RetroShare/libretroshare/src/serialiser/rsconfigitems.cc

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/*
* libretroshare/src/serialiser: rsconfigitems.cc
*
* RetroShare Serialiser.
*
* Copyright 2007-2008 by Robert Fernie, Chris Parker.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License Version 2 as published by the Free Software Foundation.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Please report all bugs and problems to "retroshare@lunamutt.com".
*
*/
#include "serialiser/rsbaseserial.h"
#include "serialiser/rsconfigitems.h"
/***
#define RSSERIAL_DEBUG 1
***/
#include <iostream>
/*************************************************************************/
uint32_t RsFileConfigSerialiser::size(RsItem *i)
{
RsFileTransfer *rft;
RsFileConfigItem *rfi;
if (NULL != (rft = dynamic_cast<RsFileTransfer *>(i)))
{
return sizeTransfer(rft);
}
if (NULL != (rfi = dynamic_cast<RsFileConfigItem *>(i)))
{
return sizeFileItem(rfi);
}
return 0;
}
/* serialise the data to the buffer */
bool RsFileConfigSerialiser::serialise(RsItem *i, void *data, uint32_t *pktsize)
{
RsFileTransfer *rft;
RsFileConfigItem *rfi;
if (NULL != (rft = dynamic_cast<RsFileTransfer *>(i)))
{
return serialiseTransfer(rft, data, pktsize);
}
if (NULL != (rfi = dynamic_cast<RsFileConfigItem *>(i)))
{
return serialiseFileItem(rfi, data, pktsize);
}
return false;
}
RsItem *RsFileConfigSerialiser::deserialise(void *data, uint32_t *pktsize)
{
/* get the type and size */
uint32_t rstype = getRsItemId(data);
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_FILE_CONFIG != getRsItemType(rstype)))
{
return NULL; /* wrong type */
}
switch(getRsItemSubType(rstype))
{
case RS_PKT_SUBTYPE_FILE_TRANSFER:
return deserialiseTransfer(data, pktsize);
break;
case RS_PKT_SUBTYPE_FILE_ITEM:
return deserialiseFileItem(data, pktsize);
break;
default:
return NULL;
break;
}
return NULL;
}
/*************************************************************************/
RsFileTransfer::~RsFileTransfer()
{
return;
}
void RsFileTransfer::clear()
{
file.TlvClear();
allPeerIds.TlvClear();
cPeerId = "";
state = 0;
in = false;
transferred = 0;
crate = 0;
trate = 0;
lrate = 0;
ltransfer = 0;
}
std::ostream &RsFileTransfer::print(std::ostream &out, uint16_t indent)
{
printRsItemBase(out, "RsFileTransfer", indent);
uint16_t int_Indent = indent + 2;
file.print(out, int_Indent);
allPeerIds.print(out, int_Indent);
printIndent(out, int_Indent);
out << "cPeerId: " << cPeerId << std::endl;
printIndent(out, int_Indent);
out << "State: " << state << std::endl;
printIndent(out, int_Indent);
out << "In/Out: " << in << std::endl;
printIndent(out, int_Indent);
out << "Transferred: " << transferred << std::endl;
printIndent(out, int_Indent);
out << "crate: " << crate << std::endl;
printIndent(out, int_Indent);
out << "trate: " << trate << std::endl;
printIndent(out, int_Indent);
out << "lrate: " << lrate << std::endl;
printIndent(out, int_Indent);
out << "ltransfer: " << ltransfer << std::endl;
printRsItemEnd(out, "RsFileTransfer", indent);
return out;
}
/*************************************************************************/
/*************************************************************************/
RsFileConfigItem::~RsFileConfigItem()
{
return;
}
void RsFileConfigItem::clear()
{
file.TlvClear();
flags = 0;
}
std::ostream &RsFileConfigItem::print(std::ostream &out, uint16_t indent)
{
printRsItemBase(out, "RsFileConfigItem", indent);
