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0094f618d3
ostinato/common/abstractprotocol.cpp
Srivats P. 0094f618d3 Protocol Framework related 
--------------------------
	- AbstractProtocol Constructor and Factory function now take an optional (default NULL) "parent" abstract protocol in addition to the stream; this "parent" protocol is non-NULL for protocols which are aggregated in a ComboProtocol
	- All subclasses of AbstractProtocol modified as per the above interface change
	- ProtocolManager also modifed as per the above interface change
	- new data members in AbstractProtocol - prev, next; the AbstractProtocol implementation now uses these members to traverse protocols on the list instead of ProtocolListIterator; this change required for ComboProtocol
	- ProtocolListIterator updates these new members - prev/next on insert/remove/replace
	- ComboProtocol and ProtocolListIterator classes made friends of AbstractProtocol
	- ComboProtocol implemented as a template class (completed)
	- Dot2LLc implemented as a combo of Dot3Raw and LLC
	- Dot2Snap implemented as a combo of Dot2Llc and SNAP
	- VlanStack implemented as a combo of VLAN + VLAN
	- ProtocolManager now uses the ProtocolId enums rather than hardcoded values

Stream Config Dialog
--------------------
	- "None" radio button added to all protocol levels
	- Protocol Level 1 added with 'mac' as the only valid protocol in the "simple" mode widget
	- With Dot2Llc, Dot2Snap and VlanStack implemented as "combo" protocols, the protocol choice radiobuttons in the "simple" mode are now 1:1 with a protocol; this has the following implications/advantages:
		- Updates of the "simple" mode widget from/to stream's protocolList is simpler; this code has now been rewritten to take advantage of 1:1
		- This paves the way for exporting tunneled protocols 4over4, 4over6, 6over4 etc. in the "simple" mode
		- This should also (hopefully) require less changes when adding a new protocol; more work needs to be done to reach this goal

Fixes
-----
	- Dot3Protocol now derives "length" correctly for VLAN tagged packets
	- StreamBase now uses the ProtocolListIterator to append the default protocols in a stream instead of directly manipulating ProtocolList; also in protoDataCopyFrom()

Others (Client/Server)
----------------------
	- Port Packet Capture implemented; "view capture" is pending (hack put in place now for testing)
2009-10-14 15:16:56 +00:00

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#include <qendian.h>
#include "abstractprotocol.h"
#include "streambase.h"
#include "protocollistiterator.h"
/*!
\class AbstractProtocol
// FIXME - update this text
Bare Minimum set of methods that a subclass needs to reimplement
- protoDataCopyInto() [pure virtual]
- protoDataCopyFrom() [pure virtual]
- fieldCount()
Any useful protocol should also provide implementations for
- name()
- shortName()
- fieldName()
Protocols with meta fields should additionally implement
- metaFieldCount()
- isMetaField()
*/
AbstractProtocol::AbstractProtocol(StreamBase *stream, AbstractProtocol *parent)
{
//qDebug("%s: &prev = %p &next = %p", __FUNCTION__, &prev, &next);
mpStream = stream;
this->parent = parent;
prev = next = NULL;
metaCount = -1;
protoSize = -1;
}
AbstractProtocol::~AbstractProtocol()
{
}
AbstractProtocol* AbstractProtocol::createInstance(StreamBase *stream,
AbstractProtocol *parent)
{
return NULL;
}
quint32 AbstractProtocol::protocolNumber() const
{
qDebug("Something wrong!!!");
return 0xFFFFFFFF;
}
/*!
