basic structure of GxsNetTunnelService

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csoler 2018-03-15 17:46:21 +01:00
parent 04dc764339
commit 076309133b
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3 changed files with 231 additions and 31 deletions

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@ -0,0 +1,175 @@
/*
* libretroshare/src/gxs: rsgxsnettunnel.cc
*
* General Data service, interface for RetroShare.
*
* Copyright 2018-2018 by Cyril Soler
*
* 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.project@gmail.com"
*
*/
#include "rsgxsnettunnel.h"
#define DEBUG_RSGXSNETTUNNEL 1
#define NOT_IMPLEMENTED() { std::cerr << __PRETTY_FUNCTION__ << ": not yet implemented." << std::endl; }
RsGxsNetTunnelService::RsGxsNetTunnelService(): mGxsNetTunnelMtx("GxsNetTunnel") {}
bool RsGxsNetTunnelService::manage(const RsGxsGroupId& group_id)
{
RsFileHash hash = calculateGroupHash(group_id) ;
RsStackMutex stack(mGxsNetTunnelMtx); /********** STACK LOCKED MTX ******/
RsGxsNetTunnelGroupInfo& info(mClientGroups[group_id]) ;
time_t now = time(NULL) ;
if(info.group_status == RsGxsNetTunnelGroupInfo::RS_GXS_NET_TUNNEL_GRP_STATUS_VPIDS_AVAILABLE)
return true;
info.hash = hash ;
info.last_contact = now ;
info.group_status = RsGxsNetTunnelGroupInfo::RS_GXS_NET_TUNNEL_GRP_STATUS_TUNNELS_REQUESTED;
#ifdef DEBUG_GXS_TUNNEL
std::cerr << "Starting distant chat to " << to_gxs_id << ", hash = " << hash << ", from " << from_gxs_id << std::endl;
std::cerr << "Asking turtle router to monitor tunnels for hash " << hash << std::endl;
#endif
// Now ask the turtle router to manage a tunnel for that hash.
mTurtle->monitorTunnels(hash,this,false) ;
return true;
}
bool RsGxsNetTunnelService::release(const RsGxsGroupId& group_id)
{
RsStackMutex stack(mGxsNetTunnelMtx); /********** STACK LOCKED MTX ******/
// Here we need to clean the stuff that was created by this group id.
auto it = mClientGroups.find(group_id) ;
if(it == mClientGroups.end())
{
std::cerr << "RsGxsNetTunnelService::release(): Weird. Cannot release client group " << group_id << " that is not known." << std::endl;
return false ;
}
mClientGroups.erase(it) ;
return true ;
}
bool RsGxsNetTunnelService::sendData(const unsigned char *data,uint32_t size,const RsGxsNetTunnelVirtualPeerId& virtual_peer)
{
// The data is encrypted using chacha20+SHA256 and sent to the turtle router.
NOT_IMPLEMENTED();
return false ;
}
bool RsGxsNetTunnelService::getVirtualPeers(const RsGxsGroupId&, std::list<RsPeerId>& peers)
{
// returns the virtual peers for this group
NOT_IMPLEMENTED();
return false ;
}
RsGxsNetTunnelVirtualPeerInfo RsGxsNetTunnelService::makeVirtualPeerIdForGroup(const RsGxsGroupId&) const
{
NOT_IMPLEMENTED();
return RsGxsNetTunnelVirtualPeerInfo();
}
void RsGxsNetTunnelService::dump() const
{
NOT_IMPLEMENTED();
}
//===========================================================================================================================================//
// Interaction with Turtle Router //
//===========================================================================================================================================//
void RsGxsNetTunnelService::connectToTurtleRouter(p3turtle *tr)
{
mTurtle = tr ;
mTurtle->registerTunnelService(this) ;
}
bool RsGxsNetTunnelService::handleTunnelRequest(const RsFileHash &hash,const RsPeerId& peer_id)
{
NOT_IMPLEMENTED();
return false ;
}
void RsGxsNetTunnelService::receiveTurtleData(RsTurtleGenericTunnelItem *item,const RsFileHash& hash,const RsPeerId& virtual_peer_id,RsTurtleGenericTunnelItem::Direction direction)
{
NOT_IMPLEMENTED();
}
void RsGxsNetTunnelService::addVirtualPeer(const TurtleFileHash&, const TurtleVirtualPeerId&,RsTurtleGenericTunnelItem::Direction dir)
{
NOT_IMPLEMENTED();
}
void RsGxsNetTunnelService::removeVirtualPeer(const TurtleFileHash&, const TurtleVirtualPeerId&)
{
NOT_IMPLEMENTED();
}
RsFileHash RsGxsNetTunnelService::calculateGroupHash(const RsGxsGroupId&) const
{
NOT_IMPLEMENTED();
return RsFileHash() ;
}
//===========================================================================================================================================//
// Service parts //
//===========================================================================================================================================//
#ifdef TODO
void RsGxsNetTunnelService::handleIncomingItem(const RsGxsTunnelId& tunnel_id,RsGxsTunnelItem *item)
{
if(item == NULL)
return ;
// We have 3 things to do:
//
// 1 - if it's a data item, send an ACK
// 2 - if it's an ack item, mark the item as properly received, and remove it from the queue
// 3 - if it's a status item, act accordingly.
