Newer
Older
#include <string>
#include <typeinfo>
#include "GeoNetworkingCodec.hh"
#include "loggers.hh"
#include "LibItsGeoNetworking_TypesAndValues.hh"
template <typename T_type> class OPTIONAL;
class TTCN_EncDec;
int GeoNetworkingCodec::encode (const LibItsGeoNetworking__TypesAndValues::GeoNetworkingPdu& msg, OCTETSTRING& data)
{
loggers::loggers::log_msg(">>> GeoNetworkingCodec::encode: ", (const Base_Type&)msg);
encode_(msg, LibItsGeoNetworking__TypesAndValues::GeoNetworkingPdu_descr_, encoding_buffer);
data = OCTETSTRING(encoding_buffer.get_len(), encoding_buffer.get_data());
// Overwrite the payload length
if (_ec.plLength_position != (unsigned int)-1) {
loggers::loggers::log("GeoNetworkingCodec::encode: length=%d - plLength_position = %d - plLength = %d", data.lengthof(), _ec.plLength_position, _ec.plLength);
unsigned char b[] = { (unsigned char)((_ec.plLength & 0x0000FF00) >> 8), (unsigned char)_ec.plLength };
OCTETSTRING rpl(sizeof(b), b);
data = replace(data, _ec.plLength_position, rpl.lengthof(), rpl);
}
int GeoNetworkingCodec::decode (const OCTETSTRING& data, LibItsGeoNetworking__TypesAndValues::GeoNetworkingPdu& msg)
{
TTCN_Buffer decoding_buffer(data);
loggers::loggers::log_to_hexa(">>> GeoNetworkingCodec::decode: decoding_buffer=", decoding_buffer);
decode_(msg, LibItsGeoNetworking__TypesAndValues::GeoNetworkingPdu_descr_, decoding_buffer);
loggers::loggers::log_msg("<<< GeoNetworkingCodec::decode: ", (const Base_Type&)msg);
return 0;
}
int GeoNetworkingCodec::decode_ (Base_Type& type, const TTCN_Typedescriptor_t& field_descriptor, TTCN_Buffer& decoding_buffer)
{
loggers::loggers::log(">>> GeoNetworkingCodec::decode_: processing %s/%s", type.get_descriptor()->name, field_descriptor.name);
if (dynamic_cast<Record_Type *>(&type) != NULL) {
Record_Type& r = (Record_Type &)type;
loggers::loggers::log("GeoNetworkingCodec::decode_: processing Record_Type %s", r.get_descriptor()->name);
for(int i = 0; i < r.get_count(); i++) {
loggers::loggers::log("GeoNetworkingCodec::decode_: processing %s/%s/%s", r.fld_name(i), r.fld_descr(i)->name, r.get_at(i)->get_descriptor()->name);
if (decode_(*((Base_Type *)(r.get_at(i))), *(r.fld_descr(i)), decoding_buffer) == -1) {
return -1;
}
} // End of 'for' statement
} else {
loggers::loggers::log("GeoNetworkingCodec::decode_ (else): processing type %s/%s - optional:%d", type.get_descriptor()->name, field_descriptor.name, type.is_optional());
if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.CommonHeader.nextHeader") == 0) {
type.decode(field_descriptor, decoding_buffer, TTCN_EncDec::CT_RAW);
// Store NextHeader field value and continue decoding
_dc.next_header = (unsigned int)dynamic_cast<const Enum_Type &>(type).as_int();
// loggers::loggers::log("GeoNetworkingCodec::decode_: Storing next_header %d for %s", _dc.next_header, field_descriptor.name);
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
} else if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.CommonHeader.headerTST") == 0) {
// Decode HeaderTST data structure
type.decode(field_descriptor, decoding_buffer, TTCN_EncDec::CT_RAW);
// Store HeaderTST field value and continue decoding
// const LibItsGeoNetworking__TypesAndValues::HeaderTST & h = dynamic_cast<const LibItsGeoNetworking__TypesAndValues::HeaderTST &>(type);
// switch (h.get_selection()) {
// case LibItsGeoNetworking__TypesAndValues::HeaderTST::ALT_anyHdr:
// _dc.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(*h.anyHdr().get_at(0)).as_int();
// _dc.header_sub_type = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(*h.anyHdr().get_at(1)));