uint16_t int_Indent = indent + 2;
file.print(out, int_Indent);
printIndent(out, int_Indent);
out << "flags: " << flags << std::endl;
printRsItemEnd(out, "RsFileConfigItem", indent);
return out;
}
/*************************************************************************/
/*************************************************************************/
uint32_t RsFileConfigSerialiser::sizeTransfer(RsFileTransfer *item)
{
uint32_t s = 8; /* header */
s += item->file.TlvSize();
s += item->allPeerIds.TlvSize();
s += GetTlvStringSize(item->cPeerId);
s += 2; /* state */
s += 2; /* in/out */
s += 8; /* transferred */
s += 4; /* crate */
s += 4; /* trate */
s += 4; /* lrate */
s += 4; /* ltransfer */
s += 4; // chunk_size
s += 4; // chunk_number
s += 4; // chunk_strategy
s += 4; // chunk map size
s += 4*item->chunk_map.size(); // chunk_map
return s;
}
bool RsFileConfigSerialiser::serialiseTransfer(RsFileTransfer *item, void *data, uint32_t *pktsize)
{
uint32_t tlvsize = sizeTransfer(item);
uint32_t offset = 0;
if (*pktsize < tlvsize)
return false; /* not enough space */
*pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize);
#ifdef RSSERIAL_DEBUG
std::cerr << "RsFileConfigSerialiser::serialiseTransfer() Header: " << ok << std::endl;
std::cerr << "RsFileConfigSerialiser::serialiseTransfer() Size: " << tlvsize << std::endl;
#endif
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= item->file.SetTlv(data, tlvsize, &offset);
ok &= item->allPeerIds.SetTlv(data, tlvsize, &offset);
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_PEERID, item->cPeerId);
ok &= setRawUInt16(data, tlvsize, &offset, item->state);
ok &= setRawUInt16(data, tlvsize, &offset, item->in);
ok &= setRawUInt64(data, tlvsize, &offset, item->transferred);
ok &= setRawUInt32(data, tlvsize, &offset, item->crate);
ok &= setRawUInt32(data, tlvsize, &offset, item->trate);
ok &= setRawUInt32(data, tlvsize, &offset, item->lrate);
ok &= setRawUInt32(data, tlvsize, &offset, item->ltransfer);
ok &= setRawUInt32(data, tlvsize, &offset, item->chunk_size);
ok &= setRawUInt32(data, tlvsize, &offset, item->chunk_number);
ok &= setRawUInt32(data, tlvsize, &offset, item->chunk_strategy);
ok &= setRawUInt32(data, tlvsize, &offset, item->chunk_map.size());
for(uint32_t i=0;i<item->chunk_map.size();++i)
ok &= setRawUInt32(data, tlvsize, &offset, item->chunk_map[i]);
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsFileConfigSerialiser::serialiseTransfer() Size Error! " << std::endl;
#endif
}
return ok;
}
RsFileTransfer *RsFileConfigSerialiser::deserialiseTransfer(void *data, uint32_t *pktsize)
{
/* get the type and size */
uint32_t rstype = getRsItemId(data);
uint32_t rssize = getRsItemSize(data);
uint32_t offset = 0;
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_FILE_CONFIG != getRsItemType(rstype)) ||
(RS_PKT_SUBTYPE_FILE_TRANSFER != getRsItemSubType(rstype)))
{
return NULL; /* wrong type */
}
if (*pktsize < rssize) /* check size */
return NULL; /* not enough data */
/* set the packet length */
*pktsize = rssize;
bool ok = true;
/* ready to load */
RsFileTransfer *item = new RsFileTransfer();
item->clear();
/* skip the header */
offset += 8;
/* get mandatory parts first */
ok &= item->file.GetTlv(data, rssize, &offset);
ok &= item->allPeerIds.GetTlv(data, rssize, &offset);
/* string */
ok &= GetTlvString(data, rssize, &offset, TLV_TYPE_STR_PEERID, item->cPeerId);
/* data */
ok &= getRawUInt16(data, rssize, &offset, &(item->state));
