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packet-radius.c

/* packet-radius.c
 *
 * Routines for RADIUS packet disassembly
 * Copyright 1999 Johan Feyaerts
 * Changed 03/12/2003 Rui Carmo (http://the.taoofmac.com - added all 3GPP VSAs, some parsing)
 *
 * $Id: packet-radius.c 13650 2005-03-07 11:35:52Z lego $
 *
 * Ethereal - Network traffic analyzer
 * By Gerald Combs <gerald@ethereal.com>
 * Copyright 1998 Gerald Combs
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
 *
 * References:
 *
 * RFC 2865 - Remote Authentication Dial In User Service (RADIUS)
 * RFC 2866 - RADIUS Accounting
 * RFC 2867 - RADIUS Accounting Modifications for Tunnel Protocol Support
 * RFC 2868 - RADIUS Attributes for Tunnel Protocol Support
 * RFC 2869 - RADIUS Extensions
 *
 * See also
 *
 *    http://www.iana.org/assignments/radius-types
 */

/*
 * Some of the development of the RADIUS protocol decoder was sponsored by
 * Cable Television Laboratories, Inc. ("CableLabs") based upon proprietary
 * CableLabs' specifications. Your license and use of this protocol decoder
 * does not mean that you are licensed to use the CableLabs'
 * specifications.  If you have questions about this protocol, contact
 * jf.mule [AT] cablelabs.com or c.stuart [AT] cablelabs.com for additional
 * information.
 */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <glib.h>
#include <time.h>

#include "isprint.h"

#include <epan/packet.h>
#include <epan/addr_resolv.h>

#include "packet-q931.h"
#include "packet-gtp.h"
#include <epan/prefs.h>
#include <epan/crypt-md5.h>
#include <epan/sminmpec.h>

static int proto_radius = -1;
static int hf_radius_length = -1;
static int hf_radius_code = -1;
static int hf_radius_id =-1;
static int hf_radius_userName = -1;
static int hf_radius_framedProtocol = -1;
static int hf_radius_serviceType = -1;
static int hf_radius_callingStationId = -1;
static int hf_radius_calledStationId = -1;
static int hf_radius_framedAddress = -1;
static int hf_radius_reply_message = -1;
static int hf_radius_class = -1;
static int hf_radius_nasIp = -1;
static int hf_radius_acctStatusType = -1;
static int hf_radius_acctSessionId = -1;
static int hf_radius_input_packets = -1;
static int hf_radius_output_packets = -1;
static int hf_radius_input_octets = -1;
static int hf_radius_output_octets = -1;

static int hf_radius_3gpp_SgsnIpAddr = -1;
static int hf_radius_3gpp_GgsnIpAddr = -1;
static int hf_radius_cisco_cai = -1;
static int hf_packetcable_em_header_version_id = -1;
static int hf_packetcable_bcid_timestamp = -1;
static int hf_packetcable_bcid_event_counter = -1;
static int hf_packetcable_em_header_event_message_type = -1;
static int hf_packetcable_em_header_element_type = -1;
static int hf_packetcable_em_header_sequence_number = -1;
static int hf_packetcable_em_header_status = -1;
static int hf_packetcable_em_header_status_error_indicator = -1;
static int hf_packetcable_em_header_status_event_origin = -1;
static int hf_packetcable_em_header_status_event_message_proxied = -1;
static int hf_packetcable_em_header_priority = -1;
static int hf_packetcable_em_header_attribute_count = -1;
static int hf_packetcable_em_header_event_object = -1;
static int hf_packetcable_call_termination_cause_source_document = -1;
static int hf_packetcable_call_termination_cause_code = -1;
static int hf_packetcable_trunk_group_id_trunk_type = -1;
static int hf_packetcable_trunk_group_id_trunk_number = -1;
static int hf_packetcable_qos_status = -1;
static int hf_packetcable_qos_status_indication = -1;
static int hf_packetcable_time_adjustment = -1;
static int hf_packetcable_redirected_from_info_number_of_redirections = -1;
static int hf_packetcable_electronic_surveillance_indication_df_cdc_address = -1;
static int hf_packetcable_electronic_surveillance_indication_df_ccc_address = -1;
static int hf_packetcable_electronic_surveillance_indication_cdc_port = -1;
static int hf_packetcable_electronic_surveillance_indication_ccc_port = -1;
static int hf_packetcable_terminal_display_info_terminal_display_status_bitmask = -1;
static int hf_packetcable_terminal_display_info_sbm_general_display = -1;
static int hf_packetcable_terminal_display_info_sbm_calling_number = -1;
static int hf_packetcable_terminal_display_info_sbm_calling_name = -1;
static int hf_packetcable_terminal_display_info_sbm_message_waiting = -1;
static int hf_packetcable_terminal_display_info_general_display = -1;
static int hf_packetcable_terminal_display_info_calling_number = -1;
static int hf_packetcable_terminal_display_info_calling_name = -1;
static int hf_packetcable_terminal_display_info_message_waiting = -1;
/* This is slightly ugly.  */
static int hf_packetcable_qos_desc_flags[] =
{
  -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
};
static int hf_packetcable_qos_desc_fields[] =
{
  -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
};


static char *shared_secret = NULL;
static gpointer authenticator = NULL;

static gint ett_radius = -1;
static gint ett_radius_avp = -1;
static gint ett_radius_eap = -1;
static gint ett_radius_vsa = -1;
static gint ett_radius_vendor_packetcable_bcid = -1;
static gint ett_radius_vendor_packetcable_status = -1;
static gint ett_radius_vendor_packetcable_qos_status = -1;

static void decode_packetcable_bcid (tvbuff_t *tvb, proto_tree *tree, int offset);

static dissector_handle_t eap_fragment_handle;

#define UDP_PORT_RADIUS       1645
#define UDP_PORT_RADIUS_NEW   1812
#define UDP_PORT_RADACCT      1646
#define UDP_PORT_RADACCT_NEW  1813

#define TEXTBUFFER            2000
#define VSABUFFER       10

typedef struct _e_radiushdr {
        guint8 rh_code;
        guint8 rh_ident;
        guint16 rh_pktlength;
} e_radiushdr;

typedef struct _e_avphdr {
        guint8 avp_type;
        guint8 avp_length;
} e_avphdr;

typedef struct _radius_attr_info {
        guint16 attr_type;
        guint16 value_type;
      gchar *str;
      const value_string *vs;
      int *hf;
} radius_attr_info;

typedef struct _rd_vsa_table {
      guint32 vendor;
      const radius_attr_info *attrib;
} rd_vsa_table;

typedef struct _rd_vsa_buffer {
      gchar *str;
      int offset;
      guint8 length;
      gchar *val_str;
      int val_offset;
      guint val_len;
} rd_vsa_buffer;

#define AUTHENTICATOR_LENGTH  16
#define RD_HDR_LENGTH         4

#define RADIUS_ACCESS_REQUEST             1
#define RADIUS_ACCESS_ACCEPT              2
#define RADIUS_ACCESS_REJECT              3
#define RADIUS_ACCOUNTING_REQUEST         4
#define RADIUS_ACCOUNTING_RESPONSE        5
#define RADIUS_ACCOUNTING_STATUS          6
#define RADIUS_ACCESS_PASSWORD_REQUEST          7
#define RADIUS_ACCESS_PASSWORD_ACK        8
#define RADIUS_ACCESS_PASSWORD_REJECT           9
#define RADIUS_ACCOUNTING_MESSAGE         10
#define RADIUS_ACCESS_CHALLENGE                 11
#define RADIUS_STATUS_SERVER              12
#define RADIUS_STATUS_CLIENT              13

#define RADIUS_VENDOR_SPECIFIC_CODE       26
#define RADIUS_ASCEND_ACCESS_NEXT_CODE          29
#define RADIUS_ASCEND_ACCESS_NEW_PIN            30
#define RADIUS_ASCEND_PASSWORD_EXPIRED          32
#define RADIUS_ASCEND_ACCESS_EVENT_REQUEST      33
#define RADIUS_ASCEND_ACCESS_EVENT_RESPONSE     34
#define RADIUS_DISCONNECT_REQUEST         40
#define RADIUS_DISCONNECT_REQUEST_ACK           41
#define RADIUS_DISCONNECT_REQUEST_NAK           42
#define RADIUS_CHANGE_FILTER_REQUEST            43
#define RADIUS_CHANGE_FILTER_REQUEST_ACK  44
#define RADIUS_CHANGE_FILTER_REQUEST_NAK  45
#define RADIUS_RESERVED                   255

/*
 * List of types for RADIUS attributes.  "Type" refers to how it's
 * formatted for display in Ethereal.
 *
 * Not every RADIUS attribute gets its own type.  If an attribute is
 * an integer or a tagged integer, but happens to have particular strings
 * associated with particular values, it doesn't get its own type -
 * you just put a pointer to the appropriate value_string table in
 * the entry for that attribute in the appropriate radius_attr_info
 * table.  Only if it has to get formatted in some non-standard fashion
 * (as is the case for the CoSine VPI/VCI attribute) does it get a type
 * of its own.
 */
enum {
    RADIUS_STRING,
    RADIUS_BINSTRING,
    RADIUS_USERPASSWORD,
    RADIUS_INTEGER2,
    RADIUS_INTEGER4,
    RADIUS_INTEGER8,
    RADIUS_IP_ADDRESS,
    RADIUS_IP6_ADDRESS,
    RADIUS_IP6_PREFIX,
    RADIUS_IP6_INTF_ID,
    RADIUS_UNKNOWN,
    RADIUS_IPX_ADDRESS,
    RADIUS_STRING_TAGGED,
    RADIUS_VENDOR_SPECIFIC,
    RADIUS_TIMESTAMP,
    RADIUS_INTEGER4_TAGGED,
    RADIUS_EAP_MESSAGE,

    COSINE_VPI_VCI,

    THE3GPP_QOS,
    THE3GPP_SESSION_STOP_INDICATOR,
    THE3GPP_IPV6_DNS_SERVERS,

    PACKETCABLE_EM_HEADER,
    PACKETCABLE_CALL_TERMINATION_CAUSE,
    PACKETCABLE_RELATED_CALL_BILLING_CORRELATION_ID,
    PACKETCABLE_TRUNK_GROUP_ID,
    PACKETCABLE_QOS_DESCRIPTOR,
    PACKETCABLE_TIME_ADJUSTMENT,
    PACKETCABLE_REDIRECTED_FROM_INFO,
    PACKETCABLE_ELECTRONIC_SURVEILLANCE_INDICATION,
    PACKETCABLE_ELECTRONIC_SURVEILLANCE_DF_SECURITY,
    PACKETCABLE_TERMINAL_DISPLAY_INFO
};

static const value_string radius_vals[] =
{
  {RADIUS_ACCESS_REQUEST,           "Access Request"},
  {RADIUS_ACCESS_ACCEPT,            "Access Accept"},
  {RADIUS_ACCESS_REJECT,            "Access Reject"},
  {RADIUS_ACCOUNTING_REQUEST,       "Accounting Request"},
  {RADIUS_ACCOUNTING_RESPONSE,            "Accounting Response"},
  {RADIUS_ACCOUNTING_STATUS,        "Accounting Status"},
  {RADIUS_ACCESS_PASSWORD_REQUEST,  "Access Password Request"},
  {RADIUS_ACCESS_PASSWORD_ACK,            "Access Password Ack"},
  {RADIUS_ACCESS_PASSWORD_REJECT,   "Access Password Reject"},
  {RADIUS_ACCOUNTING_MESSAGE,       "Accounting Message"},
  {RADIUS_ACCESS_CHALLENGE,         "Access challenge"},
  {RADIUS_STATUS_SERVER,            "StatusServer"},
  {RADIUS_STATUS_CLIENT,            "StatusClient"},
  {RADIUS_VENDOR_SPECIFIC_CODE,           "Vendor Specific"},
  {RADIUS_ASCEND_ACCESS_NEXT_CODE,  "Ascend Access Next Code"},
  {RADIUS_ASCEND_ACCESS_NEW_PIN,    "Ascend Access New Pin"},
  {RADIUS_ASCEND_PASSWORD_EXPIRED,  "Ascend Password Expired"},
  {RADIUS_ASCEND_ACCESS_EVENT_REQUEST,    "Ascend Access Event Request"},
  {RADIUS_ASCEND_ACCESS_EVENT_RESPONSE,   "Ascend Access Event Response"},
  {RADIUS_DISCONNECT_REQUEST,       "Disconnect Request"},
  {RADIUS_DISCONNECT_REQUEST_ACK,   "Disconnect Request ACK"},
  {RADIUS_DISCONNECT_REQUEST_NAK,   "Disconnect Request NAK"},
  {RADIUS_CHANGE_FILTER_REQUEST,    "Change Filter Request"},
  {RADIUS_CHANGE_FILTER_REQUEST_ACK,      "Change Filter Request ACK"},
  {RADIUS_CHANGE_FILTER_REQUEST_NAK,      "Change Filter Request NAK"},
  {RADIUS_RESERVED,                 "Reserved"},
  {0, NULL}
};

/*
 * XXX - should we construct these tables in Ethereal at start-up time by
 * reading files such as FreeRadius dictionary files?  For example,
 * the FreeRadius "dictionary" file has
 *
 *    ATTRIBUTE       User-Name               1       string
 *
 * for the attribute that's
 *
 *    {1,   RADIUS_STRING,                "User Name"},
 *
 * In our tables:
 *
 *    "string" -> RADIUS_STRING
 *    "octets" -> RADIUS_BINSTRING
 *    "integer" -> RADIUS_INTEGER4
 *    "ipaddr" -> RADIUS_IP_ADDRESS
 *
 * In addition, it has entries such as
 *
 *    VALUE           Service-Type            Login-User              1
 *
 * to handle translation of integral values to strings, which we'd use to
 * construct value_string tables.
 */
static const value_string radius_service_type_vals[] =
{
  {1, "Login"},
  {2, "Framed"},
  {3, "Callback Login"},
  {4, "Callback Framed"},
  {5, "Outbound"},
  {6, "Administrative"},
  {7, "NAS Prompt"},
  {8, "Authenticate Only"},
  {9, "Callback NAS Prompt"},
  {10,      "Call Check"},
  {11,      "Callback Administrative"},
  {12,      "Voice"},                                             /*[Chiba]                     */
  {13,      "Fax"},                                                     /*[Chiba]                     */
  {14,      "Modem Relay"},                                       /*[Chiba]                     */
  {15,      "IAPP-Register"},                               /*[IEEE 802.11f][Kerry] */
  {16,      "IAPP-AP-Check"},                               /*[IEEE 802.11f][Kerry] */
  {17,      "Authorize Only"},                                    /*[RFC3576]                   */
  {0, NULL}
};

static const value_string radius_framed_protocol_vals[] =
{
  {1, "PPP"},
  {2, "SLIP"},
  {3, "Appletalk Remote Access Protocol (ARAP)"},
  {4, "Gandalf proprietary Singlelink/Multilink Protocol"},
  {5, "Xylogics proprietary IPX/SLIP"},
  {6, "X.75 Synchronous"},
  {7, "GPRS PDP Context"},
  {255,     "Ascend ARA"},
  {256,     "Ascend MPP"},
  {257,     "Ascend EURAW"},
  {258,     "Ascend EUUI"},
  {259,     "Ascend X25"},
  {260,     "Ascend COMB"},
  {261,     "Ascend FR"},
  {262,     "Ascend MP"},
  {263,     "Ascend FR-CIR"},
  {264,     "Ascend ATM-1483"},
  {265,     "Ascend ATM-FR-CIR"},
  {0, NULL}
};

static const value_string radius_framed_routing_vals[] =
{
  {1, "Send Routing Packets"},
  {2, "Listen for routing packets"},
  {3, "Send and Listen"},
  {0, "None"},
  {0, NULL}
};

static const value_string radius_framed_compression_vals[] =
{
  {1, "VJ TCP/IP Header Compression"},
  {2, "IPX Header Compression"},
  {3, "Stac-LZS compression"},
  {0, "None"},
  {0, NULL}
};

static const value_string radius_login_service_vals[] =
{
  {1, "Rlogin"},
  {2, "TCP Clear"},
  {3, "Portmaster"},
  {4, "LAT"},
  {5, "X.25 PAD"},
  {6, "X.25 T3POS"},
  {8, "TCP Clear Quit"},
  {0, "Telnet"},
  {0, NULL}
};
/* Values for RADIUS Attribute 29, Termination-Action: */
static const value_string radius_terminating_action_vals[] =
{
  {1, "RADIUS Request"},
  {0, "Default"},
  {0, NULL}
};
/* Values for RADIUS Attribute 40, Acct-Status-Type [RFC 2866]:*/
static const value_string radius_accounting_status_type_vals[] =
{
  {1, "Start"},                     /*  [RFC 2866]*/
  {2, "Stop"},                      /*  [RFC 2866]*/
  {3, "Interim Update"},            /*  [RFC 2866]*/
  {7, "Accounting On"},       /*  [RFC 2866]*/
  {8, "Accounting Off"},            /*  [RFC 2866]*/
  {9, "Tunnel Start"},        /* Tunnel accounting [RFC 2867]     */
  {10,      "Tunnel Stop"},               /* Tunnel accounting [RFC 2867]     */
  {11,      "Tunnel Reject"},       /* Tunnel accounting [RFC 2867]     */
  {12,      "Tunnel Link Start"},   /* Tunnel accounting [RFC 2867]     */
  {13,      "Tunnel Link Stop"},    /* Tunnel accounting [RFC 2867]     */
  {14,      "Tunnel Link Reject"},  /* Tunnel accounting [RFC 2867]     */
  {15,      "Failed"},                    /* [RFC 2866]                             */

  {0, NULL}
};
/* Values for RADIUS Attribute 45, Acct-Authentic [RFC 2866]: */
static const value_string radius_accounting_authentication_vals[] =
{
  {1, "Radius"},
  {2, "Local"},
  {3, "Remote"},
  {4, "Diameter"},
  /* RFC 2866 says 3 is Remote. Is 7 a mistake? */
  {7, "Remote"},
  {0, NULL}
};
/*Values for RADIUS Attribute 49, Acct-Terminate-Cause [RFC 2866]: */
static const value_string radius_acct_terminate_cause_vals[] =
{
  {1, "User Request"},
  {2, "Lost Carrier"},
  {3, "Lost Service"},
  {4, "Idle Timeout"},
  {5, "Session Timeout"},
  {6, "Admin Reset"},
  {7, "Admin Reboot"},
  {8, "Port Error"},
  {9, "NAS Error"},
  {10,      "NAS Request"},
  {11,      "NAS Reboot"},
  {12,      "Port Unneeded"},
  {13,      "Port Preempted"},
  {14,      "Port Suspended"},
  {15,      "Service Unavailable"},
  {16,      "Callback"},
  {17,      "User Error"},
  {18,      "Host Request"},
  {19,      "Supplicant Restart"},                          /*[RFC3580]*/
  {20,      "Reauthentication Failure"},              /*[RFC3580]*/
  {21,      "Port Reinitialized"},                          /*[RFC3580]*/
  {22,      "Port Administratively Disabled"},        /*[RFC3580]*/

  {0, NULL}
};

static const value_string radius_tunnel_type_vals[] =
{
  {1, "PPTP"},
  {2, "L2F"},
  {3, "L2TP"},
  {4, "ATMP"},
  {5, "VTP"},
  {6, "AH"},
  {7, "IP-IP-Encap"},
  {8, "MIN-IP-IP"},
  {9, "ESP"},
  {10,      "GRE"},
  {11,      "DVS"},
  {12,      "IP-IP"},
  {12,      "VLAN"},                                              /*[RFC3580]*/
  {0, NULL}
};

static const value_string radius_tunnel_medium_type_vals[] =
{
  {1, "IPv4"},
  {2, "IPv6"},
  {3, "NSAP"},
  {4, "HDLC"},
  {5, "BBN"},
  {6, "IEEE 802"},
  {7, "E.163"},
  {8, "E.164"},
  {9, "F.69"},
  {10,      "X.121"},
  {11,      "IPX"},
  {12,      "Appletalk"},
  {13,      "Decnet4"},
  {14,      "Vines"},
  {15,      "E.164 NSAP"},
  {0, NULL}
};
/*Values for RADIUS Attribute 61, NAS-Port-Type [RFC 2865]: */
static const value_string radius_nas_port_type_vals[] =
{
  {0, "Async"},
  {1, "Sync"},
  {2, "ISDN Sync"},
  {3, "ISDN Async V.120"},
  {4, "ISDN Async V.110"},
  {5, "Virtual"},
  {6, "PIAFS"},
  {7, "HDLC Clear Channel"},
  {8, "X.25"},
  {9, "X.75"},
  {10,      "G.3 Fax"},
  {11,      "SDSL"},
  {12,      "ADSL CAP"},
  {13,      "ADSL DMT"},
  {14,      "IDSL ISDN"},
  {15,      "Ethernet"},
  {16,      "xDSL"},
  {17,      "Cable"},
  {18,      "Wireless Other"},
  {19,      "Wireless IEEE 802.11"},
  {20,      "Token-Ring"},                                                    /*[RFC3580]*/
  {21,      "FDDI"},                                                          /*[RFC3580]*/
  {22,      "Wireless - CDMA2000"},                                     /*[McCann] */
  {23,      "Wireless - UMTS"},                                               /*[McCann] */
  {24,      "Wireless - 1X-EV"},                                        /*[McCann] */
  {25,      "IAPP"},                                                    /*[IEEE 802.11f][Kerry]*/
  {26,      "FTTP - Fiber to the Premises"},                      /*[Nyce]*/

  {0, NULL}
};
/*
 *Values for RADIUS Attribute 101, Error-Cause Attribute [RFC3576]:
 */
static const value_string radius_error_cause_attribute_vals[]= {
      {201,"Residual Session Context Removed"},
      {202,"Invalid EAP Packet (Ignored)"},
      {401,"Unsupported Attribute"},
      {402,"Missing Attribute"},
      {403,"NAS Identification Mismatch"},
      {404,"Invalid Request"},
      {405,"Unsupported Service"},
      {406,"Unsupported Extension"},
      {501,"Administratively Prohibited"},
      {502,"Request Not Routable (Proxy)"},
      {503,"Session Context Not Found"},
      {504,"Session Context Not Removable"},
      {505,"Other Proxy Processing Error"},
      {506,"Resources Unavailable"},
      {507,"Request Initiated"},
            {0,NULL}
};

static const radius_attr_info radius_attrib[] =
{
  {1, RADIUS_STRING,          "User Name", NULL, &hf_radius_userName},
  {2, RADIUS_USERPASSWORD,    "User Password", NULL, NULL},
  {3, RADIUS_BINSTRING, "CHAP Password", NULL, NULL},
  {4, RADIUS_IP_ADDRESS,      "NAS IP Address", NULL, &hf_radius_nasIp},
  {5, RADIUS_INTEGER4,  "NAS Port", NULL, NULL},
  {6, RADIUS_INTEGER4,  "Service Type", radius_service_type_vals, &hf_radius_serviceType},
  {7, RADIUS_INTEGER4,  "Framed Protocol", radius_framed_protocol_vals, &hf_radius_framedProtocol},
  {8, RADIUS_IP_ADDRESS,      "Framed IP Address", NULL, &hf_radius_framedAddress},
  {9, RADIUS_IP_ADDRESS,      "Framed IP Netmask", NULL, NULL},
  {10,      RADIUS_INTEGER4,  "Framed Routing", radius_framed_routing_vals, NULL},
  {11,      RADIUS_STRING,          "Filter Id", NULL, NULL},
  {12,      RADIUS_INTEGER4,  "Framed MTU", NULL, NULL},
  {13,      RADIUS_INTEGER4,  "Framed Compression", radius_framed_compression_vals, NULL},
  {14,      RADIUS_IP_ADDRESS,      "Login IP Host", NULL, NULL},
  {15,      RADIUS_INTEGER4,  "Login Service", radius_login_service_vals, NULL},
  {16,      RADIUS_INTEGER4,  "Login TCP Port", NULL, NULL},
  {17,      RADIUS_UNKNOWN,         "Unassigned", NULL, NULL},
  {18,      RADIUS_STRING,          "Reply Message", NULL, &hf_radius_reply_message},
  {19,      RADIUS_STRING,          "Callback Number", NULL, NULL},
  {20,      RADIUS_STRING,          "Callback Id", NULL, NULL},
  {21,      RADIUS_UNKNOWN,         "Unassigned", NULL, NULL},
  {22,      RADIUS_STRING,          "Framed Route", NULL, NULL},
  {23,      RADIUS_IPX_ADDRESS,     "Framed IPX network", NULL, NULL},
  {24,      RADIUS_BINSTRING, "State", NULL, NULL},
  {25,      RADIUS_BINSTRING, "Class", NULL, &hf_radius_class},
  {26,      RADIUS_VENDOR_SPECIFIC, "Vendor Specific", NULL, NULL},
  {27,      RADIUS_INTEGER4,  "Session Timeout", NULL, NULL},
  {28,      RADIUS_INTEGER4,  "Idle Timeout", NULL, NULL},
  {29,      RADIUS_INTEGER4,  "Terminating Action", radius_terminating_action_vals, NULL},
  {30,      RADIUS_STRING,          "Called Station Id", NULL, &hf_radius_calledStationId},
  {31,      RADIUS_STRING,          "Calling Station Id", NULL, &hf_radius_callingStationId},
  {32,      RADIUS_STRING,          "NAS identifier", NULL, NULL},
  {33,      RADIUS_BINSTRING, "Proxy State", NULL, NULL},
  {34,      RADIUS_STRING,          "Login LAT Service", NULL, NULL},
  {35,      RADIUS_STRING,          "Login LAT Node", NULL, NULL},
  {36,      RADIUS_BINSTRING, "Login LAT Group", NULL, NULL},
  {37,      RADIUS_INTEGER4,  "Framed AppleTalk Link", NULL, NULL},
  {38,      RADIUS_INTEGER4,  "Framed AppleTalk Network", NULL, NULL},
  {39,      RADIUS_STRING,          "Framed AppleTalk Zone", NULL, NULL},
  {40,      RADIUS_INTEGER4,  "Acct Status Type", radius_accounting_status_type_vals, &hf_radius_acctStatusType},
  {41,      RADIUS_INTEGER4,  "Acct Delay Time", NULL, NULL},
  {42,      RADIUS_INTEGER4,  "Acct Input Octets", NULL, &hf_radius_input_octets},
  {43,      RADIUS_INTEGER4,  "Acct Output Octets", NULL, &hf_radius_output_octets},
  {44,      RADIUS_STRING,          "Acct Session Id", NULL, &hf_radius_acctSessionId},
  {45,      RADIUS_INTEGER4,  "Acct Authentic", radius_accounting_authentication_vals, NULL},
  {46,      RADIUS_INTEGER4,  "Acct Session Time", NULL, NULL},
  {47,      RADIUS_INTEGER4,  "Acct Input Packets", NULL, &hf_radius_input_packets},
  {48,      RADIUS_INTEGER4,  "Acct Output Packets", NULL, &hf_radius_output_packets},
  {49,      RADIUS_INTEGER4,  "Acct Terminate Cause", radius_acct_terminate_cause_vals, NULL},
  {50,      RADIUS_STRING,          "Acct Multi Session Id", NULL, NULL},
  {51,      RADIUS_INTEGER4,  "Acct Link Count", NULL, NULL},
  {52,      RADIUS_INTEGER4,  "Acct Input Gigawords", NULL, NULL},
  {53,      RADIUS_INTEGER4,  "Acct Output Gigawords", NULL, NULL},
  /* 54 Unused */
  {55,      RADIUS_TIMESTAMP, "Event Timestamp", NULL, NULL},
  /* 56-59 Unused */
  {60,      RADIUS_BINSTRING, "CHAP Challenge", NULL, NULL},
  {61,      RADIUS_INTEGER4,  "NAS Port Type", radius_nas_port_type_vals, NULL},
  {62,      RADIUS_INTEGER4,  "Port Limit", NULL, NULL},
  {63,      RADIUS_BINSTRING, "Login LAT Port", NULL, NULL},
  {64,      RADIUS_INTEGER4_TAGGED, "Tunnel Type", radius_tunnel_type_vals, NULL},
  {65,      RADIUS_INTEGER4_TAGGED, "Tunnel Medium Type", radius_tunnel_medium_type_vals, NULL},
  {66,      RADIUS_STRING_TAGGED,   "Tunnel Client Endpoint", NULL, NULL},
  {67,      RADIUS_STRING_TAGGED,   "Tunnel Server Endpoint", NULL, NULL},
  {68,      RADIUS_STRING,          "Tunnel Connection", NULL, NULL},
  {69,      RADIUS_STRING_TAGGED,   "Tunnel Password", NULL, NULL},
  {70,      RADIUS_STRING,          "ARAP Password", NULL, NULL},
  {71,      RADIUS_STRING,          "ARAP Features", NULL, NULL},
  {72,      RADIUS_INTEGER4,  "ARAP Zone-Access", NULL, NULL},
  {73,      RADIUS_INTEGER4,  "ARAP Security", NULL, NULL},
  {74,      RADIUS_STRING,          "ARAP Security Data", NULL, NULL},
  {75,      RADIUS_INTEGER4,  "Password Retry", NULL, NULL},
  {76,      RADIUS_INTEGER4,  "Prompt", NULL, NULL},
  {77,      RADIUS_STRING,          "Connect Info", NULL, NULL},
  {78,      RADIUS_STRING,          "Configuration Token", NULL, NULL},
  {79,      RADIUS_EAP_MESSAGE,     "EAP Message", NULL, NULL},
  {80,      RADIUS_BINSTRING, "Message Authenticator", NULL, NULL},
  {81,      RADIUS_STRING_TAGGED,   "Tunnel Private Group ID", NULL, NULL},
  {82,      RADIUS_STRING_TAGGED,   "Tunnel Assignment ID", NULL, NULL},
  {83,      RADIUS_INTEGER4_TAGGED, "Tunnel Preference", NULL, NULL},
  {84,      RADIUS_STRING,          "ARAP Challenge Response", NULL, NULL},
  {85,      RADIUS_INTEGER4,  "Acct Interim Interval", NULL, NULL},
  {86,      RADIUS_INTEGER4,  "Tunnel Packets Lost", NULL, NULL},
  {87,      RADIUS_STRING,          "NAS Port ID", NULL, NULL},
  {88,      RADIUS_STRING,          "Framed Pool", NULL, NULL},
  {90,      RADIUS_STRING_TAGGED,   "Tunnel Client Auth ID", NULL, NULL},
  {91,      RADIUS_STRING_TAGGED,   "Tunnel Server Auth ID", NULL, NULL},
  {95,      RADIUS_IP6_ADDRESS,     "NAS IPv6 Address", NULL, NULL},
  {96,      RADIUS_IP6_INTF_ID,     "Framed Interface Id", NULL, NULL},
  {97,      RADIUS_IP6_PREFIX,      "Framed IPv6 Prefix", NULL, NULL},
  {98,      RADIUS_IP6_ADDRESS,     "Login IPv6 Host", NULL, NULL},
  {99,      RADIUS_STRING,          "Framed IPV6 Route", NULL, NULL},
  {100,     RADIUS_STRING,          "Framed IPV6 Pool", NULL, NULL},
  {101,     RADIUS_INTEGER4,  "Error-Cause Attribute",radius_error_cause_attribute_vals, NULL},/*[RFC3576]*/
  {120,     RADIUS_INTEGER4,  "Ascend Modem Port No", NULL, NULL},
  {121,     RADIUS_INTEGER4,  "Ascend Modem Slot No", NULL, NULL},
  {187,     RADIUS_INTEGER4,  "Ascend Multilink ID", NULL, NULL},
  {188,     RADIUS_INTEGER4,  "Ascend Num In Multilink", NULL, NULL},
  {189,     RADIUS_IP_ADDRESS,      "Ascend First Dest", NULL, NULL},
  {190,     RADIUS_INTEGER4,  "Ascend Pre Input Octets", NULL, NULL},
  {191,     RADIUS_INTEGER4,  "Ascend Pre Output Octets", NULL, NULL},
  {192,     RADIUS_INTEGER4,  "Ascend Pre Input Packets", NULL, NULL},
  {193,     RADIUS_INTEGER4,  "Ascend Pre Output Packets", NULL, NULL},
  {194,     RADIUS_INTEGER4,  "Ascend Maximum Time", NULL, NULL},
  {195,     RADIUS_INTEGER4,  "Ascend Disconnect Cause", NULL, NULL},
  {196,     RADIUS_INTEGER4,  "Ascend Connect Progress", NULL, NULL},
  {197,     RADIUS_INTEGER4,  "Ascend Data Rate", NULL, NULL},
  {198,     RADIUS_INTEGER4,  "Ascend PreSession Time", NULL, NULL},
  {211,     RADIUS_STRING,          "Merit Proxy-Action", NULL, NULL},
  {218,     RADIUS_INTEGER4,  "Ascend Assign IP Pool", NULL, NULL},
  {222,     RADIUS_STRING,          "Merit User-Id", NULL, NULL},
  {223,     RADIUS_STRING,          "Merit User-Realm", NULL, NULL},
  {255,     RADIUS_INTEGER4,  "Ascend Xmit Rate", NULL, NULL},
  {0, 0, NULL, NULL, NULL}
};

