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gerrit.opencord.org / freeDiameter-old / 13d9601bf947af3286764506368fc3d04672bfde / . / contrib / dict_dcca / dict_dcca_3gpp.c
blob: af7842653c5f7e6bdfb8b107cf028fb007578219 [file] [log] [blame]
/*
* Dictionary definitions of objects specified in DCCA (Nokia, 3GPP).
*/
#include <freeDiameter/extension.h>
/* The content of this file follows the same structure as dict_base_proto.c */
#define CHECK_dict_new( _type, _data, _parent, _ref ) \
CHECK_FCT( fd_dict_new( fd_g_config->cnf_dict, (_type), (_data), (_parent), (_ref)) );
#define CHECK_dict_search( _type, _criteria, _what, _result ) \
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, (_type), (_criteria), (_what), (_result), ENOENT) );
struct local_rules_definition {
char *avp_name;
enum rule_position position;
int min;
int max;
};
#define RULE_ORDER( _position ) ((((_position) == RULE_FIXED_HEAD) || ((_position) == RULE_FIXED_TAIL)) ? 1 : 0 )
#define PARSE_loc_rules( _rulearray, _parent) { \
int __ar; \
for (__ar=0; __ar < sizeof(_rulearray) / sizeof((_rulearray)[0]); __ar++) { \
struct dict_rule_data __data = { NULL, \
(_rulearray)[__ar].position, \
0, \
(_rulearray)[__ar].min, \
(_rulearray)[__ar].max}; \
__data.rule_order = RULE_ORDER(__data.rule_position); \
CHECK_FCT( fd_dict_search( \
fd_g_config->cnf_dict, \
DICT_AVP, \
AVP_BY_NAME, \
(_rulearray)[__ar].avp_name, \
&__data.rule_avp, 0 ) ); \
if ( !__data.rule_avp ) { \
TRACE_DEBUG(INFO, "AVP Not found: '%s'", (_rulearray)[__ar].avp_name ); \
return ENOENT; \
} \
CHECK_FCT_DO( fd_dict_new( fd_g_config->cnf_dict, DICT_RULE, &__data, _parent, NULL), \
{ \
TRACE_DEBUG(INFO, "Error on rule with AVP '%s'", \
(_rulearray)[__ar].avp_name ); \
return EINVAL; \
} ); \
} \
}
#define enumval_def_u32( _val_, _str_ ) \
{ _str_, { .u32 = _val_ }}
#define enumval_def_os( _len_, _val_, _str_ ) \
{ _str_, { .os = { .data = (unsigned char *)_val_, .len = _len_ }}}
static int dict_dcca_3gpp_entry(char * conffile)
{
TRACE_ENTRY("%p", conffile);
/* Applications section */
{
/* Create the vendors */
{
struct dict_vendor_data vendor_data = { 10415, "3GPP" };
CHECK_FCT(fd_dict_new(fd_g_config->cnf_dict, DICT_VENDOR, &vendor_data, NULL, NULL));
}
}
/* AVP section */
{
struct dict_object * Address_type;
struct dict_object * UTF8String_type;
struct dict_object * DiameterIdentity_type;
struct dict_object * DiameterURI_type;
struct dict_object * Time_type;
CHECK_dict_search( DICT_TYPE, TYPE_BY_NAME, "Address", &Address_type);
CHECK_dict_search( DICT_TYPE, TYPE_BY_NAME, "UTF8String", &UTF8String_type);
CHECK_dict_search( DICT_TYPE, TYPE_BY_NAME, "DiameterIdentity", &DiameterIdentity_type);
CHECK_dict_search( DICT_TYPE, TYPE_BY_NAME, "DiameterURI", &DiameterURI_type);
CHECK_dict_search( DICT_TYPE, TYPE_BY_NAME, "Time", &Time_type);
/* Reporting-Reason */
{
/*
Enumerated. Will be present if quota was
exhausted for one or more metering types. Only
one Reporting-Reason AVP can be present in the
Used-Service-Unit AVP. (Note that the Reporting-
Reason AVP may be present also at the MSCC
level; see below.)
The following values are supported:
QUOTA_EXHAUSTED(3); Quota for the
associated metering type has been
exhausted. With this reporting reason there is
only one metering type in this Used-Service-
Unit AVP.