ok &= getRawUInt16(data, rssize, &offset, &(item->in));
ok &= getRawUInt64(data, rssize, &offset, &(item->transferred));
ok &= getRawUInt32(data, rssize, &offset, &(item->crate));
ok &= getRawUInt32(data, rssize, &offset, &(item->trate));
ok &= getRawUInt32(data, rssize, &offset, &(item->lrate));
ok &= getRawUInt32(data, rssize, &offset, &(item->ltransfer));
ok &= getRawUInt32(data, rssize, &offset, &(item->chunk_size));
ok &= getRawUInt32(data, rssize, &offset, &(item->chunk_number));
ok &= getRawUInt32(data, rssize, &offset, &(item->chunk_strategy));
uint32_t map_size = 0 ;
ok &= getRawUInt32(data, rssize, &offset, &map_size);
item->chunk_map.resize(map_size) ;
for(uint32_t i=0;i<map_size;++i)
ok &= getRawUInt32(data, rssize, &offset, &(item->chunk_map[i]));
if (offset != rssize)
{
/* error */
delete item;
return NULL;
}
if (!ok)
{
delete item;
return NULL;
}
return item;
}
/*************************************************************************/
/*************************************************************************/
uint32_t RsFileConfigSerialiser::sizeFileItem(RsFileConfigItem *item)
{
uint32_t s = 8; /* header */
s += item->file.TlvSize();
s += 4;
return s;
}
bool RsFileConfigSerialiser::serialiseFileItem(RsFileConfigItem *item, void *data, uint32_t *pktsize)
{
uint32_t tlvsize = sizeFileItem(item);
uint32_t offset = 0;
if (*pktsize < tlvsize)
return false; /* not enough space */
*pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize);
#ifdef RSSERIAL_DEBUG
std::cerr << "RsFileConfigSerialiser::serialiseFileItem() Header: " << ok << std::endl;
std::cerr << "RsFileConfigSerialiser::serialiseFileItem() Size: " << tlvsize << std::endl;
#endif
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= item->file.SetTlv(data, tlvsize, &offset);
ok &= setRawUInt32(data, tlvsize, &offset, item->flags);
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsFileConfigSerialiser::serialiseFileItem() Size Error! " << std::endl;
#endif
}
return ok;
}
RsFileConfigItem *RsFileConfigSerialiser::deserialiseFileItem(void *data, uint32_t *pktsize)
{
/* get the type and size */
uint32_t rstype = getRsItemId(data);
uint32_t rssize = getRsItemSize(data);
uint32_t offset = 0;
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_FILE_CONFIG != getRsItemType(rstype)) ||
(RS_PKT_SUBTYPE_FILE_ITEM != getRsItemSubType(rstype)))
{
return NULL; /* wrong type */
}
if (*pktsize < rssize) /* check size */
return NULL; /* not enough data */
/* set the packet length */
*pktsize = rssize;
bool ok = true;
/* ready to load */
RsFileConfigItem *item = new RsFileConfigItem();
item->clear();
/* skip the header */
offset += 8;
/* get mandatory parts first */
ok &= item->file.GetTlv(data, rssize, &offset);
ok &= getRawUInt32(data, rssize, &offset, &(item->flags));
if (offset != rssize)
{
/* error */
delete item;
return NULL;
}
if (!ok)
{
delete item;
return NULL;
}
return item;
}
/*************************************************************************/
/*************************************************************************/
/*************************************************************************/
/*************************************************************************/
/*************************************************************************/
RsGeneralConfigSerialiser::~RsGeneralConfigSerialiser()
{
return;
}
uint32_t RsGeneralConfigSerialiser::size(RsItem *i)
{
RsConfigKeyValueSet *kvs;
