEE_ZCL_STAT_FAILURE, "Failure"}, { ZBEE_ZCL_STAT_NOT_AUTHORIZED, "Not Authorized"}, { ZBEE_ZCL_STAT_RESERVED_FIELD_NOT_ZERO, "Reserved Field Not Zero"}, { ZBEE_ZCL_STAT_MALFORMED_CMD, "Malformed Command"}, { ZBEE_ZCL_STAT_UNSUP_CLUSTER_CMD, "Unsupported Cluster Command"}, { ZBEE_ZCL_STAT_UNSUP_GENERAL_CMD, "Unsupported General Command"}, { ZBEE_ZCL_STAT_UNSUP_MFR_CLUSTER_CMD, "Unsupported Manufacturer Cluster Command"}, { ZBEE_ZCL_STAT_UNSUP_MFR_GENERAL_CMD, "Unsupported Manufacturer General Command"}, { ZBEE_ZCL_STAT_INVALID_FIELD, "Invalid Field"}, { ZBEE_ZCL_STAT_UNSUPPORTED_ATTR, "Unsupported Attribute"}, { ZBEE_ZCL_STAT_INVALID_VALUE, "Invalid Value"}, { ZBEE_ZCL_STAT_READ_ONLY, "Read Only"}, { ZBEE_ZCL_STAT_INSUFFICIENT_SPACE, "Insufficient Space"}, { ZBEE_ZCL_STAT_DUPLICATE_EXISTS, "Duplicate Exists"}, { ZBEE_ZCL_STAT_NOT_FOUND, "Not Found"}, { ZBEE_ZCL_STAT_UNREPORTABLE_ATTR, "Unreportable Attribute"}, { ZBEE_ZCL_STAT_INVALID_DATA_TYPE, "Invalid Data Type"}, { ZBEE_ZCL_STAT_INVALID_SELECTOR, "Invalid Selector"}, { ZBEE_ZCL_STAT_WRITE_ONLY, "Write Only"}, { ZBEE_ZCL_STAT_INCONSISTENT_STARTUP_STATE, "Inconsistent Startup State"}, { ZBEE_ZCL_STAT_DEFINED_OUT_OF_BAND, "Defined Out of Band"}, { ZBEE_ZCL_STAT_INCONSISTENT, "Inconsistent Value"}, { ZBEE_ZCL_STAT_ACTION_DENIED, "Action Denied"}, { ZBEE_ZCL_STAT_TIMEOUT, "Timeout"}, { ZBEE_ZCL_STAT_OTA_ABORT, "Ota Abort"}, { ZBEE_ZCL_STAT_OTA_INVALID_IMAGE, "Ota Invalid Image"}, { ZBEE_ZCL_STAT_OTA_WAIT_FOR_DATA, "Ota Wait For Data"}, { ZBEE_ZCL_STAT_OTA_NO_IMAGE_AVAILABLE, "Ota No Image Available"}, { ZBEE_ZCL_STAT_OTA_REQUIRE_MORE_IMAGE, "Ota Require More Image"}, { ZBEE_ZCL_STAT_OTA_NOTIFICATION_PENDING, "Ota Notification Pending"}, { ZBEE_ZCL_STAT_HARDWARE_FAILURE, "Hardware Failure"}, { ZBEE_ZCL_STAT_SOFTWARE_FAILURE, "Software Failure"}, { ZBEE_ZCL_STAT_CALIBRATION_ERROR, "Calibration Error"}, { ZBEE_ZCL_STAT_UNSUPPORTED_CLUSTER, "Unsupported Cluster"}, { ZBEE_ZCL_STAT_LIMIT_REACHED, "Limit Reached"}, { 0, NULL } }; static value_string_ext zbee_zcl_status_names_ext = VALUE_STRING_EXT_INIT(zbee_zcl_status_names); /* ZCL Attribute Data Names */ static const value_string zbee_zcl_data_type_names[] = { { ZBEE_ZCL_NO_DATA, "No Data" }, { ZBEE_ZCL_8_BIT_DATA, "8-Bit Data" }, { ZBEE_ZCL_16_BIT_DATA, "16-Bit Data" }, { ZBEE_ZCL_24_BIT_DATA, "24-Bit Data" }, { ZBEE_ZCL_32_BIT_DATA, "32-Bit Data" }, { ZBEE_ZCL_40_BIT_DATA, "40-Bit Data" }, { ZBEE_ZCL_48_BIT_DATA, "48-Bit Data" }, { ZBEE_ZCL_56_BIT_DATA, "56-Bit Data" }, { ZBEE_ZCL_64_BIT_DATA, "64-Bit Data" }, { ZBEE_ZCL_BOOLEAN, "Boolean" }, { ZBEE_ZCL_8_BIT_BITMAP, "8-Bit Bitmap" }, { ZBEE_ZCL_16_BIT_BITMAP, "16-Bit Bitmap" }, { ZBEE_ZCL_24_BIT_BITMAP, "24-Bit Bitmap" }, { ZBEE_ZCL_32_BIT_BITMAP, "32-Bit Bitmap" }, { ZBEE_ZCL_40_BIT_BITMAP, "40-Bit Bitmap" }, { ZBEE_ZCL_48_BIT_BITMAP, "48-Bit Bitmap" }, { ZBEE_ZCL_56_BIT_BITMAP, "56-Bit Bitmap" }, { ZBEE_ZCL_64_BIT_BITMAP, "64-Bit Bitmap" }, { ZBEE_ZCL_8_BIT_UINT, "8-Bit Unsigned Integer" }, { ZBEE_ZCL_16_BIT_UINT, "16-Bit Unsigned Integer" }, { ZBEE_ZCL_24_BIT_UINT, "24-Bit Unsigned Integer" }, { ZBEE_ZCL_32_BIT_UINT, "32-Bit Unsigned Integer" }, { ZBEE_ZCL_40_BIT_UINT, "40-Bit Unsigned Integer" }, { ZBEE_ZCL_48_BIT_UINT, "48-Bit Unsigned Integer" }, { ZBEE_ZCL_56_BIT_UINT, "56-Bit Unsigned Integer" }, { ZBEE_ZCL_64_BIT_UINT, "64-Bit Unsigned Integer" }, { ZBEE_ZCL_8_BIT_INT, "8-Bit Signed Integer" }, { ZBEE_ZCL_16_BIT_INT, "16-Bit Signed Integer" }, { ZBEE_ZCL_24_BIT_INT, "24-Bit Signed Integer" }, { ZBEE_ZCL_32_BIT_INT, "32-Bit Signed Integer" }, { ZBEE_ZCL_40_BIT_INT, "40-Bit Signed Integer" }, { ZBEE_ZCL_48_BIT_INT, "48-Bit Signed Integer" }, { ZBEE_ZCL_56_BIT_INT, "56-Bit Signed Integer" }, { ZBEE_ZCL_64_BIT_INT, "64-Bit Signed Integer" }, { ZBEE_ZCL_8_BIT_ENUM, "8-Bit Enumeration" }, { ZBEE_ZCL_16_BIT_ENUM, "16-Bit Enumeration" }, { ZBEE_ZCL_SEMI_FLOAT, "Semi-precision Floating Point" }, { ZBEE_ZCL_SINGLE_FLOAT, "Single Precision Floating Point" }, { ZBEE_ZCL_DOUBLE_FLOAT, "Double Precision Floating Point" }, { ZBEE_ZCL_OCTET_STRING, "Octet String" }, { ZBEE_ZCL_CHAR_STRING, "Character String" }, { ZBEE_ZCL_LONG_OCTET_STRING, "Long Octet String" }, { ZBEE_ZCL_LONG_CHAR_STRING, "Long Character String" }, { ZBEE_ZCL_ARRAY, "Array" }, { ZBEE_ZCL_STRUCT, "Structure" }, { ZBEE_ZCL_SET, "Set Collection" }, { ZBEE_ZCL_BAG, "Bag Collection" }, { ZBEE_ZCL_TIME, "Time of Day" }, { ZBEE_ZCL_DATE, "Date" }, { ZBEE_ZCL_UTC, "UTC Time" }, { ZBEE_ZCL_CLUSTER_ID, "Cluster ID" }, { ZBEE_ZCL_ATTR_ID, "Attribute ID" }, { ZBEE_ZCL_BACNET_OID, "BACnet OID" }, { ZBEE_ZCL_IEEE_ADDR, "IEEE Address" }, { ZBEE_ZCL_SECURITY_KEY, "128-Bit Security Key" }, { ZBEE_ZCL_UNKNOWN, "Unknown" }, { 0, NULL } }; static value_string_ext zbee_zcl_data_type_names_ext = VALUE_STRING_EXT_INIT(zbee_zcl_data_type_names); /* ZCL Attribute Short Data Names */ const value_string zbee_zcl_short_data_type_names[] = { { ZBEE_ZCL_NO_DATA, "No Data" }, { ZBEE_ZCL_8_BIT_DATA, "Data8" }, { ZBEE_ZCL_16_BIT_DATA, "Data16" }, { ZBEE_ZCL_24_BIT_DATA, "Data24" }, { ZBEE_ZCL_32_BIT_DATA, "Data32" }, { ZBEE_ZCL_40_BIT_DATA, "Data40" }, { ZBEE_ZCL_48_BIT_DATA, "Data48" }, { ZBEE_ZCL_56_BIT_DATA, "Data56" }, { ZBEE_ZCL_64_BIT_DATA, "Data64" }, { ZBEE_ZCL_BOOLEAN, "Boolean" }, { ZBEE_ZCL_8_BIT_BITMAP, "Bit8" }, { ZBEE_ZCL_16_BIT_BITMAP, "Bit16" }, { ZBEE_ZCL_24_BIT_BITMAP, "Bit24" }, { ZBEE_ZCL_32_BIT_BITMAP, "Bit32" }, { ZBEE_ZCL_40_BIT_BITMAP, "Bit40" }, { ZBEE_ZCL_48_BIT_BITMAP, "Bit48" }, { ZBEE_ZCL_56_BIT_BITMAP, "Bit56" }, { ZBEE_ZCL_64_BIT_BITMAP, "Bit64" }, { ZBEE_ZCL_8_BIT_UINT, "Uint8" }, { ZBEE_ZCL_16_BIT_UINT, "Uint16" }, { ZBEE_ZCL_24_BIT_UINT, "Uint24" }, { ZBEE_ZCL_32_BIT_UINT, "Uint32" }, { ZBEE_ZCL_40_BIT_UINT, "Uint40" }, { ZBEE_ZCL_48_BIT_UINT, "Uint48" }, { ZBEE_ZCL_56_BIT_UINT, "Uint56" }, { ZBEE_ZCL_64_BIT_UINT, "Uint64" }, { ZBEE_ZCL_8_BIT_INT, "Int8" }, { ZBEE_ZCL_16_BIT_INT, "Int16" }, { ZBEE_ZCL_24_BIT_INT, "Int24" }, { ZBEE_ZCL_32_BIT_INT, "Int32" }, { ZBEE_ZCL_40_BIT_INT, "Int40" }, { ZBEE_ZCL_48_BIT_INT, "Int48" }, { ZBEE_ZCL_56_BIT_INT, "Int56" }, { ZBEE_ZCL_64_BIT_INT, "Int64" }, { ZBEE_ZCL_8_BIT_ENUM, "Enum8" }, { ZBEE_ZCL_16_BIT_ENUM, "Enum16" }, { ZBEE_ZCL_SEMI_FLOAT, "Semi Float" }, { ZBEE_ZCL_SINGLE_FLOAT, "Float" }, { ZBEE_ZCL_DOUBLE_FLOAT, "Double Float" }, { ZBEE_ZCL_OCTET_STRING, "Oct String" }, { ZBEE_ZCL_CHAR_STRING, "Char String" }, { ZBEE_ZCL_LONG_OCTET_STRING, "Long Oct String" }, { ZBEE_ZCL_LONG_CHAR_STRING, "Long Char String" }, { ZBEE_ZCL_ARRAY, "Array" }, { ZBEE_ZCL_STRUCT, "Structure" }, { ZBEE_ZCL_SET, "Set" }, { ZBEE_ZCL_BAG, "Bag" }, { ZBEE_ZCL_TIME, "Time" }, { ZBEE_ZCL_DATE, "Date" }, { ZBEE_ZCL_UTC, "UTC" }, { ZBEE_ZCL_CLUSTER_ID, "Cluster" }, { ZBEE_ZCL_ATTR_ID, "Attribute" }, { ZBEE_ZCL_BACNET_OID, "BACnet" }, { ZBEE_ZCL_IEEE_ADDR, "EUI" }, { ZBEE_ZCL_SECURITY_KEY, "Key" }, { ZBEE_ZCL_UNKNOWN, "Unknown" }, { 0, NULL } }; static value_string_ext zbee_zcl_short_data_type_names_ext = VALUE_STRING_EXT_INIT(zbee_zcl_short_data_type_names); /* ZCL Attribute English Weekday Names */ static const value_string zbee_zcl_wd_names[] = { { 1, "Monday" }, { 2, "Tuesday" }, { 3, "Wednesday" }, { 4, "Thursday" }, { 5, "Friday" }, { 6, "Saturday" }, { 7, "Sunday" }, { 0, NULL } }; static value_string_ext zbee_zcl_wd_names_ext = VALUE_STRING_EXT_INIT(zbee_zcl_wd_names); /* Attribute Direction Names */ static const value_string zbee_zcl_dir_names[] = { { ZBEE_ZCL_DIR_RECEIVED, "Received" }, { ZBEE_ZCL_DIR_REPORTED, "Reported" }, { 0, NULL } }; /* Attribute Discovery Names */ static const value_string zbee_zcl_dis_names[] = { { 0, "Incomplete" }, { 1, "Complete" }, { 0, NULL } }; /** *ZigBee Cluster Library dissector for wireshark. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields. *@param tree pointer to data tree wireshark uses to display packet. *@param data raw packet private data. */ static int dissect_zbee_zcl(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data) { tvbuff_t *payload_tvb; dissector_handle_t cluster_handle; proto_tree *zcl_tree; proto_tree *sub_tree = NULL; proto_item *proto_root; zbee_nwk_packet *nwk; zbee_zcl_packet packet; zbee_zcl_cluster_desc *desc; guint16 cluster_id; guint8 fcf; guint offset = 0; /* Reject the packet if data is NULL */ if (data == NULL) return 0; nwk = (zbee_nwk_packet *)data; /* Init. */ memset(&packet, 0, sizeof(zbee_zcl_packet)); /* Fill the zcl cluster id */ cluster_id = zcl_cluster_id = nwk->cluster_id; /* Create the protocol tree */ proto_root = proto_tree_add_protocol_format(tree, proto_zbee_zcl, tvb, offset, -1, "ZigBee Cluster Library Frame"); zcl_tree = proto_item_add_subtree(proto_root, ett_zbee_zcl); /* Clear info column */ col_clear(pinfo->cinfo, COL_INFO); /* Get the FCF */ fcf = tvb_get_guint8(tvb, offset); packet.frame_type = zbee_get_bit_field(fcf, ZBEE_ZCL_FCF_FRAME_TYPE); packet.mfr_spec = zbee_get_bit_field(fcf, ZBEE_ZCL_FCF_MFR_SPEC); packet.direction = zbee_get_bit_field(fcf, ZBEE_ZCL_FCF_DIRECTION); packet.disable_default_resp = zbee_get_bit_field(fcf, ZBEE_ZCL_FCF_DISABLE_DEFAULT_RESP); /* Display the FCF */ if ( tree ) { /* Create the subtree */ sub_tree = proto_tree_add_subtree_format(zcl_tree, tvb, offset, 1, ett_zbee_zcl_fcf, NULL, "Frame Control Field: %s (0x%02x)", val_to_str_const(packet.frame_type, zbee_zcl_frame_types, "Unknown"), fcf); /* Add the frame type */ proto_tree_add_item(sub_tree, hf_zbee_zcl_fcf_frame_type, tvb, offset, 1, ENC_NA); /* Add the manufacturer specific, direction, and disable default response flags */ proto_tree_add_item(sub_tree, hf_zbee_zcl_fcf_mfr_spec, tvb, offset, 1, ENC_NA); proto_tree_add_item(sub_tree, hf_zbee_zcl_fcf_dir, tvb, offset, 1, ENC_NA); proto_tree_add_item(sub_tree, hf_zbee_zcl_fcf_disable_default_resp, tvb, offset, 1, ENC_NA); } offset += 1; /* If the manufacturer code is present, get and display it. */ if (packet.mfr_spec) { packet.mfr_code = tvb_get_letohs(tvb, offset); if ( tree ) { proto_tree_add_uint(zcl_tree, hf_zbee_zcl_mfr_code, tvb, offset, 2, packet.mfr_code); proto_item_append_text(proto_root, ", Mfr: %s (0x%04x)", val_to_str_ext_const(packet.mfr_code, &zbee_mfr_code_names_ext, "Unknown"), packet.mfr_code); } offset += 2; } /* Fill the zcl mfr code id */ zcl_mfr_code = packet.mfr_code; /* Add the transaction sequence number to the tree */ packet.tran_seqno = tvb_get_guint8(tvb, offset); proto_tree_add_uint(zcl_tree, hf_zbee_zcl_tran_seqno, tvb, offset, 1, packet.tran_seqno); offset += 1; /* Display the command and sequence number on the proto root and info column. */ packet.cmd_id = tvb_get_guint8(tvb, offset); /* Get the manufacturer specific cluster handle */ cluster_handle = dissector_get_uint_handle(zbee_zcl_dissector_table, ZCL_CLUSTER_MFR_KEY(cluster_id, packet.mfr_code)); desc = zbee_zcl_get_cluster_desc(cluster_id, packet.mfr_code); if (desc != NULL) { col_append_fstr(pinfo->cinfo, COL_INFO, "%s: ", desc->name); } /* Add command ID to the tree. */ if ( packet.frame_type == ZBEE_ZCL_FCF_PROFILE_WIDE ) { /* Profile-wide commands. */ if ( tree ) { proto_item_append_text(proto_root, ", Command: %s, Seq: %u", val_to_str_ext_const(packet.cmd_id, &zbee_zcl_cmd_names_ext, "Unknown Command"), packet.tran_seqno); } col_set_str(pinfo->cinfo, COL_INFO, "ZCL: "); col_append_fstr(pinfo->cinfo, COL_INFO, "%s, Seq: %u", val_to_str_ext_const(packet.cmd_id, &zbee_zcl_cmd_names_ext, "Unknown Command"), packet.tran_seqno); proto_tree_add_uint(zcl_tree, hf_zbee_zcl_cmd_id, tvb, offset, 1, packet.cmd_id); offset += 1; } else { /* Cluster-specific commands. */ payload_tvb = tvb_new_subset_remaining(tvb, offset); if (cluster_handle != NULL) { /* Call the specific cluster dissector registered. */ call_dissector_with_data(cluster_handle, payload_tvb, pinfo, zcl_tree, &packet); return tvb_captured_length(tvb); } else { col_append_fstr(pinfo->cinfo, COL_INFO, "Unknown Command: 0x%02x, Seq: %u", packet.cmd_id, packet.tran_seqno); proto_tree_add_uint(zcl_tree, hf_zbee_zcl_cs_cmd_id, tvb, offset, 1, packet.cmd_id); offset += 1; } /* Don't decode the tail. */ zcl_dump_data(tvb, offset, pinfo, zcl_tree); return tvb_captured_length(tvb); } if ( zcl_tree ) { /* Handle the contents of the command frame. */ switch ( packet.cmd_id ) { case ZBEE_ZCL_CMD_READ_ATTR: dissect_zcl_read_attr(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_READ_ATTR_RESP: dissect_zcl_read_attr_resp(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_WRITE_ATTR: case ZBEE_ZCL_CMD_WRITE_ATTR_UNDIVIDED: case ZBEE_ZCL_CMD_WRITE_ATTR_NO_RESP: dissect_zcl_write_attr(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_REPORT_ATTR: dissect_zcl_report_attr(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_WRITE_ATTR_RESP: dissect_zcl_write_attr_resp(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_CONFIG_REPORT: dissect_zcl_config_report(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_CONFIG_REPORT_RESP: dissect_zcl_config_report_resp(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_READ_REPORT_CONFIG: dissect_zcl_read_report_config(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_READ_REPORT_CONFIG_RESP: dissect_zcl_read_report_config_resp(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_DEFAULT_RESP: dissect_zcl_default_resp(tvb, pinfo, zcl_tree, &offset); break; case ZBEE_ZCL_CMD_DISCOVER_ATTR: case ZBEE_ZCL_CMD_DISCOVER_ATTR_EXTENDED: dissect_zcl_discover_attr(tvb, pinfo, zcl_tree, &offset); break; case ZBEE_ZCL_CMD_DISCOVER_ATTR_RESP: dissect_zcl_discover_attr_resp(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; /* BUGBUG: don't dissect these for now*/ case ZBEE_ZCL_CMD_READ_ATTR_STRUCT: dissect_zcl_read_attr_struct(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_WRITE_ATTR_STRUCT: dissect_zcl_write_attr_struct(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_WRITE_ATTR_STRUCT_RESP: dissect_zcl_write_attr_struct_resp(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; case ZBEE_ZCL_CMD_DISCOVER_CMDS_REC: case ZBEE_ZCL_CMD_DISCOVER_CMDS_GEN: dissect_zcl_discover_cmd_rec(tvb, pinfo, zcl_tree, &offset); break; case ZBEE_ZCL_CMD_DISCOVER_CMDS_REC_RESP: case ZBEE_ZCL_CMD_DISCOVER_CMDS_GEN_RESP: dissect_zcl_discover_cmd_rec_resp(tvb, pinfo, zcl_tree, &offset); break; /* case ZBEE_ZCL_CMD_DISCOVER_CMDS_GEN_RESP: dissect_zcl_discover_cmd_gen_resp(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break;*/ case ZBEE_ZCL_CMD_DISCOVER_ATTR_EXTENDED_RESP: dissect_zcl_discover_cmd_attr_extended_resp(tvb, pinfo, zcl_tree, &offset, cluster_id, packet.mfr_code, packet.direction); break; } /* switch */ } zcl_dump_data(tvb, offset, pinfo, zcl_tree); return tvb_captured_length(tvb); } /* dissect_zbee_zcl */ /** *Helper dissector for ZCL Read Attributes and * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer from caller. *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ void dissect_zcl_read_attr(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { guint tvb_len; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_CLIENT; tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len ) { /* Dissect the attribute identifier */ dissect_zcl_attr_id(tvb, tree, offset, cluster_id, mfr_code, client_attr); } return; } /* dissect_zcl_read_attr */ /** *Helper dissector for ZCL Read Attributes Response command. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ void dissect_zcl_read_attr_resp(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree; guint tvb_len; guint i = 0; guint16 attr_id; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_SERVER; tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_attr[i], NULL, "Status Record"); i++; /* Dissect the attribute identifier */ attr_id = tvb_get_letohs(tvb, *offset); dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, client_attr); /* Dissect the status and optionally the data type and value */ if ( dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_status) == ZBEE_ZCL_STAT_SUCCESS ) { /* Dissect the attribute data type and data */ dissect_zcl_attr_data_type_val(tvb, sub_tree, offset, attr_id, cluster_id, mfr_code, client_attr); } /* Set end for subtree */ proto_item_set_end(proto_tree_get_parent(sub_tree), tvb, *offset); } } /* dissect_zcl_read_attr_resp */ /** *Helper dissector for ZCL Report Attribute commands. