/* Copyright (C) 2010 Srivats P. This file is part of "Ostinato" This 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 3 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, see */ #include "mac.h" #include "framevalueattrib.h" #include "../common/streambase.h" #include #define uintToMacStr(num) \ QString("%1").arg(num, 6*2, BASE_HEX, QChar('0')) \ .replace(QRegExp("([0-9a-fA-F]{2}\\B)"), "\\1:").toUpper() MacProtocol::MacProtocol(StreamBase *stream, AbstractProtocol *parent) : AbstractProtocol(stream, parent) { forResolve_ = false; } MacProtocol::~MacProtocol() { } AbstractProtocol* MacProtocol::createInstance(StreamBase *stream , AbstractProtocol *parent) { return new MacProtocol(stream, parent); } quint32 MacProtocol::protocolNumber() const { return OstProto::Protocol::kMacFieldNumber; } void MacProtocol::protoDataCopyInto(OstProto::Protocol &protocol) const { protocol.MutableExtension(OstProto::mac)->CopyFrom(data); protocol.mutable_protocol_id()->set_id(protocolNumber()); } void MacProtocol::protoDataCopyFrom(const OstProto::Protocol &protocol) { if (protocol.protocol_id().id() == protocolNumber() && protocol.HasExtension(OstProto::mac)) data.MergeFrom(protocol.GetExtension(OstProto::mac)); } QString MacProtocol::name() const { return QString("Media Access Protocol"); } QString MacProtocol::shortName() const { return QString("MAC"); } int MacProtocol::fieldCount() const { return mac_fieldCount; } AbstractProtocol::FieldFlags MacProtocol::fieldFlags(int index) const { AbstractProtocol::FieldFlags flags; flags = AbstractProtocol::fieldFlags(index); switch (index) { case mac_dstAddr: case mac_srcAddr: break; case mac_dstMacMode: case mac_dstMacCount: case mac_dstMacStep: case mac_srcMacMode: case mac_srcMacCount: case mac_srcMacStep: flags &= ~FrameField; flags |= MetaField; break; } return flags; } QVariant MacProtocol::fieldData(int index, FieldAttrib attrib, int streamIndex) const { switch (index) { case mac_dstAddr: { int u; quint64 dstMac = 0; switch (data.dst_mac_mode()) { case OstProto::Mac::e_mm_fixed: dstMac = data.dst_mac(); break; case OstProto::Mac::e_mm_inc: u = (streamIndex % data.dst_mac_count()) * data.dst_mac_step(); dstMac = data.dst_mac() + u; break; case OstProto::Mac::e_mm_dec: u = (streamIndex % data.dst_mac_count()) * data.dst_mac_step(); dstMac = data.dst_mac() - u; break; case OstProto::Mac::e_mm_resolve: if (forResolve_) dstMac = 0; else { forResolve_ = true; dstMac = mpStream->neighborMacAddress(streamIndex); forResolve_ = false; } break; default: qWarning("Unhandled dstMac_mode %d", data.dst_mac_mode()); } switch(attrib) { case FieldName: return QString("Destination"); case FieldValue: return dstMac; case FieldTextValue: return uintToMacStr(dstMac); case FieldFrameValue: { QByteArray fv; fv.resize(8); qToBigEndian(dstMac, (uchar*) fv.data()); fv.remove(0, 2); return fv; } default: break; } break; } case mac_srcAddr: { int u; quint64 srcMac = 0; switch (data.src_mac_mode()) { case OstProto::Mac::e_mm_fixed: srcMac = data.src_mac(); break; case OstProto::Mac::e_mm_inc: u = (streamIndex % data.src_mac_count()) * data.src_mac_step(); srcMac = data.src_mac() + u; break; case OstProto::Mac::e_mm_dec: u = (streamIndex % data.src_mac_count()) * data.src_mac_step(); srcMac = data.src_mac() - u; break; case OstProto::Mac::e_mm_resolve: if (forResolve_) srcMac = 0; else { forResolve_ = true; srcMac = mpStream->deviceMacAddress(streamIndex); forResolve_ = false; } break; default: qWarning("Unhandled srcMac_mode %d", data.src_mac_mode()); } switch(attrib) { case FieldName: return QString("Source"); case