RetroShare/libretroshare/src/turtle/rsturtleitem.cc
2009-08-25 12:04:43 +00:00

745 lines
20 KiB
C++

#ifndef WINDOWS_SYS
#include <stdexcept>
#endif
#include <iostream>
#include "turtletypes.h"
#include "rsturtleitem.h"
// -----------------------------------------------------------------------------------//
// -------------------------------- Serialization. --------------------------------- //
// -----------------------------------------------------------------------------------//
//
//
// ---------------------------------- Packet sizes -----------------------------------//
//
uint32_t RsTurtleStringSearchRequestItem::serial_size()
{
uint32_t s = 0 ;
s += 8 ; // header
s += 4 ; // request_id
s += 2 ; // depth
s += GetTlvStringSize(match_string) ; // match_string
return s ;
}
uint32_t RsTurtleRegExpSearchRequestItem::serial_size()
{
uint32_t s = 0 ;
s += 8 ; // header
s += 4 ; // request_id
s += 2 ; // depth
s += 4 ; // number of strings
for(uint i=0;i<expr._strings.size();++i)
s += GetTlvStringSize(expr._strings[i]) ;
s += 4 ; // number of ints
s += 4 * expr._ints.size() ;
s += 4 ; // number of tokens
s += expr._tokens.size() ; // uint8_t has size 1
return s ;
}
uint32_t RsTurtleSearchResultItem::serial_size()
{
uint32_t s = 0 ;
s += 8 ; // header
s += 4 ; // search request id
s += 2 ; // depth
s += 4 ; // number of results
for(std::list<TurtleFileInfo>::const_iterator it(result.begin());it!=result.end();++it)
{
s += 8 ; // file size
s += GetTlvStringSize(it->hash) ; // file hash
s += GetTlvStringSize(it->name) ; // file name
}
return s ;
}
uint32_t RsTurtleOpenTunnelItem::serial_size()
{
uint32_t s = 0 ;
s += 8 ; // header
s += GetTlvStringSize(file_hash) ; // file hash
s += 4 ; // tunnel request id
s += 4 ; // partial tunnel id
s += 2 ; // depth
return s ;
}
uint32_t RsTurtleTunnelOkItem::serial_size()
{
uint32_t s = 0 ;
s += 8 ; // header
s += 4 ; // tunnel id
s += 4 ; // tunnel request id
return s ;
}
uint32_t RsTurtleFileRequestItem::serial_size()
{
uint32_t s = 0 ;
s += 8 ; // header
s += 4 ; // tunnel id
s += 8 ; // file offset
s += 4 ; // chunk size
return s ;
}
uint32_t RsTurtleFileDataItem::serial_size()
{
uint32_t s = 0 ;
s += 8 ; // header
s += 4 ; // tunnel id
s += 8 ; // file offset
s += 4 ; // chunk size
s += chunk_size ; // actual data size.
return s ;
}
//
// ---------------------------------- Serialization ----------------------------------//
//
RsItem *RsTurtleSerialiser::deserialise(void *data, uint32_t *size)
{
// look what we have...
