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/*
* Copyright (c) 2017 Sprint
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/****************
Generated By: fdtool enhancements to diafuzzer
License: same as freeDiameter
****************/
/*
* Dictionary definitions of objects specified in ts29368_avps (e10).
*/
#include <freeDiameter/extension.h>
#define PROTO_VER "e10"
#define GEN_DATE 1506697146.83
const char *ts29368_avps_proto_ver = PROTO_VER;
const double ts29368_avps_gen_date = GEN_DATE;
/* The content of this file follows the same structure as dict_base_proto.c */
#define CHECK_dict_new( _type, _data, _parent, _ref ) \
{ \
int _ret = fd_dict_new( fd_g_config->cnf_dict, (_type), (_data), (_parent), (_ref) ); \
if ( _ret != 0 && _ret != EEXIST ) \
return _ret; \
}
#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 {
struct dict_avp_request avp_vendor_plus_name;
enum rule_position position;
int min;
int max;
};
#define RULE_ORDER( _position ) ((((_position) == RULE_FIXED_HEAD) || ((_position) == RULE_FIXED_TAIL)) ? 1 : 0 )
/* Attention! This version of the macro uses AVP_BY_NAME_AND_VENDOR, in contrast to most other copies! */
#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_AND_VENDOR, \
&(_rulearray)[__ar].avp_vendor_plus_name, \
&__data.rule_avp, 0 ) ); \
if ( !__data.rule_avp ) { \
TRACE_DEBUG(INFO, "AVP Not found: '%s'", (_rulearray)[__ar].avp_vendor_plus_name.avp_name); \
return ENOENT; \
} \
{ \
int _ret = fd_dict_new( fd_g_config->cnf_dict, DICT_RULE, &(__data), (_parent), NULL ); \
if ( _ret != 0 && _ret != EEXIST ) { \
TRACE_DEBUG(INFO, "Error on rule with AVP '%s'", \
(_rulearray)[__ar].avp_vendor_plus_name.avp_name); \
return EINVAL; \
} \
} \
} \
}
#define CHECK_vendor_new( _data ) { \
struct dict_object * vendor_found; \
if (fd_dict_search(fd_g_config->cnf_dict,DICT_VENDOR,VENDOR_BY_ID,&_data.vendor_id,&vendor_found,ENOENT) == ENOENT) { \
CHECK_FCT(fd_dict_new(fd_g_config->cnf_dict, DICT_VENDOR, &_data, NULL, NULL)); \
} \
}
#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_ts29368_avps_load_defs(char * conffile)
{
TRACE_ENTRY("%p", conffile);
/* Application Section */
{
/* Create the vendors */ {
struct dict_vendor_data vendor_data = { 10415, "3GPP" };
CHECK_dict_new(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;
struct dict_object * IPFilterRule_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);
CHECK_dict_search( DICT_TYPE, TYPE_BY_NAME, "IPFilterRule", &IPFilterRule_type);
/* Payload */
{
struct dict_avp_data data = {
3004, /* Code */
10415, /* Vendor */
"Payload", /* 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);
};
/* Action-Type */
{
struct dict_avp_data data = {
3005, /* Code */
10415, /* Vendor */
"Action-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 */
};
struct dict_object *type;
struct dict_type_data tdata = { AVP_TYPE_INTEGER32, "3GPP/Enumerated(Action-Type)", NULL, NULL, NULL };
struct dict_enumval_data t_1 = { "Non_Priority", { .i32=0 }};
struct dict_enumval_data t_2 = { "Priority", { .i32=1 }};
struct dict_enumval_data t_3 = { "Report", { .i32=2 }};
struct dict_enumval_data t_4 = { "Recall", { .i32=3 }};
struct dict_enumval_data t_5 = { "Replace", { .i32=4 }};
struct dict_enumval_data t_6 = { "Delivery", { .i32=5 }};
/* 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_3, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_4, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_5, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_6, type, NULL);
CHECK_dict_new( DICT_AVP, &data, type, NULL);
};
/* Priority-Indication */
{
struct dict_avp_data data = {
3006, /* Code */
10415, /* Vendor */
"Priority-Indication", /* 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 */
};
struct dict_object *type;
struct dict_type_data tdata = { AVP_TYPE_INTEGER32, "3GPP/Enumerated(Priority-Indication)", NULL, NULL, NULL };
struct dict_enumval_data t_1 = { "Non-Priority", { .i32=0 }};