OTHER_QUOTA_TYPE(5); Quota for one or
more of the other metering types has been
exhausted. With this reporting reason there
may be multiple metering types in Used-
Service-Unit AVP.
POOL_EXHAUSTED(8); Quota from the
credit pool has been exhausted. This reporting
reason is used if the quota for the associated
metering type was granted from a credit pool
by using the GSU-Pool-Reference AVP in the
CCA. With this reporting reason there is only
one metering type in the Used-Service-Unit
AVP.
*/
struct dict_object *type;
struct dict_type_data tdata = { AVP_TYPE_INTEGER32, "Enumerated(Reporting-Reason)" , NULL, NULL, NULL };
struct dict_enumval_data t_1 = { "QHT", { .i32 = 1 }};
struct dict_enumval_data t_2 = { "FINAL", { .i32 = 2 }};
struct dict_enumval_data t_3 = { "QUOTA_EXHAUSTED", { .i32 = 3 }};
struct dict_enumval_data t_4 = { "VALIDITY_TIME", { .i32 = 4 }};
struct dict_enumval_data t_5 = { "OTHER_QUOTA_TYPE", { .i32 = 5 }};
struct dict_enumval_data t_6 = { "RATING_CONDITION_CHANGE", { .i32 = 6 }};
struct dict_enumval_data t_7 = { "FORCED_REAUTHORIZATION", { .i32 = 7 }};
struct dict_enumval_data t_8 = { "POOL_EXHAUSTED", { .i32 = 8 }};
struct dict_avp_data data = {
872, /* Code */
10415, /* Vendor */
"Reporting-Reason", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_INTEGER32 /* base type of data */
};
/* Create the Enumerated type, and then the AVP */
CHECK_dict_new( DICT_TYPE, &tdata , NULL, &type);
CHECK_dict_new( DICT_ENUMVAL, &t_3 , type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_5 , type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_8 , type, NULL);
CHECK_dict_new( DICT_AVP, &data , type, NULL);
}
/* Trigger */
{
/*
Grouped. The presence of the Trigger AVP in the
CCR identifies the event(s) triggering the CCR.
*/
struct dict_avp_data data = {
1264, /* Code */
10415, /* Vendor */
"Trigger", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_GROUPED /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* Trigger-Type */
{
/*
Enumerated. One or more of these AVPs may be
present. Indicates the event that triggered the
MSCC. Supported values are:
CHANGE_IN_SGSN_IP_ADDRESS (1), a change in the SGSN address.
CHANGEINQOS_ANY (2), a change in the QoS profile
CHANGEINRAT (4), a change in radio access technology
*/
struct dict_object *type;
struct dict_type_data tdata = { AVP_TYPE_INTEGER32, "Enumerated(Trigger-Type)" , NULL, NULL, NULL };
struct dict_enumval_data t_1 = { "CHANGE_IN_SGSN_IP_ADDRESS", { .i32 = 1 }};
struct dict_enumval_data t_2 = { "CHANGEINQOS_ANY", { .i32 = 2 }};
struct dict_enumval_data t_4 = { "CHANGEINRAT", { .i32 = 4 }};
struct dict_avp_data data = {
870, /* Code */
10415, /* Vendor */
"Trigger-Type", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_INTEGER32 /* base type of data */
};
/* Create the Enumerated type, and then the AVP */
CHECK_dict_new( DICT_TYPE, &tdata , NULL, &type);
CHECK_dict_new( DICT_ENUMVAL, &t_1 , type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_2 , type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_4 , type, NULL);
CHECK_dict_new( DICT_AVP, &data , type, NULL);
}
/* Service-Information */
{
/*
Grouped. The Service-Information purpose is to
allow the transmission of additional 3GPP service
specific information elements (3GPP 32.299
Rel7).
*/
struct dict_avp_data data = {
873, /* Code */
10415, /* Vendor */
"Service-Information", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_GROUPED /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* PS-Information */
{
/*
Grouped. Its purpose is to allow the transmission
of additional PS service specific information
elements (3GPP 32.299 Rel7).
*/
struct dict_avp_data data = {
874, /* Code */
10415, /* Vendor */
"PS-Information", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_GROUPED /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* PDP-Address */
{
/*
Address. Present only in the initial CCR. Contains
the user equipment IP address. This AVP is
defined in 3GPP 32.299 Rel7.