/* get the type */
uint32_t rstype = getRsItemId(data);
#ifdef P3TURTLE_DEBUG
std::cerr << "p3turtle: deserialising packet: " << std::endl ;
#endif
if ((RS_PKT_VERSION_SERVICE != getRsItemVersion(rstype)) || (RS_SERVICE_TYPE_TURTLE != getRsItemService(rstype)))
{
#ifdef P3TURTLE_DEBUG
std::cerr << " Wrong type !!" << std::endl ;
#endif
return NULL; /* wrong type */
}
#ifndef WINDOWS_SYS
try
{
#endif
switch(getRsItemSubType(rstype))
{
case RS_TURTLE_SUBTYPE_STRING_SEARCH_REQUEST : return new RsTurtleStringSearchRequestItem(data,*size) ;
case RS_TURTLE_SUBTYPE_REGEXP_SEARCH_REQUEST : return new RsTurtleRegExpSearchRequestItem(data,*size) ;
case RS_TURTLE_SUBTYPE_SEARCH_RESULT : return new RsTurtleSearchResultItem(data,*size) ;
case RS_TURTLE_SUBTYPE_OPEN_TUNNEL : return new RsTurtleOpenTunnelItem(data,*size) ;
case RS_TURTLE_SUBTYPE_TUNNEL_OK : return new RsTurtleTunnelOkItem(data,*size) ;
case RS_TURTLE_SUBTYPE_FILE_REQUEST : return new RsTurtleFileRequestItem(data,*size) ;
case RS_TURTLE_SUBTYPE_FILE_DATA : return new RsTurtleFileDataItem(data,*size) ;
default:
std::cerr << "Unknown packet type in RsTurtle!" << std::endl ;
return NULL ;
}
#ifndef WINDOWS_SYS
}
catch(std::exception& e)
{
std::cerr << "Exception raised: " << e.what() << std::endl ;
return NULL ;
}
#endif
}
bool RsTurtleStringSearchRequestItem::serialize(void *data,uint32_t& pktsize)
{
uint32_t tlvsize = serial_size();
uint32_t offset = 0;
if (pktsize < tlvsize)
return false; /* not enough space */
pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data,tlvsize,PacketId(), tlvsize);
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_VALUE, match_string);
ok &= setRawUInt32(data, tlvsize, &offset, request_id);
ok &= setRawUInt16(data, tlvsize, &offset, depth);
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsFileConfigSerialiser::serialiseTransfer() Size Error! " << std::endl;
#endif
}
return ok;
}
bool RsTurtleRegExpSearchRequestItem::serialize(void *data,uint32_t& pktsize)
{
uint32_t tlvsize = serial_size();
uint32_t offset = 0;
#ifdef P3TURTLE_DEBUG
std::cerr << "RsTurtleSerialiser::serialising RegExp search packet (size=" << tlvsize << ")" << std::endl;
#endif
if (pktsize < tlvsize)
return false; /* not enough space */
pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data,tlvsize,PacketId(), tlvsize);
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= setRawUInt32(data, tlvsize, &offset, request_id);
ok &= setRawUInt16(data, tlvsize, &offset, depth);
// now serialize the regexp
ok &= setRawUInt32(data,tlvsize,&offset,expr._tokens.size()) ;
for(uint i=0;i<expr._tokens.size();++i) ok &= setRawUInt8(data,tlvsize,&offset,expr._tokens[i]) ;
ok &= setRawUInt32(data,tlvsize,&offset,expr._ints.size()) ;
for(uint i=0;i<expr._ints.size();++i) ok &= setRawUInt32(data,tlvsize,&offset,expr._ints[i]) ;
ok &= setRawUInt32(data,tlvsize,&offset,expr._strings.size()) ;
for(uint i=0;i<expr._strings.size();++i) ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_VALUE, expr._strings[i]);
if (offset != tlvsize)
{
ok = false;
#ifdef P3TURTLE_DEBUG
std::cerr << "RsTurtleSerialiser::serialiseTransfer() Size Error! (offset=" << offset << ", tlvsize=" << tlvsize << ")" << std::endl;
#endif
}
return ok;
}
RsTurtleStringSearchRequestItem::RsTurtleStringSearchRequestItem(void *data,uint32_t pktsize)
: RsTurtleSearchRequestItem(RS_TURTLE_SUBTYPE_STRING_SEARCH_REQUEST)
{
#ifdef P3TURTLE_DEBUG
std::cerr << " deserializibg packet. type = search request (string)" << std::endl ;
#endif
uint32_t offset = 8; // skip the header
uint32_t rssize = getRsItemSize(data);
bool ok = true ;
ok &= GetTlvString(data, pktsize, &offset, TLV_TYPE_STR_VALUE, match_string); // file hash
ok &= getRawUInt32(data, pktsize, &offset, &request_id);
ok &= getRawUInt16(data, pktsize, &offset, &depth);
#ifdef WINDOWS_SYS // No Exceptions in Windows compile. (drbobs).
