2013-11-02 10:35:33 -04:00
/*
* libretroshare / src / services : p3grouter . cc
*
* Services for RetroShare .
*
* Copyright 2013 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 " csoler@users.sourceforge.net " .
*
*/
2014-03-17 16:56:06 -04:00
////////////////////////////////////////////////////////////////////////////////////////////////////////////
//
// Decentralized routing
// =====================
//
// Use cases:
// - Peer A asks for B's key, for which he has the signature, or the ID.
// - Peer A wants to send a private msg to peer C, for which he has the public key
// - Peer A wants to contact a channel's owner, a group owner, a forum owner, etc.
// - Peer C needs to route msg/key requests from unknown peer, to unknown peer so that the information
// eventually reach their destination.
//
// Main idea: Each peer holds a local routing table, a matrix with probabilities that each friend
// is a correct path for a given key ID.
//
// The routing tables are updated as messages go back and forth. Successful
// interactions feed the routing table with information of where to route the
// packets.
//
// The routing is kept probabilistic, meaning that the optimal route is not
// always chosen, but the randomness helps updating the routing probabilities.
//
// Services that might use the router (All services really...)
// - Identity manager (p3Identity)
// - asks identities i.e. RSA public keys (i.e. sends dentity requests through router)
// - Messenger
// - sends/receives messages to distant peers
// - Channels, forums, posted, etc.
// - send messages to the origin of the channel/forum/posted
//
// GUI
// - a debug panel should show the routing info: probabilities for all known IDs
// - routing probabilities for a given ID accordign to who's connected
//
// Decentralized routing algorithm:
// - tick() method
2015-01-23 07:13:13 -05:00
// * calls send() and receive()
2014-03-17 16:56:06 -04:00
//
// - message passing
// - upward:
// * Forward msg to friends according to probabilities.
// * If all equal, send to all friends (or a rando subset of them).
// * keep the local routing info in a cache that is saved (Which peer issued the msg)
// - which probability was used to chose this friend (will be useful
// to compute the routing contribution if the msg is ACK-ed)
2014-03-29 10:18:05 -04:00
//
// Two probabilities are computed:
// - routing probabilities among connected friends
// * this is computed by the routing matrix
// - branching factor N
// * depends on the depth of the items
// * depends on the distribution of probabilities (min and max)
//
// Once computed,
// - the item is forwarded randomly to N peers drawn from the list of connected peers with the given probabilities.
// - the depth of the item is incremented randomly
2014-03-17 16:56:06 -04:00
//
// - downward: look into routing cache. If info not present, drop the item.
// Forward item into stored direction.
//
// - routing probability computation: count number of times a reliable info is obtained from
// which direction for which identity
// * the count is a floating point number, since weights can be assigned to each info
// (especially for importance sampling)
// * init: all friends have equal count of 0 (or 1, well, we'll have to make this right).
// * We use importance sampling, meaning that when peer relays a msg from ID:
// count[ID, peer] += 1.0 / importance
//
// ... where importance was the probability of chosing peer for the
// route upward.
//
// * probability of forward is proportional to count.
//
// - routing cache
// * this cache stores messages IDs (like turtle router) but is saved on disk
// * it is used to remember where to send back responses to messages, and
// with what probability the route was chosen.
// * cache items have a TTL and the cache is cleaned regularly.
//
// - routing matrix
// * the structure is fed by other services, when they receive key IDs.
// * stores for each identity the count of how many times each peer gave reliable info for that ID.
// That information should be enough to route packets in the correct direction.
// * saved to disk.
// * all contributions should have a time stamp. Regularly, the oldest contributions are removed.
//
// struct RoutingMatrixHitEntry
// {
// float weight ;
// time_t time_stamp ;
// }
// typedef std::map<std::string,std::list<RoutingMatrixHitEntry> > RSAKeyRoutingMap ;
//
// class RoutingMatrix
// {
// public:
// // Computes the routing probabilities for this id for the given list of friends.
// // the computation accounts for the time at which the info was received and the
// // weight of each routing hit record.
// //
// bool computeRoutingProbabilities(RSAKeyIDType id, const std::vector<SSLIdType>& friends,
// std::vector<float>& probas) const ;
//
// // Record one routing clue. The events can possibly be merged in time buckets.