/*
reference:
      'dictionary.acc' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.acc
*/
static const value_string radius_vendor_acc_reason_code_vals[] =
{
  {0, "No reason No Failure"},
  {1, "Resource shortage"},
  {2, "Session already open"},
  {3, "Too many RADIUS users"},
  {4, "No authentification server"},
  {5, "No authentification response"},
  {6, "No accounting server"},
  {7, "No accounting response"},
  {8, "Access Denied"},
  {9, "Temporary buffer shortage"},
  {10,      "Protocol error"},
  {11,      "Invalid attribute"},
  {12,      "Invalid service type"},
  {13,      "Invalid framed protocol"},
  {14,      "Invalid attribute value"},
  {15,      "Invalid user information"},
  {16,      "Invalid IP address"},
  {17,      "Invalid integer syntax"},
  {18,      "Invalid NAS port"},
  {19,      "Requested by user"},
  {20,      "Network disconnect"},
  {21,      "Service interruption"},
  {22,      "Physical port error"},
  {23,      "Idle timeout"},
  {24,      "Session timeout"},
  {25,      "Administrative reset"},
  {26,      "NAS reload or reset"},
  {27,      "NAS error"},
  {28,      "NAS request"},
  {29,      "Undefined reason given"},
  {30,      "Conflicting attributes"},
  {31,      "Port limit exceeded"},
  {32,      "Facility not available"},
  {33,      "Internal config error"},
  {34,      "Bad route specification"},
  {35,      "Access Partition bind failure"},
  {36,      "Security violation"},
  {37,      "Request type conflict"},
  {38,      "Configuration disallowed"},
  {39,      "Missing attribute"},
  {40,      "Invalid request"},
  {41,      "Missing parameter"},
  {42,      "Invalid parameter"},
  {43,      "Call cleared with cause"},
  {44,      "Inopportune config request"},
  {45,      "Invalid config parameter"},
  {46,      "Missing config parameter"},
  {47,      "Incompatible service profile"},
  {48,      "Administrative reset"},
  {49,      "Administrative reload"},
  {50,      "Port unneeded"},
  {51,      "Port preempted"},
  {52,      "Port suspended"},
  {53,      "Service unavailable"},
  {54,      "Callback"},
  {55,      "User error"},
  {56,      "Host request"},
  {0, NULL}
};

static const value_string radius_vendor_acc_ccp_option_vals[] =
{
  {1, "Disabled"},
  {2, "Enabled"},
  {0, NULL}
};

static const value_string radius_vendor_acc_route_policy_vals[] =
{
  {1, "Funnel"},
  {2, "Direct"},
  {0, NULL}
};

static const value_string radius_vendor_acc_ml_mlx_admin_state_vals[] =
{
  {1, "Enabled"},
  {2, "Disabled"},
  {0, NULL}
};

static const value_string radius_vendor_acc_request_type_vals[] =
{
  {1, "Ring Indication"},
  {2, "Dial Request"},
  {3, "User Authentification"},
  {4, "Tunnel Authentification"},
  {0, NULL}
};

static const value_string radius_vendor_acc_bridging_support_vals[] =
{
  {1, "Disabled"},
  {2, "Enabled"},
  {0, NULL}
};

static const value_string radius_vendor_acc_apsm_oversubscribed_vals[] =
{
  {1, "False"},
  {2, "True"},
  {0, NULL}
};

static const value_string radius_vendor_acc_acct_on_off_reason_vals[] =
{
  {0, "NAS Reset"},
  {1, "NAS Reload"},
  {2, "Configuration Reset"},
  {3, "Configuration Reload"},
  {4, "Enabled"},
  {5, "Disabled"},
  {0, NULL}
};

static const value_string radius_vendor_acc_ip_compression_vals[] =
{
  {1, "Disabled"},
  {2, "Enabled"},
  {0, NULL}
};

static const value_string radius_vendor_acc_ipx_compression_vals[] =
{
  {1, "Disabled"},
  {2, "Enabled"},
  {0, NULL}
};

static const value_string radius_vendor_acc_callback_mode_vals[] =
{
  {0, "User Auth"},
  {3, "User Specified E.164"},
  {6, "CBCP Callback"},
  {7, "CLI Callback"},
  {0, NULL}
};

static const value_string radius_vendor_acc_callback_cbcp_type_vals[] =
{
  {1, "CBCP None"},
  {2, "CBCP User Specified"},
  {3, "CBCP Pre Specified"},
  {0, NULL}
};

static const value_string radius_vendor_acc_dialout_auth_mode_vals[] =
{
  {1, "PAP"},
  {2, "CHAP"},
  {3, "CHAP PAP"},
  {4, "NONE"},
  {0, NULL}
};

static const value_string radius_vendor_acc_access_community_vals[] =
{
  {1, "PUBLIC"},
  {2, "NETMAN"},
  {0, NULL}
};
static const value_string radius_vendor_acct_terminate_cause[] =
{
  {1, "User Request"},
  {4, "Idle Timeout"},
  {5, "Session Timeout"},
  {15,      "Service Unavailable"},
  {0, NULL}
};

static const value_string radius_vendor_acc_role_vals[] =
{
  {1, "Originating"},
  {2, "Terminating"},
  {0, NULL}
};
static const radius_attr_info radius_vendor_acc_attrib[] =
{
  {1, RADIUS_INTEGER4,  "Acc Reason Code", radius_vendor_acc_reason_code_vals, NULL},
  {2, RADIUS_INTEGER4,  "Acc Ccp Option", radius_vendor_acc_ccp_option_vals, NULL},
  {3, RADIUS_INTEGER4,  "Acc Input Errors", NULL, NULL},
  {4, RADIUS_INTEGER4,  "Acc Output Errors", NULL, NULL},
  {5, RADIUS_STRING,          "Acc Access Partition", NULL, NULL},
  {6, RADIUS_STRING,          "Acc Customer Id", NULL, NULL},
  {7, RADIUS_IP_ADDRESS,      "Acc Ip Gateway Pri", NULL, NULL},
  {8, RADIUS_IP_ADDRESS,      "Acc Ip Gateway Sec", NULL, NULL},
  {9, RADIUS_INTEGER4,  "Acc Route Policy", radius_vendor_acc_route_policy_vals, NULL},
  {10,      RADIUS_INTEGER4,  "Acc ML MLX Admin State", radius_vendor_acc_ml_mlx_admin_state_vals, NULL},
  {11,      RADIUS_INTEGER4,  "Acc ML Call Threshold", NULL, NULL},
  {12,      RADIUS_INTEGER4,  "Acc ML Clear Threshold", NULL, NULL},
  {13,      RADIUS_INTEGER4,  "Acc ML Damping Factor", NULL, NULL},
  {14,      RADIUS_STRING,          "Acc Tunnel Secret", NULL, NULL},
  {15,      RADIUS_INTEGER4,  "Acc Clearing Cause", q931_cause_code_vals, NULL},
  {16,      RADIUS_INTEGER4,  "Acc Clearing Location", q931_cause_location_vals, NULL},
  {17,      RADIUS_STRING,          "Acc Service Profile", NULL, NULL},
  {18,      RADIUS_INTEGER4,  "Acc Request Type", radius_vendor_acc_request_type_vals, NULL},
  {19,      RADIUS_INTEGER4,  "Acc Bridging Support", radius_vendor_acc_bridging_support_vals, NULL},
  {20,      RADIUS_INTEGER4,  "Acc Apsm Oversubscribed", radius_vendor_acc_apsm_oversubscribed_vals, NULL},
  {21,      RADIUS_INTEGER4,  "Acc Acct On Off Reason", radius_vendor_acc_acct_on_off_reason_vals, NULL},
  {22,      RADIUS_INTEGER4,  "Acc Tunnel Port", NULL, NULL},
  {23,      RADIUS_IP_ADDRESS,      "Acc Dns Server Pri", NULL, NULL},
  {24,      RADIUS_IP_ADDRESS,      "Acc Dns Server Sec", NULL, NULL},
  {25,      RADIUS_IP_ADDRESS,      "Acc Nbns Server Pri", NULL, NULL},
  {26,      RADIUS_IP_ADDRESS,      "Acc Nbns Server Sec", NULL, NULL},
  {27,      RADIUS_INTEGER4,  "Acc Dial Port Index", NULL, NULL},
  {28,      RADIUS_INTEGER4,  "Acc Ip Compression", radius_vendor_acc_ip_compression_vals, NULL},
  {29,      RADIUS_INTEGER4,  "Acc Ipx Compression", radius_vendor_acc_ipx_compression_vals, NULL},
  {30,      RADIUS_INTEGER4,  "Acc Connect Tx Speed", NULL, NULL},
  {31,      RADIUS_INTEGER4,  "Acc Connect Rx Speed", NULL, NULL},
  {32,      RADIUS_STRING,          "Acc Modem Modulation Type", NULL, NULL},
  {33,      RADIUS_STRING,          "Acc Modem Error Protocol", NULL, NULL},
  {34,      RADIUS_INTEGER4,  "Acc Callback Delay", NULL, NULL},
  {35,      RADIUS_STRING,          "Acc Callback Num Valid", NULL, NULL},
  {36,      RADIUS_INTEGER4,  "Acc Callback Mode", radius_vendor_acc_callback_mode_vals, NULL},
  {37,      RADIUS_INTEGER4,  "Acc Callback CBCP Type", radius_vendor_acc_callback_cbcp_type_vals, NULL},
  {38,      RADIUS_INTEGER4,  "Acc Dialout Auth Mode", radius_vendor_acc_dialout_auth_mode_vals, NULL},
  {39,      RADIUS_STRING,          "Acc Dialout Auth Password", NULL, NULL},
  {40,      RADIUS_STRING,          "Acc Dialout Auth Username", NULL, NULL},
  {42,      RADIUS_INTEGER4,  "Acc Access Community", radius_vendor_acc_access_community_vals, NULL},
  {43,      RADIUS_INTEGER4,  "Acc Vpsm Reject Cause", NULL, NULL},
  {44,      RADIUS_STRING,          "Acc Ace Token", NULL, NULL},
  {45,      RADIUS_INTEGER4,  "Acc Ace Token-Ttl", NULL, NULL},
  {46,      RADIUS_STRING,          "Acc Ip Pool Name", NULL, NULL},
  {47,      RADIUS_INTEGER4,  "Acc Igmp Admin State", NULL, NULL},
  {48,      RADIUS_INTEGER4,  "Acc Igmp Version", NULL, NULL},
  {49,      RADIUS_INTEGER4,  "Acct-Terminate-Cause", radius_vendor_acct_terminate_cause, NULL},
  {72,      RADIUS_INTEGER4,  "Acc-Time-For-Start-Of-Charging", NULL, NULL},
  {133, RADIUS_INTEGER4,      "Acc-Role",radius_vendor_acc_role_vals, NULL},


  {0, 0, NULL, NULL, NULL},
};

/*
references:
      'dictionary.cisco' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.cisco

      http://www.cisco.com/univercd/cc/td/doc/product/access/acs_serv/vapp_dev/vsaig3.htm

      http://www.cisco.com/univercd/cc/td/doc/product/software/ios122/122cgcr/fsecur_c/fappendx/fradattr/scfrdat3.pdf
      http://www.missl.cs.umd.edu/wireless/ethereal/cisco-vsa.pdf

*/
static const value_string radius_vendor_cisco_disconnect_cause_vals[] =
{
  {2, "Unknown"},
  {4, "CLID Authentication Failure"},
  {10,      "No Carrier"},
  {11,      "Lost Carrier"},
  {12,      "No Detected Result Codes"},
  {20,      "User Ends Session"},
  {21,      "Idle Timeout"},
  {22,      "Exit Telnet Session"},
  {23,      "No Remote IP Addr"},
  {24,      "Exit Raw TCP"},
  {25,      "Password Fail"},
  {26,      "Raw TCP Disabled"},
  {27,      "Control C Detected"},
  {28,      "EXEC Program Destroyed"},
  {40,      "Timeout PPP LCP"},
  {41,      "Failed PPP LCP Negotiation"},
  {42,      "Failed PPP PAP Auth Fail"},
  {43,      "Failed PPP CHAP Auth"},
  {44,      "Failed PPP Remote Auth"},
  {45,      "PPP Remote Terminate"},
  {46,      "PPP Closed Event"},
  {100,     "Session Timeout"},
  {101,     "Session Failed Security"},
  {102,     "Session End Callback"},
  {120,     "Invalid Protocol"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_cisco_attrib[] =
{
  /* stanard attributes */
  {1, RADIUS_STRING,          "Cisco AV Pair", NULL, NULL},
  {2, RADIUS_STRING,          "Cisco NAS Port", NULL, NULL},
  /* fax */
  {3, RADIUS_STRING,          "Fax Account Id Origin", NULL, NULL},
  {4, RADIUS_STRING,          "Fax Msg Id", NULL, NULL},
  {5, RADIUS_STRING,          "Fax Pages", NULL, NULL},
  {6, RADIUS_STRING,          "Fax Cover Page Flag", NULL, NULL},
  {7, RADIUS_STRING,          "Fax Modem Time", NULL, NULL},
  {8, RADIUS_STRING,          "Fax Connect Speed", NULL, NULL},
  {9, RADIUS_STRING,          "Fax Recipent Count", NULL, NULL},
  {10,      RADIUS_STRING,          "Fax Process Abort Flag", NULL, NULL},
  {11,      RADIUS_STRING,          "Fax DSN Address", NULL, NULL},
  {12,      RADIUS_STRING,          "Fax DSN Flag", NULL, NULL},
  {13,      RADIUS_STRING,          "Fax MDN Address", NULL, NULL},
  {14,      RADIUS_STRING,          "Fax MDN Flag", NULL, NULL},
  {15,      RADIUS_STRING,          "Fax Auth Status", NULL, NULL},
  {16,      RADIUS_STRING,          "Email Server Address", NULL, NULL},
  {17,      RADIUS_STRING,          "Email Server Ack Flag", NULL, NULL},
  {18,      RADIUS_STRING,          "Gateway Id", NULL, NULL},
  {19,      RADIUS_STRING,          "Call Type", NULL, NULL},
  {20,      RADIUS_STRING,          "Port Used", NULL, NULL},
  {21,      RADIUS_STRING,          "Abort Cause", NULL, NULL},
  /* #22 */
  /* H323 - Voice over IP attributes. */
  {23,      RADIUS_STRING,          "H323 Remote Address", NULL, NULL},
  {24,      RADIUS_STRING,          "H323 Conf Id", NULL, NULL},
  {25,      RADIUS_STRING,          "H323 Setup Time", NULL, NULL},
  {26,      RADIUS_STRING,          "H323 Call Origin", NULL, NULL},
  {27,      RADIUS_STRING,          "H323 Call Type", NULL, NULL},
  {28,      RADIUS_STRING,          "H323 Connect Time", NULL, NULL},
  {29,      RADIUS_STRING,          "H323 Disconnect Time", NULL, NULL},
  {30,      RADIUS_STRING,          "H323 Disconnect Cause", NULL, NULL},
  {31,      RADIUS_STRING,          "H323 Voice Quality", NULL, NULL},
  /* #32 */
  {33,      RADIUS_STRING,          "H323 GW Id", NULL, NULL},
  /* #34 */
  {35,      RADIUS_STRING,          "H323 Incoming Conf Id", NULL, NULL},
  /* #36-#100 */
  {101,     RADIUS_STRING,          "H323 Credit Amount", NULL, NULL},
  {102,     RADIUS_STRING,          "H323 Credit Time", NULL, NULL},
  {103,     RADIUS_STRING,          "H323 Return Code", NULL, NULL},
  {104,     RADIUS_STRING,          "H323 Prompt Id", NULL, NULL},
  {105,     RADIUS_STRING,          "H323 Time And Day", NULL, NULL},
  {106,     RADIUS_STRING,          "H323 Redirect Number", NULL, NULL},
  {107,     RADIUS_STRING,          "H323 Preferred Lang", NULL, NULL},
  {108,     RADIUS_STRING,          "H323 Redirect Ip Address", NULL, NULL},
  {109,     RADIUS_STRING,          "H323 Billing Model", NULL, NULL},
  {110,     RADIUS_STRING,          "H323 Currency Type", NULL, NULL},
  /* #111-#186 */
/*
       Extra attributes sent by the Cisco, if you configure
       "radius-server vsa accounting" (requires IOS11.2+).
*/
  {187,     RADIUS_INTEGER4,  "Cisco Multilink ID", NULL, NULL},
  {188,     RADIUS_INTEGER4,  "Cisco Num In Multilink", NULL, NULL},
  /* #189 */
  {190,     RADIUS_INTEGER4,  "Cisco Pre Input Octets", NULL, NULL},
  {191,     RADIUS_INTEGER4,  "Cisco Pre Output Octets", NULL, NULL},
  {192,     RADIUS_INTEGER4,  "Cisco Pre Input Packets", NULL, NULL},
  {193,     RADIUS_INTEGER4,  "Cisco Pre Output Packets", NULL, NULL},
  {194,     RADIUS_INTEGER4,  "Cisco Maximum Time", NULL, NULL},
  {195,     RADIUS_INTEGER4,  "Cisco Disconnect Cause", radius_vendor_cisco_disconnect_cause_vals, NULL},
  /* #196 */
  {197,     RADIUS_INTEGER4,  "Cisco Data Rate", NULL, NULL},
  {198,     RADIUS_INTEGER4,  "Cisco PreSession Time", NULL, NULL},
  /* #199-#207 */
  {208,     RADIUS_INTEGER4,  "Cisco PW Lifetime", NULL, NULL},
  {209,     RADIUS_INTEGER4,  "Cisco IP Direct", NULL, NULL},
  {210,     RADIUS_INTEGER4,  "Cisco PPP VJ Slot Comp", NULL, NULL},
  /* #211 */
  {212,     RADIUS_INTEGER4,  "Cisco PPP Async Map", NULL, NULL},
  /* #213-#216 */
  {217,     RADIUS_INTEGER4,  "Cisco IP Pool Definition", NULL, NULL},
  {218,     RADIUS_INTEGER4,  "Cisco Asing IP Pool", NULL, NULL},
  /* #219-#227 */
  {228,     RADIUS_INTEGER4,  "Cisco Route IP", NULL, NULL},
  /* #229-#232 */
  {233,     RADIUS_INTEGER4,  "Cisco Link Compression", NULL, NULL},
  {234,     RADIUS_INTEGER4,  "Cisco Target Util", NULL, NULL},
  {235,     RADIUS_INTEGER4,  "Cisco Maximum Channels", NULL, NULL},
  /* #236-#241 */
  {242,     RADIUS_INTEGER4,  "Cisco Data Filter", NULL, NULL},
  {243,     RADIUS_INTEGER4,  "Cisco Call Filter", NULL, NULL},
  {244,     RADIUS_INTEGER4,  "Cisco Idle Limit", NULL, NULL},
  /* Cisco SSG Service Selection Gateway Attributes */
  {250, RADIUS_STRING,        "Cisco Account Info", NULL, &hf_radius_cisco_cai},
  {251, RADIUS_STRING,        "Cisco Service Info", NULL, NULL},
  {252, RADIUS_BINSTRING,     "Cisco Command Info", NULL, NULL},
  {253, RADIUS_STRING,        "Cisco Control Info", NULL, NULL},
  {255,     RADIUS_INTEGER4,  "Cisco Xmit Rate", NULL, NULL},
  {0, 0, NULL, NULL, NULL}
};

/*
reference:
      'dictionary.shiva' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.shiva
*/
static const value_string radius_vendor_shiva_type_of_service_vals[] =
{
  {1, "Analog"},
  {2, "Digitized Analog"},
  {3, "Digital"},
  {4, "Digital V.110"},
  {5, "Digital V.120"},
  {6, "Digital Leased Line"},
  {0, NULL}
};

static const value_string radius_vendor_shiva_link_protocol_vals[] =
{
  {1, "HDLC"},
  {2, "ARAV1"},
  {3, "ARAV2"},
  {4, "SHELL"},
  {5, "AALAP"},
  {6, "SLIP"},
  {0, NULL}
};

static const value_string radius_vendor_shiva_disconnect_reason_vals[] =
{
  {1, "Remote"},
  {2, "Error"},
  {3, "Idle Timeout"},
  {4, "Session Timeout"},
  {5, "Admin Disconnect"},
  {6, "Dialback"},
  {7, "Virtual Connection"},
  {8, "Bandwidth On Demand"},
  {9, "Failed Authentication"},
  {10,      "Preempted"},
  {11,      "Blocked"},
  {12,      "Tariff Management"},
  {13,      "Backup"},
  {0, NULL}
};

static const value_string radius_vendor_shiva_function_vals[] =
{
  {0, "Unknown"},
  {1, "Dialin"},
  {2, "Dialout"},
  {3, "Lan To Lan"},
  {0, NULL}
};

static const value_string radius_vendor_shiva_connect_reason_vals[] =
{
  {1, "Remote"},
  {2, "Dialback"},
  {3, "Virtual Connection"},
  {4, "Bandwidth On Demand"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_shiva_attrib[] =
{
  {1, RADIUS_STRING,          "Shiva User Attributes", NULL, NULL},
  {90,      RADIUS_STRING,          "Shiva Called Number", NULL, NULL},
  {91,      RADIUS_STRING,          "Shiva Calling Number", NULL, NULL},
  {92,      RADIUS_STRING,          "Shiva Customer Id", NULL, NULL},
  {93,      RADIUS_INTEGER4,  "Shiva Type Of Service", radius_vendor_shiva_type_of_service_vals, NULL},
  {94,      RADIUS_INTEGER4,  "Shiva Link Speed", NULL, NULL},
  {95,      RADIUS_INTEGER4,  "Shiva Links In Bundle", NULL, NULL},
  {96,      RADIUS_INTEGER4,  "Shiva Compression Type", NULL, NULL},
  {97,      RADIUS_INTEGER4,  "Shiva Link Protocol", radius_vendor_shiva_link_protocol_vals, NULL},
  {98,      RADIUS_INTEGER4,  "Shiva Network Protocols", NULL, NULL},
  {99,      RADIUS_INTEGER4,  "Shiva Session Id", NULL, NULL},
  {100,     RADIUS_INTEGER4,  "Shiva Disconnect Reason", radius_vendor_shiva_disconnect_reason_vals, NULL},
  {101,     RADIUS_IP_ADDRESS,      "Shiva Acct Serv Switch", NULL, NULL},
  {102,     RADIUS_INTEGER4,  "Shiva Event Flags", NULL, NULL},
  {103,     RADIUS_INTEGER4,  "Shiva Function", radius_vendor_shiva_function_vals, NULL},
  {104,     RADIUS_INTEGER4,  "Shiva Connect Reason", radius_vendor_shiva_connect_reason_vals, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      Cisco ACS 3.2 User Guide - Appendix D
      http://www.cisco.com/univercd/cc/td/doc/product/access/acs_soft/csacs4nt/acs32/user02/ad.htm#wp473517
*/


static const radius_attr_info radius_vendor_cisco_vpn5000_attrib[] =
{
  {1, RADIUS_INTEGER4,        "CVPN5000-Tunnel-Throughput", NULL, NULL},
  {2, RADIUS_IP_ADDRESS,      "CVPN5000-Client-Assigned-IP", NULL, NULL},
  {3, RADIUS_IP_ADDRESS,      "CVPN5000-Client-Real-IP", NULL, NULL},
  {4, RADIUS_STRING,          "CVPN5000-VPN-GroupInfo", NULL, NULL},
  {5, RADIUS_STRING,          "CVPN5000-VPN-Password", NULL, NULL},
  {6, RADIUS_INTEGER4,        "CVPN5000-Echo", NULL, NULL},
  {7, RADIUS_INTEGER4,        "CVPN5000-Client-Assigned-IPX", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      'dictionary.livingston' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.livingston
*/
static const value_string radius_vendor_livingston_ipsec_log_options_vals[] =
{
  {1, "SA Success On"},
  {2, "SA Failure On"},
  {3, "Console On"},
  {4, "Syslog On"},
  {5, "SA Success Off"},
  {6, "SA Failure Off"},
  {7, "Console Off"},
  {8, "Syslog Off"},
  {0, NULL}
};

static const value_string radius_vendor_livingston_ipsec_deny_action_vals[] =
{
  {1, "Drop"},
  {2, "ICMP Reject"},
  {3, "Pass Through"},
  {0, NULL}
};

static const value_string radius_vendor_livingston_nat_log_options_vals[] =
{
  {1, "Session Success On"},
  {2, "Session Failure On"},
  {3, "Console On"},
  {4, "Syslog On"},
  {5, "Success Off"},
  {6, "Failure Off"},
  {7, "Console Off"},
  {8, "Syslog Off"},
  {0, NULL}
};

static const value_string radius_vendor_livingston_nat_sess_dir_fail_action_vals[] =
{
  {1, "Drop"},
  {2, "ICMP Reject"},
  {3, "Pass Through"},
  {0, NULL}
};

static const value_string radius_vendor_livingston_multicast_client_vals[] =
{
  {1, "On"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_livingston_attrib[] =
{
  {2, RADIUS_STRING,          "LE Terminate Detail", NULL, NULL},
  {3, RADIUS_STRING,          "LE Advice of Charge", NULL, NULL},
  {4, RADIUS_STRING,          "LE Connect Detail", NULL, NULL},
  {6, RADIUS_STRING,          "LE IP Pool", NULL, NULL},
  {7, RADIUS_IP_ADDRESS,      "LE IP Gateway", NULL, NULL},
  {8, RADIUS_STRING,          "LE Modem Info", NULL, NULL},
  {9, RADIUS_INTEGER4,  "LE IPSec Log Options", radius_vendor_livingston_ipsec_log_options_vals, NULL},
  {10,      RADIUS_INTEGER4,  "LE IPSec Deny Action", radius_vendor_livingston_ipsec_deny_action_vals, NULL},
  {11,      RADIUS_STRING,          "LE IPSec Active Profile", NULL, NULL},
  {12,      RADIUS_STRING,          "LE IPSec Outsource Profile", NULL, NULL},
  {13,      RADIUS_STRING,          "LE IPSec Passive Profile", NULL, NULL},
  {14,      RADIUS_INTEGER4,  "LE NAT TCP Session Timeout", NULL, NULL},
  {15,      RADIUS_INTEGER4,  "LE NAT Other Session Timeout", NULL, NULL},
  {16,      RADIUS_INTEGER4,  "LE NAT Log Options", radius_vendor_livingston_nat_log_options_vals, NULL},
  {17,      RADIUS_INTEGER4,  "LE NAT Sess Dir Fail Action", radius_vendor_livingston_nat_sess_dir_fail_action_vals, NULL},
  {18,      RADIUS_STRING,          "LE NAT Inmap", NULL, NULL},
  {19,      RADIUS_STRING,          "LE NAT Outmap", NULL, NULL},
  {20,      RADIUS_STRING,          "LE NAT Outsource Inmap", NULL, NULL},
  {21,      RADIUS_STRING,          "LE NAT Outsource Outmap", NULL, NULL},
  {22,      RADIUS_STRING,          "LE Admin Group", NULL, NULL},
  {23,      RADIUS_INTEGER4,  "LE Multicast Client", radius_vendor_livingston_multicast_client_vals, NULL},
  {0, 0, NULL, NULL, NULL},
};

static const value_string radius_vendor_microsoft_bap_usage_vals[] =
{
  {0, "Not Allowed"},
  {1, "Allowed"},
  {2, "Required"},
  {0, NULL}
};