// break;
// case LibItsGeoNetworking__TypesAndValues::HeaderTST::ALT_beaconHdr:
// _dc.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(*h.beaconHdr().get_at(0)).as_int();
// _dc.header_sub_type = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(*h.beaconHdr().get_at(1)));
// break;
// case LibItsGeoNetworking__TypesAndValues::HeaderTST::ALT_geoUnicastHdr:
// _dc.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(*h.geoUnicastHdr().get_at(0)).as_int();
// _dc.header_sub_type = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(*h.geoUnicastHdr().get_at(1)));
// break;
// case LibItsGeoNetworking__TypesAndValues::HeaderTST::ALT_geoAnycastHdr:
// _dc.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(*h.geoAnycastHdr().get_at(0)).as_int();
// _dc.header_sub_type = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(*h.geoAnycastHdr().get_at(1)));
// break;
// case LibItsGeoNetworking__TypesAndValues::HeaderTST::ALT_geoBroadcastHdr:
// _dc.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(*h.geoBroadcastHdr().get_at(0)).as_int();
// _dc.header_sub_type = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(*h.geoBroadcastHdr().get_at(1)));
// break;
// case LibItsGeoNetworking__TypesAndValues::HeaderTST::ALT_tsbHdr:
// _dc.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(*h.tsbHdr().get_at(0)).as_int();
// _dc.header_sub_type = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(*h.tsbHdr().get_at(1)));
// break;
// case LibItsGeoNetworking__TypesAndValues::HeaderTST::ALT_lsHdr:
// _dc.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(*h.lsHdr().get_at(0)).as_int();
// _dc.header_sub_type = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(*h.lsHdr().get_at(1)));
// break;
// case LibItsGeoNetworking__TypesAndValues::HeaderTST::ALT_saHdr:
// _dc.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(*h.saHdr().get_at(0)).as_int();
// _dc.header_sub_type = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(*h.saHdr().get_at(1)));
// break;
// default: TTCN_error("GeoNetworkingCodec::decode_: Invalid selection in union is_bound");
// } // End of 'switch' statement
} else if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.CommonHeader.plLength") == 0) {
type.decode(field_descriptor, decoding_buffer, TTCN_EncDec::CT_RAW);
// Store playload length and continue decoding
_dc.plLength = (unsigned int)static_cast<int>(dynamic_cast<const INTEGER &>(type));
// loggers::loggers::log("GeoNetworkingCodec::decode_: Storing position payload length: %d", _dc.plLength);
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
} else if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.GnNonSecuredPacket.extendedHeader") == 0) {
// Decode ExtendedHeader data structure
LibItsGeoNetworking__TypesAndValues::ExtendedHeader e;
e.decode(LibItsGeoNetworking__TypesAndValues::ExtendedHeader_descr_, decoding_buffer, TTCN_EncDec::CT_RAW);
if (e.is_bound()) {
// OPTIONAL<LibItsGeoNetworking__TypesAndValues::ExtendedHeader> o(e);
// loggers::loggers::log_msg("GeoNetworkingCodec::decode_: o = ", o);
dynamic_cast<OPTIONAL<LibItsGeoNetworking__TypesAndValues::ExtendedHeader> &>(type) = OPTIONAL<LibItsGeoNetworking__TypesAndValues::ExtendedHeader>(e);
loggers::loggers::log_msg("GeoNetworkingCodec::decode_: Set OPTIONAL to ", type);
} else {
loggers::loggers::log("GeoNetworkingCodec::decode_: Set OPTIONAL to omit");
dynamic_cast<OPTIONAL<LibItsGeoNetworking__TypesAndValues::ExtendedHeader> &>(type).set_to_omit();
}
} else if (std::string(type.get_descriptor()->name).compare("@LibItsGeoNetworking_TypesAndValues.GnNonSecuredPacket.payload") == 0) {