switch(item->PacketSubType())
{
case RS_PKT_SUBTYPE_GXS_TUNNEL_DATA: handleRecvTunnelDataItem(tunnel_id,dynamic_cast<RsGxsTunnelDataItem*>(item)) ;
break ;
case RS_PKT_SUBTYPE_GXS_TUNNEL_DATA_ACK: handleRecvTunnelDataAckItem(tunnel_id,dynamic_cast<RsGxsTunnelDataAckItem*>(item)) ;
break ;
case RS_PKT_SUBTYPE_GXS_TUNNEL_STATUS: handleRecvStatusItem(tunnel_id,dynamic_cast<RsGxsTunnelStatusItem*>(item)) ;
break ;
default:
std::cerr << "(EE) impossible situation. DH items should be handled at the service level" << std::endl;
}
delete item ;
}
#endif

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@ -3,7 +3,7 @@
*
* General Data service, interface for RetroShare.
*
* Copyright 2011-2011 by Robert Fernie, Evi-Parker Christopher
* Copyright 2018-2018 by Cyril Soler
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
@ -36,27 +36,33 @@
* is already available at friends or not.
*/
// Proposed protocol:
// Protocol:
// * request tunnels based on H(GroupId)
// * encrypt tunnel data using chacha20+HMAC-SHA256 using AEAD( GroupId, 96bits IV, tunnel ID ) (similar to what FT does)
// * when tunnel is established, exchange virtual peer names: vpid = H( GroupID | Random bias )
// * when vpid is known, notify the client (GXS net service) which can use the virtual peer to sync
//
// * only use a single tunnel per virtual peer ID
//
// Client ------------------ TR(H(GroupId)) --------------> Server
//
// Client <-------------------- T OK ---------------------- Server
//
// Here, a turtle vpid is known
//
// [Encrypted traffic using H(GroupId, 96bits IV, tunnel ID)]
//
// Client <--------- VPID = H( Random IV | GroupId ) ------ Server
// | |
// +--------------> Mark the virtual peer active <-----------+
//
// Here, a consistent virtual peer ID is known
// -
// Client ------------------ TR(H(GroupId)) --------------> Server |
// | Turtle
// Client <-------------------- T OK ---------------------- Server |
// -
// Here, a turtle vpid is known | [ addVirtualPeer() called by turtle ]
// -
// [Encrypted traffic using H(GroupId | Tunnel ID, 96bits IV)] |
// |
// Client <--------- VPID = H( Random IV | GroupId ) ------ Server |
// | | |
// +--------------> Mark the virtual peer active <-----------+ | Encrypted traffic decoded locally and sorted
// |
// Here, a consistent virtual peer ID is known |
// |
// Client <------------------- GXS Data ------------------> Server |
// -
// Notes:
// * tunnels are only used one-way. If a distant peers wants to sync the same group, he'll have to open his own tunnel, with a different ID.
// * each group will produced multiple tunnels, but each tunnel with have exactly one virtual peer ID
typedef RsPeerId RsGxsNetTunnelVirtualPeerId ;
@ -67,40 +73,47 @@ struct RsGxsNetTunnelVirtualPeerInfo
RS_GXS_NET_TUNNEL_VP_STATUS_ACTIVE = 0x02 // virtual peer id is known. Data can transfer.