static const value_string radius_vendor_microsoft_arap_pw_change_reason_vals[] =
{
  {1, "Just Change Password"},
  {2, "Expired Password"},
  {3, "Admin Required Password Change"},
  {4, "Password Too Short"},
  {0, NULL}
};

static const value_string radius_vendor_microsoft_acct_auth_type_vals[] =
{
  {1, "PAP"},
  {2, "CHAP"},
  {3, "MS CHAP 1"},
  {4, "MS CHAP 2"},
  {5, "EAP"},
  {0, NULL}
};

static const value_string radius_vendor_microsoft_acct_eap_type_vals[] =
{
  {4, "MD5"},
  {5, "OTP"},
  {6, "Generic Token Card"},
  {13,      "TLS"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_microsoft_attrib[] =
{
  {1, RADIUS_BINSTRING, "MS CHAP Response", NULL, NULL},
  {2, RADIUS_STRING,          "MS CHAP Error", NULL, NULL},
  {3, RADIUS_BINSTRING, "MS CHAP CPW 1", NULL, NULL},
  {4, RADIUS_BINSTRING, "MS CHAP CPW 2", NULL, NULL},
  {5, RADIUS_BINSTRING, "MS CHAP LM Enc PW", NULL, NULL},
  {6, RADIUS_BINSTRING, "MS CHAP NT Enc PW", NULL, NULL},
  {7, RADIUS_BINSTRING, "MS MPPE Encryption Policy", NULL, NULL},
  {8, RADIUS_BINSTRING, "MS MPPE Encryption Type", NULL, NULL},
  {9, RADIUS_INTEGER4,  "MS RAS Vendor", NULL, NULL},
  {10,      RADIUS_STRING,          "MS CHAP Domain", NULL, NULL},
  {11,      RADIUS_BINSTRING, "MS CHAP Challenge", NULL, NULL},
  {12,      RADIUS_BINSTRING, "MS CHAP MPPE Keys", NULL, NULL},
  {13,      RADIUS_INTEGER4,  "MS BAP Usage", radius_vendor_microsoft_bap_usage_vals, NULL},
  {14,      RADIUS_INTEGER4,  "MS Link Utilization Threshold", NULL, NULL},
  {15,      RADIUS_INTEGER4,  "MS Link Drop Time Limit", NULL, NULL},
  {16,      RADIUS_BINSTRING, "MS MPPE Send Key", NULL, NULL},
  {17,      RADIUS_BINSTRING, "MS MPPE Recv Key", NULL, NULL},
  {18,      RADIUS_STRING,          "MS RAS Version", NULL, NULL},
  {19,      RADIUS_BINSTRING, "MS Old ARAP Password", NULL, NULL},
  {20,      RADIUS_BINSTRING, "MS New ARAP Password", NULL, NULL},
  {21,      RADIUS_INTEGER4,  "MS ARAP PW Change Reason", radius_vendor_microsoft_arap_pw_change_reason_vals, NULL},
  {22,      RADIUS_BINSTRING, "MS Filter", NULL, NULL},
  {23,      RADIUS_INTEGER4,  "MS Acct Auth Type", radius_vendor_microsoft_acct_auth_type_vals, NULL},
  {24,      RADIUS_INTEGER4,  "MS Acct EAP Type", radius_vendor_microsoft_acct_eap_type_vals, NULL},
  {25,      RADIUS_BINSTRING, "MS CHAP2 Response", NULL, NULL},
  {26,      RADIUS_BINSTRING, "MS CHAP2 Success", NULL, NULL},
  {27,      RADIUS_BINSTRING, "MS CHAP2 CPW", NULL, NULL},
  {28,      RADIUS_IP_ADDRESS,      "MS Primary DNS Server", NULL, NULL},
  {29,      RADIUS_IP_ADDRESS,      "MS Secondary DNS Server", NULL, NULL},
  {30,      RADIUS_IP_ADDRESS,      "MS Primary NBNS Server", NULL, NULL},
  {31,      RADIUS_IP_ADDRESS,      "MS Secondary NBNS Server", NULL, NULL},
  {0, 0, NULL, NULL, NULL}
};

static const value_string radius_vendor_ascend_calling_id_type_of_number_vals[] =
{
  {0, "Unknown"},
  {1, "International Number"},
  {2, "National Number"},
  {3, "Network Specific"},
  {4, "Subscriber Number"},
  {6, "Abbreviated Number"},
  {0, NULL}
};

static const value_string radius_vendor_ascend_calling_id_numbering_plan_vals[] =
{
  {0, "Unknown"},
  {1, "ISDN Telephony"},
  {3, "Data"},
  {4, "Telex"},
  {8, "National"},
  {9, "Private"},
  {0, NULL}
};

static const value_string radius_vendor_ascend_calling_id_presentation_vals[] =
{
  {0, "Allowed"},
  {1, "Restricted"},
  {2, "Number Not Available"},
  {0, NULL}
};

static const value_string radius_vendor_ascend_calling_id_screening_vals[] =
{
  {0, "User Not Screened"},
  {1, "User Provided Passed"},
  {2, "User Provided Failed"},
  {3, "Network Provided"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_ascend_attrib[] =
{
  {7, RADIUS_STRING,          "Ascend UU Info", NULL, NULL},
  {9, RADIUS_INTEGER4,  "Ascend CIR Timer", NULL, NULL},
  {10,      RADIUS_INTEGER4,  "Ascend FR 08 Mode", NULL, NULL},
  {11,      RADIUS_INTEGER4,  "Ascend Destination Nas Port", NULL, NULL},
  {12,      RADIUS_STRING,          "Ascend FR SVC Addr", NULL, NULL},
  {13,      RADIUS_INTEGER4,  "Ascend NAS Port Format", NULL, NULL},
  {14,      RADIUS_INTEGER4,  "Ascend ATM Fault Management", NULL, NULL},
  {15,      RADIUS_INTEGER4,  "Ascend ATM Loopback Cell Loss", NULL, NULL},
  {16,      RADIUS_INTEGER4,  "Ascend Ckt Type", NULL, NULL},
  {17,      RADIUS_INTEGER4,  "Ascend SVC Enabled", NULL, NULL},
  {18,      RADIUS_INTEGER4,  "Ascend Session Type", NULL, NULL},
  {19,      RADIUS_IP_ADDRESS,      "Ascend H323 Gatekeeper", NULL, NULL},
  {20,      RADIUS_STRING,          "Ascend Global Call Id", NULL, NULL},
  {21,      RADIUS_INTEGER4,  "Ascend H323 Conference Id", NULL, NULL},
  {22,      RADIUS_IP_ADDRESS,      "Ascend H323 Fegw Address", NULL, NULL},
  {23,      RADIUS_INTEGER4,  "Ascend H323 Dialed Time", NULL, NULL},
  {24,      RADIUS_STRING,          "Ascend Dialed Number", NULL, NULL},
  {25,      RADIUS_INTEGER4,  "Ascend Inter Arrival Jitter", NULL, NULL},
  {26,      RADIUS_INTEGER4,  "Ascend Dropped Octets", NULL, NULL},
  {27,      RADIUS_INTEGER4,  "Ascend Dropped Packets", NULL, NULL},
  {29,      RADIUS_INTEGER4,  "Ascend X25 Pad X3 Profile", NULL, NULL},
  {30,      RADIUS_STRING,          "Ascend X25 Pad X3 Parameters", NULL, NULL},
  {31,      RADIUS_STRING,          "Ascend Tunnel VRouter Name", NULL, NULL},
  {32,      RADIUS_INTEGER4,  "Ascend X25 Reverse Charging", NULL, NULL},
  {33,      RADIUS_STRING,          "Ascend X25 Nui Prompt", NULL, NULL},
  {34,      RADIUS_STRING,          "Ascend X25 Nui Password Prompt", NULL, NULL},
  {35,      RADIUS_STRING,          "Ascend X25 Cug", NULL, NULL},
  {36,      RADIUS_STRING,          "Ascend X25 Pad Alias 1", NULL, NULL},
  {37,      RADIUS_STRING,          "Ascend X25 Pad Alias 2", NULL, NULL},
  {38,      RADIUS_STRING,          "Ascend X25 Pad Alias 3", NULL, NULL},
  {39,      RADIUS_STRING,          "Ascend X25 X121 Address", NULL, NULL},
  {40,      RADIUS_STRING,          "Ascend X25 Nui", NULL, NULL},
  {41,      RADIUS_STRING,          "Ascend X25 Rpoa", NULL, NULL},
  {42,      RADIUS_STRING,          "Ascend X25 Pad Prompt", NULL, NULL},
  {43,      RADIUS_STRING,          "Ascend X25 Pad Banner", NULL, NULL},
  {44,      RADIUS_STRING,          "Ascend X25 Profile Name", NULL, NULL},
  {45,      RADIUS_STRING,          "Ascend Recv Name", NULL, NULL},
  {46,      RADIUS_INTEGER4,  "Ascend Bi Directional Auth", NULL, NULL},
  {47,      RADIUS_INTEGER4,  "Ascend MTU", NULL, NULL},
  {48,      RADIUS_INTEGER4,  "Ascend Call Direction", NULL, NULL},
  {49,      RADIUS_INTEGER4,  "Ascend Service Type", NULL, NULL},
  {50,      RADIUS_INTEGER4,  "Ascend Filter Required", NULL, NULL},
  {51,      RADIUS_INTEGER4,  "Ascend Traffic Shaper", NULL, NULL},
  {52,      RADIUS_STRING,          "Ascend Access Intercept LEA", NULL, NULL},
  {53,      RADIUS_STRING,          "Ascend Access Intercept Log", NULL, NULL},
  {54,      RADIUS_STRING,          "Ascend Private Route Table ID", NULL, NULL},
  {55,      RADIUS_INTEGER4,  "Ascend Private Route Required", NULL, NULL},
  {56,      RADIUS_INTEGER4,  "Ascend Cache Refresh", NULL, NULL},
  {57,      RADIUS_INTEGER4,  "Ascend Cache Time", NULL, NULL},
  {58,      RADIUS_INTEGER4,  "Ascend Egress Enabled", NULL, NULL},
  {59,      RADIUS_STRING,          "Ascend QOS Upstream", NULL, NULL},
  {60,      RADIUS_STRING,          "Ascend QOS Downstream", NULL, NULL},
  {61,      RADIUS_INTEGER4,  "Ascend ATM Connect Vpi", NULL, NULL},
  {62,      RADIUS_INTEGER4,  "Ascend ATM Connect Vci", NULL, NULL},
  {63,      RADIUS_INTEGER4,  "Ascend ATM Connect Group", NULL, NULL},
  {64,      RADIUS_INTEGER4,  "Ascend ATM Group", NULL, NULL},
  {65,      RADIUS_INTEGER4,  "Ascend IPX Header Compression", NULL, NULL},
  {66,      RADIUS_INTEGER4,  "Ascend Calling Id Type Of Number", radius_vendor_ascend_calling_id_type_of_number_vals, NULL},
  {67,      RADIUS_INTEGER4,  "Ascend Calling Id Numbering Plan", radius_vendor_ascend_calling_id_numbering_plan_vals, NULL},
  {68,      RADIUS_INTEGER4,  "Ascend Calling Id Presentation", radius_vendor_ascend_calling_id_presentation_vals, NULL},
  {69,      RADIUS_INTEGER4,  "Ascend Calling Id Screening", radius_vendor_ascend_calling_id_screening_vals, NULL},
  {70,      RADIUS_INTEGER4,  "Ascend BIR Enable", NULL, NULL},
  {71,      RADIUS_INTEGER4,  "Ascend BIR Proxy", NULL, NULL},
  {72,      RADIUS_INTEGER4,  "Ascend BIR Bridge Group", NULL, NULL},
  {73,      RADIUS_STRING,          "Ascend IPSEC Profile", NULL, NULL},
  {74,      RADIUS_INTEGER4,  "Ascend PPPoE Enable", NULL, NULL},
  {75,      RADIUS_INTEGER4,  "Ascend Bridge Non PPPoE", NULL, NULL},
  {76,      RADIUS_INTEGER4,  "Ascend ATM Direct", NULL, NULL},
  {77,      RADIUS_STRING,          "Ascend ATM Direct Profile", NULL, NULL},
  {78,      RADIUS_IP_ADDRESS,      "Ascend Client Primary WINS", NULL, NULL},
  {79,      RADIUS_IP_ADDRESS,      "Ascend Client Secondary WINS", NULL, NULL},
  {80,      RADIUS_INTEGER4,  "Ascend Client Assign WINS", NULL, NULL},
  {81,      RADIUS_INTEGER4,  "Ascend Auth Type", NULL, NULL},
  {82,      RADIUS_INTEGER4,  "Ascend Port Redir Protocol", NULL, NULL},
  {83,      RADIUS_INTEGER4,  "Ascend Port Redir Portnum", NULL, NULL},
  {84,      RADIUS_IP_ADDRESS,      "Ascend Port Redir Server", NULL, NULL},
  {85,      RADIUS_INTEGER4,  "Ascend IP Pool Chaining", NULL, NULL},
  {86,      RADIUS_IP_ADDRESS,      "Ascend Owner IP Addr", NULL, NULL},
  {87,      RADIUS_INTEGER4,  "Ascend IP TOS", NULL, NULL},
  {88,      RADIUS_INTEGER4,  "Ascend IP TOS Precedence", NULL, NULL},
  {89,      RADIUS_INTEGER4,  "Ascend IP TOS Apply To", NULL, NULL},
  {90,      RADIUS_STRING,          "Ascend Filter", NULL, NULL},
  {91,      RADIUS_STRING,          "Ascend Telnet Profile", NULL, NULL},
  {92,      RADIUS_INTEGER4,  "Ascend Dsl Rate Type", NULL, NULL},
  {93,      RADIUS_STRING,          "Ascend Redirect Number", NULL, NULL},
  {94,      RADIUS_INTEGER4,  "Ascend ATM Vpi", NULL, NULL},
  {95,      RADIUS_INTEGER4,  "Ascend ATM Vci", NULL, NULL},
  {96,      RADIUS_INTEGER4,  "Ascend Source IP Check", NULL, NULL},
  {97,      RADIUS_INTEGER4,  "Ascend Dsl Rate Mode", NULL, NULL},
  {98,      RADIUS_INTEGER4,  "Ascend Dsl Upstream Limit", NULL, NULL},
  {99,      RADIUS_INTEGER4,  "Ascend Dsl Downstream Limit", NULL, NULL},
  {100,     RADIUS_INTEGER4,  "Ascend Dsl CIR Recv Limit", NULL, NULL},
  {101,     RADIUS_INTEGER4,  "Ascend Dsl CIR Xmit Limit", NULL, NULL},
  {102,     RADIUS_STRING,          "Ascend VRouter Name", NULL, NULL},
  {103,     RADIUS_STRING,          "Ascend Source Auth", NULL, NULL},
  {104,     RADIUS_STRING,          "Ascend Private Route", NULL, NULL},
  {105,     RADIUS_INTEGER4,  "Ascend Numbering Plan ID", NULL, NULL},
  {106,     RADIUS_INTEGER4,  "Ascend FR Link Status DLCI", NULL, NULL},
  {107,     RADIUS_STRING,          "Ascend Calling Subaddress", NULL, NULL},
  {108,     RADIUS_INTEGER4,  "Ascend Callback Delay", NULL, NULL},
  {109,     RADIUS_STRING,          "Ascend Endpoint Disc", NULL, NULL},
  {110,     RADIUS_STRING,          "Ascend Remote FW", NULL, NULL},
  {111,     RADIUS_INTEGER4,  "Ascend Multicast GLeave Delay", NULL, NULL},
  {112,     RADIUS_INTEGER4,  "Ascend CBCP Enable", NULL, NULL},
  {113,     RADIUS_INTEGER4,  "Ascend CBCP Mode", NULL, NULL},
  {114,     RADIUS_INTEGER4,  "Ascend CBCP Delay", NULL, NULL},
  {115,     RADIUS_INTEGER4,  "Ascend CBCP Trunk Group", NULL, NULL},
  {116,     RADIUS_STRING,          "Ascend Appletalk Route", NULL, NULL},
  {117,     RADIUS_INTEGER4,  "Ascend Appletalk Peer Mode", NULL, NULL},
  {118,     RADIUS_INTEGER4,  "Ascend Route Appletalk", NULL, NULL},
  {119,     RADIUS_STRING,          "Ascend FCP Parameter", NULL, NULL},
  {120,     RADIUS_INTEGER4,  "Ascend Modem Port No", NULL, NULL},
  {121,     RADIUS_INTEGER4,  "Ascend Modem Slot No", NULL, NULL},
  {122,     RADIUS_INTEGER4,  "Ascend Modem Shelf No", NULL, NULL},
  {123,     RADIUS_INTEGER4,  "Ascend Call Attempt Limit", NULL, NULL},
  {124,     RADIUS_INTEGER4,  "Ascend Call Block Duration", NULL, NULL},
  {125,     RADIUS_INTEGER4,  "Ascend Maximum Call Duration", NULL, NULL},
  {126,     RADIUS_INTEGER4,  "Ascend Temporary Rtes", NULL, NULL},
  {127,     RADIUS_INTEGER4,  "Ascend Tunneling Protocol", NULL, NULL},
  {128,     RADIUS_INTEGER4,  "Ascend Shared Profile Enable", NULL, NULL},
  {129,     RADIUS_STRING,          "Ascend Primary Home Agent", NULL, NULL},
  {130,     RADIUS_STRING,          "Ascend Secondary Home Agent", NULL, NULL},
  {131,     RADIUS_INTEGER4,  "Ascend Dialout Allowed", NULL, NULL},
  {132,     RADIUS_IP_ADDRESS,      "Ascend Client Gateway", NULL, NULL},
  {133,     RADIUS_INTEGER4,  "Ascend BACP Enable", NULL, NULL},
  {134,     RADIUS_INTEGER4,  "Ascend DHCP Maximum Leases", NULL, NULL},
  {135,     RADIUS_IP_ADDRESS,      "Ascend Client Primary DNS", NULL, NULL},
  {136,     RADIUS_IP_ADDRESS,      "Ascend Client Secondary DNS", NULL, NULL},
  {137,     RADIUS_INTEGER4,  "Ascend Client Assign DNS", NULL, NULL},
  {138,     RADIUS_INTEGER4,  "Ascend User Acct Type", NULL, NULL},
  {139,     RADIUS_IP_ADDRESS,      "Ascend User Acct Host", NULL, NULL},
  {140,     RADIUS_INTEGER4,  "Ascend User Acct Port", NULL, NULL},
  {141,     RADIUS_STRING,          "Ascend User Acct Key", NULL, NULL},
  {142,     RADIUS_INTEGER4,  "Ascend User Acct Base", NULL, NULL},
  {143,     RADIUS_INTEGER4,  "Ascend User Acct Time", NULL, NULL},
  {144,     RADIUS_IP_ADDRESS,      "Ascend Assign IP Client", NULL, NULL},
  {145,     RADIUS_IP_ADDRESS,      "Ascend Assign IP Server", NULL, NULL},
  {146,     RADIUS_STRING,          "Ascend Assign IP Global Pool", NULL, NULL},
  {147,     RADIUS_INTEGER4,  "Ascend DHCP Reply", NULL, NULL},
  {148,     RADIUS_INTEGER4,  "Ascend DHCP Pool Number", NULL, NULL},
  {149,     RADIUS_INTEGER4,  "Ascend Expect Callback", NULL, NULL},
  {150,     RADIUS_INTEGER4,  "Ascend Event Type", NULL, NULL},
  {151,     RADIUS_STRING,          "Ascend Session Svr Key", NULL, NULL},
  {152,     RADIUS_INTEGER4,  "Ascend Multicast Rate Limit", NULL, NULL},
  {153,     RADIUS_IP_ADDRESS,      "Ascend IF Netmask", NULL, NULL},
  {154,     RADIUS_IP_ADDRESS,      "Ascend Remote Addr", NULL, NULL},
  {155,     RADIUS_INTEGER4,  "Ascend Multicast Client", NULL, NULL},
  {156,     RADIUS_STRING,          "Ascend FR Circuit Name", NULL, NULL},
  {157,     RADIUS_INTEGER4,  "Ascend FR LinkUp", NULL, NULL},
  {158,     RADIUS_INTEGER4,  "Ascend FR Nailed Grp", NULL, NULL},
  {159,     RADIUS_INTEGER4,  "Ascend FR Type", NULL, NULL},
  {160,     RADIUS_INTEGER4,  "Ascend FR Link Mgt", NULL, NULL},
  {161,     RADIUS_INTEGER4,  "Ascend FR N391", NULL, NULL},
  {162,     RADIUS_INTEGER4,  "Ascend FR DCE N392", NULL, NULL},
  {163,     RADIUS_INTEGER4,  "Ascend FR DTE N392", NULL, NULL},
  {164,     RADIUS_INTEGER4,  "Ascend FR DCE N393", NULL, NULL},
  {165,     RADIUS_INTEGER4,  "Ascend FR DTE N393", NULL, NULL},
  {166,     RADIUS_INTEGER4,  "Ascend FR T391", NULL, NULL},
  {167,     RADIUS_INTEGER4,  "Ascend FR T392", NULL, NULL},
  {168,     RADIUS_STRING,          "Ascend Bridge Address", NULL, NULL},
  {169,     RADIUS_INTEGER4,  "Ascend TS Idle Limit", NULL, NULL},
  {170,     RADIUS_INTEGER4,  "Ascend TS Idle Mode", NULL, NULL},
  {171,     RADIUS_INTEGER4,  "Ascend DBA Monitor", NULL, NULL},
  {172,     RADIUS_INTEGER4,  "Ascend Base Channel Count", NULL, NULL},
  {173,     RADIUS_INTEGER4,  "Ascend Minimum Channels", NULL, NULL},
  {174,     RADIUS_STRING,          "Ascend IPX Route", NULL, NULL},
  {175,     RADIUS_INTEGER4,  "Ascend FT1 Caller", NULL, NULL},
  {176,     RADIUS_STRING,          "Ascend Backup", NULL, NULL},
  {177,     RADIUS_INTEGER4,  "Ascend Call Type", NULL, NULL},
  {178,     RADIUS_STRING,          "Ascend Group", NULL, NULL},
  {179,     RADIUS_INTEGER4,  "Ascend FR DLCI", NULL, NULL},
  {180,     RADIUS_STRING,          "Ascend FR Profile Name", NULL, NULL},
  {181,     RADIUS_STRING,          "Ascend Ara PW", NULL, NULL},
  {182,     RADIUS_STRING,          "Ascend IPX Node Addr", NULL, NULL},
  {183,     RADIUS_IP_ADDRESS,      "Ascend Home Agent IP Addr", NULL, NULL},
  {184,     RADIUS_STRING,          "Ascend Home Agent Password", NULL, NULL},
  {185,     RADIUS_STRING,          "Ascend Home Network Name", NULL, NULL},
  {186,     RADIUS_INTEGER4,  "Ascend Home Agent UDP Port", NULL, NULL},
  {187,     RADIUS_INTEGER4,  "Ascend Multilink ID", NULL, NULL},
  {188,     RADIUS_INTEGER4,  "Ascend Num In Multilink", NULL, NULL},
  {189,     RADIUS_IP_ADDRESS,      "Ascend First Dest", NULL, NULL},
  {190,     RADIUS_INTEGER4,  "Ascend Pre Input Octets", NULL, NULL},
  {191,     RADIUS_INTEGER4,  "Ascend Pre Output Octets", NULL, NULL},
  {192,     RADIUS_INTEGER4,  "Ascend Pre Input Packets", NULL, NULL},
  {193,     RADIUS_INTEGER4,  "Ascend Pre Output Packets", NULL, NULL},
  {194,     RADIUS_INTEGER4,  "Ascend Maximum Time", NULL, NULL},
  {195,     RADIUS_INTEGER4,  "Ascend Disconnect Cause", NULL, NULL},
  {196,     RADIUS_INTEGER4,  "Ascend Connect Progress", NULL, NULL},
  {197,     RADIUS_INTEGER4,  "Ascend Data Rate", NULL, NULL},
  {198,     RADIUS_INTEGER4,  "Ascend PreSession Time", NULL, NULL},
  {199,     RADIUS_INTEGER4,  "Ascend Token Idle", NULL, NULL},
  {200,     RADIUS_INTEGER4,  "Ascend Token Immediate", NULL, NULL},
  {201,     RADIUS_INTEGER4,  "Ascend Require Auth", NULL, NULL},
  {202,     RADIUS_STRING,          "Ascend Number Sessions", NULL, NULL},
  {203,     RADIUS_STRING,          "Ascend Authen Alias", NULL, NULL},
  {204,     RADIUS_INTEGER4,  "Ascend Token Expiry", NULL, NULL},
  {205,     RADIUS_STRING,          "Ascend Menu Selector", NULL, NULL},
  {206,     RADIUS_STRING,          "Ascend Menu Item", NULL, NULL},
  {207,     RADIUS_INTEGER4,  "Ascend PW Warntime", NULL, NULL},
  {208,     RADIUS_INTEGER4,  "Ascend PW Lifetime", NULL, NULL},
  {209,     RADIUS_IP_ADDRESS,      "Ascend IP Direct", NULL, NULL},
  {210,     RADIUS_INTEGER4,  "Ascend PPP VJ Slot Comp", NULL, NULL},
  {211,     RADIUS_INTEGER4,  "Ascend PPP VJ 1172", NULL, NULL},
  {212,     RADIUS_INTEGER4,  "Ascend PPP Async Map", NULL, NULL},
  {213,     RADIUS_STRING,          "Ascend Third Prompt", NULL, NULL},
  {214,     RADIUS_STRING,          "Ascend Send Secret", NULL, NULL},
  {215,     RADIUS_STRING,          "Ascend Receive Secret", NULL, NULL},
  {216,     RADIUS_INTEGER4,  "Ascend IPX Peer Mode", NULL, NULL},
  {217,     RADIUS_STRING,          "Ascend IP Pool Definition", NULL, NULL},
  {218,     RADIUS_INTEGER4,  "Ascend Assign IP Pool", NULL, NULL},
  {219,     RADIUS_INTEGER4,  "Ascend FR Direct", NULL, NULL},
  {220,     RADIUS_STRING,          "Ascend FR Direct Profile", NULL, NULL},
  {221,     RADIUS_INTEGER4,  "Ascend FR Direct DLCI", NULL, NULL},
  {222,     RADIUS_INTEGER4,  "Ascend Handle IPX", NULL, NULL},
  {223,     RADIUS_INTEGER4,  "Ascend Netware timeout", NULL, NULL},
  {224,     RADIUS_INTEGER4,  "Ascend IPX Alias", NULL, NULL},
  {225,     RADIUS_INTEGER4,  "Ascend Metric", NULL, NULL},
  {226,     RADIUS_INTEGER4,  "Ascend PRI Number Type", NULL, NULL},
  {227,     RADIUS_STRING,          "Ascend Dial Number", NULL, NULL},
  {228,     RADIUS_INTEGER4,  "Ascend Route IP", NULL, NULL},
  {229,     RADIUS_INTEGER4,  "Ascend Route IPX", NULL, NULL},
  {230,     RADIUS_INTEGER4,  "Ascend Bridge", NULL, NULL},
  {231,     RADIUS_INTEGER4,  "Ascend Send Auth", NULL, NULL},
  {232,     RADIUS_STRING,          "Ascend Send Passwd", NULL, NULL},
  {233,     RADIUS_INTEGER4,  "Ascend Link Compression", NULL, NULL},
  {234,     RADIUS_INTEGER4,  "Ascend Target Util", NULL, NULL},
  {235,     RADIUS_INTEGER4,  "Ascend Maximum Channels", NULL, NULL},
  {236,     RADIUS_INTEGER4,  "Ascend Inc Channel Count", NULL, NULL},
  {237,     RADIUS_INTEGER4,  "Ascend Dec Channel Count", NULL, NULL},
  {238,     RADIUS_INTEGER4,  "Ascend Seconds Of History", NULL, NULL},
  {239,     RADIUS_INTEGER4,  "Ascend History Weigh Type", NULL, NULL},
  {240,     RADIUS_INTEGER4,  "Ascend Add Seconds", NULL, NULL},
  {241,     RADIUS_INTEGER4,  "Ascend Remove Seconds", NULL, NULL},
  {242,     RADIUS_BINSTRING, "Ascend Data Filter", NULL, NULL},
  {243,     RADIUS_BINSTRING, "Ascend Call Filter", NULL, NULL},
  {244,     RADIUS_INTEGER4,  "Ascend Idle Limit", NULL, NULL},
  {245,     RADIUS_INTEGER4,  "Ascend Preempt Limit", NULL, NULL},
  {246,     RADIUS_INTEGER4,  "Ascend Callback", NULL, NULL},
  {247,     RADIUS_INTEGER4,  "Ascend Data Svc", NULL, NULL},
  {248,     RADIUS_INTEGER4,  "Ascend Force 56", NULL, NULL},
  {249,     RADIUS_STRING,          "Ascend Billing Number", NULL, NULL},
  {250,     RADIUS_INTEGER4,  "Ascend Call By Call", NULL, NULL},
  {251,     RADIUS_STRING,          "Ascend Transit Number", NULL, NULL},
  {252,     RADIUS_STRING,          "Ascend Host Info", NULL, NULL},
  {253,     RADIUS_IP_ADDRESS,      "Ascend PPP Address", NULL, NULL},
  {254,     RADIUS_INTEGER4,  "Ascend MPP Idle Percent", NULL, NULL},
  {255,     RADIUS_INTEGER4,  "Ascend Xmit Rate", NULL, NULL},
  {0, 0, NULL, NULL, NULL}
};