#else
if (offset != rssize)
throw std::runtime_error("Size error while deserializing.") ;
if (!ok)
throw std::runtime_error("Unknown error while deserializing.") ;
#endif
}
RsTurtleRegExpSearchRequestItem::RsTurtleRegExpSearchRequestItem(void *data,uint32_t pktsize)
: RsTurtleSearchRequestItem(RS_TURTLE_SUBTYPE_REGEXP_SEARCH_REQUEST)
{
#ifdef P3TURTLE_DEBUG
std::cerr << " deserializibg packet. type = search request (regexp)" << std::endl ;
#endif
uint32_t offset = 8; // skip the header
uint32_t rssize = getRsItemSize(data);
bool ok = true ;
ok &= getRawUInt32(data, pktsize, &offset, &request_id);
ok &= getRawUInt16(data, pktsize, &offset, &depth);
// now serialize the regexp
uint32_t n =0 ;
ok &= getRawUInt32(data,pktsize,&offset,&n) ;
expr._tokens.resize(n) ;
for(uint i=0;i<n;++i) ok &= getRawUInt8(data,pktsize,&offset,&expr._tokens[i]) ;
ok &= getRawUInt32(data,pktsize,&offset,&n) ;
expr._ints.resize(n) ;
for(uint i=0;i<n;++i) ok &= getRawUInt32(data,pktsize,&offset,&expr._ints[i]) ;
ok &= getRawUInt32(data,pktsize,&offset,&n) ;
expr._strings.resize(n) ;
for(uint i=0;i<n;++i) ok &= GetTlvString(data, pktsize, &offset, TLV_TYPE_STR_VALUE, expr._strings[i]);
#ifdef WINDOWS_SYS // No Exceptions in Windows compile. (drbobs).
#else
if (offset != rssize)
throw std::runtime_error("Size error while deserializing.") ;
if (!ok)
throw std::runtime_error("Unknown error while deserializing.") ;
#endif
}
bool RsTurtleSearchResultItem::serialize(void *data,uint32_t& pktsize)
{
uint32_t tlvsize = serial_size();
uint32_t offset = 0;
if (pktsize < tlvsize)
return false; /* not enough space */
pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data,tlvsize,PacketId(), tlvsize);
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= setRawUInt32(data, tlvsize, &offset, request_id);
ok &= setRawUInt16(data, tlvsize, &offset, depth);
ok &= setRawUInt32(data, tlvsize, &offset, result.size());
for(std::list<TurtleFileInfo>::const_iterator it(result.begin());it!=result.end();++it)
{
ok &= setRawUInt64(data, tlvsize, &offset, it->size); // file size
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_HASH_SHA1, it->hash); // file hash
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_NAME, it->name); // file name
}
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsFileConfigSerialiser::serialiseTransfer() Size Error! " << std::endl;
#endif
}
return ok;
}
RsTurtleSearchResultItem::RsTurtleSearchResultItem(void *data,uint32_t pktsize)
: RsTurtleItem(RS_TURTLE_SUBTYPE_SEARCH_RESULT)
{
#ifdef P3TURTLE_DEBUG
std::cerr << " type = search result" << std::endl ;
#endif
uint32_t offset = 8; // skip the header
uint32_t rssize = getRsItemSize(data);
/* add mandatory parts first */
bool ok = true ;
uint32_t s ;
ok &= getRawUInt32(data, pktsize, &offset, &request_id);
ok &= getRawUInt16(data, pktsize, &offset, &depth);
ok &= getRawUInt32(data, pktsize, &offset, &s) ;
#ifdef P3TURTLE_DEBUG
std::cerr << " request_id=" << request_id << ", depth=" << depth << ", s=" << s << std::endl ;
#endif
result.clear() ;
for(int i=0;i<(int)s;++i)
{
TurtleFileInfo f ;
ok &= getRawUInt64(data, pktsize, &offset, &(f.size)); // file size
ok &= GetTlvString(data, pktsize, &offset, TLV_TYPE_STR_HASH_SHA1, f.hash); // file hash
ok &= GetTlvString(data, pktsize, &offset, TLV_TYPE_STR_NAME, f.name); // file name
result.push_back(f) ;
}
#ifdef WINDOWS_SYS // No Exceptions in Windows compile. (drbobs).