if (NULL != (kvs = dynamic_cast<RsConfigKeyValueSet *>(i)))
{
return sizeKeyValueSet(kvs);
}
else if (NULL != (kvs = dynamic_cast<RsConfigKeyValueSet *>(i)))
{
return sizeKeyValueSet(kvs);
}
return 0;
}
/* serialise the data to the buffer */
bool RsGeneralConfigSerialiser::serialise(RsItem *i, void *data, uint32_t *pktsize)
{
RsConfigKeyValueSet *kvs;
/* do reply first - as it is derived from Item */
if (NULL != (kvs = dynamic_cast<RsConfigKeyValueSet *>(i)))
{
return serialiseKeyValueSet(kvs, data, pktsize);
}
else if (NULL != (kvs = dynamic_cast<RsConfigKeyValueSet *>(i)))
{
return serialiseKeyValueSet(kvs, data, pktsize);
}
return false;
}
RsItem *RsGeneralConfigSerialiser::deserialise(void *data, uint32_t *pktsize)
{
/* get the type and size */
uint32_t rstype = getRsItemId(data);
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_GENERAL_CONFIG != getRsItemType(rstype)))
{
#ifdef RSSERIAL_DEBUG
std::cerr << "RsGeneralConfigSerialiser::deserialise() Wrong Type" << std::endl;
#endif
return NULL; /* wrong type */
}
switch(getRsItemSubType(rstype))
{
case RS_PKT_SUBTYPE_KEY_VALUE:
return deserialiseKeyValueSet(data, pktsize);
break;
default:
return NULL;
break;
}
return NULL;
}
/*************************************************************************/
RsConfigKeyValueSet::~RsConfigKeyValueSet()
{
return;
}
void RsConfigKeyValueSet::clear()
{
tlvkvs.pairs.clear();
}
std::ostream &RsConfigKeyValueSet::print(std::ostream &out, uint16_t indent)
{
printRsItemBase(out, "RsConfigKeyValueSet", indent);
uint16_t int_Indent = indent + 2;
tlvkvs.print(out, int_Indent);
printRsItemEnd(out, "RsConfigKeyValueSet", indent);
return out;
}
uint32_t RsGeneralConfigSerialiser::sizeKeyValueSet(RsConfigKeyValueSet *item)
{
uint32_t s = 8; /* header */
s += item->tlvkvs.TlvSize();
return s;
}
/* serialise the data to the buffer */
bool RsGeneralConfigSerialiser::serialiseKeyValueSet(RsConfigKeyValueSet *item, void *data, uint32_t *pktsize)
{
uint32_t tlvsize = sizeKeyValueSet(item);
uint32_t offset = 0;
if (*pktsize < tlvsize)
return false; /* not enough space */
*pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize);
#ifdef RSSERIAL_DEBUG
std::cerr << "RsGeneralConfigSerialiser::serialiseKeyValueSet() Header: " << ok << std::endl;
std::cerr << "RsGeneralConfigSerialiser::serialiseKeyValueSet() Size: " << tlvsize << std::endl;
#endif
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= item->tlvkvs.SetTlv(data, tlvsize, &offset);
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsGeneralConfigSerialiser::serialiseKeyValueSet() Size Error! " << std::endl;
#endif
}
return ok;
}
RsConfigKeyValueSet *RsGeneralConfigSerialiser::deserialiseKeyValueSet(void *data, uint32_t *pktsize)
{
/* get the type and size */
uint32_t rstype = getRsItemId(data);
uint32_t rssize = getRsItemSize(data);
uint32_t offset = 0;
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_GENERAL_CONFIG != getRsItemType(rstype)) ||
(RS_PKT_SUBTYPE_KEY_VALUE != getRsItemSubType(rstype)))
{
#ifdef RSSERIAL_DEBUG
std::cerr << "RsGeneralConfigSerialiser::deserialiseKeyValueSet() Wrong Type" << std::endl;
#endif
return NULL; /* wrong type */
}
if (*pktsize < rssize) /* check size */
{
#ifdef RSSERIAL_DEBUG
std::cerr << "RsGeneralConfigSerialiser::deserialiseKeyValueSet() Not Enough Space" << std::endl;
#endif
return NULL; /* not enough data */
}
/* set the packet length */
*pktsize = rssize;
bool ok = true;
/* ready to load */