/*
reference:
      'dictionary.bay' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.bay
*/
static const value_string radius_vendor_bay_tunnel_authen_type_vals[] =
{
  {0, "none"},
  {1, "kmd5 128"},
  {0, NULL}
};

static const value_string radius_vendor_bay_tunnel_authen_mode_vals[] =
{
  {0, "none"},
  {1, "prefix suffix"},
  {0, NULL}
};

static const value_string radius_vendor_bay_user_server_location_vals[] =
{
  {1, "local"},
  {2, "remote"},
  {0, NULL}
};

static const value_string radius_vendor_bay_system_disc_reason_vals[] =
{
  {0, "Unknown"},
  {1, "Line disconnected"},
  {2, "Dial failed"},
  {3, "WAN manager error"},
  {4, "Disconnect reset"},
  {5, "Error from adm_notify"},
  {6, "Modem down adm_notify"},
  {7, "PPP protocol disconnect"},
  {8, "Inactivity timer"},
  {9, "CLI Hangup command"},
  {10,      "CLI last job"},
  {11,      "Session timeout"},
  {12,      "Slave termination"},
  {13,      "Abnormal termination"},
  {14,      "DCD wait failed"},
  {15,      "CLI inactivity"},
  {16,      "Admin port reset"},
  {17,      "CLI auth failed"},
  {18,      "Slave auth failed"},
  {19,      "PAP auth failed"},
  {20,      "CHAP auth failed"},
  {21,      "Local modem reset"},
  {22,      "Modem dead"},
  {23,      "PPP LCP failure"},
  {24,      "PPP IPCP failure"},
  {25,      "PPP IPXCP failure"},
  {26,      "PPP ATCP failure"},
  {27,      "PPP CCP failure"},
  {28,      "PPP MP failure"},
  {29,      "PPP IPCP timeout"},
  {30,      "PPP IPXCP timeout"},
  {31,      "PPP ATCP timeout"},
  {32,      "PPP CCP timeout"},
  {33,      "PPP MP timeout"},
  {34,      "PPP init failure"},
  {35,      "PPP Unknown"},
  {36,      "PPP Dialback failed"},
  {37,      "PPP Address In Use"},
  {38,      "PPP No device"},
  {39,      "PPP Modem hangup rcvd"},
  {40,      "PPP Hangup rcvd"},
  {41,      "PPP Termination rcvd"},
  {42,      "PPP Kill rcvd"},
  {43,      "PPP Time rcvd"},
  {44,      "PPP No memory"},
  {45,      "PPP Connection Abort"},
  {46,      "PPP VPN LCP failure"},
  {47,      "PPP VPN Auth failure"},
  {48,      "PPP MP invalid port"},
  {49,      "PPP Invalid device"},
  {50,      "PPP MMP bundle failure"},
  {51,      "DVS Registration failure"},
  {52,      "DVS Home agent dereg"},
  {53,      "DVS Tunnel no renew"},
  {54,      "DVS Tunnel expired"},
  {0, NULL}
};

static const value_string radius_vendor_bay_modem_disc_reason_vals[] =
{
  {0, "Unknown"},
  {1, "Local disconnect"},
  {2, "CD Timer Expired"},
  {4, "Remote protocol disc"},
  {5, "Clear down"},
  {6, "Long Space disconnect"},
  {7, "Carrier Lost"},
  {8, "Modem Retrain Timeout"},
  {0, NULL}
};

static const value_string radius_vendor_bay_addr_resolution_protocol_vals[] =
{
  {0, "none"},
  {1, "DHCP"},
  {0, NULL}
};

static const value_string radius_vendor_bay_user_level_vals[] =
{
  {2, "Manager"},
  {4, "User"},
  {8, "Operator"},
  {0, NULL}
};

static const value_string radius_vendor_bay_audit_level_vals[] =
{
  {2, "Manager"},
  {4, "User"},
  {8, "Operator"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_bay_attrib[] =
{
  {28,      RADIUS_STRING,          "Annex Filter", NULL, NULL},
  {29,      RADIUS_STRING,          "Annex CLI Command", NULL, NULL},
  {30,      RADIUS_STRING,          "Annex CLI Filter", NULL, NULL},
  {31,      RADIUS_STRING,          "Annex Host Restrict", NULL, NULL},
  {32,      RADIUS_STRING,          "Annex Host Allow", NULL, NULL},
  {33,      RADIUS_STRING,          "Annex Product Name", NULL, NULL},
  {34,      RADIUS_STRING,          "Annex SW Version", NULL, NULL},
  {35,      RADIUS_IP_ADDRESS,      "Annex Local IP Address", NULL, NULL},
  {36,      RADIUS_INTEGER4,  "Annex Callback Portlist", NULL, NULL},
  {37,      RADIUS_INTEGER4,  "Annex Sec Profile Index", NULL, NULL},
  {38,      RADIUS_INTEGER4,  "Annex Tunnel Authen Type", radius_vendor_bay_tunnel_authen_type_vals, NULL},
  {39,      RADIUS_INTEGER4,  "Annex Tunnel Authen Mode", radius_vendor_bay_tunnel_authen_mode_vals, NULL},
  {40,      RADIUS_STRING,          "Annex Authen Servers", NULL, NULL},
  {41,      RADIUS_STRING,          "Annex Acct Servers", NULL, NULL},
  {42,      RADIUS_INTEGER4,  "Annex User Server Location", radius_vendor_bay_user_server_location_vals, NULL},
  {43,      RADIUS_STRING,          "Annex Local Username", NULL, NULL},
  {44,      RADIUS_INTEGER4,  "Annex System Disc Reason", radius_vendor_bay_system_disc_reason_vals, NULL},
  {45,      RADIUS_INTEGER4,  "Annex Modem Disc Reason", radius_vendor_bay_modem_disc_reason_vals, NULL},
  {46,      RADIUS_INTEGER4,  "Annex Disconnect Reason", NULL, NULL},
  {47,      RADIUS_INTEGER4,  "Annex Addr Resolution Protocol", radius_vendor_bay_addr_resolution_protocol_vals, NULL},
  {48,      RADIUS_STRING,          "Annex Addr Resolution Servers", NULL, NULL},
  {49,      RADIUS_STRING,          "Annex Domain Name", NULL, NULL},
  {50,      RADIUS_INTEGER4,  "Annex Transmit Speed", NULL, NULL},
  {51,      RADIUS_INTEGER4,  "Annex Receive Speed", NULL, NULL},
  {52,      RADIUS_STRING,          "Annex Input Filter", NULL, NULL},
  {53,      RADIUS_STRING,          "Annex Output Filter", NULL, NULL},
  {54,      RADIUS_IP_ADDRESS,      "Annex Primary DNS Server", NULL, NULL},
  {55,      RADIUS_IP_ADDRESS,      "Annex Secondary DNS Server", NULL, NULL},
  {56,      RADIUS_IP_ADDRESS,      "Annex Primary NBNS Server", NULL, NULL},
  {57,      RADIUS_IP_ADDRESS,      "Annex Secondary NBNS Server", NULL, NULL},
  {58,      RADIUS_INTEGER4,  "Annex Syslog Tap", NULL, NULL},
  {59,      RADIUS_INTEGER4,  "Annex Keypress Timeout", NULL, NULL},
  {60,      RADIUS_INTEGER4,  "Annex Unauthenticated Time", NULL, NULL},
  {61,      RADIUS_INTEGER4,  "Annex Re CHAP Timeout", NULL, NULL},
  {62,      RADIUS_INTEGER4,  "Annex MRRU", NULL, NULL},
  {63,      RADIUS_STRING,          "Annex EDO", NULL, NULL},
  {64,      RADIUS_INTEGER4,  "Annex PPP Trace Level", NULL, NULL},
  {65,      RADIUS_INTEGER4,  "Annex Pre Input Octets", NULL, NULL},
  {66,      RADIUS_INTEGER4,  "Annex Pre Output Octets", NULL, NULL},
  {67,      RADIUS_INTEGER4,  "Annex Pre Input Packets", NULL, NULL},
  {68,      RADIUS_INTEGER4,  "Annex Pre Output Packets", NULL, NULL},
  {69,      RADIUS_INTEGER4,  "Annex Connect Progress", NULL, NULL},
  {73,      RADIUS_INTEGER4,  "Annex Multicast Rate Limit", NULL, NULL},
  {74,      RADIUS_INTEGER4,  "Annex Maximum Call Duration", NULL, NULL},
  {75,      RADIUS_INTEGER4,  "Annex Multilink Id", NULL, NULL},
  {76,      RADIUS_INTEGER4,  "Annex Num In Multilink", NULL, NULL},
  {81,      RADIUS_INTEGER4,  "Annex Logical Channel Number", NULL, NULL},
  {82,      RADIUS_INTEGER4,  "Annex Wan Number", NULL, NULL},
  {83,      RADIUS_INTEGER4,  "Annex Port", NULL, NULL},
  {85,      RADIUS_INTEGER4,  "Annex Pool Id", NULL, NULL},
  {86,      RADIUS_STRING,          "Annex Compression Protocol", NULL, NULL},
  {87,      RADIUS_INTEGER4,  "Annex Transmitted Packets", NULL, NULL},
  {88,      RADIUS_INTEGER4,  "Annex Retransmitted Packets", NULL, NULL},
  {89,      RADIUS_INTEGER4,  "Annex Signal to Noise Ratio", NULL, NULL},
  {90,      RADIUS_INTEGER4,  "Annex Retrain Requests Sent", NULL, NULL},
  {91,      RADIUS_INTEGER4,  "Annex Retrain Requests Rcvd", NULL, NULL},
  {92,      RADIUS_INTEGER4,  "Annex Rate Reneg Req Sent", NULL, NULL},
  {93,      RADIUS_INTEGER4,  "Annex Rate Reneg Req Rcvd", NULL, NULL},
  {94,      RADIUS_INTEGER4,  "Annex Begin Receive Line Level", NULL, NULL},
  {95,      RADIUS_INTEGER4,  "Annex End Receive Line Level", NULL, NULL},
  {96,      RADIUS_STRING,          "Annex Begin Modulation", NULL, NULL},
  {97,      RADIUS_STRING,          "Annex Error Correction Prot", NULL, NULL},
  {98,      RADIUS_STRING,          "Annex End Modulation", NULL, NULL},
  {100,     RADIUS_INTEGER4,  "Annex User Level", radius_vendor_bay_user_level_vals, NULL},
  {101,     RADIUS_INTEGER4,  "Annex Audit Level", radius_vendor_bay_audit_level_vals, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      'dictionary.foundry' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.foundry
*/
static const radius_attr_info radius_vendor_foundry_attrib[] =
{
  {1, RADIUS_INTEGER4,  "Foundry Privilege Level", NULL, NULL},
  {2, RADIUS_STRING,          "Foundry Command String", NULL, NULL},
  {3, RADIUS_INTEGER4,  "Foundry Command Exception Flag", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      'dictionary.versanet' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.versanet
*/
static const value_string radius_vendor_versanet_termination_cause_vals[] =
{
  {0, "Normal Hangup No Error Occurred"},
  {3, "Call Waiting Caused Disconnect"},
  {4, "Physical Carrier Loss"},
  {5, "No err correction at other end"},
  {6, "No resp to feature negotiation"},
  {7, "1st modem async only 2nd sync"},
  {8, "No framing technique in common"},
  {9, "No protocol in common"},
  {10,      "Bad resp to feature negotiation"},
  {11,      "No sync info from remote modem"},
  {12,      "Normal Hangup by Remote modem"},
  {13,      "Retransmission limit reached"},
  {14,      "Protocol violation occurred"},
  {15,      "Lost DTR"},
  {16,      "Received GSTN cleardown"},
  {17,      "Inactivity timeout"},
  {18,      "Speed not supported"},
  {19,      "Long space disconnect"},
  {20,      "Key abort disconnect"},
  {21,      "Clears previous disc reason"},
  {22,      "No connection established"},
  {23,      "Disconnect after three retrains"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_versanet_attrib[] =
{
  {1, RADIUS_INTEGER4,  "Versanet Termination Cause", radius_vendor_versanet_termination_cause_vals, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      'dictionary.redback' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.redback
*/
static const value_string radius_vendor_redback_tunnel_function_vals[] =
{
  {1, "LAC Only"},
  {2, "LNS Only"},
  {3, "LAC LNS"},
  {0, NULL}
};

static const value_string radius_vendor_redback_mcast_send_vals[] =
{
  {1, "NO SEND"},
  {2, "SEND"},
  {3, "UNSOLICITED SEND"},
  {0, NULL}
};

static const value_string radius_vendor_redback_mcast_receive_vals[] =
{
  {1, "NO RECEIVE"},
  {2, "RECEIVE"},
  {0, NULL}
};

static const value_string radius_vendor_redback_tunnel_dnis_vals[] =
{
  {1, "DNIS"},
  {2, "DNIS Only"},
  {0, NULL}
};

static const value_string radius_vendor_redback_pvc_encapsulation_type_vals[] =
{
  {1, "AAA ENCAPS ATM RAW"},
  {2, "AAA ENCAPS ATM ROUTE1483"},
  {3, "AAA ENCAPS ATM AUTO1483"},
  {4, "AAA ENCAPS ATM MULTI"},
  {5, "AAA ENCAPS ATM BRIDGE1483"},
  {6, "AAA ENCAPS ATM PPP"},
  {7, "AAA ENCAPS ATM PPP SERIAL"},
  {8, "AAA ENCAPS ATM PPP NLPID"},
  {9, "AAA ENCAPS ATM PPP AUTO"},
  {10,      "AAA ENCAPS ATM PPPOE"},
  {11,      "AAA ENCAPS ATM L2TP"},
  {12,      "AAA ENCAPS ATM PPP LLC"},
  {13,      "AAA ENCAPS FRAME AUTO1490"},
  {14,      "AAA ENCAPS FRAME MULTI"},
  {15,      "AAA ENCAPS FRAME BRIDGE1490"},
  {16,      "AAA ENCAPS FRAME PPP"},
  {17,      "AAA ENCAPS FRAME PPP AUTO"},
  {18,      "AAA ENCAPS FRAME PPPOE"},
  {19,      "AAA ENCAPS FRAME ROUTE1490"},
  {20,      "AAA ENCAPS FRAME L2TP"},
  {21,      "AAA ENCAPS L2TP VC MUXED"},
  {22,      "AAA ENCAPS ETH"},
  {23,      "AAA ENCAPS ETH PPPOE"},
  {24,      "AAA ENCAPS ETH MULTI"},
  {0, NULL}
};

static const value_string radius_vendor_redback_pvc_circuit_padding_vals[] =
{
  {1, "AAA CIRCUIT PADDING"},
  {2, "AAA CIRCUIT NO PADDING"},
  {0, NULL}
};

static const value_string radius_vendor_redback_bind_type_vals[] =
{
  {1, "AAA AUTH BIND"},
  {2, "AAA BYPASS BIND"},
  {3, "AAA INTERFACE BIND"},
  {4, "AAA SUBSCRIBE BIND"},
  {5, "AAA TUNNEL BIND"},
  {6, "AAA SESSION BIND"},
  {7, "AAA Q8021 BIND"},
  {8, "AAA MULTI BIND"},
  {0, NULL}
};

static const value_string radius_vendor_redback_bind_auth_protocol_vals[] =
{
  {1, "AAA PPP PAP"},
  {2, "AAA PPP CHAP"},
  {3, "AAA PPP CHAP WAIT"},
  {4, "AAA PPP CHAP PAP"},
  {5, "AAA PPP CHAP WAIT PAP"},
  {0, NULL}
};

static const value_string radius_vendor_redback_lac_port_type_vals[] =
{
  {40,      "NAS PORT TYPE 10BT"},
  {41,      "NAS PORT TYPE 100BT"},
  {42,      "NAS PORT TYPE DS3 FR"},
  {43,      "NAS PORT TYPE DS3 ATM"},
  {44,      "NAS PORT TYPE OC3"},
  {45,      "NAS PORT TYPE HSSI"},
  {46,      "NAS PORT TYPE EIA530"},
  {47,      "NAS PORT TYPE T1"},
  {48,      "NAS PORT TYPE CHAN T3"},
  {49,      "NAS PORT TYPE DS1 FR"},
  {50,      "NAS PORT TYPE E3 ATM"},
  {51,      "NAS PORT TYPE IMA ATM"},
  {52,      "NAS PORT TYPE DS3 ATM 2"},
  {53,      "NAS PORT TYPE OC3 ATM 2"},
  {54,      "NAS PORT TYPE 1000BSX"},
  {55,      "NAS PORT TYPE E1 FR"},
  {56,      "NAS PORT TYPE E1 ATM"},
  {57,      "NAS PORT TYPE E3 FR"},
  {58,      "NAS PORT TYPE OC3 POS"},
  {59,      "NAS PORT TYPE OC12 POS"},
  {60,      "NAS PORT TYPE PPPOE"},
  {0, NULL}
};

static const value_string radius_vendor_redback_lac_real_port_type_vals[] =
{
  {40,      "NAS PORT TYPE 10BT"},
  {41,      "NAS PORT TYPE 100BT"},
  {42,      "NAS PORT TYPE DS3 FR"},
  {43,      "NAS PORT TYPE DS3 ATM"},
  {44,      "NAS PORT TYPE OC3"},
  {45,      "NAS PORT TYPE HSSI"},
  {46,      "NAS PORT TYPE EIA530"},
  {47,      "NAS PORT TYPE T1"},
  {48,      "NAS PORT TYPE CHAN T3"},
  {49,      "NAS PORT TYPE DS1 FR"},
  {50,      "NAS PORT TYPE E3 ATM"},
  {51,      "NAS PORT TYPE IMA ATM"},
  {52,      "NAS PORT TYPE DS3 ATM 2"},
  {53,      "NAS PORT TYPE OC3 ATM 2"},
  {54,      "NAS PORT TYPE 1000BSX"},
  {55,      "NAS PORT TYPE E1 FR"},
  {56,      "NAS PORT TYPE E1 ATM"},
  {57,      "NAS PORT TYPE E3 FR"},
  {58,      "NAS PORT TYPE OC3 POS"},
  {59,      "NAS PORT TYPE OC12 POS"},
  {60,      "NAS PORT TYPE PPPOE"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_redback_attrib[] =
{
  {1, RADIUS_IP_ADDRESS,      "Client DNS Pri", NULL, NULL},
  {2, RADIUS_IP_ADDRESS,      "Client DNS Sec", NULL, NULL},
  {3, RADIUS_INTEGER4,  "DHCP Max Leases", NULL, NULL},
  {4, RADIUS_STRING,          "Context Name", NULL, NULL},
  {5, RADIUS_STRING,          "Bridge Group", NULL, NULL},
  {6, RADIUS_STRING,          "BG Aging Time", NULL, NULL},
  {7, RADIUS_STRING,          "BG Path Cost", NULL, NULL},
  {8, RADIUS_STRING,          "BG Span Dis", NULL, NULL},
  {9, RADIUS_STRING,          "BG Trans BPDU", NULL, NULL},
  {10,      RADIUS_INTEGER4,  "Rate Limit Rate", NULL, NULL},
  {11,      RADIUS_INTEGER4,  "Rate Limit Burst", NULL, NULL},
  {12,      RADIUS_INTEGER4,  "Police Rate", NULL, NULL},
  {13,      RADIUS_INTEGER4,  "Police Burst", NULL, NULL},
  {14,      RADIUS_INTEGER4,  "Source Validation", NULL, NULL},
  {15,      RADIUS_INTEGER4,  "Tunnel Domain", NULL, NULL},
  {16,      RADIUS_STRING,          "Tunnel Local Name", NULL, NULL},
  {17,      RADIUS_STRING,          "Tunnel Remote Name", NULL, NULL},
  {18,      RADIUS_INTEGER4,  "Tunnel Function", radius_vendor_redback_tunnel_function_vals, NULL},
  {21,      RADIUS_INTEGER4,  "Tunnel Max Sessions", NULL, NULL},
  {22,      RADIUS_INTEGER4,  "Tunnel Max Tunnels", NULL, NULL},
  {23,      RADIUS_INTEGER4,  "Tunnel Session Auth", NULL, NULL},
  {24,      RADIUS_INTEGER4,  "Tunnel Window", NULL, NULL},
  {25,      RADIUS_INTEGER4,  "Tunnel Retransmit", NULL, NULL},
  {26,      RADIUS_INTEGER4,  "Tunnel Cmd Timeout", NULL, NULL},
  {27,      RADIUS_STRING,          "PPPOE URL", NULL, NULL},
  {28,      RADIUS_STRING,          "PPPOE MOTM", NULL, NULL},
  {29,      RADIUS_INTEGER4,  "Tunnel Group", NULL, NULL},
  {30,      RADIUS_STRING,          "Tunnel Context", NULL, NULL},
  {31,      RADIUS_INTEGER4,  "Tunnel Algorithm", NULL, NULL},
  {32,      RADIUS_INTEGER4,  "Tunnel Deadtime", NULL, NULL},
  {33,      RADIUS_INTEGER4,  "Mcast Send", radius_vendor_redback_mcast_send_vals, NULL},
  {34,      RADIUS_INTEGER4,  "Mcast Receive", radius_vendor_redback_mcast_receive_vals, NULL},
  {35,      RADIUS_INTEGER4,  "Mcast MaxGroups", NULL, NULL},
  {36,      RADIUS_STRING,          "Ip Address Pool Name", NULL, NULL},
  {37,      RADIUS_INTEGER4,  "Tunnel DNIS", radius_vendor_redback_tunnel_dnis_vals, NULL},
  {38,      RADIUS_INTEGER4,  "Medium Type", NULL, NULL},
  {39,      RADIUS_INTEGER4,  "PVC Encapsulation Type", radius_vendor_redback_pvc_encapsulation_type_vals, NULL},
  {40,      RADIUS_STRING,          "PVC Profile Name", NULL, NULL},
  {41,      RADIUS_INTEGER4,  "PVC Circuit Padding", radius_vendor_redback_pvc_circuit_padding_vals, NULL},
  {42,      RADIUS_INTEGER4,  "Bind Type", radius_vendor_redback_bind_type_vals, NULL},
  {43,      RADIUS_INTEGER4,  "Bind Auth Protocol", radius_vendor_redback_bind_auth_protocol_vals, NULL},
  {44,      RADIUS_INTEGER4,  "Bind Auth Max Sessions", NULL, NULL},
  {45,      RADIUS_STRING,          "Bind Bypass Bypass", NULL, NULL},
  {46,      RADIUS_STRING,          "Bind Auth Context", NULL, NULL},
  {47,      RADIUS_STRING,          "Bind Auth Service Grp", NULL, NULL},
  {48,      RADIUS_STRING,          "Bind Bypass Context", NULL, NULL},
  {49,      RADIUS_STRING,          "Bind Int Context", NULL, NULL},
  {50,      RADIUS_STRING,          "Bind Tun Context", NULL, NULL},
  {51,      RADIUS_STRING,          "Bind Ses Context", NULL, NULL},
  {52,      RADIUS_INTEGER4,  "Bind Dot1q Slot", NULL, NULL},
  {53,      RADIUS_INTEGER4,  "Bind Dot1q Port", NULL, NULL},
  {54,      RADIUS_INTEGER4,  "Bind Dot1q Vlan Tag Id", NULL, NULL},
  {55,      RADIUS_STRING,          "Bind Int Interface Name", NULL, NULL},
  {56,      RADIUS_STRING,          "Bind L2TP Tunnel Name", NULL, NULL},
  {57,      RADIUS_INTEGER4,  "Bind L2TP Flow Control", NULL, NULL},
  {58,      RADIUS_STRING,          "Bind Sub User At Context", NULL, NULL},
  {59,      RADIUS_STRING,          "Bind Sub Password", NULL, NULL},
  {60,      RADIUS_STRING,          "Ip Host Addr", NULL, NULL},
  {61,      RADIUS_INTEGER4,  "IP TOS Field", NULL, NULL},
  {62,      RADIUS_INTEGER4,  "NAS Real Port", NULL, NULL},
  {63,      RADIUS_STRING,          "Tunnel Session Auth Ctx", NULL, NULL},
  {64,      RADIUS_STRING,          "Tunnel Session Auth Service Grp", NULL, NULL},
  {65,      RADIUS_INTEGER4,  "Tunnel Rate Limit Rate", NULL, NULL},
  {66,      RADIUS_INTEGER4,  "Tunnel Rate Limit Burst", NULL, NULL},
  {67,      RADIUS_INTEGER4,  "Tunnel Police Rate", NULL, NULL},
  {68,      RADIUS_INTEGER4,  "Tunnel Police Burst", NULL, NULL},
  {69,      RADIUS_STRING,          "Tunnel L2F Second Password", NULL, NULL},
  {128,     RADIUS_INTEGER4,  "Acct Input Octets 64", NULL, NULL},
  {129,     RADIUS_INTEGER4,  "Acct Output Octets 64", NULL, NULL},
  {130,     RADIUS_INTEGER4,  "Acct Input Packets 64", NULL, NULL},
  {131,     RADIUS_INTEGER4,  "Acct Output Packets 64", NULL, NULL},
  {132,     RADIUS_IP_ADDRESS,      "Assigned IP Address", NULL, NULL},
  {133,     RADIUS_INTEGER4,  "Acct Mcast In Octets", NULL, NULL},
  {134,     RADIUS_INTEGER4,  "Acct Mcast Out Octets", NULL, NULL},
  {135,     RADIUS_INTEGER4,  "Acct Mcast In Packets", NULL, NULL},
  {136,     RADIUS_INTEGER4,  "Acct Mcast Out Packets", NULL, NULL},
  {137,     RADIUS_INTEGER4,  "LAC Port", NULL, NULL},
  {138,     RADIUS_INTEGER4,  "LAC Real Port", NULL, NULL},
  {139,     RADIUS_INTEGER4,  "LAC Port Type", radius_vendor_redback_lac_port_type_vals, NULL},
  {140,     RADIUS_INTEGER4,  "LAC Real Port Type", radius_vendor_redback_lac_real_port_type_vals, NULL},
  {141, RADIUS_STRING,        "Acct Dyn Ac Ent", NULL, NULL},
  {142, RADIUS_INTEGER4,      "Session Error Code", NULL, NULL},
  {143, RADIUS_STRING,        "Session Error Msg", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
    http://www.juniper.net/techpubs/software/junos/junos62/swconfig62-system-basics/frameset.htm
*/
static const radius_attr_info radius_vendor_juniper_attrib[] =
{
  {1, RADIUS_STRING,          "Juniper Local User Name", NULL, NULL},
  {2, RADIUS_STRING,          "Juniper Allow Commands", NULL, NULL},
  {3, RADIUS_STRING,          "Juniper Deny Commands", NULL, NULL},
  {4, RADIUS_STRING,          "Juniper Allow Configuration", NULL, NULL},
  {5, RADIUS_STRING,          "Juniper Deny Configuration", NULL, NULL},
  {0, 0, NULL, NULL, NULL}
};