#else
if (offset != rssize)
throw std::runtime_error("Size error while deserializing.") ;
if (!ok)
throw std::runtime_error("Unknown error while deserializing.") ;
#endif
}
bool RsTurtleOpenTunnelItem::serialize(void *data,uint32_t& pktsize)
{
uint32_t tlvsize = serial_size();
uint32_t offset = 0;
if (pktsize < tlvsize)
return false; /* not enough space */
pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data,tlvsize,PacketId(), tlvsize);
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= SetTlvString(data, tlvsize, &offset, TLV_TYPE_STR_HASH_SHA1, file_hash); // file hash
ok &= setRawUInt32(data, tlvsize, &offset, request_id);
ok &= setRawUInt32(data, tlvsize, &offset, partial_tunnel_id);
ok &= setRawUInt16(data, tlvsize, &offset, depth);
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsTurtleOpenTunnelItem::serialiseTransfer() Size Error! " << std::endl;
#endif
}
return ok;
}
RsTurtleOpenTunnelItem::RsTurtleOpenTunnelItem(void *data,uint32_t pktsize)
: RsTurtleItem(RS_TURTLE_SUBTYPE_OPEN_TUNNEL)
{
#ifdef P3TURTLE_DEBUG
std::cerr << " type = open tunnel" << std::endl ;
#endif
uint32_t offset = 8; // skip the header
uint32_t rssize = getRsItemSize(data);
/* add mandatory parts first */
bool ok = true ;
ok &= GetTlvString(data, pktsize, &offset, TLV_TYPE_STR_HASH_SHA1, file_hash); // file hash
ok &= getRawUInt32(data, pktsize, &offset, &request_id);
ok &= getRawUInt32(data, pktsize, &offset, &partial_tunnel_id) ;
ok &= getRawUInt16(data, pktsize, &offset, &depth);
#ifdef P3TURTLE_DEBUG
std::cerr << " request_id=" << (void*)request_id << ", partial_id=" << (void*)partial_tunnel_id << ", depth=" << depth << ", hash=" << file_hash << std::endl ;
#endif
#ifdef WINDOWS_SYS // No Exceptions in Windows compile. (drbobs).
#else
if (offset != rssize)
throw std::runtime_error("RsTurtleOpenTunnelItem::() error while deserializing.") ;
if (!ok)
throw std::runtime_error("RsTurtleOpenTunnelItem::() unknown error while deserializing.") ;
#endif
}
bool RsTurtleTunnelOkItem::serialize(void *data,uint32_t& pktsize)
{
uint32_t tlvsize = serial_size();
uint32_t offset = 0;
if (pktsize < tlvsize)
return false; /* not enough space */
pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data,tlvsize,PacketId(), tlvsize);
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= setRawUInt32(data, tlvsize, &offset, tunnel_id);
ok &= setRawUInt32(data, tlvsize, &offset, request_id);
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsTurtleTunnelOkItem::serialiseTransfer() Size Error! " << std::endl;
#endif
}
return ok;
}
RsTurtleTunnelOkItem::RsTurtleTunnelOkItem(void *data,uint32_t pktsize)
: RsTurtleItem(RS_TURTLE_SUBTYPE_TUNNEL_OK)
{
#ifdef P3TURTLE_DEBUG
std::cerr << " type = tunnel ok" << std::endl ;
#endif
uint32_t offset = 8; // skip the header
uint32_t rssize = getRsItemSize(data);
/* add mandatory parts first */
bool ok = true ;
ok &= getRawUInt32(data, pktsize, &offset, &tunnel_id) ;
ok &= getRawUInt32(data, pktsize, &offset, &request_id);
#ifdef P3TURTLE_DEBUG
std::cerr << " request_id=" << (void*)request_id << ", tunnel_id=" << (void*)tunnel_id << std::endl ;
#endif
#ifdef WINDOWS_SYS // No Exceptions in Windows compile. (drbobs).