// //
// bool addRoutingEvent(RSAKeyIDType id,const SSLIdType& which friend) ;
//
// private:
// std::map<RSAKeyIDType, RSAKeyRoutingMap> _known_keys ;
// };
//
// - Routed packets: we use a common packet type for all services:
//
// We need two abstract item types:
//
// * Data packet
// - packet unique ID (sha1, or uint64_t)
// - destination ID (for Dn packets, the destination is the source!)
// - packet type: Id request, Message, etc.
// - packet service ID (Can be messenging, channels, etc).
// - packet data (void* + size_t)
// - flags (such as ACK or response required, and packet direction)
2014-03-29 10:18:05 -04:00
// - routed directions and probabilities
2014-03-17 16:56:06 -04:00
// * ACK packet.
// - packet unique ID (the id of the corresponding data)
// - flags (reason for ACK. Could be data delivered, or error, too far, etc)
//
// - Data storage packets
// * We need storage packets for the matrix states.
// * General routing options info?
//
// - estimated memory cost
// For each identity, the matrix needs
// - hits for each friend peer with time stamps. That means 8 bytes per hit.
// That is for 1000 identities, having at most 100 hits each (We keep
// the hits below a maximum. 100 seems ok.), that is 1000*100*8 < 1MB. Not much.
//
// - Main difficulties:
// * have a good re-try strategy if a msg does not arrive.
// * handle peer availability. In forward mode: easy. In backward mode:
// difficult. We should wait, and send back the packet if possible.
// * robustness
// * security: avoid flooding, and message alteration.
//
// - Questions to be solved
// * how do we talk to other services?
// - keep a list of services?
//
// - in practice, services will need to send requests, and expect responses.
// * gxs (p3identity) asks for a key, gxs (p3identity) should get the key.
// * msg service wants to send a distant msg, or msg receives a distant msg.
//
// => we need abstract packets and service ids.
//
////////////////////////////////////////////////////////////////////////////////////////////////////////////
2015-01-23 15:04:23 -05:00
# include <unistd.h>
2014-03-31 17:21:11 -04:00
# include <math.h>
2013-11-02 10:35:33 -04:00
# include "util/rsrandom.h"
2015-01-11 17:18:28 -05:00
# include "util/rsprint.h"
2015-03-28 13:23:52 -04:00
# include "util/rsmemory.h"
2013-11-02 10:35:33 -04:00
# include "serialiser/rsconfigitems.h"
2015-01-11 17:18:28 -05:00
# include "services/p3idservice.h"
# include "turtle/p3turtle.h"
2015-03-14 10:33:23 -04:00
# include "gxs/rsgixs.h"
2013-11-02 10:35:33 -04:00
# include "p3grouter.h"
# include "grouteritems.h"
2013-11-08 17:22:40 -05:00
# include "groutertypes.h"
2013-12-24 11:41:07 -05:00
# include "grouterclientservice.h"
2013-11-02 10:35:33 -04:00
2014-03-29 19:03:04 -04:00
/**********************/
2014-04-21 09:13:00 -04:00
//#define GROUTER_DEBUG
2014-03-29 19:03:04 -04:00
/**********************/
2015-01-22 09:33:19 -05:00
static const uint32_t MAX_TUNNEL_WAIT_TIME = 60 ; // wait for 60 seconds at most for a tunnel response.
static const uint32_t MAX_TUNNEL_UNMANAGED_TIME = 600 ; // min time before retry tunnels for that msg.
static const uint32_t MAX_DELAY_BETWEEN_TWO_SEND = 120 ; // wait for 120 seconds before re-sending.
static const uint32_t TUNNEL_OK_WAIT_TIME = 10 ; // wait for 10 seconds after last tunnel ok, so that we have a complete set of tunnels.
2015-01-22 04:50:44 -05:00
static const uint32_t MAX_GROUTER_DATA_SIZE = 2 * 1024 * 1024 ; // 2MB size limit. This is of course arbitrary.
2015-01-23 07:13:13 -05:00
static const uint32_t MAX_RECEIPT_WAIT_TIME = 20 ; // wait for at most 20 secs for a receipt. If not, cancel.