};
RsGxsNetTunnelVirtualPeerInfo() : vpid_status(RS_GXS_NET_TUNNEL_VP_STATUS_UNKNOWN) { memset(encryption_master_key,0,16) ; }
uint8_t vpid_status ;
RsGxsNetTunnelVirtualPeerId net_service_virtual_peer ;
uint8_t side ; // client/server
uint8_t encryption_master_key[16] ; // key from which the encryption key is derived for each virtual peer (using H(master_key | random IV))
time_t last_contact ; // last time some data was sent/recvd
};
struct RsGxsNetTunnelInfo
struct RsGxsNetTunnelGroupInfo
{
enum { RS_GXS_NET_TUNNEL_GRP_STATUS_UNKNOWN = 0x00, // unknown status
RS_GXS_NET_TUNNEL_GRP_STATUS_TUNNELS_REQUESTED = 0x01, // waiting for turtle to send some virtual peers.
RS_GXS_NET_TUNNEL_GRP_STATUS_VPIDS_AVAILABLE = 0x02 // some virtual peers are available
};
RsGxsNetTunnelGroupInfo() : group_status(RS_GXS_NET_TUNNEL_GRP_STATUS_UNKNOWN),last_contact(0) {}
uint8_t group_status ;
uint8_t encryption_master_key[16] ; // key from which the encryption key is derived for each virtual peer (using H(master_key | random IV))
time_t last_contact ;
TurtleFileHash hash ;
std::map<TurtleVirtualPeerId, RsGxsNetTunnelVirtualPeerInfo> virtual_peers ;
};
class RsGxsNetTunnelService
class RsGxsNetTunnelService: public RsTurtleClientService
{
public:
RsGxsNetTunnelService() {}
RsGxsNetTunnelService() ;
/*!
* \brief start managing tunnels for this group
* @param group_id group for which tunnels should be requested
*/
bool manageTunnels(const RsGxsGroupId&) ;
bool manage(const RsGxsGroupId& group_id) ;
/*!
* \brief Stop managing tunnels for this group
* @param group_id group for which tunnels should be released
*/
bool releaseTunnels(const RsGxsGroupId&) ;
bool release(const RsGxsGroupId&group_id) ;
/*!
* sends data to this virtual peer ID
@ -123,9 +136,19 @@ public:
// - method to respond to tunnel requests, probably using RsGxsNetService
// - method to encrypt/decrypt data and send/receive to/from turtle.
virtual void connectToTurtleRouter(p3turtle *tr) ;
protected:
// interaction with turtle router
virtual bool handleTunnelRequest(const RsFileHash &hash,const RsPeerId& peer_id) ;
virtual void receiveTurtleData(RsTurtleGenericTunnelItem *item,const RsFileHash& hash,const RsPeerId& virtual_peer_id,RsTurtleGenericTunnelItem::Direction direction) ;
void addVirtualPeer(const TurtleFileHash&, const TurtleVirtualPeerId&,RsTurtleGenericTunnelItem::Direction dir) ;
void removeVirtualPeer(const TurtleFileHash&, const TurtleVirtualPeerId&) ;
p3turtle *mTurtle ;
private:
std::map<RsGxsGroupId,RsGxsNetTunnelInfo> mClientGroups ; // groups on the client side
std::map<RsGxsGroupId,RsGxsNetTunnelInfo> mServerGroups ; // groups on the server side
std::map<RsGxsGroupId,RsGxsNetTunnelGroupInfo> mClientGroups ; // groups on the client side
std::map<RsGxsGroupId,RsGxsNetTunnelGroupInfo> mServerGroups ; // groups on the server side
std::map<RsGxsNetTunnelVirtualPeerId, std::pair<RsGxsGroupId,TurtleVirtualPeerId> > mVirtualPeers ;
@ -134,7 +157,7 @@ private:
* hide the real group id.
*/
RsFileHash makeRequestHash(const RsGxsGroupId&) const ;
RsFileHash calculateGroupHash(const RsGxsGroupId&) const ;
/*!
* \brief makeVirtualPeerIdForGroup creates a virtual peer id that can be used and that will be constant accross time, whatever the
@ -144,5 +167,7 @@ private:
RsGxsNetTunnelVirtualPeerInfo makeVirtualPeerIdForGroup(const RsGxsGroupId&) const ;
uint8_t mRandomBias[16] ; // constant accross reboots. Allows to disguise the real SSL id while providing a consistent value accross time.
RsMutex mGxsNetTunnelMtx;
};