RsConfigKeyValueSet *item = new RsConfigKeyValueSet();
item->clear();
/* skip the header */
offset += 8;
/* get mandatory parts first */
ok &= item->tlvkvs.GetTlv(data, rssize, &offset);
if (offset != rssize)
{
#ifdef RSSERIAL_DEBUG
std::cerr << "RsGeneralConfigSerialiser::deserialiseKeyValueSet() offset != rssize" << std::endl;
#endif
/* error */
delete item;
return NULL;
}
if (!ok)
{
#ifdef RSSERIAL_DEBUG
std::cerr << "RsGeneralConfigSerialiser::deserialiseKeyValueSet() ok = false" << std::endl;
#endif
delete item;
return NULL;
}
return item;
}
/*************************************************************************/
/*************************************************************************/
/*************************************************************************/
/*************************************************************************/
/*************************************************************************/
RsPeerConfigSerialiser::~RsPeerConfigSerialiser()
{
return;
}
uint32_t RsPeerConfigSerialiser::size(RsItem *i)
{
RsPeerNetItem *pni;
RsPeerStunItem *psi;
if (NULL != (pni = dynamic_cast<RsPeerNetItem *>(i)))
{
return sizeNet(pni);
}
else if (NULL != (psi = dynamic_cast<RsPeerStunItem *>(i)))
{
return sizeStun(psi);
}
return 0;
}
/* serialise the data to the buffer */
bool RsPeerConfigSerialiser::serialise(RsItem *i, void *data, uint32_t *pktsize)
{
RsPeerNetItem *pni;
RsPeerStunItem *psi;
if (NULL != (pni = dynamic_cast<RsPeerNetItem *>(i)))
{
return serialiseNet(pni, data, pktsize);
}
else if (NULL != (psi = dynamic_cast<RsPeerStunItem *>(i)))
{
return serialiseStun(psi, data, pktsize);
}
return false;
}
RsItem *RsPeerConfigSerialiser::deserialise(void *data, uint32_t *pktsize)
{
/* get the type and size */
uint32_t rstype = getRsItemId(data);
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_PEER_CONFIG != getRsItemType(rstype)))
{
#ifdef RSSERIAL_DEBUG
std::cerr << "RsPeerConfigSerialiser::deserialise() Wrong Type" << std::endl;
#endif
return NULL; /* wrong type */
}
switch(getRsItemSubType(rstype))
{
case RS_PKT_SUBTYPE_PEER_NET:
return deserialiseNet(data, pktsize);
break;
case RS_PKT_SUBTYPE_PEER_STUN:
return deserialiseStun(data, pktsize);
break;
default:
return NULL;
break;
}
return NULL;
}
/*************************************************************************/
RsPeerNetItem::~RsPeerNetItem()
{
return;
}
void RsPeerNetItem::clear()
{
pid.clear();
netMode = 0;
visState = 0;
lastContact = 0;
sockaddr_clear(&currentlocaladdr);
sockaddr_clear(&currentremoteaddr);
}
std::ostream &RsPeerNetItem::print(std::ostream &out, uint16_t indent)
{
printRsItemBase(out, "RsPeerNetItem", indent);
uint16_t int_Indent = indent + 2;
printIndent(out, int_Indent);
out << "PeerId: " << pid << std::endl;
printIndent(out, int_Indent);
out << "netMode: " << netMode << std::endl;
printIndent(out, int_Indent);
out << "visState: " << visState << std::endl;
printIndent(out, int_Indent);
out << "lastContact: " << lastContact << std::endl;
printIndent(out, int_Indent);
out << "currentlocaladdr: " << inet_ntoa(currentlocaladdr.sin_addr);
out << ":" << htons(currentlocaladdr.sin_port) << std::endl;
printIndent(out, int_Indent);
out << "currentremoteaddr: " << inet_ntoa(currentremoteaddr.sin_addr);
out << ":" << htons(currentremoteaddr.sin_port) << std::endl;
printRsItemEnd(out, "RsPeerNetItem", indent);
return out;
}
/*************************************************************************/