struct dict_enumval_data t_2 = { "Priority", { .i32=1 }};
/* 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_AVP, &data, type, NULL);
};
/* Reference-Number */
{
struct dict_avp_data data = {
3007, /* Code */
10415, /* Vendor */
"Reference-Number", /* 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);
};
/* Request-Status */
{
struct dict_avp_data data = {
3008, /* Code */
10415, /* Vendor */
"Request-Status", /* 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 */
};
struct dict_object *type;
struct dict_type_data tdata = { AVP_TYPE_INTEGER32, "3GPP/Enumerated(Request-Status)", NULL, NULL, NULL };
struct dict_enumval_data t_1 = { "SUCCESS", { .i32=0 }};
struct dict_enumval_data t_2 = { "INVPAYLOAD", { .i32=101 }};
struct dict_enumval_data t_3 = { "INVEXTID", { .i32=102 }};
struct dict_enumval_data t_4 = { "INVSCSID", { .i32=103 }};
struct dict_enumval_data t_5 = { "INVPERIOD", { .i32=104 }};
struct dict_enumval_data t_6 = { "NOTAUTHORIZED", { .i32=105 }};
struct dict_enumval_data t_7 = { "SERVICEUNAVAILABLE", { .i32=106 }};
struct dict_enumval_data t_8 = { "PERMANENTERROR", { .i32=107 }};
struct dict_enumval_data t_9 = { "QUOTAEXCEEDED", { .i32=108 }};
struct dict_enumval_data t_10 = { "RATEEXCEEDED", { .i32=109 }};
struct dict_enumval_data t_11 = { "REPLACEFAIL", { .i32=110 }};
struct dict_enumval_data t_12 = { "RECALLFAIL", { .i32=111 }};
struct dict_enumval_data t_13 = { "ORIGINALMESSAGESENT", { .i32=112 }};
struct dict_enumval_data t_14 = { "TEMPORARYERROR", { .i32=201 }};
/* 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_3, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_4, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_5, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_6, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_7, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_8, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_9, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_10, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_11, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_12, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_13, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_14, type, NULL);
CHECK_dict_new( DICT_AVP, &data, type, NULL);
};
/* Delivery-Outcome */
{
struct dict_avp_data data = {
3009, /* Code */
10415, /* Vendor */
"Delivery-Outcome", /* 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 */
};
struct dict_object *type;
struct dict_type_data tdata = { AVP_TYPE_INTEGER32, "3GPP/Enumerated(Delivery-Outcome)", NULL, NULL, NULL };
struct dict_enumval_data t_1 = { "SUCCESS", { .i32=0 }};
struct dict_enumval_data t_2 = { "EXPIRED", { .i32=1 }};
struct dict_enumval_data t_3 = { "TEMPORARYERROR", { .i32=2 }};
struct dict_enumval_data t_4 = { "UNDELIVERABLE", { .i32=3 }};
struct dict_enumval_data t_5 = { "UNCONFIRMED", { .i32=4 }};
/* 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_3, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_4, type, NULL);
CHECK_dict_new( DICT_ENUMVAL, &t_5, type, NULL);
CHECK_dict_new( DICT_AVP, &data, type, NULL);
};
/* Application-Port-Identifier */
{
struct dict_avp_data data = {
3010, /* Code */
10415, /* Vendor */
"Application-Port-Identifier", /* 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);
};
/* Old-Reference-Number */
{
struct dict_avp_data data = {
3011, /* Code */
10415, /* Vendor */
"Old-Reference-Number", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR, /* Fixed flag values */
AVP_TYPE_UNSIGNED32 /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data, NULL, NULL);
};
/* Feature-Supported-In-Final-Target */
{
struct dict_avp_data data = {
3012, /* Code */
10415, /* Vendor */
"Feature-Supported-In-Final-Target", /* Name */
AVP_FLAG_VENDOR | AVP_FLAG_MANDATORY, /* Fixed flags */
AVP_FLAG_VENDOR, /* Fixed flag values */
AVP_TYPE_UNSIGNED32 /* base type of data */
};
CHECK_dict_new( DICT_AVP, &data, NULL, NULL);
};
/* Trigger-Data */
{
/* Grouped */