/*
reference:
      'dictionary.aptis' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.aptis
*/
static const radius_attr_info radius_vendor_aptis_attrib[] =
{
  {1, RADIUS_STRING,          "CVX Identification", NULL, NULL},
  {2, RADIUS_INTEGER4,  "CVX VPOP ID", NULL, NULL},
  {3, RADIUS_INTEGER4,  "CVX SS7 Session ID Type", NULL, NULL},
  {4, RADIUS_INTEGER4,  "CVX Radius Redirect", NULL, NULL},
  {5, RADIUS_INTEGER4,  "CVX IPSVC AZNLVL", NULL, NULL},
  {6, RADIUS_INTEGER4,  "CVX IPSVC Mask", NULL, NULL},
  {7, RADIUS_INTEGER4,  "CVX Multilink Match Info", NULL, NULL},
  {8, RADIUS_INTEGER4,  "CVX Multilink Group Number", NULL, NULL},
  {9, RADIUS_INTEGER4,  "CVX PPP Log Mask", NULL, NULL},
  {10,      RADIUS_STRING,          "CVX Modem Begin Modulation", NULL, NULL},
  {11,      RADIUS_STRING,          "CVX Modem End Modulation", NULL, NULL},
  {12,      RADIUS_STRING,          "CVX Modem Error Correction", NULL, NULL},
  {13,      RADIUS_STRING,          "CVX Modem Data Compression", NULL, NULL},
  {14,      RADIUS_INTEGER4,  "CVX Modem Tx Packets", NULL, NULL},
  {15,      RADIUS_INTEGER4,  "CVX Modem ReTx Packets", NULL, NULL},
  {16,      RADIUS_INTEGER4,  "CVX Modem SNR", NULL, NULL},
  {17,      RADIUS_INTEGER4,  "CVX Modem Local Retrains", NULL, NULL},
  {18,      RADIUS_INTEGER4,  "CVX Modem Remote Retrains", NULL, NULL},
  {19,      RADIUS_INTEGER4,  "CVX Modem Local Rate Negs", NULL, NULL},
  {20,      RADIUS_INTEGER4,  "CVX Modem Remote Rate Negs", NULL, NULL},
  {21,      RADIUS_INTEGER4,  "CVX Modem Begin Recv Line Lvl", NULL, NULL},
  {22,      RADIUS_INTEGER4,  "CVX Modem End Recv Line Lvl", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      Dictonary of Cisco ACS 3.1
      http://www.cisco.com/en/US/products/sw/secursw/ps2086/products_user_guide_chapter09186a0080102172.html#984410
*/


static const value_string radius_vendor_cisco_vpn3000_sep_card_assignment_vals[] =
{
  {1, "SEP 1"},
  {2, "SEP 2"},
  {3, "SEP 1 + SEP 2"},
  {4, "SEP 3"},
  {5,       "SEP 1 + SEP 3"},
  {6,       "SEP 2 + SEP 3"},
  {7,       "SEP 1 + SEP 2 + SEP 3"},
  {8,       "SEP 4"},
  {9, "SEP 1 + SEP 4"},
  {10,      "SEP 2 + SEP 4"},
  {11,      "SEP 1 + SEP 2 + SEP 4"},
  {12,      "SEP 3 + SEP 4"},
  {13,      "SEP 1 + SEP 3 + SEP 4"},
  {14,      "SEP 2 + SEP 3 + SEP 4"},
  {15,      "Any SEP"},
  {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_tunneling_protocols_vals[] =
{
  {1, "PPTP"},
  {2, "L2TP"},
  {3, "PPTP and L2TP"},
  {4, "IPSec"},
  {5, "PPTP and IPSec"},
  {6, "L2TP and IPSec"},
  {7, "PPTP - L2TP - IPSec"},
  {8, "L2TP/IPSec"},
  {9, "PPTP and L2TP/IPSec"},
  {10,      "L2TP and L2TP/IPSec"},
  {11,      "PPTP - L2TP - L2TP/IPSec"},
  {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ipsec_authentication_vals[] =
{
  {0, "None"},
  {1, "RADIUS"},
  {3, "NT Domain"},
  {4, "SDI"},
  {5, "Internal"},
  {6, "Radius with Expiry"},
  {7, "KERBEROS / Active Directory"},
  {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_allow_pw_store_vals[] =
{
  {0, "False"},
  {1, "True"},
  {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_use_client_address_vals[] =
{
  {0, "False"},
  {1, "True"},
  {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_pptp_encryption_vals[] =
{
  {1,   "Encryption required"},
  {2,   "40 Bits"},
  {3,   "40 Bits - Encryption required"},
  {4,   "128 Bits"},
  {5,   "128 Bits - Encryption required"},
  {6,   "40 or 128 Bits"},
  {7,   "40 or 128 Bits - Encryption required"},
  {8,   "Stateless Required"},
  {9,   "Encryption / Stateless required"},
  {10,  "40 Bits - Stateless required"},
  {11,  "40 Bits Encryption / Stateless required"},
  {12,  "128 Bits - Stateless required"},
  {13,  "128 Bits - Encryption / Stateless required"},
  {14,  "40/128 Bits - Stateless required"},
  {15,  "40/128 Bits - Encryption / Stateless required"},
  {0, NULL}
};


static const value_string radius_vendor_cisco_vpn3000_l2tp_encryption_vals[] =
{
  {1, "Encryption required"},
  {2, "40 Bits"},
  {3, "40 Bits - Encryption required"},
  {4, "128 Bits"},
  {5, "128 Bits - Encryption required"},
  {6, "40 or 128 Bits"},
  {7, "40 or 128 Bits - Encryption required"},
  {8, "Stateless Required"},
  {9, "Encryption / Stateless required"},
  {10,      "40 Bits - Stateless required"},
  {11,      "40 Bits Encryption / Stateless required"},
  {12,      "128 Bits - Stateless required"},
  {13,      "128 Bits - Encryption / Stateless required"},
  {14,      "40/128 Bits - Stateless required"},
  {15,      "40/128 Bits - Encryption / Stateless required"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_tunnel_type_vals[] =
{
  {1, "LAN-to-LAN"},
  {2, "Remote Access"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_mode_config_vals[] =
{
  {0, "OFF"},
  {1, "ON"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_user_group_lock_vals[] =
{
  {0, "OFF"},
  {1, "ON"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ipsec_over_udp_vals[] =
{
  {0, "OFF"},
  {1, "ON"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_pptp_mppc_compression_vals[] =
{
  {1, "ON"},
  {2, "OFF"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_l2tp_mppc_compression_vals[] =
{
  {0, "ON"},
  {1, "OFF"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ipsec_ip_compression_vals[] =
{
  {0, "None"},
  {1, "LZS"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ipsec_ike_peer_idcheck_vals[] =
{
  {1, "Required"},
  {2, "If supported by certifiate"},
  {3, "Do not check"},
  {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ike_keep_alives_vals[] =
{
  {0, "OFF"},
  {1, "ON"},
 {0, NULL}
};


static const value_string radius_vendor_cisco_vpn3000_auth_on_rekey_vals[] =
{
  {0, "OFF"},
  {1, "ON"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_required_client_fw_vendor_code_vals[] =
{
  {1, "Cisco Systems (with CIC) "},
  {2, "Zone Labs"},
  {3, "Network ICE"},
  {4, "Sygate"},
  {5, "Cisco Systems (with CSA) "},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_hw_client_auth_vals[] =
{
  {0, "OFF"},
  {1, "ON"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn_req_user_auth_vals[] =
{
  {0, "No"},
  {1, "Yes"},
  {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ip_phone_bypass_vals[] =
{
  {0, "No"},
  {1, "Yes"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ipsec_split_tunneling_policy_vals[] =
{
  {0, "Tunnel everything"},
  {1, "Only tunnel networks in list"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ipsec_required_client_fw_capability_vals[] =
{
  {0, "None"},
  {1, "Policy defined by remote FW AYT"},
  {2, "Policy pushed CPP"},
  {4, "Policy from Server"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ipsec_client_fw_filter_optional_vals[] =
{
  {0, "Required"},
  {1, "Optional"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ipsec_backup_servers_vals[] =
{
  {1, "User Client-configured list"},
  {2, "Disable and clear client list"},
  {3, "Use Backup server list"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_ms_client_intercept_dhcp_configure_message_vals[] =
{
  {0, "No"},
  {1, "Yes"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_allow_network_extension_mode_vals[] =
{
  {0, "No"},
  {1, "Yes"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_webvpn_content_filter_parameters_vals[] =
{
  {1, "Java & ActiveX"},
  {2, "JavaScript"},
  {3, "Java & ActiveX - JavaScript"},
  {4, "Images"},
  {5, "Java & ActiveX - Images"},
  {6, "JavaScript - Images"},
  {7, "Java & ActiveX - JavaScript - Images"},
  {8, "Cookies"},
  {9, "Cookies - Java & ActiveX"},
  {10,      "Cookies - Javascript"},
  {11,      "Cookies - Java & ActiveX - JavaScript"},
  {12,      "Cookies - Images"},
  {13,      "Cookies - Images - Java &ActiveX"},
  {14,      "Cookies - Images - JavaScript"},
  {15,      "Cookies - Images - Java &ActiveX - JavaScript"},
 {0, NULL}
};

static const value_string radius_vendor_cisco_vpn3000_strip_realm_vals[] =
{
  {0, "No"},
  {1, "Yes"},
 {0, NULL}
};

static const radius_attr_info radius_vendor_cisco_vpn3000_attrib[] =
{
  {1, RADIUS_STRING,          "CVPN3000-Access-Hours", NULL, NULL},
  {2, RADIUS_INTEGER4,        "CVPN3000-Simultaneous-Logins", NULL, NULL},
  {5, RADIUS_IP_ADDRESS,      "CVPN3000-Primary-DNS", NULL, NULL},
  {6, RADIUS_IP_ADDRESS,      "CVPN3000-Secondary-DNS", NULL, NULL},
  {7, RADIUS_IP_ADDRESS,      "CVPN3000-Primary-WINS", NULL, NULL},
  {8, RADIUS_IP_ADDRESS,      "CVPN3000-Secondary-WINS", NULL, NULL},
  {9,       RADIUS_INTEGER4,        "CVPN3000-SEP-Card-Assignment", radius_vendor_cisco_vpn3000_sep_card_assignment_vals, NULL},
  {11,      RADIUS_INTEGER4,        "CVPN3000-Tunneling-Protocols", radius_vendor_cisco_vpn3000_tunneling_protocols_vals, NULL},
  {12,      RADIUS_STRING,          "CVPN3000-IPSec-Sec-Association", NULL, NULL},
  {13,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Authentication", radius_vendor_cisco_vpn3000_ipsec_authentication_vals, NULL},
  {15,      RADIUS_STRING,          "CVPN3000-IPSec-Banner1", NULL, NULL},
  {16,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Allow-Passwd-Store", radius_vendor_cisco_vpn3000_allow_pw_store_vals, NULL},
  {17,      RADIUS_INTEGER4,        "CVPN3000-Use-Client-Address", radius_vendor_cisco_vpn3000_use_client_address_vals, NULL},
  {20,      RADIUS_INTEGER4,        "CVPN3000-PPTP-Encryption", radius_vendor_cisco_vpn3000_pptp_encryption_vals, NULL},
  {21,      RADIUS_INTEGER4,        "CVPN3000-L2TP-Encryption", radius_vendor_cisco_vpn3000_l2tp_encryption_vals, NULL},
  {27,      RADIUS_STRING,          "CVPN3000-IPSec-Split-Tunnel-List", NULL, NULL},
  {28,      RADIUS_STRING,          "CVPN3000-IPSec-Default-Domain", NULL, NULL},
  {29,      RADIUS_STRING,          "CVPN3000-IPSec-Split-DNS-Names", NULL, NULL},
  {30,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Tunnel-Type", radius_vendor_cisco_vpn3000_tunnel_type_vals, NULL},
  {31,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Mode-Config", radius_vendor_cisco_vpn3000_mode_config_vals, NULL},
  {33,      RADIUS_INTEGER4,        "CVPN3000-IPSec-User-Group-Lock", radius_vendor_cisco_vpn3000_user_group_lock_vals, NULL},
  {34,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Over-UDP", radius_vendor_cisco_vpn3000_ipsec_over_udp_vals, NULL},
  {35,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Over-UDP-Port", NULL, NULL},
  {36,      RADIUS_STRING,          "CVPN3000-IPSec-Banner2", NULL, NULL},
  {37,      RADIUS_INTEGER4,        "CVPN3000-PPTP-MPPC-Compression", radius_vendor_cisco_vpn3000_pptp_mppc_compression_vals, NULL},
  {38,      RADIUS_INTEGER4,        "CVPN3000-L2TP-MPPC-Compression", radius_vendor_cisco_vpn3000_l2tp_mppc_compression_vals, NULL},
  {39,      RADIUS_INTEGER4,        "CVPN3000-IPSec-IP-Compression", radius_vendor_cisco_vpn3000_ipsec_ip_compression_vals, NULL},
  {40,      RADIUS_INTEGER4,        "CVPN3000-IPSec-IKE-Peer-IDCheck", radius_vendor_cisco_vpn3000_ipsec_ike_peer_idcheck_vals, NULL},
  {41,      RADIUS_INTEGER4,        "CVPN3000-IKE-Keep-Alives", radius_vendor_cisco_vpn3000_ike_keep_alives_vals, NULL},
  {42,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Auth-On-Rekey", radius_vendor_cisco_vpn3000_auth_on_rekey_vals, NULL},
  {45,      RADIUS_INTEGER4,        "CVPN3000-Required-Client-Firewall-Vendor-Code", radius_vendor_cisco_vpn3000_required_client_fw_vendor_code_vals, NULL},
  {46,      RADIUS_INTEGER4,        "CVPN3000-Required-Client-Firewall-Product-Code", NULL, NULL},
  {47,      RADIUS_STRING,          "CVPN3000-Required-Client-Firewall-Description", NULL, NULL},
  {48,      RADIUS_INTEGER4,        "CVPN3000-Require-HW-Client-Auth", radius_vendor_cisco_vpn3000_hw_client_auth_vals, NULL},
  {49,      RADIUS_INTEGER4,        "CVPN3000-Required-Individual-User-Auth", radius_vendor_cisco_vpn_req_user_auth_vals, NULL},
  {50,      RADIUS_INTEGER4,        "CVPN3000-Authenticated-User-Idle-Timeout", NULL, NULL},
  {51,      RADIUS_INTEGER4,        "CVPN3000-Cisco-IP-Phone-Bypass", radius_vendor_cisco_vpn3000_ip_phone_bypass_vals, NULL},
  {52,      RADIUS_STRING,          "CVPN3000-User-Auth-Server-Name", NULL, NULL},
  {53,      RADIUS_INTEGER4,        "CVPN3000-User-Auth-Server-Port", NULL, NULL},
  {54,      RADIUS_STRING,          "CVPN3000-User-Auth-Server-Secret", NULL, NULL},
  {55,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Split-Tunneling-Policy", radius_vendor_cisco_vpn3000_ipsec_split_tunneling_policy_vals, NULL},
  {56,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Required-Client-Firewall-Capability", radius_vendor_cisco_vpn3000_ipsec_required_client_fw_capability_vals, NULL},
  {57,      RADIUS_STRING,          "CVPN3000-IPSec-Client-Firewall-Filter-Name", NULL, NULL},
  {58,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Client-Firewall-Filter-Optional", radius_vendor_cisco_vpn3000_ipsec_client_fw_filter_optional_vals, NULL},
  {59,      RADIUS_INTEGER4,        "CVPN3000-IPSec-Backup-Servers", radius_vendor_cisco_vpn3000_ipsec_backup_servers_vals, NULL},
  {60,      RADIUS_STRING,          "CVPN3000-IPSec-Backup-Server-List", NULL, NULL},
  {62,      RADIUS_INTEGER4,        "CVPN3000-MS-Client-Intercept-DHCP-Configure-Message", radius_vendor_cisco_vpn3000_ms_client_intercept_dhcp_configure_message_vals, NULL},
  {63,      RADIUS_IP_ADDRESS,      "CVPN3000-MS-Client-Subnet-Mask", NULL, NULL},
  {64,      RADIUS_INTEGER4,        "CVPN3000-Allow-Network-Extension-Mode", radius_vendor_cisco_vpn3000_allow_network_extension_mode_vals, NULL},
  {68,      RADIUS_INTEGER4,        "CVPN3000-Confidence-Interval", NULL, NULL},
  {69,      RADIUS_INTEGER4,        "CVPN3000-WebVPN-Content-Filter-Parameters", radius_vendor_cisco_vpn3000_webvpn_content_filter_parameters_vals, NULL},
  {70,      RADIUS_INTEGER4,        "CVPN3000-WebVPN-Enable-functions", NULL, NULL},
  {74,      RADIUS_STRING,          "CVPN3000-WebVPN-Exchange-Server-Address", NULL, NULL},
  {75,      RADIUS_INTEGER4,        "CVPN3000-Cisco-LEAP-Bypass", NULL, NULL},
  {77,      RADIUS_STRING,          "CVPN3000-Client-Type-Version-Limiting", NULL, NULL},
  {78,      RADIUS_STRING,          "CVPN3000-WebVPN-ExchangeServer-NETBIOS-Name", NULL, NULL},
  {79,      RADIUS_STRING,          "CVPN3000-Port-Forwarding-Name", NULL, NULL},
  {135,     RADIUS_INTEGER4,        "CVPN3000-Strip-Realm", radius_vendor_cisco_vpn3000_strip_realm_vals, NULL},
  {0, 0, NULL, NULL, NULL}
};

static const radius_attr_info radius_vendor_cosine_attrib[] =
{
  {1, RADIUS_STRING,          "Connection Profile Name", NULL, NULL},
  {2, RADIUS_STRING,          "Enterprise ID", NULL, NULL},
  {3, RADIUS_STRING,          "Address Pool Name", NULL, NULL},
  {4, RADIUS_INTEGER4,  "DS Byte", NULL, NULL},
  {5, COSINE_VPI_VCI,         "VPI/VCI", NULL, NULL},
  {6, RADIUS_INTEGER4,  "DLCI", NULL, NULL},
  {7, RADIUS_IP_ADDRESS,      "LNS IP Address", NULL, NULL},
  {8, RADIUS_STRING,          "CLI User Permission ID", NULL, NULL},
  {0, 0, NULL, NULL, NULL}
};

/*
reference:
      'dictionary.shasta' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.shasta
*/
static const value_string radius_vendor_shasta_user_privilege_vals[] =
{
  {1, "User"},
  {2, "Super User"},
  {3, "SSuper User"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_shasta_attrib[] =
{
  {1, RADIUS_INTEGER4,  "Shasta User Privilege", radius_vendor_shasta_user_privilege_vals, NULL},
  {2, RADIUS_STRING,          "Shasta Service Profile", NULL, NULL},
  {3, RADIUS_STRING,          "Shasta VPN Name", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      'dictionary.nomadix' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.nomadix
*/
static const radius_attr_info radius_vendor_nomadix_attrib[] =
{
  {1, RADIUS_INTEGER4,  "Nomadix Bw Up", NULL, NULL},
  {2, RADIUS_INTEGER4,  "Nomadix Bw Down", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      PKT-SP-EM-I09-040402 - PacketCable(tm) Event Message Specification
      http://www.packetcable.com/specifications/
*/

/* XXX - Do we need to strip off the spaces for RJ strings? */
#define PACKETCABLE_RJ_STRING RADIUS_STRING
#define PACKETCABLE_EM_HEADER_CODE 1

static value_string radius_vendor_packetcable_event_message_vals[] =
{
  {0,  "Reserved"},
  {1,  "Signaling_Start"},
  {2,  "Signaling_Stop"},
  {3,  "Database_Query"},
  {4,  "Intelligent_Peripheral_Usage_Start"},
  {5,  "Intelligent_Peripheral_Usage_Stop"},
  {6,  "Service_Instance"},
  {7,  "QoS_Reserve"},
  {8,  "QoS_Release"},
  {9,  "Service_Activation"},
  {10, "Service_Deactivation"},
  {11,  "Media_Report"},
  {12,  "Signal_Instance"},
  {13, "Interconnect_(Signaling)_Start"},
  {14, "Interconnect_(Signaling)_Stop"},
  {15, "Call_Answer"},
  {16, "Call_Disconnect"},
  {17, "Time_Change"},
  {19, "QoS_Commit"},
  {20, "Media_Alive"},
  {31,  "Policy_Request"},
  {32,  "Policy_Delete"},
  {33,  "Policy_Update"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_query_type_vals[] =
{
  {0,  "Reserved"},
  {1,  "Toll Free Number Looukp"},
  {2,  "LNPNumberLookup"},
  {3,  "Calling Name Delivery Lookup"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_channel_state_vals[] =
{
  {0,  "Not Used/Reserved"},
  {1,  "Open"},
  {2,  "Change"},
  {3,  "Close"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_direction_indicator_vals[] =
{
  {0,  "Undefined"},
  {1,  "Originating"},
  {2,  "Terminating"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_flow_direction_vals[] =
{
  {0,  "Reserved"},
  {1,  "Upstream"},
  {2,  "Downstream"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_signal_type_vals[] =
{
  {0,  "Reserved"},
  {1,  "Network_Signal"},
  {2,  "Subject_Signal"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_alerting_signal_vals[] =
{
  {0,  "Reserved"},
  {1,  "Ringing (rg)"},
  {2,  "Distinctive ringing 2 (r2)"},
  {3,  "Distinctive ringing 3 (r3)"},
  {4,  "Distinctive ringing 4 (r4)"},
  {5,  "Ringsplash (rs)"},
  {6,  "Call waiting tone 1 (wt1)"},
  {7,  "Call waiting tone 2 (wt2)"},
  {8,  "Call waiting tone 3 (wt3)"},
  {9,  "Call waiting tone 4 (wt4)"},
  {10,  "Reserved"},
  {11,  "Distinctive ringing 0 (r0)"},
  {12,  "Distinctive ringing 1 (r1)"},
  {13,  "Distinctive ringing 5 (r5)"},
  {14,  "Distinctive ringing 6 (r6)"},
  {15,  "Distinctive ringing 7 (r7)"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_subject_audible_signal_vals[] =
{
  {0,  "Reserved"},
  {1,  "Dial tone (dl)"},
  {2,  "Stutter dial tone (sl)"},
  {3,  "Ring back tone (rt)"},
  {4,  "Reorder tone (ro)"},
  {5,  "Busy tone (bz)"},
  {6,  "Confirmation tone (cf)"},
  {7,  "Reserved"},
  {8,  "Message waiting indicator (mwi)"},
  {9,  "Off-hook warning tone (ot)"},
  {10, "Reserved"},
  {11, "Reserved"},
  {12, "Reserved"},
  {13, "Reserved"},
  {14, "Reserved"},
  {15, "Reserved"},
  {16, "Reserved"},
  {17, "Reserved"},
  {18, "Reserved"},
  {19, "Reserved"},
  {20, "Reserved"},
  {21, "Reserved"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_element_requesting_qos_vals[] =
{
  {0, "Client"},
  {1, "Policy Server"},
  {2, "Embedded Client"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_qos_release_reason_vals[] =
{
  {1,   "Gate Closed by PS"},
  {2,   "Inactivity resource recovery (T4) timer expiration"},
  {3,   "CM Failure"},
  {4,   "Pre-Empted"},
  {5,   "RSVP PathTear request"},
  {6,   "CM Request"},
  {7,   "Admitted (T2) timer expiration"},
  {127, "Other"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_policy_denied_reason_vals[] =
{
  {1,   "Policy Server admission control failure"},
  {2,   "Insufficient resources"},
  {3,   "Unknown subscriber"},
  {4,   "Unauthorized AMID"},
  {5,   "Undefined Service Class Name"},
  {6,   "Incompatible Envelope"},
  {127, "Other"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_policy_deleted_reason_vals[] =
{
  {1,   "Application Manager request"},
  {2,   "CMTS decistion"},
  {127, "Other"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_policy_update_reason_vals[] =
{
  {1,   "Traffic Profile"},
  {2,   "Classifier"},
  {3,   "Volume Limit"},
  {4,   "Time Limit"},
  {5,   "Opaque data"},
  {6,   "Multiple Updates"},
  {127, "Other"},
  {0, NULL}
};

static value_string radius_vendor_packetcable_policy_decision_status_vals[] =
{
  {1, "Policy Approved"},
  {2, "Policy Denied"},
  {0, NULL}
};


static value_string packetcable_em_header_element_type_vals[] =
{
  {0,  "Reserved"},
  {1,  "CMS"},
  {2,  "CMTS"},
  {3,  "Media Gateway Controller"},
  {0, NULL}
};

#define PACKETCABLE_EMHS_EI_MASK 0X0003
#define PACKETCABLE_EMHS_EO_MASK 0X0004
#define PACKETCABLE_EMHS_EMP_MASK 0X0008
#define PACKETCABLE_EMHS_RESERVED_MASK 0Xfff0

static value_string packetcable_em_header_status_error_indicator_vals[] =
{
  {0,  "No Error"},
  {1,  "Possible Error"},
  {2,  "Known Error"},
  {3,  "Reserved"},
  {0, NULL},
};

static value_string packetcable_em_header_status_event_origin_vals[] =
{
  {0,  "Trusted Element"},
  {1,  "Untrusted Element"},
  {0, NULL},
};

static value_string packetcable_em_header_status_event_message_proxied_vals[] =
{
  {0,  "Not proxied"},
  {1,  "Proxied"},
  {0, NULL},
};

static value_string packetcable_call_termination_cause_vals[] =
{
  {0,  "Reserved"},
  {1,  "BAF"},
  {2,  "Reserved"},
  {0, NULL},
};

static value_string packetcable_trunk_type_vals[] =
{
  {1,  "Not Used"},
  {2,  "Not Used"},
  {3,  "SS7 direct trunk group member"},
  {4,  "SS7 from IC to AT and SS7 from AT to EO"},
  {5,  "Not Used"},
  {6,  "SS7 from IC to AT and non-SS7 from AT to EO (terminating only)"},
  {9,  "Signaling type not specified"},
  {0, NULL},
};

#define PACKETCABLE_QOS_STATE_INDICATION_MASK 0X0003
static value_string packetcable_state_indication_vals[] =
{
  {0,  "Illegal Value"},
  {1,  "Resource Reserved but not Activated"},
  {2,  "Resource Activated"},
  {3,  "Resource Reserved & Activated"},
};

#define PACKETCABLE_SERVICE_FLOW_SCHEDULING_TYPE_MASK  (1 << 2)
#define PACKETCABLE_NOMINAL_GRANT_INTERVAL_MASK        (1 << 3)
#define PACKETCABLE_TOLERATED_GRANT_JITTER_MASK        (1 << 4)
#define PACKETCABLE_GRANTS_PER_INTERVAL_MASK   (1 << 5)
#define PACKETCABLE_UNSOLICITED_GRANT_SIZE_MASK        (1 << 6)
#define PACKETCABLE_TRAFFIC_PRIORITY_MASK      (1 << 7)
#define PACKETCABLE_MAXIMUM_SUSTAINED_RATE_MASK        (1 << 8)
#define PACKETCABLE_MAXIMUM_TRAFFIC_BURST_MASK (1 << 9)
#define PACKETCABLE_MINIMUM_RESERVED_TRAFFIC_RATE_MASK (1 << 10)
#define PACKETCABLE_MINIMUM_PACKET_SIZE_MASK   (1 << 11)
#define PACKETCABLE_MAXIMUM_CONCATENATED_BURST_MASK    (1 << 12)
#define PACKETCABLE_REQUEST_TRANSMISSION_POLICY_MASK   (1 << 13)
#define PACKETCABLE_NOMINAL_POLLING_INTERVAL_MASK      (1 << 14)
#define PACKETCABLE_TOLERATED_POLL_JITTER_MASK (1 << 15)
#define PACKETCABLE_IP_TYPE_OF_SERVICE_OVERRIDE_MASK   (1 << 16)
#define PACKETCABLE_MAXIMUM_DOWNSTREAM_LATENCY_MASK    (1 << 17)

static guint32 packetcable_qos_desc_mask[] =
{
  PACKETCABLE_SERVICE_FLOW_SCHEDULING_TYPE_MASK,
  PACKETCABLE_NOMINAL_GRANT_INTERVAL_MASK,
  PACKETCABLE_TOLERATED_GRANT_JITTER_MASK,
  PACKETCABLE_GRANTS_PER_INTERVAL_MASK,
  PACKETCABLE_UNSOLICITED_GRANT_SIZE_MASK,
  PACKETCABLE_TRAFFIC_PRIORITY_MASK,
  PACKETCABLE_MAXIMUM_SUSTAINED_RATE_MASK,
  PACKETCABLE_MAXIMUM_TRAFFIC_BURST_MASK,
  PACKETCABLE_MINIMUM_RESERVED_TRAFFIC_RATE_MASK,
  PACKETCABLE_MINIMUM_PACKET_SIZE_MASK,
  PACKETCABLE_MAXIMUM_CONCATENATED_BURST_MASK,
  PACKETCABLE_REQUEST_TRANSMISSION_POLICY_MASK,
  PACKETCABLE_NOMINAL_POLLING_INTERVAL_MASK,
  PACKETCABLE_TOLERATED_POLL_JITTER_MASK,
  PACKETCABLE_IP_TYPE_OF_SERVICE_OVERRIDE_MASK,
  PACKETCABLE_MAXIMUM_DOWNSTREAM_LATENCY_MASK,
};

#define PACKETCABLE_QOS_DESC_BITFIELDS 16


static const radius_attr_info radius_vendor_cablelabs_attrib[] =
{
  {0,  RADIUS_RESERVED,                        "Reserved", NULL, NULL},
  {1,  PACKETCABLE_EM_HEADER,                  "EM_Header Data structure", NULL, NULL},
  /* 2 Undefined */
  {3,  RADIUS_STRING,                          "MTA_Endpoint_Name", NULL, NULL},
  {4,  PACKETCABLE_RJ_STRING,                  "Calling_Party_Number", NULL, NULL},
  {5,  PACKETCABLE_RJ_STRING,                  "Called_Party_Number", NULL, NULL},
  {6,  PACKETCABLE_RJ_STRING,                  "Database_ID", NULL, NULL},
  {7,  RADIUS_INTEGER2,                        "Query_Type", radius_vendor_packetcable_query_type_vals, NULL},
  /* 8 Undefined */
  {9,  PACKETCABLE_RJ_STRING,                  "Returned_Number", NULL, NULL},
  /* 10 Undefined */
  {11, PACKETCABLE_CALL_TERMINATION_CAUSE,     "Call_Termination_Cause", NULL, NULL},
  /* 12 Undefined */
  {13, PACKETCABLE_RELATED_CALL_BILLING_CORRELATION_ID,        "Related_Call_Billing_Correlation_ID", NULL, NULL},
  {14, PACKETCABLE_RJ_STRING,                  "First_Call_Calling_Party_Number", NULL, NULL},
  {15, PACKETCABLE_RJ_STRING,                  "Second_Call_Calling_Party_Number", NULL, NULL},
  {16, PACKETCABLE_RJ_STRING,                  "Charge_Number", NULL, NULL},
  {17, PACKETCABLE_RJ_STRING,                  "Forwarded_Number", NULL, NULL},
  {18, PACKETCABLE_RJ_STRING,                  "Service_Name", NULL, NULL},
  /* 19 Undefined */
  {20, PACKETCABLE_RJ_STRING,                  "Intl_Code", NULL, NULL},
  {21, PACKETCABLE_RJ_STRING,                  "Dial_Around_Code", NULL, NULL},
  {22, PACKETCABLE_RJ_STRING,                  "Location_Routing_Number", NULL, NULL},
  {23, PACKETCABLE_RJ_STRING,                  "Carrier_Identification_Code", NULL, NULL},
  {24, PACKETCABLE_TRUNK_GROUP_ID,             "Trunk_Group_ID", NULL, NULL},
  {25, PACKETCABLE_RJ_STRING,                  "Routing_Number", NULL, NULL},
  {26, RADIUS_INTEGER4,                        "MTA_UDP_Portnum", NULL, NULL},
  /* 27 Undefined */
  /* 28 Undefined */
  {29, RADIUS_INTEGER2,                        "Channel_State", radius_vendor_packetcable_channel_state_vals, NULL},
  {30, RADIUS_INTEGER4,                        "SF_ID", NULL, NULL},
  {31, PACKETCABLE_RJ_STRING,                  "Error_Description", NULL, NULL},
  {32, PACKETCABLE_QOS_DESCRIPTOR,             "QoS_Descriptor", NULL, NULL},
  {37, RADIUS_INTEGER2,                        "Direction_indicator", radius_vendor_packetcable_direction_indicator_vals, NULL},
  {38, PACKETCABLE_TIME_ADJUSTMENT,            "Time_Adjustment", NULL, NULL},
  {39, RADIUS_STRING,                          "SDP_Upstream", NULL, NULL},
  {40, RADIUS_STRING,                          "SDP_Downstream", NULL, NULL},
  {41, RADIUS_STRING,                          "User_Input", NULL, NULL},
  {42, PACKETCABLE_RJ_STRING,                  "Translation_Input", NULL, NULL},
  {43, PACKETCABLE_REDIRECTED_FROM_INFO,       "Redirected_From_Info", NULL, NULL},
  {44, PACKETCABLE_ELECTRONIC_SURVEILLANCE_INDICATION, "Electronic_Surveillance_Indication", NULL, NULL},
  {45, PACKETCABLE_RJ_STRING,                  "Redirected_From_Party_Number", NULL, NULL},
  {46, PACKETCABLE_RJ_STRING,                  "Redirected_To_Party_Number", NULL, NULL},
  {47, PACKETCABLE_ELECTRONIC_SURVEILLANCE_DF_SECURITY,        "Electronic_Surveillance_DF_Security", NULL, NULL},
  {48, RADIUS_INTEGER4,                        "CCC_ID", NULL, NULL},
  {49, RADIUS_STRING,                          "Financial Entity ID", NULL, NULL},
  {50, RADIUS_INTEGER2,                        "Flow Direction", radius_vendor_packetcable_flow_direction_vals, NULL},
  {51, RADIUS_INTEGER2,                        "Signal_Type", radius_vendor_packetcable_signal_type_vals, NULL},
  {52, RADIUS_INTEGER4,                        "Alerting_Signal", radius_vendor_packetcable_alerting_signal_vals, NULL},
  {53, RADIUS_INTEGER4,                        "Subject_Audible_Signal", radius_vendor_packetcable_subject_audible_signal_vals, NULL},
  {54, PACKETCABLE_TERMINAL_DISPLAY_INFO,      "Terminal_Display_Info", NULL, NULL},
  {55, RADIUS_STRING,                          "Switch_Hook_Flash", NULL, NULL},
  {56, RADIUS_STRING,                          "Dialed_Digits", NULL, NULL},
  {57, RADIUS_STRING,                          "Misc_Signaling_Information", NULL, NULL},