*/
struct dict_avp_data data = {
1227, /* Code */
10415, /* Vendor */
"PDP-Address", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , Address_type, NULL);
}
/* 3GPP-IMSI */
{
/*
IMSI encoded in UTF-8 per 3GPP TS 23.003. No
padding. Maximum length of data: 15.
*/
struct dict_avp_data data = {
1, /* Code */
10415, /* Vendor */
"3GPP-IMSI", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-Charging-Id */
{
/*
Unsigned32. (3GPP TS 29.061 Rel7) . The
charging identifier for the PDP context. The Flexi
ISN generates the 3GPP charging ID for both
virtual and normal PDP contexts with one excep-
tion. If the Flexi ISN acts as a NAS server and the
charging ID selection is set to NAS Client, the
charging ID will be the NAand not the 3GPP charging ID of Flexi ISN.
Present in the initial CCR only.S client
*/
struct dict_avp_data data = {
2, /* Code */
10415, /* Vendor */
"3GPP-Charging-Id", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_UNSIGNED32 /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* 3GPP-PDP-Type */
{
/*
Enumerated. (3GPP TS 29.061 Rel7 ). Type of
PDP context, for example, IP or PPP. Present in
the initial CCR only.
0 = IPv4
1 = PPP
2 = IPv6
3 = IPv4v6
*/
struct dict_avp_data data = {
3, /* Code */
10415, /* Vendor */
"3GPP-PDP-Type", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_UNSIGNED32 /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* 3GPP-CG-Address */
{
/*
OctetString. (3GPP TS 29.061 Rel4). The address
of the charging gateway that has been marked as
the default charging gateway for the PDP context.
The address is expressed as a four-byte integer.
Present in the initial CCR only.
*/
struct dict_avp_data data = {
4, /* Code */
10415, /* Vendor */
"3GPP-CG-Address", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , Address_type, NULL);
}
/* 3GPP-GPRS-Negotiated-QoS-Profile */
{
/*
UTF8String. (3GPP TS 29.061 Rel7 ). The QoS
profile applied by the Flexi ISN. In update and ter-
mination requests, this AVP is present only when
the CCR has been triggered by a PDP context
update affecting the negotiated QoS
Each octet is described by two UTF-8-encoded
characters denoting the hexadecimal
representation.
*/
struct dict_avp_data data = {
5, /* Code */
10415, /* Vendor */
"3GPP-GPRS-Negotiated-QoS-Profile", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-SGSN-Address */
{
/*
OctetString. (3GPP TS 29.061 Rel4). The address
of the charging gateway that has been marked as
the default charging gateway for the PDP context.
The address is expressed as a four-byte integer.
Present in the initial CCR only.
*/
struct dict_avp_data data = {
6, /* Code */
10415, /* Vendor */
"3GPP-SGSN-Address", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , Address_type, NULL);
}
/* 3GPP-GGSN-Address */
{
/*
OctetString. (3GPP TS 29.061 Rel4). Usually the
IP address of Flexi ISN. The only exception is
when the Flexi ISN acts as a NAS server and the
charging ID selection is set to NAS Client; then the
GGSN IP address will be the NAIP address. Present in the initial CCR only.S client
*/
struct dict_avp_data data = {
7, /* Code */
10415, /* Vendor */
"3GPP-GGSN-Address", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , Address_type, NULL);
}
/* 3GPP-IMSI-MCC-MNC */
{
/*
UTF8String. MCC and MNC extracted from the
user's IMSI (first 5 or 6 digits, as applicable from
the presented IMSI). The MCC-MNCs are
extracted from the tables configured in FlexiISN
configuration under the General and Roaming
configurations.
*/
struct dict_avp_data data = {
8, /* Code */
10415, /* Vendor */
"3GPP-IMSI-MCC-MNC", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-GGSN-MCC-MNC */
{
/*
UTF8String. (3GPP TS 29.061 Rel7 ). Contains
the mobile country and network code of the PLMN
that the Flexi ISN belongs to. Present in the initial
CCR only. The first entry in the list of local PLMNs
in the Flexi ISN configuration determines the value
of this AVP.
*/
struct dict_avp_data data = {
9, /* Code */
10415, /* Vendor */
"3GPP-GGSN-MCC-MNC", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-NSAPI */
{
/*
UTF8String. (3GPP TS 29.061 Rel7 ). Indicates
the NSAPI of the PDP context. Contains one octet
consisting of a single digit. Present in the initial
CCR only.