\fn virtual void protoDataCopyInto(OstProto::OstProto::StreamCore &stream) = 0;
Copy the protocol's protobuf into the passed in stream \n
In the base class this is a pure virtual function. Subclasses should
implement this function by using - \n
stream.AddExtension(<ExtId>)->CopyFrom(<protobuf_data>) */
/*
\fn virtual void protoDataCopyFrom(const OstProto::OstProto::StreamCore &stream) = 0;
FIXME */
/*! Returns the full name of the protocol \n
The default implementation returns a null string */
QString AbstractProtocol::name() const
{
return QString();
}
/*! Returns the short name or abbreviation of the protocol \n
The default implementation forms and returns a abbreviation composed
of all the upper case chars in name() \n
The default implementation caches the abbreviation on its first invocation
and subsequently returns the cached abbreviation */
QString AbstractProtocol::shortName() const
{
if (protoAbbr.isNull())
{
QString abbr;
for (int i = 0; i < name().size(); i++)
if (name().at(i).isUpper()) abbr.append(name().at(i));
if (abbr.size())
protoAbbr = abbr;
else
protoAbbr = QString("");
}
return protoAbbr;
}
/*! Returns the number of fields (both Frame and Meta fields) \n
The default implementation returns zero */
int AbstractProtocol::fieldCount() const
{
return 0;
}
/*! Returns the number of meta fields \n
The default implementation counts and returns the number of fields for which
the FieldIsMeta flag is set\n
The default implementation caches the count on its first invocation
and subsequently returns the cached count */
int AbstractProtocol::metaFieldCount() const
{
if (metaCount < 0)
{
int c = 0;
for (int i = 0; i < fieldCount() ; i++)
if (fieldFlags(i).testFlag(FieldIsMeta))
c++;
metaCount = c;
}
return metaCount;
}
/*! Returns the number of frame fields \n
Convenience method - same as fieldCount() minus metaFieldCount() */
int AbstractProtocol::frameFieldCount() const
{
//qDebug("%s:%d, %d", __FUNCTION__, fieldCount(), metaFieldCount());
return (fieldCount() - metaFieldCount());
}
AbstractProtocol::FieldFlags AbstractProtocol::fieldFlags(int index) const
{
return FieldIsNormal;
}
/*! Returns the requested field attribute data \n
Protocols which have meta fields that vary a frame field across
streams may use the streamIndex to return the appropriate field value \n
Some field attriubutes e.g. FieldName may be invariant across streams\n
The default implementation returns the fieldValue() converted to string
The FieldTextValue attribute may include additional information about
the field's value e.g. a checksum field may include "(correct)" or
"(incorrect)" alongwith the actual checksum value. \n
The default implementation returns FIXME
\note If a subclass uses any of the below functions to derive
FieldFrameValue, the subclass should handle and return a value for
FieldBitSize to prevent endless recrusion -
- protocolFrameCksum()
- protocolFramePayloadSize()
*/
QVariant AbstractProtocol::fieldData(int index, FieldAttrib attrib,
int streamIndex) const
{
switch (attrib)
{
case FieldName:
return QString();
case FieldBitSize:
Q_ASSERT_X(!fieldFlags(index).testFlag(FieldIsCksum),
"AbstractProtocol::fieldData()",
"FieldBitSize for checksum fields need to be handled by the subclass");
return fieldData(index, FieldFrameValue, streamIndex).
toByteArray().size() * 8;
case FieldValue:
return 0;
case FieldFrameValue:
return QByteArray();
case FieldTextValue:
return QString();
default:
qFatal("%s:%d: unhandled case %d\n", __FUNCTION__, __LINE__,
attrib);
}
return QVariant();
}
/*! Sets the value of a field corresponding to index \n
Returns true if field is successfully set, false otherwise \n
The default implementation always returns false */
bool AbstractProtocol::setFieldData(int index, const QVariant &value,
FieldAttrib attrib)
{
return false;
}
quint32 AbstractProtocol::protocolId(ProtocolIdType type) const
{
return 0;
}
quint32 AbstractProtocol::payloadProtocolId(ProtocolIdType type) const
{
quint32 id;
if (next)
id = next->protocolId(type);
else if (parent)
id = parent->payloadProtocolId(type);
else
id = 0xFFFFFFFF;
qDebug("%s: payloadProtocolId = 0x%x", __FUNCTION__, id);
return id;
}
int AbstractProtocol::protocolFrameSize() const
{
if (protoSize < 0)
{
int bitsize = 0;
for (int i = 0; i < fieldCount(); i++)
{
if (!fieldFlags(i).testFlag(FieldIsMeta))
bitsize += fieldData(i, FieldBitSize).toUInt();
}
protoSize = (bitsize+7)/8;
}
qDebug("%s: protoSize = %d", __FUNCTION__, protoSize);
return protoSize;
}
int AbstractProtocol::protocolFrameOffset() const
{
int size = 0;
AbstractProtocol *p = prev;
while (p)
{
size += p->protocolFrameSize();
p = p->prev;
}
if (parent)
size += parent->protocolFrameOffset();
qDebug("%s: ofs = %d", __FUNCTION__, size);
return size;
}
int AbstractProtocol::protocolFramePayloadSize() const
{