uint32_t RsPeerConfigSerialiser::sizeNet(RsPeerNetItem *i)
{
uint32_t s = 8; /* header */
s += GetTlvStringSize(i->pid); /* peerid */
s += 4; /* netMode */
s += 4; /* visState */
s += 4; /* lastContact */
s += GetTlvIpAddrPortV4Size(); /* localaddr */
s += GetTlvIpAddrPortV4Size(); /* remoteaddr */
//add the size of the ip list
int ipListSize = i->ipAddressList.size();
s += ipListSize * GetTlvIpAddrPortV4Size();
s += ipListSize * 8; //size of an uint64
return s;
}
bool RsPeerConfigSerialiser::serialiseNet(RsPeerNetItem *item, void *data, uint32_t *size)
{
uint32_t tlvsize = RsPeerConfigSerialiser::sizeNet(item);
uint32_t offset = 0;
if(*size < tlvsize)
return false; /* not enough space */
*size = tlvsize;
bool ok = true;
// serialise header
ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize);
#ifdef RSSERIAL_DEBUG
std::cerr << "RsPeerConfigSerialiser::serialiseNet() Header: " << ok << std::endl;
std::cerr << "RsPeerConfigSerialiser::serialiseNet() Header test: " << tlvsize << std::endl;
#endif
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_PEERID, item->pid); /* Mandatory */
ok &= setRawUInt32(data, tlvsize, &offset, item->netMode); /* Mandatory */
ok &= setRawUInt32(data, tlvsize, &offset, item->visState); /* Mandatory */
ok &= setRawUInt32(data, tlvsize, &offset, item->lastContact); /* Mandatory */
ok &= SetTlvIpAddrPortV4(data, tlvsize, &offset, TLV_TYPE_IPV4_LOCAL, &(item->currentlocaladdr));
ok &= SetTlvIpAddrPortV4(data, tlvsize, &offset, TLV_TYPE_IPV4_REMOTE, &(item->currentremoteaddr));
//store the ip list
std::list<IpAddressTimed>::iterator ipListIt;
for (ipListIt = item->ipAddressList.begin(); ipListIt!=(item->ipAddressList.end()); ipListIt++) {
ok &= SetTlvIpAddrPortV4(data, tlvsize, &offset, TLV_TYPE_IPV4_REMOTE, &(ipListIt->ipAddr));
ok &= setRawUInt64(data, tlvsize, &offset, ipListIt->seenTime);
}
if(offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsPeerConfigSerialiser::serialise() Size Error! " << std::endl;
#endif
}
return ok;
}
RsPeerNetItem *RsPeerConfigSerialiser::deserialiseNet(void *data, uint32_t *size)
{
/* get the type and size */
uint32_t rstype = getRsItemId(data);
uint32_t rssize = getRsItemSize(data);
uint32_t offset = 0;
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_PEER_CONFIG != getRsItemType(rstype)) ||
(RS_PKT_SUBTYPE_PEER_NET != getRsItemSubType(rstype)))
{
return NULL; /* wrong type */
}
if (*size < rssize) /* check size */
return NULL; /* not enough data */
/* set the packet length */
*size = rssize;
bool ok = true;
RsPeerNetItem *item = new RsPeerNetItem();
item->clear();
/* skip the header */
offset += 8;
/* get mandatory parts first */
ok &= GetTlvString(data, rssize, &offset, TLV_TYPE_STR_PEERID, item->pid); /* Mandatory */
ok &= getRawUInt32(data, rssize, &offset, &(item->netMode)); /* Mandatory */
ok &= getRawUInt32(data, rssize, &offset, &(item->visState)); /* Mandatory */
ok &= getRawUInt32(data, rssize, &offset, &(item->lastContact)); /* Mandatory */
ok &= GetTlvIpAddrPortV4(data, rssize, &offset, TLV_TYPE_IPV4_LOCAL, &(item->currentlocaladdr));
ok &= GetTlvIpAddrPortV4(data, rssize, &offset, TLV_TYPE_IPV4_REMOTE, &(item->currentremoteaddr));
//get the ip adress list
std::list<IpAddressTimed> ipTimedList;
while (offset < rssize) {
IpAddressTimed ipTimed;
ok &= GetTlvIpAddrPortV4(data, rssize, &offset, TLV_TYPE_IPV4_REMOTE, &ipTimed.ipAddr);
uint64_t time;
ok &= getRawUInt64(data, rssize, &offset, &time);