2014-03-29 19:03:04 -04:00
2014-03-29 10:18:05 -04:00
const std : : string p3GRouter : : SERVICE_INFO_APP_NAME = " Global Router " ;
2015-03-14 10:33:23 -04:00
p3GRouter : : p3GRouter ( p3ServiceControl * sc , RsGixs * is )
: p3Service ( ) , p3Config ( ) , mServiceControl ( sc ) , mGixs ( is ) , grMtx ( " GRouter " )
2013-11-02 10:35:33 -04:00
{
addSerialType ( new RsGRouterSerialiser ( ) ) ;
2013-11-05 16:15:26 -05:00
2014-04-07 17:36:43 -04:00
_last_autowash_time = 0 ;
_last_debug_output_time = 0 ;
_last_config_changed = 0 ;
2014-04-11 17:56:10 -04:00
_last_matrix_update_time = 0 ;
2014-04-21 08:39:30 -04:00
_debug_enabled = true ;
2014-04-07 17:36:43 -04:00
_random_salt = RSRandom : : random_u64 ( ) ;
2013-12-28 16:47:15 -05:00
_changed = false ;
2013-11-02 10:35:33 -04:00
}
int p3GRouter : : tick ( )
{
time_t now = time ( NULL ) ;
2015-01-19 08:53:36 -05:00
routePendingObjects ( ) ;
2013-11-02 10:35:33 -04:00
2015-01-11 17:18:28 -05:00
// Go through the list of active tunnel requests and pending objects to ask for new tunnels
// or close existing tunnel requests.
//
handleTunnels ( ) ;
2013-11-05 16:15:26 -05:00
2014-04-11 17:56:10 -04:00
// Update routing matrix
2013-11-02 10:35:33 -04:00
//
2014-04-11 17:56:10 -04:00
if ( now > _last_matrix_update_time + RS_GROUTER_MATRIX_UPDATE_PERIOD )
2013-11-02 10:35:33 -04:00
{
2014-04-12 15:58:45 -04:00
RsStackMutex mtx ( grMtx ) ;
2014-04-11 17:56:10 -04:00
_last_matrix_update_time = now ;
2014-04-12 15:58:45 -04:00
_routing_matrix . updateRoutingProbabilities ( ) ; // This should be locked.
2013-11-02 10:35:33 -04:00
}
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2013-11-05 16:15:26 -05:00
// Debug dump everything
//
2014-04-07 17:36:43 -04:00
if ( now > _last_debug_output_time + RS_GROUTER_DEBUG_OUTPUT_PERIOD )
2013-11-05 16:15:26 -05:00
{
2014-04-07 17:36:43 -04:00
_last_debug_output_time = now ;
2014-04-13 15:27:50 -04:00
if ( _debug_enabled )
debugDump ( ) ;
2013-11-05 16:15:26 -05:00
}
2014-03-29 19:03:04 -04:00
# endif
2013-12-28 16:47:15 -05:00
// If content has changed, save config, at most every RS_GROUTER_MIN_CONFIG_SAVE_PERIOD seconds appart
// Otherwise, always save at least every RS_GROUTER_MAX_CONFIG_SAVE_PERIOD seconds
//
2014-04-07 17:36:43 -04:00
if ( _changed & & now > _last_config_changed + RS_GROUTER_MIN_CONFIG_SAVE_PERIOD )
2013-12-28 16:47:15 -05:00
{
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " p3GRouter::tick(): triggering config save. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-28 16:47:15 -05:00
_changed = false ;
2014-04-07 17:36:43 -04:00
_last_config_changed = now ;
2013-12-28 16:47:15 -05:00
IndicateConfigChanged ( ) ;
}
2013-11-02 10:35:33 -04:00
return 0 ;
}
2014-04-15 18:10:53 -04:00
time_t p3GRouter : : computeNextTimeDelay ( time_t stored_time )
{
// Computes the time to wait before re-sending the object, based on how long it has been stored already.
if ( stored_time < 2 * 60 ) return 10 ; // re-schedule every 10 secs for items not older than 2 mins. This ensures a rapid spread when peers are online.