int size = 0;
AbstractProtocol *p = next;
while (p)
{
size += p->protocolFrameSize();
p = p->next;
}
if (parent)
size += parent->protocolFramePayloadSize();
qDebug("%s: payloadSize = %d", __FUNCTION__, size);
return size;
}
/*! Returns a byte array encoding the protocol (and its fields) which can be
inserted into the stream's frame
The default implementation forms and returns an ordered concatenation of
the FrameValue of all the 'frame' fields of the protocol taking care of fields
which are not an integral number of bytes\n */
QByteArray AbstractProtocol::protocolFrameValue(int streamIndex, bool forCksum) const
{
QByteArray proto, field;
uint bits, lastbitpos = 0;
FieldFlags flags;
for (int i=0; i < fieldCount() ; i++)
{
flags = fieldFlags(i);
if (!flags.testFlag(FieldIsMeta))
{
bits = fieldData(i, FieldBitSize, streamIndex).toUInt();
Q_ASSERT(bits > 0);
if (forCksum && flags.testFlag(FieldIsCksum))
{
field.resize((bits+7)/8);
field.fill('\0');
}
else
field = fieldData(i, FieldFrameValue, streamIndex).toByteArray();
qDebug("<<< %d, %d/%d >>>>", proto.size(), bits, field.size());
if (bits == (uint) field.size() * 8)
{
if (lastbitpos == 0)
proto.append(field);
else
{
Q_ASSERT(field.size() > 0);
char c = proto[proto.size() - 1];
proto[proto.size() - 1] = c | (field.at(0) >> lastbitpos);
for (int j = 0; j < field.size() - 1; j++)
proto.append(field.at(j) << lastbitpos |
field.at(j+1) >> lastbitpos);
}
}
else if (bits < (uint) field.size() * 8)
{
uchar c;
uint v;
v = (field.size()*8) - bits;
Q_ASSERT(v < 8);
if (lastbitpos == 0)
{
for (int j = 0; j < field.size(); j++)
{
c = field.at(j) << v;
if ((j+1) < field.size())
c |= ((uchar)field.at(j+1) >> (8-v));
proto.append(c);
}
lastbitpos = (lastbitpos + bits) % 8;
}
else
{
Q_ASSERT(proto.size() > 0);
for (int j = 0; j < field.size(); j++)
{
uchar d;
c = field.at(j) << v;
if ((j+1) < field.size())
c |= ((uchar) field.at(j+1) >> (8-v));
d = proto[proto.size() - 1];
proto[proto.size() - 1] = d | ((uchar) c >> lastbitpos);
if (bits > (8*j + (8 - v)))
proto.append(c << (8-lastbitpos));
}
lastbitpos = (lastbitpos + bits) % 8;
}
}
else // if (bits > field.size() * 8)
{
qFatal("bitsize more than FrameValue size. skipping...");
continue;
}
}
}
return proto;
}
/*!
\note If a subclass uses protocolFrameCksum() from within fieldData() to
derive a cksum field, it MUST handle and return the 'FieldBitSize'
attribute also for that particular field instead of using the default
AbstractProtocol implementation for 'FieldBitSize' - this is required
to prevent infinite recursion
*/
quint32 AbstractProtocol::protocolFrameCksum(int streamIndex,
CksumType cksumType) const
{
static int recursionCount = 0;
quint32 cksum = 0xFFFFFFFF;
recursionCount++;
Q_ASSERT_X(recursionCount < 10, "protocolFrameCksum", "potential infinite recursion - does a protocol checksum field not implement FieldBitSize?");
switch(cksumType)
{
case CksumIp:
{
QByteArray fv;
quint16 *ip;
quint32 len, sum = 0;
fv = protocolFrameValue(streamIndex, true);
ip = (quint16*) fv.constData();
len = fv.size();
while(len > 1)
{
sum += *ip;
if(sum & 0x80000000)
sum = (sum & 0xFFFF) + (sum >> 16);
ip++;
len -= 2;
}
if (len)
sum += (unsigned short) *(unsigned char *)ip;
while(sum>>16)
sum = (sum & 0xFFFF) + (sum >> 16);
cksum = qFromBigEndian((quint16) ~sum);
break;
}
case CksumTcpUdp:
{
quint16 cks;
quint32 sum = 0;
cks = protocolFrameCksum(streamIndex, CksumIp);
sum += (quint16) ~cks;
cks = protocolFramePayloadCksum(streamIndex, CksumIp);
sum += (quint16) ~cks;
cks = protocolFrameHeaderCksum(streamIndex, CksumIpPseudo);
sum += (quint16) ~cks;
while(sum>>16)
sum = (sum & 0xFFFF) + (sum >> 16);
cksum = (~sum) & 0xFFFF;
break;
}
default:
break;
}
recursionCount--;
return cksum;
}
quint32 AbstractProtocol::protocolFrameHeaderCksum(int streamIndex,
CksumType cksumType) const
{
quint32 sum = 0;
quint16 cksum;
AbstractProtocol *p = prev;
Q_ASSERT(cksumType == CksumIpPseudo);
while (p)
{
cksum = p->protocolFrameCksum(streamIndex, cksumType);
sum += (quint16) ~cksum;
p = p->prev;
qDebug("%s: sum = %u, cksum = %u", __FUNCTION__, sum, cksum);
}
if (parent)
{
cksum = parent->protocolFrameHeaderCksum(streamIndex, cksumType);
sum += (quint16) ~cksum;
}
while(sum>>16)
sum = (sum & 0xFFFF) + (sum >> 16);
return (quint16) ~sum;
}
quint32 AbstractProtocol::protocolFramePayloadCksum(int streamIndex,
CksumType cksumType) const
{
quint32 sum = 0;
quint16 cksum;
AbstractProtocol *p = next;
Q_ASSERT(cksumType == CksumIp);
while (p)
{
cksum = p->protocolFrameCksum(streamIndex, cksumType);
sum += (quint16) ~cksum;
p = p->next;
}
if (parent)
{
cksum = parent->protocolFramePayloadCksum(streamIndex, cksumType);
sum += (quint16) ~cksum;
}
while(sum>>16)
sum = (sum & 0xFFFF) + (sum >> 16);
return (quint16) ~sum;
}
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