ipTimed.seenTime = time;
ipTimedList.push_back(ipTimed);
}
item->ipAddressList = ipTimedList;
if (offset != rssize)
{
/* error */
delete item;
return NULL;
}
return item;
}
/****************************************************************************/
RsPeerStunItem::~RsPeerStunItem()
{
return;
}
void RsPeerStunItem::clear()
{
stunList.TlvClear();
}
std::ostream &RsPeerStunItem::print(std::ostream &out, uint16_t indent)
{
printRsItemBase(out, "RsPeerStunItem", indent);
uint16_t int_Indent = indent + 2;
stunList.printHex(out, int_Indent);
printRsItemEnd(out, "RsPeerStunItem", indent);
return out;
}
/*************************************************************************/
uint32_t RsPeerConfigSerialiser::sizeStun(RsPeerStunItem *i)
{
uint32_t s = 8; /* header */
s += i->stunList.TlvSize(); /* stunList */
return s;
}
bool RsPeerConfigSerialiser::serialiseStun(RsPeerStunItem *item, void *data, uint32_t *size)
{
uint32_t tlvsize = RsPeerConfigSerialiser::sizeStun(item);
uint32_t offset = 0;
if(*size < tlvsize)
return false; /* not enough space */
*size = tlvsize;
bool ok = true;
// serialise header
ok &= setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize);
#ifdef RSSERIAL_DEBUG
std::cerr << "RsPeerConfigSerialiser::serialiseStun() Header: " << ok << std::endl;
std::cerr << "RsPeerConfigSerialiser::serialiseStun() Header: " << tlvsize << std::endl;
#endif
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= item->stunList.SetTlv(data, tlvsize, &offset); /* Mandatory */
if(offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsPeerConfigSerialiser::serialiseStun() Size Error! " << std::endl;
#endif
}
return ok;
}
RsPeerStunItem *RsPeerConfigSerialiser::deserialiseStun(void *data, uint32_t *size)
{
/* get the type and size */
uint32_t rstype = getRsItemId(data);
uint32_t rssize = getRsItemSize(data);
uint32_t offset = 0;
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_PEER_CONFIG != getRsItemType(rstype)) ||
(RS_PKT_SUBTYPE_PEER_STUN != getRsItemSubType(rstype)))
{
return NULL; /* wrong type */
}
if (*size < rssize) /* check size */
return NULL; /* not enough data */
/* set the packet length */
*size = rssize;
bool ok = true;
RsPeerStunItem *item = new RsPeerStunItem();
item->clear();
/* skip the header */
offset += 8;
/* get mandatory parts first */
ok &= item->stunList.GetTlv(data, rssize, &offset); /* Mandatory */
if (offset != rssize)
{
/* error */
delete item;
return NULL;
}
return item;
}
/****************************************************************************/
RsCacheConfig::~RsCacheConfig()
{
return;
}
void RsCacheConfig::clear()
{
pid.clear();
cachetypeid = 0;
cachesubid = 0;
path = "";
name = "";
hash = "";
size = 0;
recvd = 0;
}
std::ostream &RsCacheConfig::print(std::ostream &out, uint16_t indent)
{
printRsItemBase(out, "RsCacheConfig", indent);
uint16_t int_Indent = indent + 2;
printIndent(out, int_Indent); //indent
out << "pid: " << pid << std::endl; // display value of peerid
printIndent(out, int_Indent); //indent
out << "cacheid: " << cachetypeid << ":" << cachesubid << std::endl; // display value of cacheid
printIndent(out, int_Indent);
out << "path: " << path << std::endl; // display value of path
printIndent(out, int_Indent);
out << "name: " << name << std::endl; // display value of name
printIndent(out, int_Indent);
out << "hash: " << hash << std::endl; // display value of hash
printIndent(out, int_Indent);