LibItsGeoNetworking__TypesAndValues::Payload p;
p.decode(LibItsGeoNetworking__TypesAndValues::Payload_descr_, decoding_buffer, TTCN_EncDec::CT_RAW);
loggers::loggers::log_msg("GeoNetworkingCodec::decode_: payload= ", p);
if (p.is_bound()) {
// OPTIONAL<LibItsGeoNetworking__TypesAndValues::ExtendedHeader> o(e);
// loggers::loggers::log_msg("GeoNetworkingCodec::decode_: o = ", o);
dynamic_cast<OPTIONAL<LibItsGeoNetworking__TypesAndValues::Payload> &>(type) = OPTIONAL<LibItsGeoNetworking__TypesAndValues::Payload>(p);
loggers::loggers::log_msg("GeoNetworkingCodec::decode_: Set OPTIONAL to ", type);
} else {
loggers::loggers::log("GeoNetworkingCodec::decode_: Set OPTIONAL to omit");
dynamic_cast<OPTIONAL<LibItsGeoNetworking__TypesAndValues::Payload> &>(type).set_to_omit();
}
} else if (std::string(type.get_descriptor()->name).compare("@LibItsGeoNetworking_TypesAndValues.decodedPayload") == 0) {
dynamic_cast<OPTIONAL<LibItsGeoNetworking__TypesAndValues::DecodedPayload> &>(type).set_to_omit();
} else if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.Payload.rawPayload") == 0) {
type.decode(field_descriptor, decoding_buffer, TTCN_EncDec::CT_RAW);
// Store it
const OCTETSTRING& s = dynamic_cast<const OCTETSTRING &>(type);
const unsigned char * p = static_cast<const unsigned char *>(s);
if ((unsigned char)s.lengthof() <= _dc.plLength) {
_dc.payload.assign(p, p + s.lengthof());
} else {
_dc.payload.assign(p, p + _dc.plLength);
}
} else {
type.decode(field_descriptor, decoding_buffer, TTCN_EncDec::CT_RAW);
}
}
loggers::loggers::log_msg("<<< GeoNetworkingCodec::decode_: ", type);
loggers::loggers::log_to_hexa("<<< GeoNetworkingCodec::decode_: decoding_buffer=", decoding_buffer);
int GeoNetworkingCodec::encode_ (const Base_Type& type, const TTCN_Typedescriptor_t& field_descriptor, TTCN_Buffer& encoding_buffer)
loggers::loggers::log(">>> GeoNetworkingCodec::encode_: processing %s/%s", type.get_descriptor()->name, field_descriptor.name);
loggers::loggers::log_msg(">>> GeoNetworkingCodec::encode_: ", type);
if (dynamic_cast<const Record_Type *>(&type) != NULL) {
const Record_Type& r = (const Record_Type &)type;
loggers::loggers::log("GeoNetworkingCodec::encode_: processing Record_Type %s", r.get_descriptor()->name);
for(int i = 0; i < r.get_count(); i++) {
loggers::loggers::log("GeoNetworkingCodec::encode_: processing %s/%s/%s - %d (1 ==> use dynamic_cast<const OPTIONAL<...>) - %d", r.fld_name(i), r.fld_descr(i)->name, r.get_at(i)->get_descriptor()->name, r.get_at(i)->is_optional(), r.get_at(i)->is_present());
if (r.get_at(i)->is_present()) {
if (encode_(*r.get_at(i), *r.fld_descr(i), encoding_buffer) == -1) {
return -1;
}
}
} // End of 'for' statement
} else if (std::string(type.get_descriptor()->name).compare("@LibItsGeoNetworking_TypesAndValues.ExtendedHeader") == 0) {
const OPTIONAL<LibItsGeoNetworking__TypesAndValues::ExtendedHeader> &v = dynamic_cast<const OPTIONAL<LibItsGeoNetworking__TypesAndValues::ExtendedHeader> &>(type);
loggers::loggers::log("GeoNetworkingCodec::encode_: ExtendedHeader present: %d", v.is_present());
if (v.is_present()) {
if (encode_extendedHeader(static_cast<const LibItsGeoNetworking__TypesAndValues::ExtendedHeader &>(*v.get_opt_value()), encoding_buffer) == -1) {
return -1;
}
}
} else if (std::string(type.get_descriptor()->name).compare("@LibItsGeoNetworking_TypesAndValues.Payload") == 0) {
const OPTIONAL<LibItsGeoNetworking__TypesAndValues::Payload> &v = dynamic_cast<const OPTIONAL<LibItsGeoNetworking__TypesAndValues::Payload> &>(type);