/* PacketCable MM */
  {61, RADIUS_INTEGER8,                        "AM_Opaque_Data", NULL, NULL },
  {62, RADIUS_IP_ADDRESS,                      "Subscriber_ID", NULL, NULL },
  {63, RADIUS_INTEGER8,                        "Volume_Usage_Limit", NULL, NULL },
  {64, RADIUS_INTEGER8,                        "Gate_Usage_Info", NULL, NULL },
  {65, RADIUS_INTEGER2,                        "Element_Requesting_QoS", radius_vendor_packetcable_element_requesting_qos_vals, NULL },
  {66, RADIUS_INTEGER2,                        "QoS_Release_Reason", radius_vendor_packetcable_qos_release_reason_vals, NULL },
  {67, RADIUS_INTEGER2,                        "Policy_Denied_Reason", radius_vendor_packetcable_policy_denied_reason_vals, NULL },
  {68, RADIUS_INTEGER2,                        "Policy_Deleted_Reason", radius_vendor_packetcable_policy_deleted_reason_vals, NULL },
  {69, RADIUS_INTEGER2,                        "Policy_Update_Reason", radius_vendor_packetcable_policy_update_reason_vals, NULL },
  {70, RADIUS_INTEGER2,                        "Policy_Decision_Status", radius_vendor_packetcable_policy_decision_status_vals, NULL },
  {71, RADIUS_INTEGER4,                        "Application_Manager_ID", NULL, NULL },
  {72, RADIUS_INTEGER4,                        "Time_Usage_Limit", NULL, NULL },
  {73, RADIUS_INTEGER4,                        "Gate_Time_Info", NULL, NULL },

  {80, PACKETCABLE_RJ_STRING,                  "Account_Code", NULL, NULL},
  {81, PACKETCABLE_RJ_STRING,                  "Authorization_Code", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};



/*
reference:
      'unisphere5-3.dct' file from Juniper Networks
          http://www.juniper.net/techpubs/software/erx/junose53/unisphere5-3.dct
*/

static const value_string radius_vendor_unisphere_ingress_statistics_vals[] =
{
  {0, "Disable"},
  {1, "Enable"}
};

static const value_string radius_vendor_unisphere_egress_statistics_vals[] =
{
  {0, "Disable"},
  {1, "Enable"}
};

static const value_string radius_vendor_unisphere_atm_service_category_vals[] =
{
  {1, "UBR"},
  {2, "UBRPCR"},
  {3, "nrtVBR"},
  {4, "CBR"},
  {0, "NULL"}
};

static const value_string radius_vendor_unisphere_cli_allow_all_vr_access_vals[] =
{
  {0, "Disable"},
  {1, "Enable"},
};

static const value_string radius_vendor_unisphere_sa_validate_vals[] =
{
  {0, "Disable"},
  {1, "Enable"},
};

static const value_string radius_vendor_unisphere_igmp_enable_vals[] =
{
  {0, "Disable"},
  {1, "Enable"},
};

static const value_string radius_vendor_unisphere_ppp_protocol_vals[] =
{
  {0, "none"},
  {1, "pap"},
  {2, "chap"},
  {3, "pap-chap"},
  {4, "chap-pap"}
};

static const value_string radius_vendor_unisphere_tunnel_bearer_type_vals[] =
{
  {0, "none"},
  {1, "analog"},
  {2, "digital"},
};


static const radius_attr_info radius_vendor_unisphere_attrib[] =
{
  {1, RADIUS_STRING,          "ERX Virtual Router Name", NULL, NULL},
  {2, RADIUS_STRING,          "ERX Address Pool Name", NULL, NULL},
  {3, RADIUS_STRING,          "ERX Local Loopback Interface", NULL, NULL},
  {4, RADIUS_IP_ADDRESS,      "ERX Primary Dns", NULL, NULL},
  {5, RADIUS_IP_ADDRESS,      "ERX Primary Wins", NULL, NULL},
  {6, RADIUS_IP_ADDRESS,      "ERX Secondary Dns", NULL, NULL},
  {7, RADIUS_IP_ADDRESS,      "ERX Secondary Wins", NULL, NULL},
  {8, RADIUS_STRING,          "ERX Tunnel Virtual Router", NULL, NULL},
  {9, RADIUS_STRING,          "ERX Tunnel Password", NULL, NULL},
  {10,      RADIUS_STRING,          "ERX Ingress Policy Name", NULL, NULL},
  {11,      RADIUS_STRING,          "ERX Egress Policy Name", NULL, NULL},
  {12,      RADIUS_STRING,          "ERX Ingress Statistics", radius_vendor_unisphere_ingress_statistics_vals, NULL},
  {13,      RADIUS_STRING,          "ERX Egress Statistics", radius_vendor_unisphere_egress_statistics_vals, NULL},
  {14,      RADIUS_STRING,          "ERX Atm Service Category", radius_vendor_unisphere_atm_service_category_vals, NULL},
  {15,      RADIUS_STRING,          "ERX Atm PCR", NULL, NULL},
  {16,      RADIUS_STRING,          "ERX Atm SCR", NULL, NULL},
  {17,      RADIUS_STRING,          "ERX Atm MBS", NULL, NULL},
  {18,      RADIUS_STRING,          "ERX Cli Initial Access Level", NULL, NULL},
  {19,      RADIUS_INTEGER4,  "ERX Cli Allow All VR Access", radius_vendor_unisphere_cli_allow_all_vr_access_vals, NULL},
  {20,      RADIUS_STRING,          "ERX Alternate Cli Access Level", NULL, NULL},
  {21,      RADIUS_STRING,          "ERX Alternate Cli Vrouter Name", NULL, NULL},
  {22,      RADIUS_INTEGER4,  "ERX Sa Validate", radius_vendor_unisphere_sa_validate_vals, NULL},
  {23,      RADIUS_INTEGER4,  "ERX Igmp Enable", radius_vendor_unisphere_igmp_enable_vals, NULL},
  {24,      RADIUS_STRING,          "ERX PPPoE Description", NULL, NULL},
  {25,      RADIUS_STRING,          "ERX Redirect Virtual Router Name", NULL, NULL},
  {26,      RADIUS_STRING,          "ERX Qos Profile Name", NULL, NULL},
  /* 27 Unused */
  {28,      RADIUS_STRING,          "ERX PPPoE URL", NULL, NULL},
  /* 29,30 Unused */
  {31,      RADIUS_STRING,          "ERX Service Bundle", NULL, NULL},
  /* 32 Unused */
  {33,      RADIUS_INTEGER4,  "ERX Tunnel Max Sessions", NULL, NULL},
  {34,      RADIUS_INTEGER4,  "ERX Framed IP Route Tag", NULL, NULL},
  {35,      RADIUS_STRING,          "ERX Tunnel Dialout Number", NULL, NULL},
  {36,      RADIUS_STRING,          "ERX PPP Username", NULL, NULL},
  {37,      RADIUS_STRING,          "ERX PPP Password", NULL, NULL},
  {38,      RADIUS_INTEGER4,  "ERX PPP Protocol", radius_vendor_unisphere_ppp_protocol_vals, NULL},
  {39,      RADIUS_INTEGER4,  "ERX Tunnel Min Bps", NULL, NULL},
  {40,      RADIUS_INTEGER4,  "ERX Tunnel Max Bps", NULL, NULL},
  {41,      RADIUS_INTEGER4,  "ERX Tunnel Bearer Type", radius_vendor_unisphere_tunnel_bearer_type_vals, NULL},
  {42,      RADIUS_INTEGER4,  "ERX Input Gigapackets", NULL, NULL},
  {43,      RADIUS_INTEGER4,  "ERX Output Gigapackets", NULL, NULL},
  {44,      RADIUS_STRING,          "ERX Tunnel Interface Id", NULL, NULL},
  {45,      RADIUS_STRING,          "ERX IPV6 Virtual Router", NULL, NULL},
  {46,      RADIUS_STRING,          "ERX IPV6 Local Interface", NULL, NULL},
  {47,      RADIUS_IP6_ADDRESS,     "ERX IPV6 Primary Dns", NULL, NULL},
  {48,      RADIUS_IP6_ADDRESS,     "ERX IPV6 Secondary Dns", NULL, NULL},
  /* 49, 50 Unused */
  {51,      RADIUS_BINSTRING, "ERX Disconnect Cause", NULL, NULL},
  /* 52 Unused */
  {53,      RADIUS_BINSTRING, "ERX Service Description", NULL, NULL},
  /* 54 Unused */
  {55,      RADIUS_BINSTRING, "ERX DHCP Options", NULL, NULL},
  {56,      RADIUS_STRING,          "ERX DHCP Mac Address", NULL, NULL},
  {57,      RADIUS_IP_ADDRESS,      "ERX DHCP Gi Address", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      Cisco ACS 3.2 User Guide - Appendix D
      http://www.cisco.com/univercd/cc/td/doc/product/access/acs_soft/csacs4nt/acs32/user02/ad.htm#wp473531
*/

static const radius_attr_info radius_vendor_cisco_bbsm_attrib[] =
{
  {1, RADIUS_INTEGER4,  "CBBSM-Bandwidth", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

static const radius_attr_info radius_vendor_issanni_attrib[] =
{
  {1, RADIUS_STRING,          "Softflow Template", NULL, NULL},
  {2, RADIUS_STRING,          "NAT Pool", NULL, NULL},
  {3, RADIUS_STRING,          "Virtual Routing Domain", NULL, NULL},
  {4, RADIUS_STRING,          "Tunnel Name", NULL, NULL},
  {5, RADIUS_STRING,          "IP Pool Name", NULL, NULL},
  {6, RADIUS_STRING,          "PPPoE URL", NULL, NULL},
  {7, RADIUS_STRING,          "PPPoE MOTM", NULL, NULL},
  {8, RADIUS_STRING,          "PPPoE Service", NULL, NULL},
  {9, RADIUS_IP_ADDRESS,      "Primary DNS", NULL, NULL},
  {10,      RADIUS_IP_ADDRESS,      "Secondary DNS", NULL, NULL},
  {11,      RADIUS_IP_ADDRESS,      "Primary NBNS", NULL, NULL},
  {12,      RADIUS_IP_ADDRESS,      "Secondary NBNS", NULL, NULL},
  {13,      RADIUS_STRING,          "Policing Traffic Class", NULL, NULL},
  {14,      RADIUS_INTEGER4,  "Tunnel Type", NULL, NULL},
  {15,      RADIUS_INTEGER4,  "NAT Type", NULL, NULL},
  {16,      RADIUS_STRING,          "QoS Traffic Class", NULL, NULL},
  {17,      RADIUS_STRING,          "Interface Name", NULL, NULL},
  {0, 0, NULL, NULL, NULL}
};

/*
reference:
      'dictionary.quintum' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.quintum
*/
static const radius_attr_info radius_vendor_quintum_attrib[] =
{
  {1, RADIUS_STRING,          "Quintum AVPair", NULL, NULL},
  {2, RADIUS_STRING,          "Quintum NAS Port", NULL, NULL},
  {23,      RADIUS_STRING,          "Quintum h323 remote address", NULL, NULL},
  {24,      RADIUS_STRING,          "Quintum h323 conf id", NULL, NULL},
  {25,      RADIUS_STRING,          "Quintum h323 setup time", NULL, NULL},
  {26,      RADIUS_STRING,          "Quintum h323 call origin", NULL, NULL},
  {27,      RADIUS_STRING,          "Quintum h323 call type", NULL, NULL},
  {28,      RADIUS_STRING,          "Quintum h323 connect time", NULL, NULL},
  {29,      RADIUS_STRING,          "Quintum h323 disconnect time", NULL, NULL},
  {30,      RADIUS_STRING,          "Quintum h323 disconnect cause", NULL, NULL},
  {31,      RADIUS_STRING,          "Quintum h323 voice quality", NULL, NULL},
  {33,      RADIUS_STRING,          "Quintum h323 gw id", NULL, NULL},
  {35,      RADIUS_STRING,          "Quintum h323 incoming conf id", NULL, NULL},
  {101,     RADIUS_STRING,          "Quintum h323 credit amount", NULL, NULL},
  {102,     RADIUS_STRING,          "Quintum h323 credit time", NULL, NULL},
  {103,     RADIUS_STRING,          "Quintum h323 return code", NULL, NULL},
  {104,     RADIUS_STRING,          "Quintum h323 prompt id", NULL, NULL},
  {105,     RADIUS_STRING,          "Quintum h323 time and day", NULL, NULL},
  {106,     RADIUS_STRING,          "Quintum h323 redirect number", NULL, NULL},
  {107,     RADIUS_STRING,          "Quintum h323 preferred lang", NULL, NULL},
  {108,     RADIUS_STRING,          "Quintum h323 redirect ip address", NULL, NULL},
  {109,     RADIUS_STRING,          "Quintum h323 billing model", NULL, NULL},
  {110,     RADIUS_STRING,          "Quintum h323 currency type", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      http://download.colubris.com/library/product_doc/CN3500_AdminGuide.pdf
*/
static const radius_attr_info radius_vendor_colubris_attrib[] =
{
  {0, RADIUS_STRING,          "Colubris AV Pair", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

/*
reference:
      'dictionary.columbia_university' file from FreeRADIUS
            http://www.freeradius.org/radiusd/raddb/dictionary.columbia_university
*/
static const value_string radius_vendor_columbia_university_sip_method_vals[] =
{
  {0, "INVITE"},
  {1, "BYE"},
  {2, "REGISTER"},
  {3, "OTHER"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_columbia_university_attrib[] =
{
  {0, RADIUS_INTEGER4,  "SIP Method", radius_vendor_columbia_university_sip_method_vals, NULL},
  {1, RADIUS_STRING,          "SIP From", NULL, NULL},
  {2, RADIUS_STRING,          "SIP To", NULL, NULL},
  {4, RADIUS_STRING,          "SIP Translated Request URI", NULL, NULL},
  {0, 0, NULL, NULL, NULL},
};

static const value_string the3gpp_pdp_type_vals[] = {
  {0, "IP"},
  {1, "PPP"},
  {2, "IPv6"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_3gpp_attrib[] =
{
   /* According to 3GPP TS 29.061 V6.3.1 (2005-01 */
   {1,  RADIUS_STRING,              "IMSI", NULL, NULL},
   {2,  RADIUS_INTEGER4,            "Charging ID", NULL, NULL},
   {3,  RADIUS_INTEGER4,            "PDP Type", the3gpp_pdp_type_vals, NULL},
   {4,  RADIUS_IP_ADDRESS,          "Charging Gateway Address", NULL, NULL},
   {5,  THE3GPP_QOS,                "QoS Profile", NULL, NULL},
   {6,  RADIUS_IP_ADDRESS,          "SGSN Address", NULL, &hf_radius_3gpp_SgsnIpAddr},
   {7,  RADIUS_IP_ADDRESS,          "GGSN Address", NULL, &hf_radius_3gpp_GgsnIpAddr},
   {8,  RADIUS_STRING,              "IMSI MCC-MNC", NULL, NULL},
   {9,  RADIUS_STRING,              "GGSN MCC-MNC", NULL, NULL},
   {10, RADIUS_STRING,              "NSAPI", NULL, NULL},
   {11, THE3GPP_SESSION_STOP_INDICATOR, "Session Stop Indicator", NULL, NULL},
   {12, RADIUS_STRING,              "Selection Mode", NULL, NULL},
   {13, RADIUS_STRING,              "Charging Characteristics", NULL, NULL},
   {14, RADIUS_IP6_ADDRESS,         "Charging Gateway IPv6 Address", NULL, NULL},
   {15, RADIUS_IP6_ADDRESS,         "SGSN IPv6 Address", NULL, NULL},
   {16, RADIUS_IP6_ADDRESS,         "GGSN IPv6 Address", NULL, NULL},
   {17, THE3GPP_IPV6_DNS_SERVERS, "IPv6 DNS Servers", NULL, NULL},
   {18, RADIUS_STRING,              "SGSN MCC-MNC", NULL, NULL},
/* Below set to RADIUS_BINSTRING untill "proper" decoding is added */ 
   {19, RADIUS_BINSTRING,           "Teardown Indicator", NULL, NULL},
   {20, RADIUS_BINSTRING,           "IMEISV", NULL, NULL},
   {21, RADIUS_BINSTRING,           "RAT-Type", NULL, NULL},
   {22, RADIUS_BINSTRING,           "User-Location-Info", NULL, NULL},
   {23, RADIUS_BINSTRING,           "MS-TimeZone", NULL, NULL},
   {24, RADIUS_BINSTRING,           "Camel-Charging-Info", NULL, NULL},
   {25, RADIUS_BINSTRING,           "Packet-Filter", NULL, NULL},
   {26, RADIUS_BINSTRING,           "Negotiated-DSCP", NULL, NULL},
   {27, RADIUS_BINSTRING,           "MS-TimeZone", NULL, NULL},

  {0, 0, NULL, NULL, NULL},
};

static const value_string the3gpp2_security_level_vals[] = {
  {1, "IPSec for registration messages (deprecated)"},
  {2, "IPSec for tunnels (deprecated)"},
  {3, "IPSec for tunnels and registration messages"},
  {4, "No IPSec security"},
  {0, NULL}
};
static const value_string the3gpp2_diff_services_class_option_vals[] = {
  {0, "Best Effort"},
  {10,      "AF11"},
  {12,      "AF12"},
  {14,      "AF13"},
  {18,      "AF21"},
  {20,      "AF22"},
  {22,      "AF23"},
  {26,      "AF31"},
  {28,      "AF32"},
  {30,      "AF33"},
  {34,      "AF41"},
  {36,      "AF42"},
  {38,      "AF43"},
  {46,      "EF"},
  {0, NULL}
};
static const value_string the3gpp2_airlink_record_type_vals[] = {
  {1, "Connection Setup"},
  {2, "Active Start"},
  {3, "Active Stop"},
  {4, "A forward or reverse short data burst (SDB) was exchanged with the MS"},
  {0, NULL}
};
static const value_string the3gpp2_session_termination_capability_vals[] = {
  {1, "Only Dynamic Authorization Extensions to RADIUS is used"},
  {2, "Only Registration Revocation in Mobile IPv4 is used"},
  {3, "Both Dynamic Authorization Extensions to RADIUS and Registration Revocation in Mobile IPv4 are used"},
  {0, NULL}
};
static const value_string th3gpp2_always_on_vals[] = {
  {0, "Inactive"},
  {1, "Active"},
  {0, NULL}
};

/* http://www.3gpp2.org/Public_html/specs/C.R1001-C_v1.0.pdf */
static const value_string th3gpp2_service_option_vals[] = {
  {1, "Basic Variable Rate Voice Service (8 kbps)"},
  {2, "Mobile Station Loopback (8 kbps)"},
  {3, "Enhanced Variable Rate Voice Service (8 kbps)"},
  {4, "Asynchronous Data Service (9.6 kbps)"},
  {5, "Group 3 Facsimile (9.6 kbps)"},
  {6, "Short Message Services (Rate Set 1)"},
  {7, "Packet Data Service: Internet or ISO Protocol Stack(9.6 kbps)"},
  {8, "Packet Data Service: CDPD Protocol Stack(9.6 kbps)"},
  {9, "Mobile Station Loopback (13 kbps)"},
  {10,      "STU-III Transparent Service"},
  {11,      "STU-III Non-Transparent Service"},
  {12,      "Asynchronous Data Service (14.4 or 9.6 kbps)"},
  {13,      "Group 3 Facsimile (14.4 or 9.6 kbps)"},
  {14,      "Short Message Services (Rate Set 2)"},
  {15,      "Packet Data Service: Internet or ISO Protocol Stack(14.4 kbps)"},
  {16,      "Packet Data Service: CDPD Protocol Stack (14.4kbps)"},
  {17,      "High Rate Voice Service (13 kbps)"},
  {18,      "Over-the-Air Parameter Administration (Rate Set 1)"},
  {19,      "Over-the-Air Parameter Administration (Rate Set 2)"},
  {20,      "Group 3 Analog Facsimile (Rate Set 1)"},
  {21,      "Group 3 Analog Facsimile (Rate Set 2)"},
  {22,      "High Speed Packet Data Service: Internet or ISO Protocol Stack (RS1 forward, RS1 reverse)"},
  {23,      "High Speed Packet Data Service: Internet or ISO Protocol Stack (RS1 forward, RS2 reverse)"},
  {24,      "High Speed Packet Data Service: Internet or ISO Protocol Stack (RS2 forward, RS1 reverse)"},
  {25,      "High Speed Packet Data Service: Internet or ISO Protocol Stack (RS2 forward, RS2 reverse)"},
  {26,      "High Speed Packet Data Service: CDPD Protocol Stack (RS1 forward, RS1 reverse)"},
  {27,      "High Speed Packet Data Service: CDPD Protocol Stack (RS1 forward, RS2 reverse)"},
  {28,      "High Speed Packet Data Service: CDPD Protocol Stack (RS2 forward, RS1 reverse)"},
  {29,      "High Speed Packet Data Service: CDPD Protocol Stack (RS2 forward, RS2 reverse)"},
  {30,      "Supplemental Channel Loopback Test for Rate Set (Rate Set 1)"},
  {31,      "Supplemental Channel Loopback Test for Rate Set (Rate Set 2)"},
  {32,      "Test Data Service Option (TDSO)"},
  {33,      "cdma2000 High Speed Packet Data Service, Internet or ISO Protocol Stack"},
  {34,      "cdma2000 High Speed Packet Data Service, CDPD Protocol Stack"},
  {35,      "Location Services, Rate Set 1 (9.6 kbps)"},
  {36,      "Location Services, Rate Set 2 (14.4 kbps)"},
  {37,      "ISDN Interworking Service (64 kbps)"},
  {38,      "GSM Voice"},
  {39,      "GSM Circuit Data"},
  {40,      "GSM Packet Data"},
  {41,      "GSM Short Message Service"},
/* 42 - 53 None Reserved for MC-MAP standard service options */
  {54,      "GSM Short Message Service"},
  {55,      "Loopback Service Option (LSO)"},
  {56,      "Selectable Mode Vocoder"},
  {0, NULL}
};

static const radius_attr_info radius_vendor_3gpp2_attrib[] =
{
   /* According to 3GPP2 X.S0011-005-C
      * http://www.3gpp2.org/Public_html/specs/X.S0011-005-C_v1.0_110703.pdf
      * TODO Dissect the BITSTRING AVP:s further
      */
   {1,            RADIUS_INTEGER4,        "IKE Pre-shared Secret Request", NULL, NULL},
   {2,            RADIUS_INTEGER4,        "Security Level", the3gpp2_security_level_vals, NULL},
   {3,            RADIUS_BINSTRING,       "Pre-Shared Secret:", NULL, NULL},
   {4,            RADIUS_INTEGER4,        "Reverse Tunnel Specification", NULL, NULL},
   {5,            RADIUS_INTEGER4,        "Differentiated Services Class Option", the3gpp2_diff_services_class_option_vals, NULL},
   {6,            RADIUS_BINSTRING,       "Accounting Container", NULL, NULL},
   {7,            RADIUS_IP_ADDRESS,            "Home Agent", NULL, NULL},
   {8,            RADIUS_BINSTRING,       "KeyID", NULL, NULL},
   {9,            RADIUS_IP_ADDRESS,            "Serving PCF", NULL, NULL},
   {10,           RADIUS_STRING,                "BSID", NULL, NULL},
   {11,           RADIUS_INTEGER4,        "User Zone", NULL, NULL},
   {12,           RADIUS_INTEGER4,        "Forward FCH Mux Option", NULL, NULL},
   {13,           RADIUS_INTEGER4,        "Reverse FCH Mux Option", NULL, NULL},
   {14,           RADIUS_STRING,                "BSID", NULL, NULL},
   {16,           RADIUS_INTEGER4,        "Service Option", th3gpp2_service_option_vals, NULL},
   {17,           RADIUS_INTEGER4,        "Forward Traffic Type", NULL, NULL},
   {18,           RADIUS_INTEGER4,        "Reverse Traffic Type", NULL, NULL},
   {19,           RADIUS_INTEGER4,        "FCH Frame Size", NULL, NULL},
   {20,           RADIUS_INTEGER4,        "Forward FCH RC", NULL, NULL},
   {21,           RADIUS_INTEGER4,        "Reverse FCH RC", NULL, NULL},
   {31,           RADIUS_INTEGER4,        "SDB Octet Count(term)", NULL, NULL},
   {32,           RADIUS_INTEGER4,        "SDB Octet Count(orig)", NULL, NULL},
   {39,           RADIUS_INTEGER4,        "Airlink Priority", NULL, NULL},
   {40,           RADIUS_INTEGER4,        "Airlink Record", the3gpp2_airlink_record_type_vals, NULL},
   {41,           RADIUS_INTEGER4,        "R-P Connection ID", NULL, NULL},
   {42,           RADIUS_INTEGER4,        "Airlink Sequence number", NULL, NULL},
   {45,           RADIUS_INTEGER4,        "Mobile Orig./Term. Indicator", NULL, NULL},
   {49,           RADIUS_INTEGER4,        "Active Connection Time in Seconds", NULL, NULL},
   {50,           RADIUS_STRING,                "DCCH Frame Size (0/5/20 ms)", NULL, NULL},
   {54,           RADIUS_BINSTRING,       "S Key", NULL, NULL},
   {55,           RADIUS_INTEGER4,        "S Request", NULL, NULL},
   {56,           RADIUS_TIMESTAMP,       "S lifetime", NULL, NULL},
   {57,           RADIUS_INTEGER4,        "MN-HA SPI", NULL, NULL},
   {58,           RADIUS_BINSTRING,       "MN-HA shared key", NULL, NULL},
   {59,           RADIUS_BINSTRING,       "Remote IPv4 Address", NULL, NULL},
   {70,           RADIUS_BINSTRING,       "Remote IPv6 Address", NULL, NULL},
   {71,           RADIUS_BINSTRING,       "Remote Address Table Index", NULL, NULL},
   {72,           RADIUS_BINSTRING,       "Remote IPv4 Address Octet Count", NULL, NULL},
   {73,           RADIUS_BINSTRING,       "Allowed Differentiated Services Marking", NULL, NULL},
   {74,           RADIUS_BINSTRING,       "Service Option Profile", NULL, NULL},
   {75,           RADIUS_INTEGER4,        "DNS-Update-Required", NULL, NULL},
   {76,           RADIUS_INTEGER4,        "Always On", th3gpp2_always_on_vals, NULL},
   {79,           RADIUS_IP_ADDRESS,            "Foreign Agent Address", NULL, NULL},
   {81,           RADIUS_INTEGER4,        "MN-AAA Removal Indication", NULL, NULL},
   {82,           RADIUS_INTEGER4,        "RN Packet Data Inactivity Timer", NULL, NULL},
   {83,           RADIUS_INTEGER4,        "Forward PDCH RC", NULL, NULL},
   {84,           RADIUS_STRING,                "Forward DCCH Mux Option", NULL, NULL},
   {85,           RADIUS_STRING,                "Reverse DCCH Mux Option", NULL, NULL},
   {86,           RADIUS_STRING,                "Forward DCCH RC", NULL, NULL},
   {87,           RADIUS_STRING,                "Reverse DCCH RC", NULL, NULL},
   {88,           RADIUS_INTEGER4,        "Session Termination Capability (STC)", the3gpp2_session_termination_capability_vals, NULL},
   {89,           RADIUS_INTEGER4,        "Allowed Persistent TFTs", NULL, NULL},
   {90,           RADIUS_BINSTRING,       "PrePaidAccountingQuota (PPAQ)", NULL, NULL},
   {91,           RADIUS_BINSTRING,       "PrePaidAccountingCapability (PPAC)", NULL, NULL},
   {92,           RADIUS_BINSTRING,       "MIP Lifetime", NULL, NULL},
   {93,           RADIUS_INTEGER4,        "Accounting-Stop-triggered-by-Active-Stop-Indication:", NULL, NULL},
   {94,           RADIUS_BINSTRING,       "Service Reference ID", NULL, NULL},
   {95,           RADIUS_INTEGER4,        "DNS-Update-Capability", NULL, NULL},
   {96,           RADIUS_INTEGER4,        "DisconnectReason", NULL, NULL},
   {97,           RADIUS_BINSTRING,       "Remote IPv6 Address Octet Count", NULL, NULL},
   {98,           RADIUS_BINSTRING,       "PrePaidTariffSwitching (PTS)", NULL, NULL},
   {0, 0, NULL, NULL, NULL},
};

static const value_string netscreen_admin_priv_vals[] = {
      {1,  "Root Admin"},
      {2,  "All VSys Root Admin"},
      {3,  "VSys Admin"},
      {4,  "Read-Only Admin"},
      {5,  "Read-Only VSys Admin"},
      {0, NULL}
};

static const radius_attr_info radius_vendor_netscreen_attrib[] = {
      {1,         RADIUS_INTEGER4,                "Admin Privilege", netscreen_admin_priv_vals, NULL},
      {2,         RADIUS_STRING,                  "VSys Name", NULL, NULL},
      {3,         RADIUS_STRING,                  "User Group", NULL, NULL},
      {4,         RADIUS_IP_ADDRESS,              "Primary-DNS", NULL, NULL},
      {5,         RADIUS_IP_ADDRESS,              "Secondary-DNS", NULL, NULL},
      {6,         RADIUS_IP_ADDRESS,              "Primary-WINS", NULL, NULL},
      {7,         RADIUS_IP_ADDRESS,              "Secondary-WINS", NULL, NULL},
      {0, 0, NULL, NULL, NULL},
};

static const radius_attr_info radius_vendor_gemtek_systems_attrib[] =
{
   {21, RADIUS_INTEGER4,      "Acct-Session-Input-Octets", NULL, NULL},
   {22, RADIUS_INTEGER4,      "Acct-Session-Input-Gigawords", NULL, NULL},
   {23, RADIUS_INTEGER4,      "Acct-Session-Output-Octets", NULL, NULL},
   {24, RADIUS_INTEGER4,      "Acct-Session-Output-Gigawords", NULL, NULL},
   {25, RADIUS_INTEGER4,      "Acct-Session-Octets", NULL, NULL},
   {26, RADIUS_INTEGER4,      "Acct-Session-Gigawords", NULL, NULL},
   {0, 0, NULL, NULL, NULL},
};