if ( stored_time < 40 * 60 ) return 10 * 60 ; // then, try every 10 mins for 40 mins
if ( stored_time < 4 * 3600 ) return 3600 ; // then, try every hour for 4 hours
if ( stored_time < 10 * 24 * 3600 ) return 12 * 3600 ; // then, try every 12 hours for 10 days
if ( stored_time < 6 * 30 * 24 * 3600 ) return 5 * 86400 ; // then, try every 5 days for 6 months
return 6 * 30 * 86400 ; // default: try every 5 months
}
2013-11-02 10:35:33 -04:00
RsSerialiser * p3GRouter : : setupSerialiser ( )
{
RsSerialiser * rss = new RsSerialiser ;
rss - > addSerialType ( new RsGRouterSerialiser ) ;
rss - > addSerialType ( new RsGeneralConfigSerialiser ( ) ) ;
return rss ;
}
2015-01-11 17:18:28 -05:00
bool p3GRouter : : registerKey ( const RsGxsId & authentication_key , const GRouterServiceId & client_id , const std : : string & description )
2013-11-02 10:35:33 -04:00
{
2015-01-19 08:53:36 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2013-12-27 15:06:47 -05:00
2015-01-19 08:53:36 -05:00
if ( _registered_services . find ( client_id ) = = _registered_services . end ( ) )
{
2015-01-11 17:18:28 -05:00
std : : cerr < < __PRETTY_FUNCTION__ < < " : unable to register key " < < authentication_key < < " for client id " < < client_id < < " : client id is not known. " < < std : : endl ;
2015-01-19 08:53:36 -05:00
return false ;
}
2013-11-02 10:35:33 -04:00
2015-01-19 08:53:36 -05:00
GRouterPublishedKeyInfo info ;
info . service_id = client_id ;
2015-01-11 17:18:28 -05:00
info . authentication_key = authentication_key ;
info . description_string = description . substr ( 0 , 20 ) ;
2013-12-22 12:04:13 -05:00
2015-01-11 17:18:28 -05:00
Sha1CheckSum hash = makeTunnelHash ( authentication_key , client_id ) ;
2013-12-22 12:04:13 -05:00
2015-01-11 17:18:28 -05:00
_owned_key_ids [ hash ] = info ;
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
grouter_debug ( ) < < " Registered the following key: " < < std : : endl ;
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < " Auth GXS Id : " < < authentication_key < < std : : endl ;
2015-01-19 08:53:36 -05:00
grouter_debug ( ) < < " Client id : " < < std : : hex < < client_id < < std : : dec < < std : : endl ;
grouter_debug ( ) < < " Description : " < < info . description_string < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-11-02 10:35:33 -04:00
2015-01-19 08:53:36 -05:00
return true ;
2015-01-11 17:18:28 -05:00
}
bool p3GRouter : : unregisterKey ( const RsGxsId & key_id , const GRouterServiceId & sid )
{
2015-01-19 08:53:36 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2013-12-27 15:06:47 -05:00
2015-01-11 17:18:28 -05:00
Sha1CheckSum hash = makeTunnelHash ( key_id , sid ) ;
2013-12-22 12:04:13 -05:00
2015-01-11 17:18:28 -05:00
std : : map < Sha1CheckSum , GRouterPublishedKeyInfo > : : iterator it = _owned_key_ids . find ( hash ) ;
2013-12-22 12:04:13 -05:00
2015-01-11 17:18:28 -05:00
if ( it = = _owned_key_ids . end ( ) )
{
std : : cerr < < " p3GRouter::unregisterKey(): key " < < key_id < < " not found. " < < std : : endl ;
return false ;
}
2013-12-27 15:06:47 -05:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < " p3GRouter::unregistered the following key: " < < std : : endl ;
grouter_debug ( ) < < " Key id : " < < key_id . toStdString ( ) < < std : : endl ;
grouter_debug ( ) < < " Client id : " < < std : : hex < < it - > second . service_id < < std : : dec < < std : : endl ;
grouter_debug ( ) < < " Description : " < < it - > second . description_string < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-22 12:04:13 -05:00
2015-01-11 17:18:28 -05:00
_owned_key_ids . erase ( it ) ;
2013-11-02 10:35:33 -04:00
2015-01-11 17:18:28 -05:00