#else
if (offset != rssize)
throw std::runtime_error("RsTurtleTunnelOkItem::() error while deserializing.") ;
if (!ok)
throw std::runtime_error("RsTurtleTunnelOkItem::() unknown error while deserializing.") ;
#endif
}
bool RsTurtleFileRequestItem::serialize(void *data,uint32_t& pktsize)
{
uint32_t tlvsize = serial_size();
uint32_t offset = 0;
if (pktsize < tlvsize)
return false; /* not enough space */
pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data,tlvsize,PacketId(), tlvsize);
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= setRawUInt32(data, tlvsize, &offset, tunnel_id) ;
ok &= setRawUInt64(data, tlvsize, &offset, chunk_offset);
ok &= setRawUInt32(data, tlvsize, &offset, chunk_size);
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsTurtleTunnelOkItem::serialiseTransfer() Size Error! " << std::endl;
#endif
}
return ok;
}
RsTurtleFileRequestItem::RsTurtleFileRequestItem(void *data,uint32_t pktsize)
: RsTurtleItem(RS_TURTLE_SUBTYPE_FILE_REQUEST)
{
#ifdef P3TURTLE_DEBUG
std::cerr << " type = file request" << std::endl ;
#endif
uint32_t offset = 8; // skip the header
uint32_t rssize = getRsItemSize(data);
/* add mandatory parts first */
bool ok = true ;
ok &= getRawUInt32(data, pktsize, &offset, &tunnel_id) ;
ok &= getRawUInt64(data, pktsize, &offset, &chunk_offset);
ok &= getRawUInt32(data, pktsize, &offset, &chunk_size);
#ifdef P3TURTLE_DEBUG
std::cerr << " tunnel_id=" << (void*)tunnel_id << ", chunk_offset=" << chunk_offset << ", chunk_size=" << chunk_size << std::endl ;
#endif
#ifdef WINDOWS_SYS // No Exceptions in Windows compile. (drbobs).
#else
if (offset != rssize)
throw std::runtime_error("RsTurtleTunnelOkItem::() error while deserializing.") ;
if (!ok)
throw std::runtime_error("RsTurtleTunnelOkItem::() unknown error while deserializing.") ;
#endif
}
RsTurtleFileDataItem::~RsTurtleFileDataItem()
{
free(chunk_data) ;
}
RsTurtleFileDataItem::RsTurtleFileDataItem(void *data,uint32_t pktsize)
: RsTurtleItem(RS_TURTLE_SUBTYPE_FILE_DATA)
{
#ifdef P3TURTLE_DEBUG
std::cerr << " type = file request" << std::endl ;
#endif
uint32_t offset = 8; // skip the header
uint32_t rssize = getRsItemSize(data);
/* add mandatory parts first */
bool ok = true ;
ok &= getRawUInt32(data, pktsize, &offset, &tunnel_id) ;
ok &= getRawUInt64(data, pktsize, &offset, &chunk_offset);
ok &= getRawUInt32(data, pktsize, &offset, &chunk_size);
chunk_data = (void*)malloc(chunk_size) ;
memcpy(chunk_data,(void*)((unsigned char*)data+offset),chunk_size) ;
offset += chunk_size ;
#ifdef P3TURTLE_DEBUG
std::cerr << " tunnel_id=" << (void*)tunnel_id << ", chunk_offset=" << chunk_offset << ", chunk_size=" << chunk_size << std::endl ;
#endif
#ifdef WINDOWS_SYS // No Exceptions in Windows compile. (drbobs).