loggers::loggers::log("GeoNetworkingCodec::encode_: Payload present: %d", v.is_present());
if (v.is_present()) {
if (encode_(static_cast<const LibItsGeoNetworking__TypesAndValues::Payload &>(*v.get_opt_value()), LibItsGeoNetworking__TypesAndValues::Payload_descr_, encoding_buffer) == -1) {
return -1;
}
}
} else if (std::string(type.get_descriptor()->name).compare("@LibItsGeoNetworking_TypesAndValues.DecodedPayload") == 0) {
const OPTIONAL<LibItsGeoNetworking__TypesAndValues::DecodedPayload> &v = dynamic_cast<const OPTIONAL<LibItsGeoNetworking__TypesAndValues::DecodedPayload> &>(type);
loggers::loggers::log("GeoNetworkingCodec::encode_: DecodedPayload present: %d", v.is_present());
if (v.is_present()) {
if (encode_decodedPayload(static_cast<const LibItsGeoNetworking__TypesAndValues::DecodedPayload &>(*v.get_opt_value()), encoding_buffer) == -1) {
return -1;
}
loggers::loggers::log("GeoNetworkingCodec::encode_ (else): processing type %s/%s", type.get_descriptor()->name, field_descriptor.name);
if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.CommonHeader.nextHeader") == 0) {
// Store NextHeader field value and continue encoding
_ec.next_header = (unsigned int)dynamic_cast<const Enum_Type &>(type).as_int();
loggers::loggers::log("GeoNetworkingCodec::encode_: Storing next_header %d for %s", _ec.next_header, field_descriptor.name);
} else if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.CommonHeader.headerType") == 0) {
// Store HeaderType field value and continue encoding
_ec.header_type = (unsigned int)dynamic_cast<const Enum_Type &>(type).as_int();
loggers::loggers::log("GeoNetworkingCodec::encode_: Storing header_type %d for %s", _ec.header_type, field_descriptor.name);
} else if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.CommonHeader.plLength") == 0) {
// Store TTCN_Buffer position and continue encoding
_ec.plLength_position = encoding_buffer.get_len();
loggers::loggers::log("GeoNetworkingCodec::encode_: Storing position %d for %s", _ec.plLength_position, field_descriptor.name);
} else if (std::string(field_descriptor.name).compare("@LibItsGeoNetworking_TypesAndValues.Payload.rawPayload") == 0) {
// Store playload length and continue encoding
_ec.plLength = dynamic_cast<const OCTETSTRING &>(type).lengthof();
loggers::loggers::log("GeoNetworkingCodec::encode_: Storing payload length %d for %s", _ec.plLength, field_descriptor.name);
type.encode(field_descriptor, encoding_buffer, TTCN_EncDec::CT_RAW);
loggers::loggers::log_to_hexa("<<<GeoNetworkingCodec::encode_: encoding_buffer=", encoding_buffer);
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
int GeoNetworkingCodec::encode_extendedHeader(const LibItsGeoNetworking__TypesAndValues::ExtendedHeader& u, TTCN_Buffer& encoding_buffer) {
loggers::loggers::log(">>> GeoNetworkingCodec::encode_extendedHeader: processing %s", u.get_descriptor()->name);
int result = -1;
switch (u.get_selection()) {
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::UNBOUND_VALUE:
TTCN_error("GeoNetworkingCodec::encode_extendedHeader: Invalid selection in unbound union");
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_geoUnicastHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.geoUnicastHeader().get_descriptor()->name);
result = encode_(u.geoUnicastHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_geoUnicastHeader_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_tsbHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.tsbHeader().get_descriptor()->name);
result = encode_(u.tsbHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_tsbHeader_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_shbHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.shbHeader().get_descriptor()->name);