return true ;
}
//===========================================================================================================================//
// Turtle management //
//===========================================================================================================================//
2015-01-15 15:33:24 -05:00
bool p3GRouter : : handleTunnelRequest ( const RsFileHash & hash , const RsPeerId & /*peer_id*/ )
2015-01-11 17:18:28 -05:00
{
// tunnel request is answered according to the following rules:
// - we are the destination => always accept
// - we know the destination and have RCPT items to send back => always accept
// - we know the destination and have a route (according to matrix) => accept with high probability
// - we don't know the destination => accept with very low probability
2013-12-22 12:04:13 -05:00
2015-01-15 15:33:24 -05:00
if ( _owned_key_ids . find ( hash ) = = _owned_key_ids . end ( ) )
return false ;
2014-04-12 15:58:45 -04:00
# ifdef GROUTER_DEBUG
2015-01-22 09:33:19 -05:00
std : : cerr < < " p3GRouter::handleTunnelRequest(). Got req for hash " < < hash < < " , responding OK " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-19 08:53:36 -05:00
return true ;
2015-01-11 17:18:28 -05:00
}
2015-01-15 15:33:24 -05:00
void p3GRouter : : receiveTurtleData ( RsTurtleGenericTunnelItem * gitem , const RsFileHash & hash , const RsPeerId & virtual_peer_id , RsTurtleGenericTunnelItem : : Direction direction )
2015-01-11 17:18:28 -05:00
{
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
std : : cerr < < " p3GRouter::receiveTurtleData() " < < std : : endl ;
std : : cerr < < " Received data for hash : " < < hash < < std : : endl ;
std : : cerr < < " Virtual peer id : " < < virtual_peer_id < < std : : endl ;
std : : cerr < < " Direction : " < < direction < < std : : endl ;
2014-04-12 15:58:45 -04:00
# endif
2013-12-27 15:06:47 -05:00
2015-01-11 17:18:28 -05:00
// turtle data is received.
// This function
2015-01-15 15:33:24 -05:00
// - possibly packs multi-item blocks back together
2015-01-11 17:18:28 -05:00
// - converts it into a grouter generic item (by deserialising it)
2015-01-15 15:33:24 -05:00
RsTurtleGenericDataItem * item = dynamic_cast < RsTurtleGenericDataItem * > ( gitem ) ;
if ( item = = NULL )
{
std : : cerr < < " ERROR: item is not a data item. That is an error. " < < std : : endl ;
return ;
}
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-15 15:33:24 -05:00
std : : cerr < < " data size : " < < item - > data_size < < std : : endl ;
std : : cerr < < " data bytes : " < < RsDirUtil : : sha1sum ( ( unsigned char * ) item - > data_bytes , item - > data_size ) < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-11-02 10:35:33 -04:00
2015-01-19 08:53:36 -05:00
RsGRouterAbstractMsgItem * generic_item = NULL ;
2013-12-27 15:06:47 -05:00
2015-01-19 08:53:36 -05:00
// Items come out of the pipe in order. We need to recover all chunks before we de-serialise the content and have it handled by handleIncoming()
2015-01-15 15:33:24 -05:00
{
RS_STACK_MUTEX ( grMtx ) ;
std : : map < TurtleFileHash , GRouterTunnelInfo > : : iterator it = _virtual_peers . find ( hash ) ;
2013-12-22 12:04:13 -05:00
2015-01-15 15:33:24 -05:00
if ( it = = _virtual_peers . end ( ) )
{
std : : cerr < < " ERROR: hash is not known. Cannot receive. Data is dropped. " < < std : : endl ;
return ;
}
2015-01-19 08:53:36 -05:00
RsItem * itm = RsGRouterSerialiser ( ) . deserialise ( item - > data_bytes , & item - > data_size ) ;
2015-01-15 15:33:24 -05:00
2015-01-19 08:53:36 -05:00
// At this point we can have either a transaction chunk, or a transaction ACK.