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ void dissect_zcl_write_attr(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree; guint tvb_len; guint i = 0; guint16 attr_id; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_CLIENT; tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_attr[i], NULL, "Attribute Field"); i++; /* Dissect the attribute identifier */ attr_id = tvb_get_letohs(tvb, *offset); dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, client_attr); /* Dissect the attribute data type and data */ dissect_zcl_attr_data_type_val(tvb, sub_tree, offset, attr_id, cluster_id, mfr_code, client_attr); /* Set end for subtree */ proto_item_set_end(proto_tree_get_parent(sub_tree), tvb, *offset); } } /* dissect_zcl_write_attr */ /** *Helper dissector for ZCL Report Attribute commands. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ void dissect_zcl_report_attr(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree; guint tvb_len; guint i = 0; guint16 attr_id; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_SERVER; tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_attr[i], NULL, "Attribute Field"); i++; /* Dissect the attribute identifier */ attr_id = tvb_get_letohs(tvb, *offset); dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, client_attr); /* Dissect the attribute data type and data */ dissect_zcl_attr_data_type_val(tvb, sub_tree, offset, attr_id, cluster_id, mfr_code, client_attr); /* Set end for subtree */ proto_item_set_end(proto_tree_get_parent(sub_tree), tvb, *offset); } } /* dissect_zcl_report_attr */ /** *Helper dissector for ZCL Write Attribute Response command. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ static void dissect_zcl_write_attr_resp(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree; guint tvb_len; guint i = 0; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_SERVER; tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_attr[i], NULL, "Status Record"); i++; /* Dissect the status */ if ( dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_status) != ZBEE_ZCL_STAT_SUCCESS ) { /* Dissect the failed attribute identifier */ dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, client_attr); } /* Set end for subtree */ proto_item_set_end(proto_tree_get_parent(sub_tree), tvb, *offset); } } /* dissect_zcl_write_attr_resp */ /** *Helper dissector for ZCL Report Attribute commands. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster identification *@param mfr_code manufacturer code. *@param direction ZCL direction */ static void dissect_zcl_read_report_config_resp(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree; guint tvb_len; guint i = 0; guint data_type; guint attr_status; guint attr_dir; guint16 attr_id; tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 3, ett_zbee_zcl_attr[i], NULL, "Reporting Configuration Record"); i++; /* Dissect the status */ attr_status = dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_status); /* Dissect the direction and any reported configuration */ attr_dir = dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_dir); /* Dissect the attribute id */ attr_id = tvb_get_letohs(tvb, *offset); dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, (direction == ZBEE_ZCL_FCF_TO_SERVER && attr_dir == ZBEE_ZCL_DIR_REPORTED) || (direction == ZBEE_ZCL_FCF_TO_CLIENT && attr_dir == ZBEE_ZCL_DIR_RECEIVED)); if ( attr_status == ZBEE_ZCL_STAT_SUCCESS ) { if ( attr_dir == ZBEE_ZCL_DIR_REPORTED ) { /* Dissect the attribute data type */ data_type = dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_data_type); /* Dissect minimum reporting interval */ proto_tree_add_item(tree, hf_zbee_zcl_attr_minint, tvb, *offset, 2, ENC_LITTLE_ENDIAN); (*offset) += 2; /* Dissect maximum reporting interval */ proto_tree_add_item(tree, hf_zbee_zcl_attr_maxint, tvb, *offset, 2, ENC_LITTLE_ENDIAN); (*offset) += 2; if ( IS_ANALOG_SUBTYPE(data_type) ) { /* Dissect reportable change */ dissect_zcl_attr_data_general(tvb, sub_tree, offset, attr_id, data_type, cluster_id, mfr_code, direction == ZBEE_ZCL_FCF_TO_SERVER); } } else { /* Dissect timeout period */ proto_tree_add_item(tree, hf_zbee_zcl_attr_timeout, tvb, *offset, 2, ENC_LITTLE_ENDIAN); (*offset) += 2; } } } } /* dissect_zcl_read_report_config_resp */ /** *Helper dissector for ZCL Config Report Attribute commands. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ static void dissect_zcl_config_report(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree; guint tvb_len; guint i = 0; guint data_type; guint16 attr_id; tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 3, ett_zbee_zcl_attr[i], NULL, "Reporting Configuration Record"); i++; /* Dissect the direction and any reported configuration */ if ( dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_dir) == ZBEE_ZCL_DIR_REPORTED ) { /* Dissect the attribute id */ attr_id = tvb_get_letohs(tvb, *offset); dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, direction == ZBEE_ZCL_FCF_TO_CLIENT); /* Dissect the attribute data type */ data_type = dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_data_type); /* Dissect minimum reporting interval */ proto_tree_add_item(tree, hf_zbee_zcl_attr_minint, tvb, *offset, 2, ENC_LITTLE_ENDIAN); (*offset) += 2; /* Dissect maximum reporting interval */ proto_tree_add_item(tree, hf_zbee_zcl_attr_maxint, tvb, *offset, 2, ENC_LITTLE_ENDIAN); (*offset) += 2; if ( IS_ANALOG_SUBTYPE(data_type) ) { /* Dissect reportable change */ dissect_zcl_attr_data_general(tvb, sub_tree, offset, attr_id, data_type, cluster_id, mfr_code, direction == ZBEE_ZCL_FCF_TO_CLIENT); } } else { /* Dissect the attribute id */ dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, direction == ZBEE_ZCL_FCF_TO_SERVER); /* Dissect timeout period */ proto_tree_add_item(tree, hf_zbee_zcl_attr_timeout, tvb, *offset, 2, ENC_LITTLE_ENDIAN); (*offset) += 2; } } } /* dissect_zcl_config_report */ /** *Helper dissector for ZCL Config Report Attribute Response commands. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ static void dissect_zcl_config_report_resp(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree; guint tvb_len; guint i = 0; tvb_len = tvb_captured_length(tvb); /* Special case when all attributes configured successfully */ if ( *offset == tvb_len - 1 ) { /* Dissect the status */ if ( dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_status) != ZBEE_ZCL_STAT_SUCCESS ) { expert_add_info(pinfo, tree->last_child, &ei_cfg_rpt_rsp_short_non_success); } } while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { guint8 attr_dir; /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 3, ett_zbee_zcl_attr[i], NULL, "Attribute Status Record"); i++; /* Dissect the status */ dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_status); /* Dissect the direction */ attr_dir = dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_dir); /* Dissect the attribute identifier */ dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, (direction == ZBEE_ZCL_FCF_TO_SERVER && attr_dir == ZBEE_ZCL_DIR_REPORTED) || (direction == ZBEE_ZCL_FCF_TO_CLIENT && attr_dir == ZBEE_ZCL_DIR_RECEIVED)); } } /* dissect_zcl_config_report_resp */ /** *Helper dissector for ZCL Read Report Configuration command. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ static void dissect_zcl_read_report_config(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree; guint tvb_len; guint i = 0; tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { guint8 attr_dir; /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 3, ett_zbee_zcl_attr[i], NULL, "Attribute Status Record"); i++; /* Dissect the direction */ attr_dir = dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_dir); /* Dissect the attribute identifier */ dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, (direction == ZBEE_ZCL_FCF_TO_SERVER && attr_dir == ZBEE_ZCL_DIR_RECEIVED) || (direction == ZBEE_ZCL_FCF_TO_CLIENT && attr_dir == ZBEE_ZCL_DIR_REPORTED)); } } /* dissect_zcl_read_report_config */ /** *Helper dissector for ZCL Default Response command. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller. */ static void dissect_zcl_default_resp(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset) { /* The only way to tell if this is a profile-wide or cluster specific command */ /* is the frame control of the original message to which this is the response. */ /* So, display the originating command id and do not attempt to interpret */ proto_tree_add_item(tree, hf_zbee_zcl_cmd_id_rsp, tvb, *offset, 1, ENC_NA); *offset += 1; /* Dissect the status */ dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_status); } /* dissect_zcl_default_resp */ /** *Helper dissector for ZCL Discover Attributes command. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller */ static void dissect_zcl_discover_attr(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset) { /* Dissect the starting attribute identifier */ proto_tree_add_item(tree, hf_zbee_zcl_attr_start, tvb, *offset, 2, ENC_LITTLE_ENDIAN); *offset += 2; /* Dissect the number of maximum attribute identifiers */ dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_maxnum); return; } /* dissect_zcl_discover_attr */ /** *Helper dissector for ZCL Discover Attributes command. * *@param tvb pointer to buffer containing raw packet. *@param pinfo pointer to packet information fields *@param tree pointer to data tree wireshark uses to display packet. *@param offset pointer to offset from caller *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param direction ZCL direction */ static void dissect_zcl_discover_attr_resp(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree = NULL; guint tvb_len; guint i = 0; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_SERVER; /* XXX - tree is never available!!!*/ dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_dis); tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ) { /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 3, ett_zbee_zcl_attr[i], NULL, "Attribute Status Record"); i++; /* Dissect the attribute identifier */ dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, client_attr); /* Dissect the number of maximum attribute identifiers */ dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_data_type); } } /* dissect_zcl_discover_attr_resp */ static void dissect_zcl_read_attr_struct(tvbuff_t* tvb, packet_info* pinfo _U_, proto_tree* tree, guint* offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree = NULL; guint tvb_len; guint i = 0, j=0; // guint16 attr_id; guint8 indicator; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_CLIENT; tvb_len = tvb_captured_length(tvb); while (*offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT) { /* Create subtree for aelector field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_sel[i], NULL, "Selector"); i++; /* Dissect the attribute identifier */ // attr_id = tvb_get_letohs(tvb, *offset); dissect_zcl_attr_id(tvb, tree, offset, cluster_id, mfr_code, client_attr); proto_tree_add_item(sub_tree, hf_zbee_zcl_indicator, tvb, *offset, 1, ENC_LITTLE_ENDIAN); indicator = tvb_get_guint8(tvb, *offset); *offset += 1; j=0; while (j < indicator) { proto_tree_add_item(sub_tree, hf_zbee_zcl_index, tvb, *offset, 2, ENC_LITTLE_ENDIAN); //index = tvb_get_letohs(tvb, offset); /*index = dissect_zcl_array_type();*/ j++; *offset += 2; } } }/*dissect_zcl_read_attr_struct*/ static void dissect_zcl_write_attr_struct(tvbuff_t* tvb, packet_info* pinfo _U_, proto_tree* tree, guint* offset, guint16 cluster_id, guint16 mfr_code, gboolean direction) { proto_tree *sub_tree = NULL; proto_tree *sub_tree_1 = NULL; guint tvb_len, indicator; guint i = 0, j=0; guint16 attr_id; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_CLIENT; tvb_len = tvb_captured_length(tvb); while(*offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT){ /* Create subtree for aelector field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_attr[i], NULL, "Attribute Record"); sub_tree_1 = proto_tree_add_subtree(sub_tree, tvb, *offset, 0, ett_zbee_zcl_attr[i], NULL, "Selector"); i++; /* Dissect the attribute identifier */ attr_id = tvb_get_letohs(tvb, *offset); dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, client_attr); if(sub_tree_1){ proto_tree_add_item(sub_tree, hf_zbee_zcl_indicator, tvb, 0, 1, ENC_LITTLE_ENDIAN); indicator = tvb_get_guint8(tvb, *offset); (* offset) += 1; j=0; while (j < indicator) { proto_tree_add_item(sub_tree, hf_zbee_zcl_index, tvb, 0, 2, ENC_LITTLE_ENDIAN); j++; (* offset) += 2; } } /* Dissect the attribute data type and data */ dissect_zcl_attr_data_type_val(tvb, sub_tree, offset, attr_id, cluster_id, mfr_code, client_attr); } /* Set end for subtree */ proto_item_set_end(proto_tree_get_parent(sub_tree_1), tvb, *offset); } static void dissect_zcl_write_attr_struct_resp(tvbuff_t* tvb, packet_info* pinfo _U_, proto_tree* tree, guint* offset, guint16 cluster_id, guint16 mfr_code, gboolean direction){ proto_tree *sub_tree; proto_tree *sub_tree_1; guint tvb_len, indicator; guint i = 0,j = 0; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_SERVER; tvb_len = tvb_captured_length(tvb); while (*offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT) { /* Create subtree for attribute status field */ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_attr[i], NULL, "Write Attribute Record"); sub_tree_1 = proto_tree_add_subtree(sub_tree, tvb, *offset, 0, ett_zbee_zcl_attr[i], NULL, "Selector"); i++; /* Dissect the status */ if (dissect_zcl_attr_uint8(tvb, sub_tree, offset, &hf_zbee_zcl_attr_status) != ZBEE_ZCL_STAT_SUCCESS) { /* Dissect the failed attribute identifier */ dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, client_attr); if (sub_tree_1) { proto_tree_add_item(sub_tree, hf_zbee_zcl_indicator, tvb, 0, 1, ENC_LITTLE_ENDIAN); indicator = tvb_get_guint8(tvb, *offset); *offset += 1; j = 0; while (j < indicator) { proto_tree_add_item(sub_tree, hf_zbee_zcl_index, tvb, 0, 2, ENC_LITTLE_ENDIAN); //index = tvb_get_letohs(tvb, offset); /*index = dissect_zcl_array_type();*/ j++; *offset += 2; } } } } /* Set end for subtree */ // proto_item_set_end(proto_tree_get_parent(sub_tree_1), tvb, *offset); } static void dissect_zcl_discover_cmd_rec(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset) { dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_cmd_start); /* Dissect the number of maximum attribute identifiers */ dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_cmd_maxnum); return; } static void dissect_zcl_discover_cmd_rec_resp(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset) { guint tvb_len; guint i = 0; gint discovery_complete = -1; discovery_complete = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_dis); if(discovery_complete == 0){ tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < (tvb_len-1) ) { /* Dissect the command identifiers */ dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_cs_cmd_id); i++; } } } static void dissect_zcl_discover_cmd_attr_extended_resp(tvbuff_t *tvb, packet_info *pinfo _U_, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean direction){ proto_tree* sub_tree = NULL; guint tvb_len; guint i = 0; gint discovery_complete = -1; guint16 attr_id = 0; gboolean client_attr = direction == ZBEE_ZCL_FCF_TO_SERVER; discovery_complete = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_dis); if(discovery_complete == 0){ tvb_len = tvb_captured_length(tvb); while ( *offset < tvb_len && i < ZBEE_ZCL_NUM_ATTR_ETT ){ sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 4, ett_zbee_zcl_attr[i], NULL, "Extended Attribute Information"); i++; attr_id = tvb_get_letohs(tvb, *offset); dissect_zcl_attr_id(tvb, sub_tree, offset, cluster_id, mfr_code, client_attr); dissect_zcl_attr_data_type_val(tvb, sub_tree, offset, attr_id, cluster_id, mfr_code, client_attr); proto_tree_add_item(sub_tree, hf_zbee_zcl_attr_access_ctrl, tvb, 0, 1, ENC_LITTLE_ENDIAN); *offset += 1; } } } /** *Dissects Attribute ID field. This could be done with the * *@param tvb pointer to buffer containing raw packet. *@param tree pointer to data tree wireshark uses to display packet. *@param offset into the tvb to begin dissection. *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param client_attr ZCL client */ void dissect_zcl_attr_id(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint16 cluster_id, guint16 mfr_code, gboolean client_attr) { zbee_zcl_cluster_desc *desc; int hf_attr_id = hf_zbee_zcl_attr_id; /* Check if a cluster-specific attribute ID definition exists. */ desc = zbee_zcl_get_cluster_desc(cluster_id, mfr_code); if (desc) { if (client_attr) { if (desc->hf_attr_client_id >= 0) { hf_attr_id = desc->hf_attr_client_id; } } else { if (desc->hf_attr_server_id >= 0) { hf_attr_id = desc->hf_attr_server_id; } } } /* Add the identifier. */ proto_tree_add_item(tree, hf_attr_id, tvb, *offset, 2, ENC_LITTLE_ENDIAN); *offset += 2; } /* dissect_zcl_attr_id */ /** *Helper dissector for ZCL Attribute commands. * *@param tvb pointer to buffer containing raw packet. *@param tree pointer to data tree wireshark uses to display packet. *@param offset into the tvb to begin dissection. *@param attr_id attribute id *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param client_attr ZCL client */ void dissect_zcl_attr_data_type_val(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint16 attr_id, guint16 cluster_id, guint16 mfr_code, gboolean client_attr) { zbee_zcl_cluster_desc *desc; desc = zbee_zcl_get_cluster_desc(cluster_id, mfr_code); if ((desc != NULL) && (desc->fn_attr_data != NULL)) { desc->fn_attr_data(tree, tvb, offset, attr_id, dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_data_type), client_attr); } else { dissect_zcl_attr_data(tvb, tree, offset, dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_data_type), client_attr); } } /* dissect_zcl_attr_data_type_val */ /** *Helper dissector for ZCL Attribute commands. * *@param tvb pointer to buffer containing raw packet. *@param tree pointer to data tree wireshark uses to display packet. *@param offset into the tvb to begin dissection. *@param attr_id attribute identification *@param data_type type of data *@param cluster_id cluster id *@param mfr_code manufacturer code. *@param client_attr ZCL client */ static void dissect_zcl_attr_data_general(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint16 attr_id, guint data_type, guint16 cluster_id, guint16 mfr_code, gboolean client_attr) { zbee_zcl_cluster_desc *desc; desc = zbee_zcl_get_cluster_desc(cluster_id, mfr_code); if ((desc != NULL) && (desc->fn_attr_data != NULL)) { desc->fn_attr_data(tree, tvb, offset, attr_id, data_type, client_attr); } else { dissect_zcl_attr_data(tvb, tree, offset, data_type, client_attr); } } /*dissect_zcl_attr_data_general*/ /** *Dissects the various types of ZCL attribute data. * *@param tvb pointer to buffer containing raw packet. *@param tree pointer to data tree wireshark uses to display packet. *@param offset into the tvb to begin dissection. *@param client_attr ZCL client */ void dissect_zcl_attr_data(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint data_type, gboolean client_attr) { guint attr_uint; gint attr_int; const guint8 *attr_string; guint8 attr_uint8[4]; guint8 elements_type; guint16 elements_num; gfloat attr_float; gdouble attr_double; nstime_t attr_time; /* Dissect attribute data type and data */ switch ( data_type ) { case ZBEE_ZCL_NO_DATA: break; case ZBEE_ZCL_8_BIT_DATA: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 1, ENC_NA); (*offset) += 1; break; case ZBEE_ZCL_8_BIT_BITMAP: proto_tree_add_item(tree, hf_zbee_zcl_attr_bitmap8, tvb, *offset, 1, ENC_NA); proto_item_append_text(tree, ", Bitmap: %02x", tvb_get_guint8(tvb, *offset)); (*offset) += 1; break; case ZBEE_ZCL_8_BIT_UINT: case ZBEE_ZCL_8_BIT_ENUM: /* Display 8 bit unsigned integer */ attr_uint = tvb_get_guint8(tvb, *offset); proto_item_append_text(tree, ", %s: %u", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_uint); proto_tree_add_item(tree, hf_zbee_zcl_attr_uint8, tvb, *offset, 1, ENC_NA); *offset += 1; break; case ZBEE_ZCL_8_BIT_INT: /* Display 8 bit integer */ attr_int = tvb_get_gint8(tvb, *offset); proto_item_append_text(tree, ", %s: %-d", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_int); proto_tree_add_item(tree, hf_zbee_zcl_attr_int8, tvb, *offset, 1, ENC_NA); *offset += 1; break; case ZBEE_ZCL_BOOLEAN: attr_uint = tvb_get_guint8(tvb, *offset); proto_item_append_text(tree, ", %s: 0x%02x", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_uint); proto_tree_add_item(tree, hf_zbee_zcl_attr_boolean, tvb, *offset, 1, ENC_BIG_ENDIAN); *offset += 1; break; case ZBEE_ZCL_16_BIT_DATA: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 2, ENC_NA); (*offset) += 2; break; case ZBEE_ZCL_16_BIT_BITMAP: proto_tree_add_item(tree, hf_zbee_zcl_attr_bitmap16, tvb, *offset, 2, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Bitmap: %04" PRIx16, tvb_get_letohs(tvb, *offset)); (*offset) += 2; break; case ZBEE_ZCL_16_BIT_UINT: case ZBEE_ZCL_16_BIT_ENUM: /* Display 16 bit unsigned integer */ attr_uint = tvb_get_letohs(tvb, *offset); proto_item_append_text(tree, ", %s: %u", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_uint); proto_tree_add_item(tree, hf_zbee_zcl_attr_uint16, tvb, *offset, 2, ENC_LITTLE_ENDIAN); *offset += 2; break; case ZBEE_ZCL_16_BIT_INT: /* Display 16 bit integer */ attr_int = tvb_get_letohis(tvb, *offset); proto_item_append_text(tree, ", %s: %-d", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_int); proto_tree_add_item(tree, hf_zbee_zcl_attr_int16, tvb, *offset, 2, ENC_LITTLE_ENDIAN); *offset += 2; break; case ZBEE_ZCL_24_BIT_DATA: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 3, ENC_NA); (*offset) += 3; break; case ZBEE_ZCL_24_BIT_BITMAP: proto_tree_add_item(tree, hf_zbee_zcl_attr_bitmap24, tvb, *offset, 3, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Bitmap: %06" PRIx32, tvb_get_letoh24(tvb, *offset)); (*offset) += 3; break; case ZBEE_ZCL_24_BIT_UINT: /* Display 24 bit unsigned integer */ attr_uint = tvb_get_letoh24(tvb, *offset); proto_item_append_text(tree, ", %s: %u", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_uint); proto_tree_add_item(tree, hf_zbee_zcl_attr_uint24, tvb, *offset, 3, ENC_LITTLE_ENDIAN); *offset += 3; break; case ZBEE_ZCL_24_BIT_INT: /* Display 24 bit signed integer */ attr_int = tvb_get_letohi24(tvb, *offset); /* sign extend into int32 */ if (attr_int & INT24_SIGN_BITS) attr_int |= INT24_SIGN_BITS; proto_item_append_text(tree, ", %s: %-d", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_int); proto_tree_add_item(tree, hf_zbee_zcl_attr_int24, tvb, *offset, 3, ENC_LITTLE_ENDIAN); *offset += 3; break; case ZBEE_ZCL_32_BIT_DATA: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 4, ENC_NA); (*offset) += 4; break; case ZBEE_ZCL_32_BIT_BITMAP: proto_tree_add_item(tree, hf_zbee_zcl_attr_bitmap32, tvb, *offset, 4, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Bitmap: %08" PRIx32, tvb_get_letohl(tvb, *offset)); (*offset) += 4; break; case ZBEE_ZCL_32_BIT_UINT: /* Display 32 bit unsigned integer */ attr_uint = tvb_get_letohl(tvb, *offset); proto_item_append_text(tree, ", %s: %u", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_uint); proto_tree_add_item(tree, hf_zbee_zcl_attr_uint32, tvb, *offset, 