#define prefix_
///////////////////////////////cc.p////////////////////////////////////////
+SENF_PACKET_TLV_REGISTRY_REGISTER( senf::MIHFSrcIdTLVParser );
+SENF_PACKET_TLV_REGISTRY_REGISTER( senf::MIHFDstIdTLVParser );
+
+///////////////////////////////////////////////////////////////////////////
+// senf::MIHFIdTLVParser
+
+prefix_ void senf::MIHFIdTLVParser::dump(std::ostream & os)
+ const
+{
+ os << senf::fieldName(" type") << unsigned (type()) << "\n"
+ << senf::fieldName(" length") << unsigned (length()) << "\n"
+ << " value:\n";
+ std::string src_mihfId (asString());
+ hexdump(src_mihfId.begin(), src_mihfId.end(), os);
+}
+
+prefix_ void senf::MIHFIdTLVParser::setString(std::string const &id)
+{
+ size_type str_size (id.size());
+ // the maximum length of a MIHF_ID is 253 octets (see F.3.11 in 802.21)
+ if (str_size > 253)
+ throw std::length_error("maximum length of a MIHF_ID is 253 octets");
+ safe_data_iterator si = resizeValueField( str_size);
+ std::copy( id.begin(), id.end(), si);
+}
+
+prefix_ void senf::MIHFIdTLVParser::setMACAddress(senf::MACAddress const &mac)
+{
+ safe_data_iterator si = resizeValueField(12);
+ std::copy( mac.begin(), mac.end(), getNAIEncodedOutputIterator(si));
+}
+
+prefix_ void senf::MIHFIdTLVParser::setINet4Address(senf::INet4Address const &addr)
+{
+ safe_data_iterator si = resizeValueField(8);
+ std::copy( addr.begin(), addr.end(), getNAIEncodedOutputIterator(si));
+}
+
+prefix_ void senf::MIHFIdTLVParser::setINet6Address(senf::INet6Address const &addr)
+{
+ safe_data_iterator si = resizeValueField(32);
+ std::copy( addr.begin(), addr.end(), getNAIEncodedOutputIterator(si));
+}
+
+prefix_ void senf::MIHFIdTLVParser::setEUI64(senf::EUI64 const &addr)
+{
+ safe_data_iterator si = resizeValueField(16);
+ std::copy( addr.begin(), addr.end(), getNAIEncodedOutputIterator(si));
+}
+
+prefix_ senf::MIHFId senf::MIHFIdTLVParser::valueAs(MIHFId::Type type)
+ const
+{
+ if (length() == 0) return MIHFId();
+ switch (type) {
+ case MIHFId::Empty:
+ return MIHFId();
+ case MIHFId::MACAddress:
+ return MIHFId( asMACAddress());
+ case MIHFId::INet4Address:
+ return MIHFId( asINet4Address());
+ case MIHFId::INet6Address:
+ return MIHFId( asINet6Address());
+ case MIHFId::String:
+ return MIHFId( asINet6Address());
+ case MIHFId::EUI64:
+ return MIHFId( asINet6Address());
+ }
+ return MIHFId();
+}
+
+
+///////////////////////////////////////////////////////////////////////////
+// senf::MIHFSrcIdTLVParser
+
+prefix_ void senf::MIHFSrcIdTLVParser::dump(std::ostream & os)
+ const
+{
+ os << " source MIHF_Id TLV:\n";
+ MIHFIdTLVParser::dump(os);
+}
+
+///////////////////////////////////////////////////////////////////////////
+// senf::MIHFDstIdTLVParser
+
+prefix_ void senf::MIHFDstIdTLVParser::dump(std::ostream & os)
+ const
+{
+ os << " destination MIHF_Id TLV:\n";
+ MIHFIdTLVParser::dump(os);
+}
+
///////////////////////////////////////////////////////////////////////////
// MIHBaseTLVParser
///////////////////////////////////////////////////////////////////////////
-// MIHTLVLengthParser
+// senf::MIHTLVLengthParser
prefix_ senf::MIHTLVLengthParser::value_type senf::MIHTLVLengthParser::value() const
{
};
}
-
prefix_ void senf::MIHTLVLengthParser::value(value_type const & v)
{
switch (bytes() ) {
underflow_flag() = (v <= 128);
}
-
prefix_ senf::MIHTLVLengthParser::value_type senf::MIHTLVLengthParser::maxValue()
const
{
};
}
-
prefix_ senf::MIHTLVLengthParser const & senf::MIHTLVLengthParser::operator= (value_type other)
{
value(other);
return *this;
}
-
prefix_ void senf::MIHTLVLengthParser::init() const
{
defaultInit();
extended_length_flag() = false;
}
-
prefix_ void senf::MIHTLVLengthParser::finalize()
{
value_type v = value();
if (b != 5) resize_(5);
}
-
prefix_ void senf::MIHTLVLengthParser:: maxValue(MIHTLVLengthParser::value_type v)
{
if (v <= 128)
if (b < 5) resize_(5);
}
-
prefix_ void senf::MIHTLVLengthParser::resize_(size_type size)
{
value_type v = value();
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