*/
struct dict_avp_data data = {
10, /* Code */
10415, /* Vendor */
"3GPP-NSAPI", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-Session-Stop-Indicator */
{
/*
OctetString. (3GPP TS 29.061 Rel4). The
presence of this AVP indicates that the last
context of the PDP session has been deleted. May
be present in the termination CCR only. Contains
one octet that has a value of 0xff.
*/
struct dict_avp_data data = {
11, /* Code */
10415, /* Vendor */
"3GPP-Session-Stop-Indicator", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* 3GPP-Selection-Mode */
{
/*
UTF8String. (3GPP TS 29.061 Rel7 ). Consists of
one octet containing the selection mode as
received from SGSN in the Create PDP Context
Request. Present in the initial CCR only.
*/
struct dict_avp_data data = {
12, /* Code */
10415, /* Vendor */
"3GPP-Selection-Mode", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-Charging-Characteristics */
{
/*
UTF8String. (3GPP TS 29.061 Rel7 ). The
charging characteristics for the PDP context.
Present in the initial CCR only. Consists of four
octets. Each octet contains a single UTF-8
encoded digit. The content of the charging charac-
teristics is described in 3GPP TS 32.215.
*/
struct dict_avp_data data = {
13, /* Code */
10415, /* Vendor */
"3GPP-Charging-Characteristics", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-CG-IPv6-Address */
{
/*
UTF8String.. (3GPP TS 29.061 Rel? (<=10) ). The
IPv6 address of the charging gateway.
*/
struct dict_avp_data data = {
14, /* Code */
10415, /* Vendor */
"3GPP-CG-IPv6-Address", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-SGSN-IPv6-Address */
{
/*
UTF8String.. (3GPP TS 29.061 Rel? (<=10) ). The
IPv6 address of the SGSN.
*/
struct dict_avp_data data = {
15, /* Code */
10415, /* Vendor */
"3GPP-SGSN-IPv6-Address", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-GGSN-IPv6-Address */
{
/*
UTF8String.. (3GPP TS 29.061 Rel? (<=10) ). The
IPv6 address of the GGSN.
*/
struct dict_avp_data data = {
16, /* Code */
10415, /* Vendor */
"3GPP-GGSN-IPv6-Address", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-GGSN-IPv6-DNS-Servers */
{
/*
UTF8String.. (3GPP TS 29.061 Rel? (<=10) ). List
of IPv6 addresses of DNS servers for an APN in
order of preference (max. 15 servers, 16 bytes
each).
*/
struct dict_avp_data data = {
17, /* Code */
10415, /* Vendor */
"3GPP-GGSN-IPv6-DNS-Servers", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-SGSN-MCC-MNC */
{
/*
UTF8String. (3GPP TS 29.061 Rel7 ). MCC and
MNC extracted from the RAI within Create or
Update PDP Context Request. In update and ter-
mination requests, this AVP is present only when
the CCR has been triggered by a routing area
update.
*/
struct dict_avp_data data = {
18, /* Code */
10415, /* Vendor */
"3GPP-SGSN-MCC-MNC", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* Missing: 3GPP-Teardown-Indicator (19) */
/* 3GPP-IMEISV */
{
/*
IMEI(SV) encoded as sequence of UTF8 characters.
*/
struct dict_avp_data data = {
20, /* Code */
10415, /* Vendor */
"3GPP-IMEISV", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* 3GPP-RAT-Type */
{
/*
OctetString. (3GPP TS 29.061 Rel7 ) Defines the
method used to access the network. Consists of a
single octet. The following values may be sent:
UTRAN (1), GERAN (2), WLAN (3), NAS (254),
Unspecified (255).
This AVP is included in the initial CCR and in
update or termination CCRs if the value changes.
*/
struct dict_avp_data data = {
21, /* Code */
10415, /* Vendor */
"3GPP-RAT-Type", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* 3GPP-User-Location-Info */
{
/*
OctetString. (3GPP TS 29.061 Rel7 ) Contains
information about the user's current geographical
location as received from the SGSN. Present
always in initial CCR if the value is known and in
update and termination CCRs if the value
changes.