static const radius_attr_info radius_vendor_wifi_alliance_attrib[] =
{
   {1,  RADIUS_STRING,        "Location-ID", NULL, NULL},
   {2,  RADIUS_STRING,        "Location-Name", NULL, NULL},
   {3,  RADIUS_STRING,        "Logoff-URL", NULL, NULL},
   {4,  RADIUS_STRING,        "Redirection-URL", NULL, NULL},
   {5,  RADIUS_INTEGER4,      "Bandwidth-Min-Up", NULL, NULL},
   {6,  RADIUS_INTEGER4,      "Bandwidth-Min-Down", NULL, NULL},
   {7,  RADIUS_INTEGER4,      "Bandwidth-Max-Up", NULL, NULL},
   {8,  RADIUS_INTEGER4,      "Bandwidth-Max-Down", NULL, NULL},
   {9,  RADIUS_STRING,        "Session-Terminate-Time", NULL, NULL},
   {10, RADIUS_INTEGER4,      "Session-Terminate-End-Of-Day", NULL, NULL},
   {11, RADIUS_STRING,        "Billing-Class-Of-Service", NULL, NULL},
   {0, 0, NULL, NULL, NULL},
};

static rd_vsa_table radius_vsa_table[] =
{
  {VENDOR_ACC,                radius_vendor_acc_attrib},
  {VENDOR_CISCO,        radius_vendor_cisco_attrib},
  {VENDOR_SHIVA,        radius_vendor_shiva_attrib},
  {VENDOR_CISCO_VPN5000,      radius_vendor_cisco_vpn5000_attrib},
  {VENDOR_LIVINGSTON,         radius_vendor_livingston_attrib},
  {VENDOR_MICROSOFT,          radius_vendor_microsoft_attrib},
  {VENDOR_ASCEND,       radius_vendor_ascend_attrib},
  {VENDOR_BAY,                radius_vendor_bay_attrib},
  {VENDOR_FOUNDRY,            radius_vendor_foundry_attrib},
  {VENDOR_VERSANET,           radius_vendor_versanet_attrib},
  {VENDOR_REDBACK,            radius_vendor_redback_attrib},
  {VENDOR_JUNIPER,            radius_vendor_juniper_attrib},
  {VENDOR_CISCO_VPN3000,      radius_vendor_cisco_vpn3000_attrib},
  {VENDOR_APTIS,        radius_vendor_aptis_attrib},
  {VENDOR_COSINE,       radius_vendor_cosine_attrib},
  {VENDOR_SHASTA,       radius_vendor_shasta_attrib},
  {VENDOR_NOMADIX,            radius_vendor_nomadix_attrib},
  {VENDOR_CABLELABS,          radius_vendor_cablelabs_attrib},
  {VENDOR_UNISPHERE,          radius_vendor_unisphere_attrib},
  {VENDOR_CISCO_BBSM,         radius_vendor_cisco_bbsm_attrib},
  {VENDOR_ISSANNI,            radius_vendor_issanni_attrib},
  {VENDOR_QUINTUM,            radius_vendor_quintum_attrib},
  {VENDOR_COLUBRIS,           radius_vendor_colubris_attrib},
  {VENDOR_COLUMBIA_UNIVERSITY,      radius_vendor_columbia_university_attrib},
  {VENDOR_THE3GPP,            radius_vendor_3gpp_attrib},
  {VENDOR_GEMTEK_SYSTEMS,     radius_vendor_gemtek_systems_attrib},
  {VENDOR_WIFI_ALLIANCE,      radius_vendor_wifi_alliance_attrib},
  {VENDOR_THE3GPP2,                  radius_vendor_3gpp2_attrib},
  {VENDOR_NETSCREEN,           radius_vendor_netscreen_attrib},
  {0, NULL},
};

static const radius_attr_info *get_attr_info_table(guint32 vendor)
{
    guint32 i;

    for (i = 0; radius_vsa_table[i].vendor; i++)
      if (radius_vsa_table[i].vendor == vendor)
          return(radius_vsa_table[i].attrib);

    return(NULL);
}

static const radius_attr_info *
find_radius_attr_info(guint32 attr_type, const radius_attr_info *table)
{
    guint32 i;

    for (i = 0; table[i].str; i++)
      if (table[i].attr_type == attr_type)
          return(&table[i]);

    return(NULL);
}

static void
rdconvertbufftostr(gchar *dest, tvbuff_t *tvb, int offset, int length)
{
/*converts the raw buffer into printable text */
      int i;
      int totlen=0;
      const guint8 *pd;

        g_assert(length >= 0);
        pd = tvb_get_ptr(tvb, offset, length);
        dest[0]='"';
        dest[1]=0;
        totlen=1;
        for (i=0; i < length; i++)
        {
                if( isprint((int)pd[i])) {
                        dest[totlen]=(gchar)pd[i];
                        totlen++;
                }
                else
                {
                        sprintf(&(dest[totlen]), "\\%03o", pd[i]);
                        totlen=totlen+strlen(&(dest[totlen]));
                }
        }
        dest[totlen]='"';
        dest[totlen+1]=0;
}

static void
rdconvertbufftobinstr(gchar *dest, tvbuff_t *tvb, int offset, int length)
{
/*converts the raw buffer into printable hex display */
      int i;
      int totlen=0;
      const guint8 *pd;
      static const char hex[16] = { '0', '1', '2', '3', '4', '5', '6', '7',
                              '8', '9', 'A', 'B', 'C', 'D', 'E', 'F' };

        g_assert(length >= 0);
        pd = tvb_get_ptr(tvb, offset, length);
        for (i=0; i < length; i++)
        {
            dest[totlen] = hex[pd[i] >> 4];
            totlen++;
            dest[totlen] = hex[pd[i] & 0xF];
            totlen++;
        }
        dest[totlen]='\0';
}

static void
rddecryptpass(gchar *dest,tvbuff_t *tvb,int offset,int length)
{
    md5_state_t md_ctx;
    md5_byte_t digest[16];
    int i;
    int totlen;
    const guint8 *pd;
    guchar c;

    if (shared_secret[0] == '\0' || !authenticator ) {
      rdconvertbufftobinstr(dest,tvb,offset,length);
      return;
    }

    dest[0] = '"';
    dest[1] = '\0';
    totlen = 1;

    md5_init(&md_ctx);
    md5_append(&md_ctx,shared_secret,strlen(shared_secret));
    md5_append(&md_ctx,authenticator,16);
    md5_finish(&md_ctx,digest);

    pd = tvb_get_ptr(tvb,offset,length);
    for( i = 0 ; i < 16 && i < length ; i++ ) {
      c = pd[i] ^ digest[i];
      if ( isprint(c)) {
          dest[totlen] = c;
          totlen++;
      } else {
          sprintf(&(dest[totlen]),"\\%03o",c);
          totlen += strlen(&(dest[totlen]));
      }
    }
    while(i<length) {
      if ( isprint(pd[i]) ) {
          dest[totlen] = (gchar)pd[i];
          totlen++;
      } else {
          sprintf(&(dest[totlen]), "\\%03o", pd[i]);
          totlen=totlen+strlen(&(dest[totlen]));
      }
      i++;
    }
    dest[totlen]='"';
    dest[totlen+1] = '\0';
}

static gchar *rd_match_strval(guint32 val, const value_string *vs) {
      return val_to_str(val, vs, "Undefined");
}

static void rd_add_field_to_tree(proto_tree *tree, tvbuff_t *tvb, int offset,
                                 guint length,
                                 const radius_attr_info *attr_info)
{
  if (attr_info->hf) {
    switch(attr_info->value_type)
    {
        case( RADIUS_STRING ):
        case( RADIUS_BINSTRING ):
                proto_tree_add_item(tree, *attr_info->hf, tvb, offset, length, FALSE);
                break;

        case( RADIUS_INTEGER4 ):
                if (length != 4) {
                        proto_tree_add_text(tree, tvb, offset, length,
                            "%s: Length is %u, should be 4",
                            proto_registrar_get_name(*attr_info->hf),
                            length);
                        break;
                }
                proto_tree_add_item(tree, *attr_info->hf, tvb, offset, 4, FALSE);
                break;

        case( RADIUS_INTEGER8 ):
                if (length != 8) {
                        proto_tree_add_text(tree, tvb, offset, length,
                            "%s: Length is %u, should be 8",
                            proto_registrar_get_name(*attr_info->hf),
                            length);
                        break;
                }
                proto_tree_add_item(tree, *attr_info->hf, tvb, offset, 8, FALSE);
                break;

        case( RADIUS_IP_ADDRESS ):
                if (length != 4) {
                        proto_tree_add_text(tree, tvb, offset, length,
                            "%s: Length is %u, should be 4",
                            proto_registrar_get_name(*attr_info->hf),
                            length);
                        break;
                }
                proto_tree_add_item(tree, *attr_info->hf, tvb, offset, 4, FALSE);
                break;
    }
  }
}

/* NOTE: This function's signature has been changed with the addition of the
 * tree parameter at the end.
 *
 * The function behaves EXACTLY AS BEFORE for parameters which do not
 * imply THE3GPP_QOS; I had to change the signature because the function
 * decode_qos_umts() wants to write on the protocol tree :)
 *
 * If you think it is better to DUPLICATE the code copying decode_qos_umts
 * here, and adapting it, feel free; only keep in mind that changes will have
 * to be doubled if any bug is found.
 *
 * At last, forgive me if I've messed up some indentation...
 * */
static gboolean avp_length_check(gchar *cont, const e_avphdr *avph, size_t len)
{
  if (avph->avp_length < 2 + len) {
    /*
     * This AVP is too short.  (2 is for the length and type fields.)
     */
    sprintf(cont, "Incomplete (length not >= %lu)", 2 + (unsigned long)len);
    return FALSE;
  }
  return TRUE;
}

static void rd_value_to_str(gchar *dest, rd_vsa_buffer (*vsabuffer)[VSABUFFER],
                      const e_avphdr *avph, tvbuff_t *tvb,
                      int offset, const radius_attr_info *attr_info,
                      proto_tree *tree)
{
  /* Variable to peek which will be the next print_type for VENDOR-SPECIFIC
   * RADIUS attributes
   * */
  const radius_attr_info *next_attr_info;

  /* Temporary variable to perform some trick on the cont variable; again, this
   * is needed only when THE3GPP_QOS in involved.
   * */
  gchar *tmp_punt;

  gchar *cont;
  guint32 intval, packetcable_qos_flags;
  gint32 timeval;
  const guint8 *pd;
  guint8 tag, packetcable_buf[64], bitmask;
  guint8 ipv6_prefix_length;
  guint8 ipv6_addr_temp[16];

  int vsa_length;
  int vsa_len;
  int vsa_index;
  const radius_attr_info *vsa_attr_info_table;
  const e_avphdr *vsa_avph;
  proto_item *ti;
  proto_tree *obj_tree;
  guint packetcable_qos_off = offset + 22;

  /* Default begin */
  strcpy(dest, "Value:");
  cont=&dest[strlen(dest)];
  if(attr_info == NULL) {
    strcpy(cont,"Unknown Value Type");
    return;
  }
  switch(attr_info->value_type)
  {
        case( RADIUS_STRING ):
            rdconvertbufftostr(cont,tvb,offset+2,avph->avp_length-2);
            rd_add_field_to_tree(tree, tvb, offset+2, avph->avp_length-2,
                attr_info);
                break;

        case( RADIUS_BINSTRING ):
            rdconvertbufftobinstr(cont,tvb,offset+2,avph->avp_length-2);
            rd_add_field_to_tree(tree, tvb, offset+2, avph->avp_length-2,
                attr_info);
                break;

        case( RADIUS_USERPASSWORD ):
            rddecryptpass(cont,tvb,offset+2,avph->avp_length-2);
                break;

        case( RADIUS_INTEGER2 ):
                if (!avp_length_check(cont, avph, 2))
                  return;
            intval = tvb_get_ntohs(tvb,offset+2);
            if (attr_info->vs != NULL)
                  sprintf(cont, "%s(%u)", rd_match_strval(intval, attr_info->vs), intval);
            else
                      sprintf(cont,"%u", intval);
            rd_add_field_to_tree(tree, tvb, offset+2, 2, attr_info);
                break;

        case( RADIUS_INTEGER4 ):
                if (!avp_length_check(cont, avph, 4))
                  return;
            intval = tvb_get_ntohl(tvb,offset+2);
            if (attr_info->vs != NULL)
                  sprintf(cont, "%s(%u)", rd_match_strval(intval, attr_info->vs), intval);
            else
                      sprintf(cont,"%u", intval);
            rd_add_field_to_tree(tree, tvb, offset+2, 4, attr_info);
                break;

      case( RADIUS_INTEGER8 ):
                if (!avp_length_check(cont, avph, 8))
                  return;
            sprintf(cont, "%" PRIx64, tvb_get_ntoh64(tvb, offset+2));
            rd_add_field_to_tree(tree, tvb, offset+2, 8, attr_info);
            break;

        case( RADIUS_IP_ADDRESS ):
                if (!avp_length_check(cont, avph, 4))
                  return;
                ip_to_str_buf(tvb_get_ptr(tvb,offset+2,4),cont);
            rd_add_field_to_tree(tree, tvb, offset+2, 4, attr_info);
            break;

        case( RADIUS_IP6_ADDRESS ):
                if (!avp_length_check(cont, avph, 16))
                  return;
                ip6_to_str_buf((const struct e_in6_addr *)tvb_get_ptr(tvb,offset+2,16),cont);
                break;

        case( RADIUS_IP6_PREFIX ):
                if (!avp_length_check(cont, avph, 1))
                  return;
                ipv6_prefix_length = tvb_get_guint8(tvb,offset+3);
                if (ipv6_prefix_length > 16) ipv6_prefix_length = 16;
                if (!avp_length_check(cont, avph, 1 + ipv6_prefix_length))
                  return;
                memset(ipv6_addr_temp, 0, 16);
                tvb_memcpy(tvb, ipv6_addr_temp, offset+4, ipv6_prefix_length);
                ip6_to_str_buf((const struct e_in6_addr *)ipv6_addr_temp, cont);
                break;

        case( RADIUS_IP6_INTF_ID ):
                if (!avp_length_check(cont, avph, 1))
                  return;
                ipv6_prefix_length = tvb_get_guint8(tvb,offset+1);
                if (ipv6_prefix_length > 16) ipv6_prefix_length = 16;
                if (!avp_length_check(cont, avph, 1 + ipv6_prefix_length))
                  return;
                memset(ipv6_addr_temp, 0, 16);
                tvb_memcpy(tvb, ipv6_addr_temp, offset+2, ipv6_prefix_length);
                ip6_to_str_buf((const struct e_in6_addr *)ipv6_addr_temp, cont);
                break;

        case( RADIUS_IPX_ADDRESS ):
                if (!avp_length_check(cont, avph, 4))
                  return;
                pd = tvb_get_ptr(tvb,offset+2,4);
                sprintf(cont,"%u:%u:%u:%u",pd[0],pd[1],pd[2],pd[3]);
            break;

        case( RADIUS_UNKNOWN ):
                strcpy(cont,"Unknown Value Type");
                break;

        case( RADIUS_STRING_TAGGED ):
            /* Tagged ? */
                if (!avp_length_check(cont, avph, 1))
                  return;
            tag = tvb_get_guint8(tvb,offset+2);
            if (tag > 0 && tag <= 0x1f) {
                  sprintf(dest, "Tag:%u, Value:", tag);
                  cont=&cont[strlen(cont)];
                  rdconvertbufftostr(cont,tvb,offset+3,avph->avp_length-3);
                  break;
            }
            rdconvertbufftostr(cont,tvb,offset+2,avph->avp_length-2);
                break;

      case ( RADIUS_VENDOR_SPECIFIC ):
                if (!avp_length_check(cont, avph, 4))
                  return;
            intval = tvb_get_ntohl(tvb,offset+2);
            sprintf(dest, "Vendor:%s(%u)", rd_match_strval(intval,sminmpec_values), intval);
            cont = &dest[strlen(dest)];
            vsa_length = avph->avp_length;
            vsa_len = 6;
            vsa_index = 0;
            vsa_attr_info_table = get_attr_info_table(intval);
            do
            {
                  vsa_avph = (const e_avphdr*)tvb_get_ptr(tvb, offset+vsa_len,
                        avph->avp_length-vsa_len);
                  if (vsa_attr_info_table)
                        next_attr_info = find_radius_attr_info(vsa_avph->avp_type,
                              vsa_attr_info_table);
                  else
                        next_attr_info = NULL;
                  cont = &cont[strlen(cont)+1];
                  tmp_punt = cont;
                  (*vsabuffer)[vsa_index].str = cont;
                  (*vsabuffer)[vsa_index].offset = offset+vsa_len;
                  (*vsabuffer)[vsa_index].length = vsa_avph->avp_length;
                  sprintf(cont, "t:%s(%u) l:%u, ",
                        (next_attr_info
                              ? next_attr_info->str
                              : "Unknown Type"),
                        vsa_avph->avp_type, vsa_avph->avp_length);
                  cont = &cont[strlen(cont)];
                  rd_value_to_str(cont, vsabuffer, vsa_avph, tvb,
                              offset+vsa_len, next_attr_info,
                              tree);
                  vsa_index++;
                  vsa_len += vsa_avph->avp_length;

                  if ( next_attr_info )
                  {
                        if ( next_attr_info->value_type == THE3GPP_QOS )
                        {
                              cont = tmp_punt;
                              vsa_index--;
                              (*vsabuffer)[vsa_index].str = 0;
                        }
                  }
            } while (vsa_length > vsa_len && vsa_index < VSABUFFER);
            break;

        case( RADIUS_TIMESTAMP ):
                if (!avp_length_check(cont, avph, 4))
                  return;
            timeval=tvb_get_ntohl(tvb,offset+2);
            sprintf(cont,"%d (%s)", timeval, abs_time_secs_to_str(timeval));
            break;

        case( RADIUS_INTEGER4_TAGGED ):
                if (!avp_length_check(cont, avph, 5))
                  return;
            tag = tvb_get_guint8(tvb,offset+2);
            intval = tvb_get_ntoh24(tvb,offset+3);
            /* Tagged ? */
            if (tag) {
                  if (attr_info->vs != NULL) {
                        sprintf(dest, "Tag:%u, Value:%s(%u)",
                              tag,
                              rd_match_strval(intval, attr_info->vs),
                              intval);
                  } else {
                        sprintf(dest, "Tag:%u, Value:%u",
                              tag, intval);
                  }
            } else {
                  if (attr_info->vs != NULL)
                        sprintf(cont, "%s(%u)",
                              rd_match_strval(intval, attr_info->vs),
                              intval);
                  else
                        sprintf(cont,"%u", intval);
            }
            break;

      case( COSINE_VPI_VCI ):
                if (!avp_length_check(cont, avph, 4))
                  return;
            sprintf(cont,"%u/%u",
                  tvb_get_ntohs(tvb,offset+2),
                  tvb_get_ntohs(tvb,offset+4));
            break;

      case( THE3GPP_SESSION_STOP_INDICATOR ):
            sprintf(cont,"(not parsed)");
            break;

      case( THE3GPP_IPV6_DNS_SERVERS ):
            /* XXX - this is described as a list of IPv6 addresses of
               DNS servers, so we probably need to process more than
               one IPv6 address. */
                if (!avp_length_check(cont, avph, 16))
                  return;
            ip6_to_str_buf((const struct e_in6_addr *)tvb_get_ptr(tvb,offset+2,16),cont);
            break;

      case( THE3GPP_QOS ):
            /* Find the ponter to the already-built label
             * */
            tmp_punt = dest - 2;
            while (*tmp_punt)
                  tmp_punt--;
            tmp_punt++;

            /* Call decode_qos_umts from packet-gtp package
             * */
            decode_qos_umts(tvb, offset + 1, tree, tmp_punt, 3);
            break;


      case ( PACKETCABLE_EM_HEADER ):
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            proto_tree_add_item(tree, hf_packetcable_em_header_version_id,
                        tvb, offset + 2, 2, FALSE);
            ti = proto_tree_add_text(tree, tvb, offset + 4, 24, "BCID");
            obj_tree = proto_item_add_subtree(ti, ett_radius_vendor_packetcable_bcid);
            decode_packetcable_bcid(tvb, obj_tree, offset + 4);

            proto_tree_add_item(tree, hf_packetcable_em_header_event_message_type,
                        tvb, offset + 28, 2, FALSE);
            proto_tree_add_item(tree, hf_packetcable_em_header_element_type,
                        tvb, offset + 30, 2, FALSE);
            tvb_memcpy(tvb, packetcable_buf, offset + 32, 8); packetcable_buf[8] = '\0';
            proto_tree_add_text(tree, tvb, offset + 32, 8,
                        "Element ID: %s", packetcable_buf );
            tvb_memcpy(tvb, packetcable_buf, offset + 41, 7); packetcable_buf[7] = '\0';
            proto_tree_add_text(tree, tvb, offset + 40, 8,
                        "Time Zone: DST: %c, Offset: %s", tvb_get_guint8(tvb, offset + 40),
                        packetcable_buf);
            proto_tree_add_item(tree, hf_packetcable_em_header_sequence_number,
                        tvb, offset + 48, 4, FALSE);
            tvb_memcpy(tvb, packetcable_buf, offset + 52, 18); packetcable_buf[18] = '\0';
            proto_tree_add_text(tree, tvb, offset + 52, 18,
                        "Event Time: %s", packetcable_buf);

            ti = proto_tree_add_item(tree, hf_packetcable_em_header_status,
                        tvb, offset + 70, 4, FALSE);
            obj_tree = proto_item_add_subtree(ti, ett_radius_vendor_packetcable_status);
            proto_tree_add_item(obj_tree, hf_packetcable_em_header_status_error_indicator,
                        tvb, offset + 70, 4, FALSE);
            proto_tree_add_item(obj_tree, hf_packetcable_em_header_status_event_origin,
                        tvb, offset + 70, 4, FALSE);
            proto_tree_add_item(obj_tree, hf_packetcable_em_header_status_event_message_proxied,
                        tvb, offset + 70, 4, FALSE);

            proto_tree_add_item(tree, hf_packetcable_em_header_priority,
                        tvb, offset + 74, 1, FALSE);
            proto_tree_add_item(tree, hf_packetcable_em_header_attribute_count,
                        tvb, offset + 75, 2, FALSE);
            proto_tree_add_item(tree, hf_packetcable_em_header_event_object,
                        tvb, offset + 77, 1, FALSE);
            break;
      case ( PACKETCABLE_CALL_TERMINATION_CAUSE ):
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            proto_tree_add_item(tree, hf_packetcable_call_termination_cause_source_document,
                        tvb, offset + 2, 2, FALSE);
            proto_tree_add_item(tree, hf_packetcable_call_termination_cause_code,
                        tvb, offset + 4, 4, FALSE);
            break;
      case ( PACKETCABLE_RELATED_CALL_BILLING_CORRELATION_ID ):
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            decode_packetcable_bcid(tvb, tree, offset + 2);
            break;
      case ( PACKETCABLE_TRUNK_GROUP_ID ):
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            proto_tree_add_item(tree, hf_packetcable_trunk_group_id_trunk_type,
                        tvb, offset + 2, 2, FALSE);
            proto_tree_add_item(tree, hf_packetcable_trunk_group_id_trunk_number,
                        tvb, offset + 4, 4, FALSE);
            break;
      case ( PACKETCABLE_QOS_DESCRIPTOR ):
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            packetcable_qos_flags = tvb_get_ntohl(tvb, offset + 2);
            ti = proto_tree_add_item(tree, hf_packetcable_qos_status,
                        tvb, offset + 2, 4, FALSE);
            obj_tree = proto_item_add_subtree(ti, ett_radius_vendor_packetcable_qos_status);
            proto_tree_add_item(obj_tree, hf_packetcable_qos_status_indication,
                        tvb, offset + 2, 4, FALSE);
            for (intval = 0; intval < PACKETCABLE_QOS_DESC_BITFIELDS; intval++) {
                  proto_tree_add_item(obj_tree, hf_packetcable_qos_desc_flags[intval],
                              tvb, offset + 2, 4, FALSE);
            }
            tvb_memcpy(tvb, packetcable_buf, offset + 6, 16); packetcable_buf[16] = '\0';
            proto_tree_add_text(tree, tvb, offset + 6, 16,
                        "Service Class Name: %s", packetcable_buf);
            for (intval = 0; intval < PACKETCABLE_QOS_DESC_BITFIELDS; intval++) {
                  if (packetcable_qos_flags & packetcable_qos_desc_mask[intval]) {
                        proto_tree_add_item(tree, hf_packetcable_qos_desc_fields[intval],
                                    tvb, packetcable_qos_off, 4, FALSE);
                        packetcable_qos_off += 4;
                  }
            }
            break;
      case ( PACKETCABLE_TIME_ADJUSTMENT ):
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            proto_tree_add_item(tree, hf_packetcable_time_adjustment,
                        tvb, offset + 2, 8, FALSE);
            break;
      case ( PACKETCABLE_REDIRECTED_FROM_INFO ):
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            tvb_memcpy(tvb, packetcable_buf, offset + 2, 20); packetcable_buf[20] = '\0';
            proto_tree_add_text(tree, tvb, offset + 2, 20,
                        "Last-Redirecting-Party: %s", packetcable_buf);
            tvb_memcpy(tvb, packetcable_buf, offset + 22, 20); packetcable_buf[20] = '\0';
            proto_tree_add_text(tree, tvb, offset + 22, 20,
                        "Original-Called-Party: %s", packetcable_buf);
            proto_tree_add_item(tree, hf_packetcable_redirected_from_info_number_of_redirections,
                        tvb, offset + 42, 2, FALSE);
            break;
      case ( PACKETCABLE_ELECTRONIC_SURVEILLANCE_INDICATION ):
            if (avph->avp_length == 2) {
                proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s [None]", vsabuffer[0]->str);
                vsabuffer[0]->str = NULL;
                break;
            }
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            proto_tree_add_item(tree, hf_packetcable_electronic_surveillance_indication_df_cdc_address,
                        tvb, offset + 2, 4, FALSE);
            proto_tree_add_item(tree, hf_packetcable_electronic_surveillance_indication_df_ccc_address,
                        tvb, offset + 6, 4, FALSE);
            proto_tree_add_item(tree, hf_packetcable_electronic_surveillance_indication_cdc_port,
                        tvb, offset + 10, 2, FALSE);
            proto_tree_add_item(tree, hf_packetcable_electronic_surveillance_indication_ccc_port,
                        tvb, offset + 12, 2, FALSE);
            proto_tree_add_text(tree, tvb, offset + 14, avph->avp_length,
                        "DF-DF-Key");
            break;
      case ( PACKETCABLE_ELECTRONIC_SURVEILLANCE_DF_SECURITY ):
            break;
#define PACKETCABLE_GENERAL_DISPLAY (1 << 0)
#define PACKETCABLE_CALLING_NUMBER  (1 << 1)
#define PACKETCABLE_CALLING_NAME    (1 << 2)
#define PACKETCABLE_MESSAGE_WAITING (1 << 3)
      case ( PACKETCABLE_TERMINAL_DISPLAY_INFO ):
            proto_tree_add_text(tree, tvb, offset, avph->avp_length, "%s", vsabuffer[0]->str);
            vsabuffer[0]->str = NULL;
            bitmask = tvb_get_guint8(tvb, 2);
            intval = offset + 3;
            ti = proto_tree_add_item(tree, hf_packetcable_terminal_display_info_terminal_display_status_bitmask,
                        tvb, offset + 2, 1, FALSE);
            obj_tree = proto_item_add_subtree(ti, ett_radius_vsa);
            proto_tree_add_item(obj_tree, hf_packetcable_terminal_display_info_sbm_general_display,
                        tvb, offset + 2, 1, bitmask);
            proto_tree_add_item(obj_tree, hf_packetcable_terminal_display_info_sbm_calling_number,
                        tvb, offset + 2, 1, bitmask);
            proto_tree_add_item(obj_tree, hf_packetcable_terminal_display_info_sbm_calling_name,
                        tvb, offset + 2, 1, bitmask);
            proto_tree_add_item(obj_tree, hf_packetcable_terminal_display_info_sbm_message_waiting,
                        tvb, offset + 2, 1, bitmask);
            if (bitmask & PACKETCABLE_GENERAL_DISPLAY) {
                  proto_tree_add_item(obj_tree, hf_packetcable_terminal_display_info_general_display,
                        tvb, intval, 80, FALSE);
                  intval += 80;
            }
            if (bitmask & PACKETCABLE_CALLING_NUMBER) {
                  proto_tree_add_item(obj_tree, hf_packetcable_terminal_display_info_calling_number,
                        tvb, intval, 40, FALSE);
                  intval += 40;
            }
            if (bitmask & PACKETCABLE_CALLING_NAME) {
                  proto_tree_add_item(obj_tree, hf_packetcable_terminal_display_info_calling_name,
                        tvb, intval, 40, FALSE);
                  intval += 40;
            }
            if (bitmask & PACKETCABLE_MESSAGE_WAITING) {
                  proto_tree_add_item(obj_tree, hf_packetcable_terminal_display_info_message_waiting,
                        tvb, intval, 40, FALSE);
                  intval += 40;
            }

            break;

        default:
            g_assert_not_reached();
  }
  cont=&cont[strlen(cont)];
  if (cont == dest) {
      strcpy(cont,"Unknown Value");
  }
}

static void
dissect_attribute_value_pairs(tvbuff_t *tvb, int offset,proto_tree *tree,
                           int avplength,packet_info *pinfo)
{
/* adds the attribute value pairs to the tree */
  e_avphdr avph;
  const radius_attr_info *attr_info;
  proto_item *ti = NULL;
  guint8 *reassembled_data = NULL;
  int reassembled_data_len = 0;
  int data_needed = 0;
  char *attr_info_str = "(Invalid)";

  if (avplength==0)
  {
    if (tree)
      proto_tree_add_text(tree, tvb,offset,0,"No Attribute Value Pairs Found");
    return;
  }