out << "size: " << size << std::endl; // display value of size
printIndent(out, int_Indent);
out << "recvd: " << recvd << std::endl; // display value of recvd
printRsItemEnd(out, "RsCacheConfig", indent); // end of 'WRITE' check
return out;
}
/**************************************************************************/
RsCacheConfigSerialiser::~RsCacheConfigSerialiser()
{
return;
}
uint32_t RsCacheConfigSerialiser::size(RsItem *i)
{
RsCacheConfig *item = (RsCacheConfig *) i;
uint32_t s = 8; // to store calculated size, initiailize with size of header
s += GetTlvStringSize(item->pid);
s += 2; /* cachetypeid */
s += 2; /* cachesubid */
s += GetTlvStringSize(item->path);
s += GetTlvStringSize(item->name);
s += GetTlvStringSize(item->hash);
s += 8; /* size */
s += 4; /* recvd */
return s;
}
bool RsCacheConfigSerialiser::serialise(RsItem *i, void *data, uint32_t *size)
{
RsCacheConfig *item = (RsCacheConfig *) i;
uint32_t tlvsize = RsCacheConfigSerialiser::size(item);
uint32_t offset = 0;
if(*size < tlvsize)
return false; /* not enough space */
*size = tlvsize;
bool ok = true;
ok &=setRsItemHeader(data, tlvsize, item->PacketId(), tlvsize);
#ifdef RSSERIAL_DEBUG
std::cerr << "RsCacheConfigSerialiser::serialise() Header: " << ok << std::endl;
std::cerr << "RsCacheConfigSerialiser::serialise() Size: " << size << std::endl;
#endif
/* skip the header */
offset += 8;
/* add the mandatory parts first */
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_PEERID, item->pid);
ok &= setRawUInt16(data, tlvsize, &offset, item->cachetypeid);
ok &= setRawUInt16(data, tlvsize, &offset, item->cachesubid);
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_PATH, item->path);
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_NAME, item->name);
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_HASH_SHA1, item->hash);
ok &= setRawUInt64(data, tlvsize, &offset, item->size);
ok &= setRawUInt32(data, tlvsize, &offset, item->recvd);
if (offset !=tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsConfigSerialiser::serialisertransfer() Size Error! " << std::endl;
#endif
}
return ok;
}
RsItem *RsCacheConfigSerialiser::deserialise(void *data, uint32_t *size)
{/* get the type and size */
uint32_t rstype = getRsItemId(data);
uint32_t rssize = getRsItemSize(data);
uint32_t offset;
offset = 0;
if ((RS_PKT_VERSION1 != getRsItemVersion(rstype)) ||
(RS_PKT_CLASS_CONFIG != getRsItemClass(rstype)) ||
(RS_PKT_TYPE_CACHE_CONFIG != getRsItemType(rstype)) ||
(RS_PKT_SUBTYPE_DEFAULT != getRsItemSubType(rstype)))
{
return NULL; /* wrong type */
}
if (*size < rssize) /* check size */
return NULL; /* not enough data */
/* set the packet length */
*size = rssize;
bool ok = true;
/* ready to load */
RsCacheConfig *item = new RsCacheConfig();
item->clear();
/* skip the header */
offset += 8;
/* get mandatory parts first */
ok &= GetTlvString(data, rssize, &offset, TLV_TYPE_STR_PEERID, item->pid);
ok &= getRawUInt16(data, rssize, &offset, &(item->cachetypeid));
ok &= getRawUInt16(data, rssize, &offset, &(item->cachesubid));
ok &= GetTlvString(data, rssize, &offset, TLV_TYPE_STR_PATH, item->path);
ok &= GetTlvString(data, rssize, &offset, TLV_TYPE_STR_NAME, item->name);
ok &= GetTlvString(data, rssize, &offset, TLV_TYPE_STR_HASH_SHA1, item->hash);
ok &= getRawUInt64(data, rssize, &offset, &(item->size));
ok &= getRawUInt32(data, rssize, &offset, &(item->recvd));
if (offset != rssize)
{
/* error */
delete item;
return NULL;
}
return item;
}