// We handle them both here
RsGRouterTransactionChunkItem * chunk_item = dynamic_cast < RsGRouterTransactionChunkItem * > ( itm ) ;
RsGRouterTransactionAcknItem * trans_ack_item = NULL ;
if ( chunk_item ! = NULL )
{
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " item is a transaction item. " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-19 08:53:36 -05:00
generic_item = it - > second . addDataChunk ( virtual_peer_id , chunk_item ) ; // addDataChunk takes ownership over chunk_item
}
else if ( NULL ! = ( trans_ack_item = dynamic_cast < RsGRouterTransactionAcknItem * > ( itm ) ) )
{
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " item is a transaction ACK. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-22 12:04:13 -05:00
2015-01-19 08:53:36 -05:00
std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it = _pending_messages . find ( trans_ack_item - > propagation_id ) ;
2013-12-22 12:04:13 -05:00
2015-01-19 08:53:36 -05:00
if ( it ! = _pending_messages . end ( ) )
{
it - > second . data_status = RS_GROUTER_DATA_STATUS_SENT ;
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " setting new status as sent/awaiting receipt. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2015-01-19 08:53:36 -05:00
}
else
std : : cerr < < " ERROR: no routing ID corresponds to this ACK item. Inconsistency! " < < std : : endl ;
}
else
{
std : : cerr < < " ERROR: cannot deserialise turtle item. " < < std : : endl ;
if ( itm )
delete itm ;
}
2015-01-15 15:33:24 -05:00
}
2015-01-19 08:53:36 -05:00
// send to client off-mutex
2015-01-15 15:33:24 -05:00
if ( generic_item ! = NULL )
2015-01-19 08:53:36 -05:00
{
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " transaction is finished. Passing newly created item to client. " < < std : : endl ;
std : : cerr < < " sending a ACK item " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-19 08:53:36 -05:00
RsGRouterTransactionAcknItem ackn_item ;
ackn_item . propagation_id = generic_item - > routing_id ;
2013-12-22 12:04:13 -05:00
2015-01-19 08:53:36 -05:00
RsTurtleGenericDataItem * turtle_data_item = new RsTurtleGenericDataItem ;
2013-12-22 12:04:13 -05:00
2015-01-19 08:53:36 -05:00
turtle_data_item - > data_size = ackn_item . serial_size ( ) ;
turtle_data_item - > data_bytes = ( uint8_t * ) malloc ( turtle_data_item - > data_size ) ;
2013-12-22 12:04:13 -05:00
2015-01-19 08:53:36 -05:00
if ( ! ackn_item . serialise ( turtle_data_item - > data_bytes , turtle_data_item - > data_size ) )
{
std : : cerr < < " ERROR: Cannot serialise ACKN item. " < < std : : endl ;
2015-03-28 13:23:52 -04:00
delete turtle_data_item ;
2015-01-19 08:53:36 -05:00
return ;
}
mTurtle - > sendTurtleData ( virtual_peer_id , turtle_data_item ) ;
2015-01-20 08:04:10 -05:00
// This is useful to send a receipt in the same tunnel while it's online.