result = encode_(u.shbHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_shbHeader_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_geoBroadcastHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.geoBroadcastHeader().get_descriptor()->name);
result = encode_(u.geoBroadcastHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_geoBroadcastHeader_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_geoAnycastHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.geoAnycastHeader().get_descriptor()->name);
result = encode_(u.geoAnycastHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_geoAnycastHeader_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_beaconHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.beaconHeader().get_descriptor()->name);
result = encode_(u.beaconHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_beaconHeader_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_anyHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.anyHeader().get_descriptor()->name);
result = encode_(u.anyHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_anyHeader_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_lsRequestHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.lsRequestHeader().get_descriptor()->name);
result = encode_(u.lsRequestHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_lsRequestHeader_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::ExtendedHeader::ALT_lsReplyHeader:
loggers::loggers::log("GeoNetworkingCodec::encode_extendedHeader: processing type %s", u.lsReplyHeader().get_descriptor()->name);
result = encode_(u.lsReplyHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_lsReplyHeader_descr_, encoding_buffer);
break;
default: TTCN_error("GeoNetworkingCodec::encode_extendedHeader: Invalid selection in union is_bound");
} // End of 'switch' statement
return result;
}
int GeoNetworkingCodec::decode_extendedHeader(LibItsGeoNetworking__TypesAndValues::ExtendedHeader& u, TTCN_Buffer& decoding_buffer) {
loggers::loggers::log(">>> GeoNetworkingCodec::decode_extendedHeader: processing %s", u.get_descriptor()->name);
int result = -1;
// size_t bitpos;
// _dc.header_type = (*decoding_buffer.get_read_data(&bitpos) & (1 << LibItsGeoNetworking__TypesAndValues::HeaderType_raw_::HeaderType_raw_.fieldlength)) >> LibItsGeoNetworking__TypesAndValues::HeaderType_raw_::HeaderType_raw_.fieldlength;
// switch (_dc.header_type) {
//
//// = 0, = 1, = 2, = 3, = 4, = 5, e__locationService = 6, e__serviceAnnouncement = 7, e__reserved = 8, UNKNOWN_VALUE = 9, UNBOUND_VALUE = 10
//
// case LibItsGeoNetworking__TypesAndValues::HeaderType::e__geoUnicast:
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.geoUnicastHeader().get_descriptor()->name);
// result = decode_(u.geoUnicastHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_geoUnicastHeader_descr_, decoding_buffer);
// case LibItsGeoNetworking__TypesAndValues::HeaderType::e__topologicallyScopedBroadcast:
// _dc.header_sub_type = (*decoding_buffer.get_read_data(&bitpos) & (1 << LibItsGeoNetworking__TypesAndValues::HeaderSubTypeTSB_raw_.fieldlength)) >> LibItsGeoNetworking__TypesAndValues::HeaderSubTypeTSB_raw_.fieldlength;
// if (header_sub_type == 0) {
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.shbHeader().get_descriptor()->name);
// result = decode_(u.shbHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_shbHeader_descr_, decoding_buffer);
// } else {
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.tsbHeader().get_descriptor()->name);