#else
if (offset != rssize)
throw std::runtime_error("RsTurtleFileDataItem::() error while deserializing.") ;
if (!ok)
throw std::runtime_error("RsTurtleFileDataItem::() unknown error while deserializing.") ;
#endif
}
bool RsTurtleFileDataItem::serialize(void *data,uint32_t& pktsize)
{
uint32_t tlvsize = serial_size();
uint32_t offset = 0;
if (pktsize < tlvsize)
return false; /* not enough space */
pktsize = tlvsize;
bool ok = true;
ok &= setRsItemHeader(data,tlvsize,PacketId(), tlvsize);
/* skip the header */
offset += 8;
/* add mandatory parts first */
ok &= setRawUInt32(data, tlvsize, &offset, tunnel_id) ;
ok &= setRawUInt64(data, tlvsize, &offset, chunk_offset);
ok &= setRawUInt32(data, tlvsize, &offset, chunk_size);
memcpy((void*)((unsigned char*)data+offset),chunk_data,chunk_size) ;
offset += chunk_size ;
if (offset != tlvsize)
{
ok = false;
#ifdef RSSERIAL_DEBUG
std::cerr << "RsTurtleTunnelOkItem::serialiseTransfer() Size Error! " << std::endl;
#endif
}
return ok;
}
// -----------------------------------------------------------------------------------//
// ------------------------------------- IO --------------------------------------- //
// -----------------------------------------------------------------------------------//
//
std::ostream& RsTurtleStringSearchRequestItem::print(std::ostream& o, uint16_t)
{
o << "Search request (string):" << std::endl ;
o << " direct origin: \"" << PeerId() << "\"" << std::endl ;
o << " match string: \"" << match_string << "\"" << std::endl ;
o << " Req. Id: " << (void *)request_id << std::endl ;
o << " Depth : " << depth << std::endl ;
return o ;
}
std::ostream& RsTurtleRegExpSearchRequestItem::print(std::ostream& o, uint16_t)
{
o << "Search request (regexp):" << std::endl ;
o << " direct origin: \"" << PeerId() << "\"" << std::endl ;
o << " Req. Id: " << (void *)request_id << std::endl ;
o << " Depth : " << depth << std::endl ;
o << " RegExp: " << std::endl ;
o << " Toks: " ; for(uint i=0;i<expr._tokens.size();++i) std::cout << (int)expr._tokens[i] << " " ; std::cout << std::endl ;
o << " Ints: " ; for(uint i=0;i<expr._ints.size();++i) std::cout << (int)expr._ints[i] << " " ; std::cout << std::endl ;
o << " Strs: " ; for(uint i=0;i<expr._strings.size();++i) std::cout << expr._strings[i] << " " ; std::cout << std::endl ;
return o ;
}
std::ostream& RsTurtleSearchResultItem::print(std::ostream& o, uint16_t)
{
o << "Search result:" << std::endl ;
o << " Peer id: " << PeerId() << std::endl ;
o << " Depth : " << depth << std::endl ;
o << " Req. Id: " << (void *)request_id << std::endl ;
o << " Files:" << std::endl ;
for(std::list<TurtleFileInfo>::const_iterator it(result.begin());it!=result.end();++it)
o << " " << it->hash << " " << it->size << " " << it->name << std::endl ;
return o ;
}
std::ostream& RsTurtleOpenTunnelItem::print(std::ostream& o, uint16_t)
{
o << "Open Tunnel:" << std::endl ;
o << " Peer id : " << PeerId() << std::endl ;
o << " Partial tId: " << (void *)partial_tunnel_id << std::endl ;
o << " Req. Id : " << (void *)request_id << std::endl ;
o << " Depth : " << depth << std::endl ;
o << " Hash : " << file_hash << std::endl ;
return o ;
}
std::ostream& RsTurtleTunnelOkItem::print(std::ostream& o, uint16_t)
{
o << "Tunnel Ok:" << std::endl ;
o << " Peer id : " << PeerId() << std::endl ;
o << " tunnel id : " << (void*)tunnel_id << std::endl ;
o << " Req. Id : " << (void *)request_id << std::endl ;
return o ;
}
std::ostream& RsTurtleFileRequestItem::print(std::ostream& o, uint16_t)
{
o << "File request item:" << std::endl ;
o << " tunnel id : " << (void*)tunnel_id << std::endl ;
o << " offset : " << chunk_offset << std::endl ;
o << " chunk size: " << chunk_size << std::endl ;
return o ;
}
std::ostream& RsTurtleFileDataItem::print(std::ostream& o, uint16_t)
{
o << "File request item:" << std::endl ;
o << " tunnel id : " << (void*)tunnel_id << std::endl ;
o << " offset : " << chunk_offset << std::endl ;
o << " chunk size: " << chunk_size << std::endl ;
o << " data : " << (void*)chunk_data << std::endl ;
return o ;
}