  /*
   * In case we throw an exception, clean up whatever stuff we've
   * allocated (if any).
   */
  CLEANUP_PUSH(g_free, reassembled_data);

  while (avplength > 0)
  {
    tvb_memcpy(tvb,(guint8 *)&avph,offset,sizeof(e_avphdr));
    attr_info = find_radius_attr_info(avph.avp_type, radius_attrib);
    if (avph.avp_length < 2) {
      /*
       * This AVP is bogus - the length includes the type and length
       * fields, so it must be >= 2.
       */
      if (tree) {
        if (attr_info) {
        attr_info_str = attr_info->str;
      }
        proto_tree_add_text(tree, tvb, offset, avph.avp_length,
                      "t:%s(%u) l:%u (length not >= 2)",
                      attr_info_str, avph.avp_type, avph.avp_length);
      }
      break;
    }

    if (tree) {
      ti = proto_tree_add_text(tree, tvb, offset, avph.avp_length,
                         "t:%s(%u) l:%u",
                         attr_info ? attr_info->str : "Unknown Type",
                         avph.avp_type, avph.avp_length);
    }

    if (avph.avp_type == RADIUS_VENDOR_SPECIFIC_CODE) {  /* Vendor-specific */
      guint16 vendor, em_type;
      guint8  type;

      vendor = tvb_get_ntohl(tvb, offset + 2);
      if (vendor == VENDOR_CABLELABS) {
        type = tvb_get_guint8(tvb, offset + 6);
        if (type == PACKETCABLE_EM_HEADER_CODE) {
          em_type = tvb_get_ntohs(tvb, offset + 34);
          if (check_col(pinfo->cinfo, COL_INFO)) {
          col_append_fstr(pinfo->cinfo,COL_INFO," pkt-EM Msg Type=%s(%u)",
            val_to_str(em_type, radius_vendor_packetcable_event_message_vals, "Unknown"),
            em_type);
        }
        }
      }
    }

    if (attr_info != NULL && attr_info->value_type == RADIUS_EAP_MESSAGE) {
      /* EAP Message */
      proto_tree *eap_tree = NULL;
      gint tvb_len;
      tvbuff_t *next_tvb;
      int data_len;
      int result;

      if (tree)
        eap_tree = proto_item_add_subtree(ti, ett_radius_eap);
      tvb_len = tvb_length_remaining(tvb, offset+2);
      data_len = avph.avp_length-2;
      if (data_len < tvb_len)
        tvb_len = data_len;
      next_tvb = tvb_new_subset(tvb, offset+2, tvb_len, data_len);

      /*
       * Set the columns non-writable, so that the packet list
       * shows this as an RADIUS packet, not as an EAP packet.
       */
      col_set_writable(pinfo->cinfo, FALSE);

      /*
       * RFC 2869 says, in section 5.13, describing the EAP-Message
       * attribute:
       *
       *    The String field contains EAP packets, as defined in [3].  If
       *    multiple EAP-Message attributes are present in a packet their
       *    values should be concatenated; this allows EAP packets longer than
       *    253 octets to be passed by RADIUS.
       *
       * Do reassembly of EAP-Message attributes.
       */

      /* Are we in the process of reassembling? */
      if (reassembled_data != NULL) {
        /* Yes - show this as an EAP fragment. */
        if (tree)
          proto_tree_add_text(eap_tree, next_tvb, 0, -1, "EAP fragment");

        /*
         * Do we have all of the data in this fragment?
         */
        if (tvb_len >= data_len) {
          /*
           * Yes - add it to the reassembled data.
           */
          tvb_memcpy(next_tvb, reassembled_data + reassembled_data_len,
                 0, data_len);
          reassembled_data_len += data_len;
          data_needed -= data_len;
          if (data_needed <= 0) {
            /*
             * We got at least as much data as we needed; we're done
             * reassembling.
             * XXX - what if we got more?
             */

            /*
             * Allocate a new tvbuff, referring to the reassembled payload.
             */
            next_tvb = tvb_new_real_data(reassembled_data, reassembled_data_len,
                               reassembled_data_len);

            /*
             * We have a tvbuff that refers to this data, so we shouldn't
             * free this data if we throw an exception; clear
             * "reassembled_data", so the cleanup handler won't free it.
             */
            reassembled_data = NULL;
            reassembled_data_len = 0;
            data_needed = 0;

            /*
             * Arrange that the allocated packet data copy be freed when the
             * tvbuff is freed.
             */
            tvb_set_free_cb(next_tvb, g_free);

            /*
             * Add the tvbuff to the list of tvbuffs to which the tvbuff we
             * were handed refers, so it'll get cleaned up when that tvbuff
             * is cleaned up.
             */
            tvb_set_child_real_data_tvbuff(tvb, next_tvb);

            /* Add the defragmented data to the data source list. */
            add_new_data_source(pinfo, next_tvb, "Reassembled EAP");

            /* Now dissect it. */
          call_dissector(eap_fragment_handle, next_tvb, pinfo, eap_tree);
        }
      }
      } else {
        /*
         * No - hand it to the dissector.
         */
        result = call_dissector(eap_fragment_handle, next_tvb, pinfo, eap_tree);
        if (result < 0) {
          /* This is only part of the full EAP packet; start reassembly. */
          proto_tree_add_text(eap_tree, next_tvb, 0, -1, "EAP fragment");
          reassembled_data_len = data_len;
          data_needed = -result;
          reassembled_data = g_malloc(reassembled_data_len + data_needed);
          tvb_memcpy(next_tvb, reassembled_data, 0, reassembled_data_len);
        }
      }
    } else {
      if (tree) {
        proto_tree *vsa_tree = NULL;
        int i;
        gchar textbuffer[TEXTBUFFER];
        rd_vsa_buffer vsabuffer[VSABUFFER];

        /* We pre-add a text and a subtree to allow 3GPP QoS decoding
         * to access the protocol tree.
         * */
        vsa_tree = proto_item_add_subtree(ti, ett_radius_vsa);
        for (i = 0; i < VSABUFFER; i++)
          vsabuffer[i].str = NULL;
        rd_value_to_str(textbuffer, &vsabuffer, &avph, tvb, offset,
                  attr_info, vsa_tree);
        proto_item_append_text(ti, ", %s", textbuffer);
      for (i = 0; vsabuffer[i].str && i < VSABUFFER; i++) {
          proto_tree_add_text(vsa_tree, tvb, vsabuffer[i].offset,
                        vsabuffer[i].length, "%s", vsabuffer[i].str);
      }
      }
    }

    offset = offset+avph.avp_length;
    avplength = avplength-avph.avp_length;
  }

  /*
   * Call the cleanup handler to free any reassembled data we haven't
   * attached to a tvbuff, and pop the handler.
   */
  CLEANUP_CALL_AND_POP;
}

/* Decode a PacketCable BCID. */
/* XXX - This should probably be combinde with the equivalent COPS code */
static void decode_packetcable_bcid (tvbuff_t *tvb, proto_tree *tree, int offset)
{
      guint8 packetcable_buf[16];

      proto_tree_add_item(tree, hf_packetcable_bcid_timestamp,
                  tvb, offset, 4, FALSE);
      tvb_memcpy(tvb, packetcable_buf, offset + 4, 8); packetcable_buf[8] = '\0';
      proto_tree_add_text(tree, tvb, offset + 4, 8,
                  "Element ID: %s", packetcable_buf);
      tvb_memcpy(tvb, packetcable_buf, offset + 13, 7); packetcable_buf[7] = '\0';
      proto_tree_add_text(tree, tvb, offset + 12, 8,
                  "Time Zone: DST: %c, Offset: %s", tvb_get_guint8(tvb, offset + 12),
                  packetcable_buf);
      proto_tree_add_item(tree, hf_packetcable_bcid_event_counter,
                  tvb, offset + 20, 4, FALSE);
}


static void dissect_radius(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree)
{
  proto_tree *radius_tree = NULL, *avptree = NULL;
  proto_item *ti,*avptf;
  guint rhlength;
  guint rhcode;
  guint rhident;
  gint avplength,hdrlength;
  e_radiushdr rh;
  gchar *hex_authenticator;

  gchar *codestrval;

  if (check_col(pinfo->cinfo, COL_PROTOCOL))
        col_set_str(pinfo->cinfo, COL_PROTOCOL, "RADIUS");
  if (check_col(pinfo->cinfo, COL_INFO))
        col_clear(pinfo->cinfo, COL_INFO);

  tvb_memcpy(tvb,(guint8 *)&rh,0,sizeof(e_radiushdr));

  rhcode = rh.rh_code;
  rhident = rh.rh_ident;
  rhlength = g_ntohs(rh.rh_pktlength);
  hdrlength = RD_HDR_LENGTH + AUTHENTICATOR_LENGTH;
  avplength = rhlength - hdrlength;
  codestrval =  match_strval(rhcode,radius_vals);
  if (codestrval==NULL)
  {
      codestrval="Unknown Packet";
  }
  /* XXX Check for valid length value:
   * Length
   *
   *  The Length field is two octets.  It indicates the length of the
   *  packet including the Code, Identifier, Length, Authenticator and
   *  Attribute fields.  Octets outside the range of the Length field
   *  MUST be treated as padding and ignored on reception.  If the
   *  packet is shorter than the Length field indicates, it MUST be
   *  silently discarded.  The minimum length is 20 and maximum length
   *  is 4096.
   */

  if (check_col(pinfo->cinfo, COL_INFO))
  {
        col_add_fstr(pinfo->cinfo,COL_INFO,"%s(%d) (id=%d, l=%d)",
            codestrval, rhcode, rhident, rhlength);
  }

  if (tree)
  {
        ti = proto_tree_add_item(tree,proto_radius, tvb, 0, rhlength, FALSE);

        radius_tree = proto_item_add_subtree(ti, ett_radius);

      proto_tree_add_uint(radius_tree,hf_radius_code, tvb, 0, 1,
                rh.rh_code);
        proto_tree_add_uint_format(radius_tree,hf_radius_id, tvb, 1, 1,
                rh.rh_ident, "Packet identifier: 0x%01x (%d)",
                  rhident,rhident);

      if (avplength >= 0) {
          proto_tree_add_uint(radius_tree, hf_radius_length, tvb,
                  2, 2, rhlength);
      } else {
          proto_tree_add_text(radius_tree, tvb, 2, 2, "Bogus header length: %d",
                  rhlength);
          return;
      }
      if ( authenticator ) {
          g_free(authenticator);
      }
      authenticator = g_malloc(AUTHENTICATOR_LENGTH);
      if ( authenticator ) {
          memcpy(authenticator,tvb_get_ptr(tvb,4,AUTHENTICATOR_LENGTH),AUTHENTICATOR_LENGTH);
      }
      hex_authenticator = g_malloc(AUTHENTICATOR_LENGTH * 2 + 1);
      rdconvertbufftobinstr(hex_authenticator, tvb, 4, AUTHENTICATOR_LENGTH);
      proto_tree_add_text(radius_tree, tvb, 4,
                  AUTHENTICATOR_LENGTH,
                         "Authenticator: 0x%s", hex_authenticator);
      g_free(hex_authenticator);
  }


  if (avplength > 0) {
    /* list the attribute value pairs */

    if (tree)
    {
      avptf = proto_tree_add_text(radius_tree,
                                  tvb,hdrlength,avplength,
                                  "Attribute value pairs");
      avptree = proto_item_add_subtree(avptf, ett_radius_avp);
    }

    dissect_attribute_value_pairs(tvb, hdrlength, avptree, avplength, pinfo);
  }

}
/* registration with the filtering engine */
void
proto_register_radius(void)
{
      static hf_register_info hf[] = {
            { &hf_radius_code,
            { "Code","radius.code", FT_UINT8, BASE_DEC, VALS(radius_vals), 0x0,
                  "", HFILL }},

            { &hf_radius_id,
            { "Identifier",   "radius.id", FT_UINT8, BASE_DEC, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_length,
            { "Length","radius.length", FT_UINT16, BASE_DEC, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_userName,
            { "User-Name",    "radius.username", FT_STRING, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_serviceType,
            { "Service-Type", "radius.service_type", FT_UINT32, BASE_DEC, VALS(radius_service_type_vals), 0x0,
                  "", HFILL }},

            { &hf_radius_framedProtocol,
            { "Framed-Protocol",    "radius.framed_protocol", FT_UINT32, BASE_DEC, VALS(radius_framed_protocol_vals), 0x0,
                  "", HFILL }},

            { &hf_radius_callingStationId,
            { "Calling-Station-Id", "radius.calling", FT_STRING, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_calledStationId,
            { "Called-Station-Id",  "radius.called", FT_STRING, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_class,
            { "Class",  "radius.class", FT_BYTES, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_acctSessionId,
            { "Accounting Session Id",    "radius.acct.sessionid", FT_STRING, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_framedAddress,
            { "Framed Address",     "radius.framed_addr", FT_IPv4, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_acctStatusType,
            { "Accounting Status Type",   "radius.acct.status_type", FT_UINT32, BASE_DEC, VALS(radius_accounting_status_type_vals), 0x0,
                  "", HFILL }},

            { &hf_radius_input_packets,
            { "Input Packets",      "radius.acct.input_packets", FT_UINT32, BASE_DEC, NULL, 0x0,
                  "", HFILL }},
            
            { &hf_radius_output_packets,
            { "Output Packets",     "radius.acct.output_packets", FT_UINT32, BASE_DEC, NULL, 0x0,
                  "", HFILL }},
            
            { &hf_radius_input_octets,
            { "Input Octets", "radius.acct.input_octets", FT_UINT32, BASE_DEC, NULL, 0x0,
                  "", HFILL }},
            
            { &hf_radius_output_octets,
            { "Output Octets",      "radius.acct.output_octets", FT_UINT32, BASE_DEC, NULL, 0x0,
                  "", HFILL }},
                  
            
            { &hf_radius_nasIp,
            { "Nas IP Address",     "radius.nas_ip", FT_IPv4, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_3gpp_SgsnIpAddr,
            { "SGSN IP Address",    "radius.3gpp.sgsn_ip", FT_IPv4, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_3gpp_GgsnIpAddr,
            { "GGSN IP Address",    "radius.3gpp.ggsn_ip", FT_IPv4, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_radius_cisco_cai,
            { "Cisco-Account-Info", "radius.cisco.cai", FT_STRING, BASE_NONE, NULL, 0x0,
                  "", HFILL }},

            { &hf_packetcable_em_header_version_id,
                  { "Event Message Version ID","radius.vendor.pkt.emh.vid",
                    FT_UINT16, BASE_DEC, NULL, 0x0,
                    "PacketCable Event Message header version ID", HFILL }
            },
            { &hf_packetcable_bcid_timestamp,
                  { "Timestamp","radius.vendor.pkt.bcid.ts",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable Event Message BCID Timestamp", HFILL }
            },
            { &hf_packetcable_bcid_event_counter,
                  { "Event Counter","radius.vendor.pkt.bcid.ec",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable Event Message BCID Event Counter", HFILL }
            },
            { &hf_packetcable_em_header_event_message_type,
                  { "Event Message Type","radius.vendor.pkt.emh.emt",
                    FT_UINT16, BASE_DEC, radius_vendor_packetcable_event_message_vals, 0x0,
                    "PacketCable Event Message Type", HFILL }
            },
            { &hf_packetcable_em_header_element_type,
                  { "Element Type","radius.vendor.pkt.emh.et",
                    FT_UINT16, BASE_DEC, packetcable_em_header_element_type_vals, 0x0,
                    "PacketCable Event Message Element Type", HFILL }
            },
            { &hf_packetcable_em_header_sequence_number,
                  { "Sequence Number","radius.vendor.pkt.emh.sn",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable Event Message Sequence Number", HFILL }
            },
            { &hf_packetcable_em_header_status,
                  { "Status","radius.vendor.pkt.emh.st",
                    FT_UINT32, BASE_HEX, NULL, 0x0,
                    "PacketCable Event Message Status", HFILL }
            },
            { &hf_packetcable_em_header_status_error_indicator,
                  { "Status","radius.vendor.pkt.emh.st.ei",
                    FT_UINT32, BASE_HEX, packetcable_em_header_status_error_indicator_vals,
                    PACKETCABLE_EMHS_EI_MASK,
                    "PacketCable Event Message Status Error Indicator", HFILL }
            },
            { &hf_packetcable_em_header_status_event_origin,
                  { "Event Origin","radius.vendor.pkt.emh.st.eo",
                    FT_UINT32, BASE_HEX, packetcable_em_header_status_event_origin_vals,
                    PACKETCABLE_EMHS_EO_MASK,
                    "PacketCable Event Message Status Event Origin", HFILL }
            },
            { &hf_packetcable_em_header_status_event_message_proxied,
                  { "Event Message Proxied","radius.vendor.pkt.emh.st.emp",
                    FT_UINT32, BASE_HEX, packetcable_em_header_status_event_message_proxied_vals,
                    PACKETCABLE_EMHS_EMP_MASK,
                    "PacketCable Event Message Status Event Message Proxied", HFILL }
            },
            { &hf_packetcable_em_header_priority,
                  { "Priority","radius.vendor.pkt.emh.priority",
                    FT_UINT8, BASE_DEC, NULL, 0x0,
                    "PacketCable Event Message Priority", HFILL }
            },
            { &hf_packetcable_em_header_attribute_count,
                  { "Attribute Count","radius.vendor.pkt.emh.ac",
                    FT_UINT16, BASE_DEC, NULL, 0x0,
                    "PacketCable Event Message Attribute Count", HFILL }
            },
            { &hf_packetcable_em_header_event_object,
                  { "Event Object","radius.vendor.pkt.emh.eo",
                    FT_UINT8, BASE_DEC, NULL, 0x0,
                    "PacketCable Event Message Event Object", HFILL }
            },
            { &hf_packetcable_call_termination_cause_source_document,
                  { "Source Document","radius.vendor.pkt.ctc.sd",
                    FT_UINT16, BASE_HEX, packetcable_call_termination_cause_vals, 0x0,
                    "PacketCable Call Termination Cause Source Document", HFILL }
            },
            { &hf_packetcable_call_termination_cause_code,
                  { "Event Object","radius.vendor.pkt.ctc.cc",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable Call Termination Cause Code", HFILL }
            },
            { &hf_packetcable_trunk_group_id_trunk_type,
                  { "Trunk Type","radius.vendor.pkt.tgid.tt",
                    FT_UINT16, BASE_HEX, packetcable_trunk_type_vals, 0x0,
                    "PacketCable Trunk Group ID Trunk Type", HFILL }
            },
            { &hf_packetcable_trunk_group_id_trunk_number,
                  { "Event Object","radius.vendor.pkt.tgid.tn",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable Trunk Group ID Trunk Number", HFILL }
            },
            { &hf_packetcable_qos_status,
                  { "QoS Status","radius.vendor.pkt.qs",
                    FT_UINT32, BASE_HEX, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute QoS Status", HFILL }
            },
            { &hf_packetcable_qos_status_indication,
                  { "Status Indication","radius.vendor.pkt.qs.si",
                    FT_UINT32, BASE_DEC, packetcable_state_indication_vals, PACKETCABLE_QOS_STATE_INDICATION_MASK,
                    "PacketCable QoS Descriptor Attribute QoS State Indication", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[0],
                  { "Service Flow Scheduling Type","radius.vendor.pkt.qs.flags.sfst",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_SERVICE_FLOW_SCHEDULING_TYPE_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Service Flow Scheduling Type", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[1],
                  { "Grant Interval","radius.vendor.pkt.qs.flags.gi",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_NOMINAL_GRANT_INTERVAL_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Grant Interval", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[2],
                  { "Tolerated Grant Jitter","radius.vendor.pkt.qs.flags.tgj",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_TOLERATED_GRANT_JITTER_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Tolerated Grant Jitter", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[3],
                  { "Grants Per Interval","radius.vendor.pkt.qs.flags.gpi",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_GRANTS_PER_INTERVAL_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Grants Per Interval", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[4],
                  { "Unsolicited Grant Size","radius.vendor.pkt.qs.flags.ugs",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_UNSOLICITED_GRANT_SIZE_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Unsolicited Grant Size", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[5],
                  { "Traffic Priority","radius.vendor.pkt.qs.flags.tp",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_TRAFFIC_PRIORITY_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Traffic Priority", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[6],
                  { "Maximum Sustained Rate","radius.vendor.pkt.qs.flags.msr",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_MAXIMUM_SUSTAINED_RATE_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Maximum Sustained Rate", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[7],
                  { "Maximum Traffic Burst","radius.vendor.pkt.qs.flags.mtb",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_MAXIMUM_TRAFFIC_BURST_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Maximum Traffic Burst", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[8],
                  { "Minimum Reserved Traffic Rate","radius.vendor.pkt.qs.flags.mrtr",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_MINIMUM_RESERVED_TRAFFIC_RATE_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Minimum Reserved Traffic Rate", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[9],
                  { "Minium Packet Size","radius.vendor.pkt.qs.flags.mps",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_MINIMUM_PACKET_SIZE_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Minimum Packet Size", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[10],
                  { "Maximum Concatenated Burst","radius.vendor.pkt.qs.flags.mcb",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_MAXIMUM_CONCATENATED_BURST_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Maximum Concatenated Burst", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[11],
                  { "Status Request/Transmission Policy","radius.vendor.pkt.qs.flags.srtp",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_REQUEST_TRANSMISSION_POLICY_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Status Request/Transmission Policy", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[12],
                  { "Nominal Polling Interval","radius.vendor.pkt.qs.flags.npi",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_NOMINAL_POLLING_INTERVAL_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Nominal Polling Interval", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[13],
                  { "Tolerated Poll Jitter","radius.vendor.pkt.qs.flags.tpj",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_TOLERATED_POLL_JITTER_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Tolerated Poll Jitter", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[14],
                  { "Type of Service Override","radius.vendor.pkt.qs.flags.toso",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_IP_TYPE_OF_SERVICE_OVERRIDE_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Type of Service Override", HFILL }
            },
            { &hf_packetcable_qos_desc_flags[15],
                  { "Maximum Downstream Latency","radius.vendor.pkt.qs.flags.mdl",
                    FT_UINT32, BASE_DEC, NULL, PACKETCABLE_MAXIMUM_DOWNSTREAM_LATENCY_MASK,
                    "PacketCable QoS Descriptor Attribute Bitmask: Maximum Downstream Latency", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[0],
                  { "Service Flow Scheduling Type","radius.vendor.pkt.qs.sfst",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Service Flow Scheduling Type", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[1],
                  { "Grant Interval","radius.vendor.pkt.qs.gi",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Grant Interval", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[2],
                  { "Tolerated Grant Jitter","radius.vendor.pkt.qs.tgj",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Tolerated Grant Jitter", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[3],
                  { "Grants Per Interval","radius.vendor.pkt.qs.gpi",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Grants Per Interval", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[4],
                  { "Unsolicited Grant Size","radius.vendor.pkt.qs.ugs",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Unsolicited Grant Size", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[5],
                  { "Traffic Priority","radius.vendor.pkt.qs.tp",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Traffic Priority", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[6],
                  { "Maximum Sustained Rate","radius.vendor.pkt.qs.msr",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Maximum Sustained Rate", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[7],
                  { "Maximum Traffic Burst","radius.vendor.pkt.qs.mtb",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Maximum Traffic Burst", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[8],
                  { "Minimum Reserved Traffic Rate","radius.vendor.pkt.qs.mrtr",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Minimum Reserved Traffic Rate", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[9],
                  { "Minium Packet Size","radius.vendor.pkt.qs.mps",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Minimum Packet Size", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[10],
                  { "Maximum Concatenated Burst","radius.vendor.pkt.qs.mcb",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Maximum Concatenated Burst", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[11],
                  { "Status Request/Transmission Policy","radius.vendor.pkt.qs.srtp",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Status Request/Transmission Policy", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[12],
                  { "Nominal Polling Interval","radius.vendor.pkt.qs.npi",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Nominal Polling Interval", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[13],
                  { "Tolerated Poll Jitter","radius.vendor.pkt.qs.tpj",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Tolerated Poll Jitter", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[14],
                  { "Type of Service Override","radius.vendor.pkt.qs.toso",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Type of Service Override", HFILL }
            },
            { &hf_packetcable_qos_desc_fields[15],
                  { "Maximum Downstream Latency","radius.vendor.pkt.qs.mdl",
                    FT_UINT32, BASE_DEC, NULL, 0x0,
                    "PacketCable QoS Descriptor Attribute Maximum Downstream Latency", HFILL }
            },
            { &hf_packetcable_time_adjustment,
                  { "Time Adjustment","radius.vendor.pkt.ti",
                    FT_UINT64, BASE_DEC, NULL, 0x0,
                    "PacketCable Time Adjustment", HFILL }
            },
            { &hf_packetcable_redirected_from_info_number_of_redirections,
                  { "Number-of-Redirections","radius.vendor.pkt.rfi.nr",
                    FT_UINT16, BASE_DEC, NULL, 0x0,
                    "PacketCable Redirected-From-Info Number-of-Redirections", HFILL }
            },
            { &hf_packetcable_electronic_surveillance_indication_df_cdc_address,
                  { "DF_CDC_Address","radius.vendor.pkt.esi.dfcdca",
                    FT_IPv4, BASE_DEC, NULL, 0x0,
                    "PacketCable Electronic-Surveillance-Indication DF_CDC_Address", HFILL }
            },
            { &hf_packetcable_electronic_surveillance_indication_df_ccc_address,
                  { "DF_CDC_Address","radius.vendor.pkt.esi.dfccca",
                    FT_IPv4, BASE_DEC, NULL, 0x0,
                    "PacketCable Electronic-Surveillance-Indication DF_CCC_Address", HFILL }
            },
            { &hf_packetcable_electronic_surveillance_indication_cdc_port,
                  { "CDC-Port","radius.vendor.pkt.esi.cdcp",
                    FT_UINT16, BASE_DEC, NULL, 0x0,
                    "PacketCable Electronic-Surveillance-Indication CDC-Port", HFILL }
            },
            { &hf_packetcable_electronic_surveillance_indication_ccc_port,
                  { "CCC-Port","radius.vendor.pkt.esi.cccp",
                    FT_UINT16, BASE_DEC, NULL, 0x0,
                    "PacketCable Electronic-Surveillance-Indication CCC-Port", HFILL }
            },

            { &hf_packetcable_terminal_display_info_terminal_display_status_bitmask,
                  { "Terminal_Display_Status_Bitmask","radius.vendor.pkt.tdi.sbm",
                    FT_UINT8, BASE_HEX, NULL, 0xff,
                    "PacketCable Terminal_Display_Info Terminal_Display_Status_Bitmask", HFILL }
            },
            { &hf_packetcable_terminal_display_info_sbm_general_display,
                  { "General_Display","radius.vendor.pkt.tdi.sbm.gd",
                    FT_BOOLEAN, 8, NULL, 0x01,
                    "PacketCable Terminal_Display_Info Terminal_Display_Status_Bitmask General_Display", HFILL }
            },
            { &hf_packetcable_terminal_display_info_sbm_calling_number,
                  { "Calling_Number","radius.vendor.pkt.tdi.sbm.cnum",
                    FT_BOOLEAN, 8, NULL, 0x02,
                    "PacketCable Terminal_Display_Info Terminal_Display_Status_Bitmask Calling_Number", HFILL }
            },
            { &hf_packetcable_terminal_display_info_sbm_calling_name,
                  { "Calling_Name","radius.vendor.pkt.tdi.sbm.cname",
                    FT_BOOLEAN, 8, NULL, 0x04,
                    "PacketCable Terminal_Display_Info Terminal_Display_Status_Bitmask Calling_Name", HFILL }
            },
            { &hf_packetcable_terminal_display_info_sbm_message_waiting,
                  { "Message_Waiting","radius.vendor.pkt.tdi.sbm.mw",
                    FT_BOOLEAN, 8, NULL, 0x08,
                    "PacketCable Terminal_Display_Info Terminal_Display_Status_Bitmask Message_Waiting", HFILL }
            },
            { &hf_packetcable_terminal_display_info_general_display,
                  { "General_Display","radius.vendor.pkt.tdi.gd",
                    FT_STRING, BASE_NONE, NULL, 0,
                    "PacketCable Terminal_Display_Info General_Display", HFILL }
            },
            { &hf_packetcable_terminal_display_info_calling_number,
                  { "Calling_Number","radius.vendor.pkt.tdi.cnum",
                    FT_STRING, BASE_NONE, NULL, 0,
                    "PacketCable Terminal_Display_Info Calling_Number", HFILL }
            },
            { &hf_packetcable_terminal_display_info_calling_name,
                  { "Calling_Name","radius.vendor.pkt.tdi.cname",
                    FT_STRING, BASE_NONE, NULL, 0,
                    "PacketCable Terminal_Display_Info Calling_Name", HFILL }
            },
            { &hf_radius_reply_message,
                  { "Reply-Message","radius.reply_msg",
                    FT_STRING, BASE_NONE, NULL, 0,
                    "Radius Reply Message", HFILL }
            },
            { &hf_packetcable_terminal_display_info_message_waiting,
                  { "Message_Waiting","radius.vendor.pkt.tdi.mw",
                    FT_STRING, BASE_NONE, NULL, 0,
                    "PacketCable Terminal_Display_Info Message_Waiting", HFILL }
            },

      };
      static gint *ett[] = {
            &ett_radius,
            &ett_radius_avp,
            &ett_radius_eap,
            &ett_radius_vsa,
            &ett_radius_vendor_packetcable_bcid,
            &ett_radius_vendor_packetcable_status,
            &ett_radius_vendor_packetcable_qos_status,
      };

      module_t *radius_module;

      proto_radius = proto_register_protocol("Radius Protocol", "RADIUS",
          "radius");
      proto_register_field_array(proto_radius, hf, array_length(hf));
      proto_register_subtree_array(ett, array_length(ett));

      radius_module = prefs_register_protocol(proto_radius,NULL);
      prefs_register_string_preference(radius_module,"shared_secret","Shared Secret",
                              "Shared secret used to decode User Passwords",
                              &shared_secret);
}

void
proto_reg_handoff_radius(void)
{
      dissector_handle_t radius_handle;

      /*
       * Get a handle for the EAP fragment dissector.
       */
      eap_fragment_handle = find_dissector("eap_fragment");

      radius_handle = create_dissector_handle(dissect_radius, proto_radius);
      dissector_add("udp.port", UDP_PORT_RADIUS, radius_handle);
      dissector_add("udp.port", UDP_PORT_RADIUS_NEW, radius_handle);
      dissector_add("udp.port", UDP_PORT_RADACCT, radius_handle);
      dissector_add("udp.port", UDP_PORT_RADACCT_NEW, radius_handle);
}

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