4, ENC_LITTLE_ENDIAN); *offset += 4; break; case ZBEE_ZCL_32_BIT_INT: /* Display 32 bit signed integer */ attr_int = tvb_get_letohil(tvb, *offset); proto_item_append_text(tree, ", %s: %-d", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_int); proto_tree_add_item(tree, hf_zbee_zcl_attr_int32, tvb, *offset, 4, ENC_LITTLE_ENDIAN); *offset += 4; break; case ZBEE_ZCL_40_BIT_DATA: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 5, ENC_NA); (*offset) += 5; break; case ZBEE_ZCL_40_BIT_BITMAP: proto_tree_add_item(tree, hf_zbee_zcl_attr_bitmap40, tvb, *offset, 5, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Bitmap: %010" PRIx64, tvb_get_letoh40(tvb, *offset)); (*offset) += 5; break; case ZBEE_ZCL_40_BIT_UINT: proto_tree_add_item(tree, hf_zbee_zcl_attr_uint40, tvb, *offset, 5, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Uint: %" PRIu64, tvb_get_letoh40(tvb, *offset)); (*offset) += 5; break; case ZBEE_ZCL_40_BIT_INT: proto_tree_add_item(tree, hf_zbee_zcl_attr_int64, tvb, *offset, 5, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Int: %" PRId64, tvb_get_letohi40(tvb, *offset)); (*offset) += 5; break; case ZBEE_ZCL_48_BIT_DATA: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 6, ENC_NA); (*offset) += 6; break; case ZBEE_ZCL_48_BIT_BITMAP: proto_tree_add_item(tree, hf_zbee_zcl_attr_bitmap48, tvb, *offset, 6, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Bitmap: %012" PRIx64, tvb_get_letoh48(tvb, *offset)); (*offset) += 6; break; case ZBEE_ZCL_48_BIT_UINT: proto_tree_add_item(tree, hf_zbee_zcl_attr_uint48, tvb, *offset, 6, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Uint: %" PRIu64, tvb_get_letoh48(tvb, *offset)); (*offset) += 6; break; case ZBEE_ZCL_48_BIT_INT: proto_tree_add_item(tree, hf_zbee_zcl_attr_int64, tvb, *offset, 6, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Int: %" PRId64, tvb_get_letohi48(tvb, *offset)); (*offset) += 6; break; case ZBEE_ZCL_56_BIT_DATA: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 7, ENC_NA); (*offset) += 7; break; case ZBEE_ZCL_56_BIT_BITMAP: proto_tree_add_item(tree, hf_zbee_zcl_attr_bitmap56, tvb, *offset, 7, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Bitmap: %014" PRIx64, tvb_get_letoh56(tvb, *offset)); (*offset) += 7; break; case ZBEE_ZCL_56_BIT_UINT: proto_tree_add_item(tree, hf_zbee_zcl_attr_uint56, tvb, *offset, 7, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Uint: %" PRIu64, tvb_get_letoh56(tvb, *offset)); (*offset) += 7; break; case ZBEE_ZCL_56_BIT_INT: proto_tree_add_item(tree, hf_zbee_zcl_attr_int64, tvb, *offset, 7, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Int: %" PRId64, tvb_get_letohi56(tvb, *offset)); (*offset) += 7; break; case ZBEE_ZCL_64_BIT_DATA: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 8, ENC_NA); (*offset) += 8; break; case ZBEE_ZCL_64_BIT_BITMAP: proto_tree_add_item(tree, hf_zbee_zcl_attr_bitmap64, tvb, *offset, 8, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Bitmap: %016" PRIx64, tvb_get_letoh64(tvb, *offset)); (*offset) += 8; break; case ZBEE_ZCL_64_BIT_UINT: proto_tree_add_item(tree, hf_zbee_zcl_attr_uint64, tvb, *offset, 8, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Uint: %" PRIu64, tvb_get_letoh64(tvb, *offset)); (*offset) += 8; break; case ZBEE_ZCL_64_BIT_INT: proto_tree_add_item(tree, hf_zbee_zcl_attr_int64, tvb, *offset, 8, ENC_LITTLE_ENDIAN); proto_item_append_text(tree, ", Int: %" PRIu64, tvb_get_letoh64(tvb, *offset)); (*offset) += 8; break; case ZBEE_ZCL_SEMI_FLOAT: /* BUGBUG */ proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 2, ENC_NA); (*offset) += 2; break; case ZBEE_ZCL_SINGLE_FLOAT: attr_float = tvb_get_letohieee_float(tvb, *offset); proto_item_append_text(tree, ", %s: %g", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved"), attr_float); proto_tree_add_item(tree, hf_zbee_zcl_attr_float, tvb, *offset, 4, ENC_LITTLE_ENDIAN); *offset += 4; break; case ZBEE_ZCL_DOUBLE_FLOAT: attr_double = tvb_get_letohieee_double(tvb, *offset); proto_item_append_text(tree, ", Double: %g", attr_double); proto_tree_add_item(tree, hf_zbee_zcl_attr_double, tvb, *offset, 8, ENC_LITTLE_ENDIAN); *offset += 8; break; case ZBEE_ZCL_OCTET_STRING: /* Display octet string */ proto_tree_add_item_ret_length(tree, hf_zbee_zcl_attr_ostr, tvb, *offset, 1, ENC_NA|ENC_ZIGBEE, &attr_int); if (attr_int > 1) proto_item_append_text(tree, ", Octets: %s", tvb_bytes_to_str_punct(wmem_packet_scope(), tvb, (*offset)+1, attr_int-1, ':')); *offset += attr_int; break; case ZBEE_ZCL_CHAR_STRING: /* Display string */ proto_tree_add_item_ret_string_and_length(tree, hf_zbee_zcl_attr_str, tvb, *offset, 1, ENC_NA|ENC_ZIGBEE, wmem_packet_scope(), &attr_string, &attr_int); proto_item_append_text(tree, ", String: %s", attr_string); *offset += attr_int; break; case ZBEE_ZCL_LONG_OCTET_STRING: /* Display long octet string */ proto_tree_add_item_ret_length(tree, hf_zbee_zcl_attr_ostr, tvb, *offset, 2, ENC_LITTLE_ENDIAN|ENC_ZIGBEE, &attr_int); if (attr_int > 2) proto_item_append_text(tree, ", Octets: %s", tvb_bytes_to_str_punct(wmem_packet_scope(), tvb, (*offset)+2, attr_int-2, ':')); *offset += attr_int; break; case ZBEE_ZCL_LONG_CHAR_STRING: /* Display long string */ proto_tree_add_item_ret_string_and_length(tree, hf_zbee_zcl_attr_str, tvb, *offset, 2, ENC_LITTLE_ENDIAN|ENC_ZIGBEE, wmem_packet_scope(), &attr_string, &attr_int); proto_item_append_text(tree, ", String: %s", attr_string); *offset += attr_int; break; case ZBEE_ZCL_ARRAY: /* BYTE 0 - Elements type */ elements_type = tvb_get_guint8(tvb, *offset); proto_tree_add_uint(tree, hf_zbee_zcl_attr_array_elements_type, tvb, *offset, 1, elements_type); *offset += 1; /* BYTE 1-2 - Element number */ elements_num = tvb_get_letohs(tvb, *offset); proto_tree_add_uint(tree, hf_zbee_zcl_attr_array_elements_num, tvb, *offset, 2, elements_num); *offset += 2; /* BYTE ... - Elements */ dissect_zcl_array_type(tvb, tree, offset, elements_type, elements_num, client_attr); break; case ZBEE_ZCL_SET: /* BYTE 0 - Elements type */ elements_type = tvb_get_guint8(tvb, *offset); proto_tree_add_uint(tree, hf_zbee_zcl_attr_set_elements_type, tvb, *offset, 1, elements_type); *offset += 1; /* BYTE 1-2 - Element number */ elements_num = tvb_get_letohs(tvb, *offset); proto_tree_add_uint(tree, hf_zbee_zcl_attr_set_elements_num, tvb, *offset, 2, elements_num); *offset += 2; /* BYTE ... - Elements */ dissect_zcl_set_type(tvb, tree, offset, elements_type, elements_num, client_attr); break; case ZBEE_ZCL_BAG: /* Same as ZBEE_ZCL_SET, but using different filter fields */ /* BYTE 0 - Elements type */ elements_type = tvb_get_guint8(tvb, *offset); proto_tree_add_uint(tree, hf_zbee_zcl_attr_bag_elements_type, tvb, *offset, 1, elements_type); *offset += 1; /* BYTE 1-2 - Element number */ elements_num = tvb_get_letohs(tvb, *offset); proto_tree_add_uint(tree, hf_zbee_zcl_attr_bag_elements_num, tvb, *offset, 2, elements_num); *offset += 2; /* BYTE ... - Elements */ dissect_zcl_set_type(tvb, tree, offset, elements_type, elements_num, client_attr); break; case ZBEE_ZCL_STRUCT: /* ToDo */ break; case ZBEE_ZCL_TIME: /* Dissect Time of Day */ attr_uint8[0] = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_hours); attr_uint8[1] = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_mins); attr_uint8[2] = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_secs); attr_uint8[3] = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_csecs); proto_item_append_text(tree, ", Time: %u:%u:%u.