generic_item - > PeerId ( virtual_peer_id ) ;
2015-01-19 08:53:36 -05:00
handleIncoming ( hash , generic_item ) ;
2015-01-15 15:33:24 -05:00
}
}
void GRouterTunnelInfo : : removeVirtualPeer ( const TurtleVirtualPeerId & vpid )
{
std : : map < TurtleVirtualPeerId , RsGRouterTransactionChunkItem * > : : iterator it = virtual_peers . find ( vpid ) ;
if ( it = = virtual_peers . end ( ) )
{
std : : cerr < < " ERROR: removing a virtual peer that does not exist. This is an error! " < < std : : endl ;
return ;
}
if ( it - > second ! = NULL )
{
std : : cerr < < " WARNING: removing a virtual peer that still holds data. The data will be lost. " < < std : : endl ;
delete it - > second ;
}
virtual_peers . erase ( it ) ;
}
void GRouterTunnelInfo : : addVirtualPeer ( const TurtleVirtualPeerId & vpid )
{
std : : map < TurtleVirtualPeerId , RsGRouterTransactionChunkItem * > : : iterator it = virtual_peers . find ( vpid ) ;
2013-12-22 12:04:13 -05:00
2015-01-15 15:33:24 -05:00
if ( it ! = virtual_peers . end ( ) )
{
std : : cerr < < " ERROR: adding a virtual peer that already exist. This is an error! " < < std : : endl ;
delete it - > second ;
}
2013-12-22 12:04:13 -05:00
2015-01-15 15:33:24 -05:00
virtual_peers [ vpid ] = NULL ;
2013-12-22 12:04:13 -05:00
2015-01-15 15:33:24 -05:00
time_t now = time ( NULL ) ;
if ( first_tunnel_ok_TS = = 0 ) first_tunnel_ok_TS = now ;
2015-01-19 08:53:36 -05:00
last_tunnel_ok_TS = now ;
2015-01-15 15:33:24 -05:00
}
2015-01-19 08:53:36 -05:00
RsGRouterAbstractMsgItem * GRouterTunnelInfo : : addDataChunk ( const TurtleVirtualPeerId & vpid , RsGRouterTransactionChunkItem * chunk )
2015-01-15 15:33:24 -05:00
{
// find the chunk
std : : map < TurtleVirtualPeerId , RsGRouterTransactionChunkItem * > : : iterator it = virtual_peers . find ( vpid ) ;
if ( it = = virtual_peers . end ( ) )
{
std : : cerr < < " ERROR: no virtual peer " < < vpid < < " for chunk received. Dropping. " < < std : : endl ;
return NULL ;
}
if ( it - > second = = NULL )
{
if ( chunk - > chunk_start ! = 0 )
{
std : : cerr < < " ERROR: chunk numbering is wrong. First chunk is not starting at 0. Dropping. " < < std : : endl ;
delete chunk ;
return NULL ;
}
it - > second = chunk ;
}
else
{
if ( it - > second - > chunk_size ! = chunk - > chunk_start | | it - > second - > total_size ! = chunk - > total_size )
{
std : : cerr < < " ERROR: chunk numbering is wrong. Dropping. " < < std : : endl ;
delete chunk ;
delete it - > second ;
}
it - > second - > chunk_data = ( uint8_t * ) realloc ( ( uint8_t * ) it - > second - > chunk_data , it - > second - > chunk_size + chunk - > chunk_size ) ;
memcpy ( & it - > second - > chunk_data [ it - > second - > chunk_size ] , chunk - > chunk_data , chunk - > chunk_size ) ;
it - > second - > chunk_size + = chunk - > chunk_size ;
delete chunk ;
}
// if finished, return it.
if ( it - > second - > total_size = = it - > second - > chunk_size )
{
2015-01-19 08:53:36 -05:00
RsItem * data_item = RsGRouterSerialiser ( ) . deserialise ( it - > second - > chunk_data , & it - > second - > chunk_size ) ;
2015-01-15 15:33:24 -05:00
it - > second - > chunk_data = NULL ;
delete it - > second ;
it - > second = NULL ;
2015-01-19 08:53:36 -05:00
return dynamic_cast < RsGRouterAbstractMsgItem * > ( data_item ) ;
2015-01-15 15:33:24 -05:00
}
else
return NULL ;
2015-01-11 17:18:28 -05:00
}
2015-01-15 15:33:24 -05:00
2015-01-11 17:18:28 -05:00
void p3GRouter : : addVirtualPeer ( const TurtleFileHash & hash , const TurtleVirtualPeerId & virtual_peer_id , RsTurtleGenericTunnelItem : : Direction dir )
{
2015-01-19 08:53:36 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2015-01-15 15:33:24 -05:00
2015-01-11 17:18:28 -05:00
// Server side tunnels. This is incoming data. Nothing to do.
2013-12-22 12:04:13 -05:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
std : : cerr < < " p3GRouter::addVirtualPeer(). Received vpid " < < virtual_peer_id < < " for hash " < < hash < < " , direction= " < < dir < < std : : endl ;
2015-01-19 08:53:36 -05:00
std : : cerr < < " direction = " < < dir < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-22 12:04:13 -05:00
2015-01-19 08:53:36 -05:00
// client side. We set the tunnel flags to READY.