*/
struct dict_avp_data data = {
22, /* Code */
10415, /* Vendor */
"3GPP-User-Location-Info", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* 3GPP-MS-TimeZone */
{
/*
OctetString. (3GPP TS 29.061 Rel7 ) 3GPP-MS-
TimeZone is AVP is present always in the initial CCR if the
value is known and in the update and termination
CCRs if the value changes. This IE is encoded
according to 3GPP TS 29.061 Rel7
*/
struct dict_avp_data data = {
23, /* Code */
10415, /* Vendor */
"3GPP-MS-TimeZone", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* Missing: 3GPP-CAMEL-Charging-Info (24) */
/* Missing: 3GPP-Packet-Filter (25) */
/* Missing: 3GPP-Negotiated-DSCP (26) */
/* Missing: 3GPP-Allocate-IP-Type (27) */
/* PDP-Context-Type */
{
/*
Enumerated. Indicates the type of a PDP context
and is only included in CCR initial.
values are 0 for primary and 1 for secondary
(3GPP 32.299 Rel7)
*/
struct dict_object *type;
struct dict_type_data tdata = { AVP_TYPE_INTEGER32, "Enumerated(PDP-Context-Type)" , NULL, NULL, NULL };
struct dict_enumval_data t_0 = { "PRIMARY", { .i32 = 0 }};
struct dict_enumval_data t_1 = { "SECONDARY", { .i32 = 1 }};
struct dict_avp_data data = {
1247, /* Code */
10415, /* Vendor */
"PDP-Context-Type", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_INTEGER32 /* base type of data */
};
/* Create the Enumerated type, and then the AVP */
CHECK_dict_new( DICT_TYPE, &tdata , NULL, &type);
CHECK_dict_new( DICT_ENUMVAL, &t_0 , type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_1 , type, NULL);
CHECK_dict_new( DICT_AVP, &data , type, NULL);
}
/* IMS-Information */
{
/*
Grouped. Its purpose is to allow the transmission
of additional IMS service specific information ele-
ments. (3GPP 32.299 Rel7)
*/
struct dict_avp_data data = {
876, /* Code */
10415, /* Vendor */
"IMS-Information", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_GROUPED /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* IMS-Charging-Identifier */
{
/*
UTF8String. Contains the IMS charging identifier
as given to the Flexi ISN by the IMS. This AVP is
defined in 3GPP TS 32.225. This AVP is present
in IMS sessions only. Present in the initial CCR
only.
*/
struct dict_avp_data data = {
841, /* Code */
10415, /* Vendor */
"IMS-Charging-Identifier", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_OCTETSTRING /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , UTF8String_type, NULL);
}
/* Max-Requested-Bandwidth-UL */
{
/*
Unsigned32. The Max-Requested-Bandwidth-
UL/DL AVP indicates the maximum allowed bit
rate (in bits per second) for the uplink direction.
(Re-used from 3GPP 29.214)
*/
struct dict_avp_data data = {
515, /* Code */
10415, /* Vendor */
"Max-Requested-Bandwidth-UL", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_UNSIGNED32 /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* Max-Requested-Bandwidth-DL */
{
/*
Unsigned32. The Max-Requested-Bandwidth-
UL/DL AVP indicates the maximum allowed bit
rate (in bits per second) for the uplink direction.
*/
struct dict_avp_data data = {
516, /* Code */
10415, /* Vendor */
"Max-Requested-Bandwidth-DL", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flag values */
AVP_TYPE_UNSIGNED32 /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
/* QoS-Information */
{
/*
Grouped. This is the QoS that the DCCA
server requests from Flexi ISN to be applied for
this PDP context. This AVP and all AVPs con-
tained within are described in 3GPP TS 29.212
Release 7. The ARP AVP is introduced with
Release 8. The relevant types are defined on
table 5.3.1 of TS 29.212.
*/
struct dict_avp_data data = {
1016, /* Code */
10415, /* Vendor */
"QoS-Information", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR, /* Fixed flag values */
AVP_TYPE_GROUPED /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data , NULL, NULL);
}
}
TRACE_DEBUG(INFO, "Extension 'Dictionary definitions for DCCA 3GPP' initialized");
return 0;
}
EXTENSION_ENTRY("dict_dcca_3gpp", dict_dcca_3gpp_entry, "dict_dcca");