FieldValue: return srcMac; case FieldTextValue: return uintToMacStr(srcMac); case FieldFrameValue: { QByteArray fv; fv.resize(8); qToBigEndian(srcMac, (uchar*) fv.data()); fv.remove(0, 2); return fv; } default: break; } break; } // Meta fields case mac_dstMacMode: switch(attrib) { case FieldValue: return data.dst_mac_mode(); default: break; } break; case mac_dstMacCount: switch(attrib) { case FieldValue: return data.dst_mac_count(); default: break; } break; case mac_dstMacStep: switch(attrib) { case FieldValue: return data.dst_mac_step(); default: break; } break; case mac_srcMacMode: switch(attrib) { case FieldValue: return data.src_mac_mode(); default: break; } break; case mac_srcMacCount: switch(attrib) { case FieldValue: return data.src_mac_count(); default: break; } break; case mac_srcMacStep: switch(attrib) { case FieldValue: return data.src_mac_step(); default: break; } break; default: break; } return AbstractProtocol::fieldData(index, attrib, streamIndex); } bool MacProtocol::setFieldData(int index, const QVariant &value, FieldAttrib attrib) { bool isOk = false; if (attrib != FieldValue) goto _exit; switch (index) { case mac_dstAddr: { quint64 mac = value.toULongLong(); data.set_dst_mac(mac); break; } case mac_srcAddr: { quint64 mac = value.toULongLong(); data.set_src_mac(mac); break; } // Meta-Fields case mac_dstMacMode: { uint mode = value.toUInt(&isOk); if (isOk && data.MacAddrMode_IsValid(mode)) data.set_dst_mac_mode((OstProto::Mac::MacAddrMode) mode); else isOk = false; break; } case mac_dstMacCount: { uint count = value.toUInt(&isOk); if (isOk) data.set_dst_mac_count(count); break; } case mac_dstMacStep: { uint step = value.toUInt(&isOk); if (isOk) data.set_dst_mac_step(step); break; } case mac_srcMacMode: { uint mode = value.toUInt(&isOk); if (isOk && data.MacAddrMode_IsValid(mode)) data.set_src_mac_mode((OstProto::Mac::MacAddrMode) mode); else isOk = false; break; } case mac_srcMacCount: { uint count = value.toUInt(&isOk); if (isOk) data.set_src_mac_count(count); break; } case mac_srcMacStep: { uint step = value.toUInt(&isOk); if (isOk) data.set_src_mac_step(step); break; } default: qFatal("%s: unimplemented case %d in switch", __PRETTY_FUNCTION__, index); break; } _exit: return isOk; } int MacProtocol::protocolFrameVariableCount() const { int count = AbstractProtocol::protocolFrameVariableCount(); switch (data.dst_mac_mode()) { case OstProto::Mac::e_mm_inc: case OstProto::Mac::e_mm_dec: count = AbstractProtocol::lcm(count, data.dst_mac_count()); break; default: break; } switch (data.src_mac_mode()) { case OstProto::Mac::e_mm_inc: case OstProto::Mac::e_mm_dec: count = AbstractProtocol::lcm(count, data.src_mac_count()); break; default: break; } return count; } QByteArray MacProtocol::protocolFrameValue(int streamIndex, bool /*forCksum*/, FrameValueAttrib *attrib) const { QByteArray ba; ba.resize(12); quint64 dstMac = fieldData(mac_dstAddr, FieldValue, streamIndex) .toULongLong(); quint64 srcMac = fieldData(mac_srcAddr, FieldValue, streamIndex) .toULongLong(); char *p = ba.data(); *(quint32*)(p ) = qToBigEndian(quint32(dstMac >> 16)); *(quint16*)(p + 4) = qToBigEndian(quint16(dstMac & 0xffff)); *(quint32*)(p + 6) = qToBigEndian(quint32(srcMac >> 16)); *(quint16*)(p + 10) = qToBigEndian(quint16(srcMac & 0xffff)); if (attrib) { if (!dstMac && data.dst_mac_mode() == OstProto::Mac::e_mm_resolve) attrib->errorFlags |= FrameValueAttrib::UnresolvedDstMacError; if (!srcMac && data.src_mac_mode() == OstProto::Mac::e_mm_resolve) attrib->errorFlags |= FrameValueAttrib::UnresolvedSrcMacError; } return ba; }