// result = decode_(u.tsbHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_tsbHeader_descr_, decoding_buffer);
// }
// case LibItsGeoNetworking__TypesAndValues::HeaderType::e__geoBroadcast:
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.geoBroadcastHeader().get_descriptor()->name);
// result = decode_(u.geoBroadcastHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_geoBroadcastHeader_descr_, decoding_buffer);
// case LibItsGeoNetworking__TypesAndValues::HeaderType::e__geoAnycast:
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.geoAnycastHeader().get_descriptor()->name);
// result = decode_(u.geoAnycastHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_geoAnycastHeader_descr_, decoding_buffer);
// case LibItsGeoNetworking__TypesAndValues::HeaderType::e__beacon:
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.beaconHeader().get_descriptor()->name);
// result = decode_(u.beaconHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_beaconHeader_descr_, decoding_buffer);
// case LibItsGeoNetworking__TypesAndValues::HeaderType::e__any:
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.anyHeader().get_descriptor()->name);
// result = decode_(u.anyHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_anyHeader_descr_, decoding_buffer);
// case LibItsGeoNetworking__TypesAndValues::HeaderType::e__locationService:
// _dc.header_sub_type = (*decoding_buffer.get_read_data(&bitpos) & (1 << LibItsGeoNetworking__TypesAndValues::HeaderSubTypeLs_raw_.fieldlength)) >> LibItsGeoNetworking__TypesAndValues::HeaderSubTypeLs_raw_.fieldlength;
// if (header_sub_type == 0) {
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.lsRequestHeader().get_descriptor()->name);
// result = decode_(u.lsRequestHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_lsRequestHeader_descr_, decoding_buffer);
// } else {
// loggers::loggers::log("GeoNetworkingCodec::decode_extendedHeader: processing type %s", u.lsReplyHeader().get_descriptor()->name);
// result = decode_(u.lsReplyHeader(), LibItsGeoNetworking__TypesAndValues::ExtendedHeader_lsReplyHeader_descr_, decoding_buffer);
// }
// default: TTCN_error("GeoNetworkingCodec::decode_extendedHeader: Invalid selection in union");
// } // End of 'switch' statement
return result;
}
int GeoNetworkingCodec::encode_decodedPayload(const LibItsGeoNetworking__TypesAndValues::DecodedPayload& u, TTCN_Buffer& encoding_buffer) {
loggers::loggers::log(">>> GeoNetworkingCodec::encode_decodedPayload: processing %s", u.get_descriptor()->name);
int result = -1;
switch (u.get_selection()) {
case LibItsGeoNetworking__TypesAndValues::DecodedPayload::UNBOUND_VALUE:
TTCN_error("GeoNetworkingCodec::encode_decodedPayload: Invalid selection in unbound union");
break;
case LibItsGeoNetworking__TypesAndValues::DecodedPayload::ALT_ipv6Packet:
loggers::loggers::log("GeoNetworkingCodec::encode_decodedPayload: processing type %s", u.ipv6Packet().get_descriptor()->name);
//result = encode_(u.geoUnicastHeader(), LibItsGeoNetworking__TypesAndValues::DecodedPayload_ipv6Packet_descr_, encoding_buffer);
break;
case LibItsGeoNetworking__TypesAndValues::DecodedPayload::ALT_btpPacket:
loggers::loggers::log("GeoNetworkingCodec::encode_decodedPayload: processing type %s", u.btpPacket().get_descriptor()->name);
//result = encode_(u.geoUnicastHeader(), LibItsGeoNetworking__TypesAndValues::DecodedPayload_btpPacket_descr_, encoding_buffer);
break;
default: TTCN_error("GeoNetworkingCodec::encode_decodedPayload: Invalid selection in union is_bound");
} // End of 'switch' statement
return result;
}