struct dict_object * avp;
struct dict_avp_data data = {
3003, /* Code */
10415, /* Vendor */
"Trigger-Data", /* 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, &avp);
}
/* Device-Notification */
{
/* Grouped */
struct dict_object * avp;
struct dict_avp_data data = {
3002, /* Code */
10415, /* Vendor */
"Device-Notification", /* 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, &avp);
}
/* Device-Action */
{
/* Grouped */
struct dict_object * avp;
struct dict_avp_data data = {
3001, /* Code */
10415, /* Vendor */
"Device-Action", /* 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, &avp);
}
}
/* Commands section */
{
}
return 0;
}
static int dict_ts29368_avps_load_rules(char * conffile)
{
/* Grouped AVP section */
{
/* Trigger-Data */
{
/* Grouped */
struct dict_object * avp;
struct dict_avp_request avp_vendor_plus_name = { .avp_vendor = 10415, .avp_name = "Trigger-Data"};
CHECK_dict_search(DICT_AVP, AVP_BY_NAME_AND_VENDOR, &avp_vendor_plus_name, &avp)
struct local_rules_definition rules[] =
{
{ { .avp_vendor = 10415, .avp_name = "Payload"}, RULE_REQUIRED, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Priority-Indication"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Application-Port-Identifier"}, RULE_OPTIONAL, -1, -1 }
};
PARSE_loc_rules( rules, avp );
}
/* Device-Notification */
{
/* Grouped */
struct dict_object * avp;
struct dict_avp_request avp_vendor_plus_name = { .avp_vendor = 10415, .avp_name = "Device-Notification"};
CHECK_dict_search(DICT_AVP, AVP_BY_NAME_AND_VENDOR, &avp_vendor_plus_name, &avp)
struct local_rules_definition rules[] =
{
{ { .avp_vendor = 10415, .avp_name = "External-Identifier"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "MSISDN"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "SCS-Identity"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Reference-Number"}, RULE_REQUIRED, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Action-Type"}, RULE_REQUIRED, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Request-Status"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "MTC-Error-Diagnostic"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Delivery-Outcome"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "SM-RP-UI"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Application-Port-Identifier"}, RULE_OPTIONAL, -1, -1 }
};
PARSE_loc_rules( rules, avp );
}
/* Device-Action */
{
/* Grouped */
struct dict_object * avp;
struct dict_avp_request avp_vendor_plus_name = { .avp_vendor = 10415, .avp_name = "Device-Action"};
CHECK_dict_search(DICT_AVP, AVP_BY_NAME_AND_VENDOR, &avp_vendor_plus_name, &avp)
struct local_rules_definition rules[] =
{
{ { .avp_vendor = 10415, .avp_name = "External-Identifier"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "MSISDN"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "SCS-Identity"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Reference-Number"}, RULE_REQUIRED, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Old-Reference-Number"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Action-Type"}, RULE_REQUIRED, -1, -1 },
{ { .avp_vendor = 10415, .avp_name = "Trigger-Data"}, RULE_OPTIONAL, -1, -1 },
{ { .avp_vendor = 0, .avp_name = "Validity-Time"}, RULE_OPTIONAL, -1, -1 }
};
PARSE_loc_rules( rules, avp );
}
}
/* Commands section */
{
}
LOG_D( "Extension 'Dictionary definitions for ts29368_avps (e10)' initialized");
return 0;
}
int dict_entry(char * conffile)
{
dict_ts29368_avps_load_defs(conffile);
return dict_ts29368_avps_load_rules(conffile);
}
const char* dict_ts29368_avps_proto_ver(char * conffile) {
return ts29368_avps_proto_ver;
}
const double dict_ts29368_avps_gen_ts(char * conffile) {
return ts29368_avps_gen_date;
}
EXTENSION_ENTRY2("dict_ts29368_avps", dict_ts29368_avps_load_defs, dict_ts29368_avps_load_rules, "dict_ts29337_avps", "dict_ts29336_avps", "dict_ts29338_avps", "dict_ts29329_avps", "dict_ts29229_avps", "dict_draftload_avps", "dict_rfc4006bis_avps");