%u", attr_uint8[0], attr_uint8[1], attr_uint8[2], attr_uint8[3]); break; case ZBEE_ZCL_DATE: /* Dissect Date */ attr_uint8[0] = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_yy); attr_uint8[1] = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_mm); attr_uint8[2] = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_md); attr_uint8[3] = dissect_zcl_attr_uint8(tvb, tree, offset, &hf_zbee_zcl_attr_wd); proto_item_append_text(tree, ", Date: %u/%u/%u %s", attr_uint8[0]+1900, attr_uint8[1], attr_uint8[2], val_to_str_ext_const(attr_uint8[3], &zbee_zcl_wd_names_ext, "Invalid Weekday") ); break; case ZBEE_ZCL_UTC: /* Display UTC */ attr_time.secs = tvb_get_letohl(tvb, *offset); attr_time.secs += ZBEE_ZCL_NSTIME_UTC_OFFSET; attr_time.nsecs = 0; proto_item_append_text(tree, ", %s", val_to_str_ext_const(data_type, &zbee_zcl_short_data_type_names_ext, "Reserved") ); proto_tree_add_time(tree, hf_zbee_zcl_attr_utc, tvb, *offset, 4, &attr_time); *offset += 4; break; case ZBEE_ZCL_CLUSTER_ID: proto_tree_add_item(tree, hf_zbee_zcl_attr_cid, tvb, *offset, 2, ENC_LITTLE_ENDIAN); (*offset) += 2; break; case ZBEE_ZCL_ATTR_ID: dissect_zcl_attr_id(tvb, tree, offset, zcl_cluster_id, zcl_mfr_code, client_attr); break; case ZBEE_ZCL_BACNET_OID: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 4, ENC_NA); (*offset) += 4; break; case ZBEE_ZCL_IEEE_ADDR: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 8, ENC_NA); (*offset) += 8; break; case ZBEE_ZCL_SECURITY_KEY: proto_tree_add_item(tree, hf_zbee_zcl_attr_bytes, tvb, *offset, 16, ENC_NA); (*offset) += 16; break; default: break; } } /* dissect_zcl_attr_data */ /** *Helper dissector for ZCL Attribute commands. * *@param tvb pointer to buffer containing raw packet. *@param tree pointer to data tree wireshark uses to display packet. *@param offset into the tvb to begin dissection. *@param hf_zbee_zcl pointer to header field index *@return dissected data */ guint dissect_zcl_attr_uint8(tvbuff_t *tvb, proto_tree *tree, guint *offset, int *hf_zbee_zcl) { guint attr_uint; attr_uint = tvb_get_guint8(tvb, *offset); proto_tree_add_uint(tree, *hf_zbee_zcl, tvb, *offset, 1, attr_uint); (*offset)++; return attr_uint; } /* dissect_zcl_attr_uint8 */ /** *Helper dissector for ZCL attribute array type. * *@param tvb pointer to buffer containing raw packet. *@param tree pointer to data tree wireshark uses to display packet. *@param offset into the tvb to begin dissection. *@param elements_type element type *@param elements_num elements number *@param client_attr ZCL client */ static void dissect_zcl_array_type(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint8 elements_type, guint16 elements_num, gboolean client_attr) { proto_tree *sub_tree; guint tvb_len; guint i = 1; /* First element has a 1-index value */ tvb_len = tvb_captured_length(tvb); while ( (*offset < tvb_len) && (elements_num != 0) ) { /* Have "common" use case give individual tree control to all elements, but don't prevent dissection if list is large */ if (i < ZBEE_ZCL_NUM_ARRAY_ELEM_ETT-1) sub_tree = proto_tree_add_subtree_format(tree, tvb, *offset, 0, ett_zbee_zcl_array_elements[i], NULL, "Element #%d", i); else sub_tree = proto_tree_add_subtree_format(tree, tvb, *offset, 0, ett_zbee_zcl_array_elements[ZBEE_ZCL_NUM_ARRAY_ELEM_ETT-1], NULL, "Element #%d", i); guint old_offset = *offset; dissect_zcl_attr_data(tvb, sub_tree, offset, elements_type, client_attr); if (old_offset >= *offset) { proto_tree_add_expert(sub_tree, NULL, &ei_zbee_zero_length_element, tvb, old_offset, -1); break; } elements_num--; i++; } } /* dissect_zcl_array_type */ /** *Helper dissector for ZCL attribute set and bag types. * *@param tvb pointer to buffer containing raw packet. *@param tree pointer to data tree wireshark uses to display packet. *@param offset into the tvb to begin dissection. *@param elements_type element type *@param elements_num elements number *@param client_attr ZCL client */ static void dissect_zcl_set_type(tvbuff_t *tvb, proto_tree *tree, guint *offset, guint8 elements_type, guint16 elements_num, gboolean client_attr) { proto_tree *sub_tree; guint tvb_len; guint i = 1; /* First element has a 1-index value */ tvb_len = tvb_captured_length(tvb); while ( (*offset < tvb_len) && (elements_num != 0) ) { /* Piggyback on array ett_ variables */ /* Have "common" use case give individual tree control to all elements, but don't prevent dissection if list is large */ if (i < ZBEE_ZCL_NUM_ARRAY_ELEM_ETT-1) sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_array_elements[i], NULL, "Element"); else sub_tree = proto_tree_add_subtree(tree, tvb, *offset, 0, ett_zbee_zcl_array_elements[ZBEE_ZCL_NUM_ARRAY_ELEM_ETT-1], NULL, "Element"); guint old_offset = *offset; dissect_zcl_attr_data(tvb, sub_tree, offset, elements_type, client_attr); if (old_offset >= *offset) { proto_tree_add_expert(sub_tree, NULL, &ei_zbee_zero_length_element, tvb, old_offset, -1); break; } elements_num--; i++; } } /* dissect_zcl_set_type */ /** *Helper functions dumps any remaining data into the data dissector. * *@param tvb pointer to buffer containing raw packet. *@param offset offset after parsing last item. *@param pinfo packet information structure. *@param tree pointer to data tree Wireshark uses to display packet. */ static void zcl_dump_data(tvbuff_t *tvb, guint offset, packet_info *pinfo, proto_tree *tree) { proto_tree *root = proto_tree_get_root(tree); guint length = tvb_captured_length_remaining(tvb, offset); tvbuff_t *remainder; if (length > 0) { remainder = tvb_new_subset_remaining(tvb, offset); call_data_dissector(remainder, pinfo, root); } return; } /* zcl_dump_data */ /** *This function decodes tenth of second time type variable * */ void decode_zcl_time_in_100ms(gchar *s, guint16 value) { snprintf(s, ITEM_LABEL_LENGTH, "%d.%d seconds", value/10, value%10); return; } /* decode_zcl_time_in_100ms*/ /** *This function decodes second time type variable * */ void decode_zcl_time_in_seconds(gchar *s, guint16 value) { snprintf(s, ITEM_LABEL_LENGTH, "%d seconds", value); return; } /* decode_zcl_time_in_seconds*/ /** *This function decodes minute time type variable * */ void decode_zcl_time_in_minutes(gchar *s, guint16 value) { snprintf(s, ITEM_LABEL_LENGTH, "%d minutes", value); return; } /*decode_zcl_time_in_minutes*/ static void cluster_desc_free(gpointer p, gpointer user_data _U_) { g_free(p); } static void zbee_shutdown(void) { g_list_foreach(acluster_desc, cluster_desc_free, NULL); g_list_free(acluster_desc); } /** *ZigBee ZCL protocol registration routine. * */ void proto_register_zbee_zcl(void) { guint i, j; static hf_register_info hf[] = { { &hf_zbee_zcl_fcf_frame_type, { "Frame Type", "zbee_zcl.type", FT_UINT8, BASE_HEX, VALS(zbee_zcl_frame_types), ZBEE_ZCL_FCF_FRAME_TYPE, NULL, HFILL }}, { &hf_zbee_zcl_fcf_mfr_spec, { "Manufacturer Specific", "zbee_zcl.ms", FT_BOOLEAN, 8, NULL, ZBEE_ZCL_FCF_MFR_SPEC, NULL, HFILL }}, { &hf_zbee_zcl_fcf_dir, { "Direction", "zbee_zcl.dir", FT_BOOLEAN, 8, TFS(&tfs_s2c_c2s), ZBEE_ZCL_FCF_DIRECTION, NULL, HFILL }}, { &hf_zbee_zcl_fcf_disable_default_resp, { "Disable Default Response", "zbee_zcl.ddr", FT_BOOLEAN, 8, NULL, ZBEE_ZCL_FCF_DISABLE_DEFAULT_RESP, NULL, HFILL }}, { &hf_zbee_zcl_mfr_code, { "Manufacturer Code", "zbee_zcl.cmd.mc", FT_UINT16, BASE_HEX|BASE_EXT_STRING, &zbee_mfr_code_names_ext, 0x0, "Assigned manufacturer code.", HFILL }}, { &hf_zbee_zcl_tran_seqno, { "Sequence Number", "zbee_zcl.cmd.tsn", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_cmd_id, { "Command", "zbee_zcl.cmd.id", FT_UINT8, BASE_HEX|BASE_EXT_STRING, &zbee_zcl_cmd_names_ext, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_cs_cmd_id, { "Command", "zbee_zcl.cs.cmd.id", FT_UINT8, BASE_HEX, VALS(zbee_zcl_cs_cmd_names) /*"Unknown"*/, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_cmd_id_rsp, { "Response to Command", "zbee_zcl.cmd.id.rsp", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_id, { "Attribute", "zbee_zcl.attr.id", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_data_type, { "Data Type", "zbee_zcl.attr.data.type", FT_UINT8, BASE_HEX|BASE_EXT_STRING, &zbee_zcl_data_type_names_ext, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_boolean, { "Boolean", "zbee_zcl.attr.boolean", FT_BOOLEAN, 8, TFS(&tfs_true_false), 0xff, NULL, HFILL }}, { &hf_zbee_zcl_attr_bitmap8, { "Bitmap8", "zbee_zcl.attr.bitmap8", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bitmap16, { "Bitmap16", "zbee_zcl.attr.bitmap16", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bitmap24, { "Bitmap24", "zbee_zcl.attr.bitmap24", FT_UINT24, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bitmap32, { "Bitmap32", "zbee_zcl.attr.bitmap32", FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bitmap40, { "Bitmap40", "zbee_zcl.attr.bitmap40", FT_UINT64, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bitmap48, { "Bitmap48", "zbee_zcl.attr.bitmap48", FT_UINT64, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bitmap56, { "Bitmap56", "zbee_zcl.attr.bitmap56", FT_UINT64, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bitmap64, { "Bitmap64", "zbee_zcl.attr.bitmap64", FT_UINT64, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_uint8, { "Uint8", "zbee_zcl.attr.uint8", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_uint16, { "Uint16", "zbee_zcl.attr.uint16", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_uint24, { "Uint24", "zbee_zcl.attr.uint24", FT_UINT24, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_uint32, { "Uint32", "zbee_zcl.attr.uint32", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_uint40, { "Uint40", "zbee_zcl.attr.uint40", FT_UINT64, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_uint48, { "Uint48", "zbee_zcl.attr.uint48", FT_UINT64, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_uint56, { "Uint56", "zbee_zcl.attr.uint56", FT_UINT64, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_uint64, { "Uint64", "zbee_zcl.attr.uint64", FT_UINT64, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_int8, { "Int8", "zbee_zcl.attr.int8", FT_INT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_int16, { "Int16", "zbee_zcl.attr.int16", FT_INT16, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_int24, { "Int24", "zbee_zcl.attr.int24", FT_INT24, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_int32, { "Int32", "zbee_zcl.attr.int32", FT_INT32, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_int64, { "Int64", "zbee_zcl.attr.int64", FT_INT64, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_float, { "Float", "zbee_zcl.attr.float", FT_FLOAT, BASE_NONE, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_double, { "Double Float", "zbee_zcl.attr.float", FT_DOUBLE, BASE_NONE, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bytes, { "Bytes", "zbee_zcl.attr.bytes", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_minint, { "Minimum Interval", "zbee_zcl.attr.minint", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_maxint, { "Maximum Interval", "zbee_zcl.attr.maxint", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_timeout, { "Timeout", "zbee_zcl.attr.timeout", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_hours, { "Hours", "zbee_zcl.attr.hours", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_mins, { "Minutes", "zbee_zcl.attr.mins", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_secs, { "Seconds", "zbee_zcl.attr.secs", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_csecs, { "Centiseconds", "zbee_zcl.attr.csecs", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_yy, { "Year", "zbee_zcl.attr.yy", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_mm, { "Month", "zbee_zcl.attr.mm", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_md, { "Day of Month", "zbee_zcl.attr.md", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_wd, { "Day of Week", "zbee_zcl.attr.wd", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_utc, { "UTC", "zbee_zcl.attr.utc", FT_ABSOLUTE_TIME, ABSOLUTE_TIME_LOCAL, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_status, { "Status", "zbee_zcl.attr.status", FT_UINT8, BASE_HEX|BASE_EXT_STRING, &zbee_zcl_status_names_ext, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_dir, { "Direction", "zbee_zcl.attr.dir", FT_UINT8, BASE_HEX, VALS(zbee_zcl_dir_names), 0x0, NULL, HFILL }}, { &hf_zbee_zcl_indicator, { "Indicator", "zbee_zcl.attr.ind", FT_UINT8, BASE_DEC, NULL, 0X0, NULL, HFILL}}, { &hf_zbee_zcl_index, { "Indicator", "zbee_zcl.attr.index", FT_UINT16, BASE_DEC, NULL, 0X0, NULL, HFILL}}, { &hf_zbee_zcl_attr_access_ctrl, { "Attribute Access Control", "zbee_zcl.attr.access.ctrl", FT_UINT8, BASE_HEX, NULL, 0X0, NULL, HFILL}}, { &hf_zbee_zcl_attr_dis, { "Discovery", "zbee_zcl.attr.dis", FT_UINT8, BASE_HEX, VALS(zbee_zcl_dis_names), 0x0, NULL, HFILL }}, { &hf_zbee_zcl_cmd_start, {"Start Command", "zbee_zcl.cmd.start", FT_UINT8, BASE_HEX, NULL, 0X0, NULL, HFILL}}, { &hf_zbee_zcl_cmd_maxnum, {"Maximum Number", "zbee_zcl.cmd.maxnum", FT_UINT8, BASE_HEX, NULL, 0X0, NULL, HFILL}}, { &hf_zbee_zcl_attr_cid, { "Cluster", "zbee_zcl.attr.cid", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_start, { "Start Attribute", "zbee_zcl.attr.start", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_maxnum, { "Maximum Number", "zbee_zcl.attr.maxnum", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_str, { "String", "zbee_zcl.attr.str", FT_UINT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_ostr, { "Octet String", "zbee_zcl.attr.ostr", FT_UINT_BYTES, SEP_COLON, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_array_elements_type, { "Elements Type", "zbee_zcl.attr.array.elements_type", FT_UINT8, BASE_HEX|BASE_EXT_STRING, &zbee_zcl_data_type_names_ext, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_array_elements_num, { "Elements Number", "zbee_zcl.attr.array.elements_num", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_set_elements_type, { "Elements Type", "zbee_zcl.attr.set.elements_type", FT_UINT8, BASE_HEX|BASE_EXT_STRING, &zbee_zcl_data_type_names_ext, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_set_elements_num, { "Elements Number", "zbee_zcl.attr.set.elements_num", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bag_elements_type, { "Elements Type", "zbee_zcl.attr.bag.elements_type", FT_UINT8, BASE_HEX|BASE_EXT_STRING, &zbee_zcl_data_type_names_ext, 0x0, NULL, HFILL }}, { &hf_zbee_zcl_attr_bag_elements_num, { "Elements Number", "zbee_zcl.attr.bag.elements_num", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL }} }; /* ZCL subtrees */ gint *ett[ZBEE_ZCL_NUM_TOTAL_ETT]; ett[0] = &ett_zbee_zcl; ett[1] = &ett_zbee_zcl_fcf; j = ZBEE_ZCL_NUM_INDIVIDUAL_ETT; /* initialize attribute subtree types */ for ( i = 0; i < ZBEE_ZCL_NUM_ATTR_ETT; i++, j++) { ett_zbee_zcl_attr[i] = -1; ett[j] = &ett_zbee_zcl_attr[i]; } for(i=0; iproto_id = proto; cluster_desc->proto = find_protocol_by_id(proto); cluster_desc->name = proto_get_protocol_short_name(cluster_desc->proto); cluster_desc->ett = ett; cluster_desc->cluster_id = cluster_id; cluster_desc->mfr_code = mfr_code; cluster_desc->hf_attr_server_id = hf_attr_server_id; cluster_desc->hf_attr_client_id = hf_attr_client_id; cluster_desc->hf_cmd_rx_id = hf_cmd_rx_id; cluster_desc->hf_cmd_tx_id = hf_cmd_tx_id; cluster_desc->fn_attr_data = fn_attr_data; /* Add the cluster descriptor to the list */ acluster_desc = g_list_append(acluster_desc, cluster_desc); } /** *Retrieves the registered specific cluster manufacturer descriptor. * *@param cluster_id cluster identification *@param mfr_code manufacturer code *@return cluster descriptor pointer */ static zbee_zcl_cluster_desc *zbee_zcl_get_cluster_desc(guint16 cluster_id, guint16 mfr_code) { GList *gl; gl = acluster_desc; while (gl) { zbee_zcl_cluster_desc *cluster_desc = (zbee_zcl_cluster_desc *)gl->data; if((cluster_desc->cluster_id == cluster_id) && (cluster_desc->mfr_code == mfr_code)) { return cluster_desc; } gl = gl->next; } return NULL; } /* * Editor modelines - https://www.wireshark.org/tools/modelines.html * * Local variables: * c-basic-offset: 4 * tab-width: 8 * indent-tabs-mode: nil * End: * * vi: set shiftwidth=4 tabstop=8 expandtab: * :indentSize=4:tabSize=8:noTabs=true: */