2014-03-29 10:18:05 -04:00
2015-01-11 17:18:28 -05:00
if ( dir = = RsTurtleGenericTunnelItem : : DIRECTION_SERVER )
{
2015-01-19 08:53:36 -05:00
bool found = false ;
2013-11-02 10:35:33 -04:00
2015-01-19 08:53:36 -05:00
// linear search. Bad, but not really a problem. New virtual peers come quite rarely.
for ( std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it ( _pending_messages . begin ( ) ) ; it ! = _pending_messages . end ( ) ; + + it )
if ( it - > second . tunnel_hash = = hash )
{
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " setting tunnel state to READY. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2015-01-19 08:53:36 -05:00
it - > second . tunnel_status = RS_GROUTER_TUNNEL_STATUS_READY ;
found = true ;
2015-01-23 07:13:13 -05:00
// don't break here, because we might send multiple items though the same tunnel.
2015-01-19 08:53:36 -05:00
}
2014-03-29 10:18:05 -04:00
2015-01-19 08:53:36 -05:00
if ( ! found )
{
std : : cerr < < " ERROR: cannot find corresponding pending message. " < < std : : endl ;
return ;
}
}
2015-01-11 17:18:28 -05:00
if ( dir = = RsTurtleGenericTunnelItem : : DIRECTION_CLIENT )
{
}
2013-12-22 12:04:13 -05:00
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " adding VPID. " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2013-12-22 12:04:13 -05:00
2015-01-19 08:53:36 -05:00
_virtual_peers [ hash ] . addVirtualPeer ( virtual_peer_id ) ;
2014-03-29 10:18:05 -04:00
}
2015-01-11 17:18:28 -05:00
void p3GRouter : : removeVirtualPeer ( const TurtleFileHash & hash , const TurtleVirtualPeerId & virtual_peer_id )
{
2015-01-15 15:33:24 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2013-12-22 12:04:13 -05:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-15 15:33:24 -05:00
std : : cerr < < " p3GRouter::addVirtualPeer(). Received vpid " < < virtual_peer_id < < " for hash " < < hash < < std : : endl ;
std : : cerr < < " removing VPID. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2014-03-29 10:18:05 -04:00
2015-01-15 15:33:24 -05:00
// make sure the VPID exists.
2014-03-29 10:18:05 -04:00
2015-01-15 15:33:24 -05:00
std : : map < TurtleFileHash , GRouterTunnelInfo > : : iterator it = _virtual_peers . find ( hash ) ;
2013-12-22 12:04:13 -05:00
2015-01-15 15:33:24 -05:00
if ( it = = _virtual_peers . end ( ) )
{
2015-01-22 04:50:44 -05:00
std : : cerr < < " no virtual peers at all for this hash: " < < hash < < " ! This is a consistency error. " < < std : : endl ;
2015-01-15 15:33:24 -05:00
return ;
}
it - > second . removeVirtualPeer ( virtual_peer_id ) ;
2015-01-19 08:53:36 -05:00
if ( it - > second . virtual_peers . empty ( ) )
{
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " last virtual peer removed. Also deleting hash entry. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2015-01-19 08:53:36 -05:00
_virtual_peers . erase ( it ) ;
}
2015-01-23 07:13:13 -05:00
# ifdef GROUTER_DEBUG
std : : cerr < < " setting tunnel status in pending message. " < < std : : endl ;
# endif
for ( std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it2 ( _pending_messages . begin ( ) ) ; it2 ! = _pending_messages . end ( ) ; + + it2 )
if ( it2 - > second . tunnel_hash = = hash & & it - > second . virtual_peers . empty ( ) )
it2 - > second . tunnel_status = RS_GROUTER_TUNNEL_STATUS_PENDING ;
2014-03-29 10:18:05 -04:00
}
2015-01-11 17:18:28 -05:00
void p3GRouter : : connectToTurtleRouter ( p3turtle * pt )
2014-03-29 10:18:05 -04:00
{
2015-01-11 17:18:28 -05:00
mTurtle = pt ;
2015-01-19 08:53:36 -05:00
pt - > registerTunnelService ( this ) ;
2015-01-11 17:18:28 -05:00
}
2014-03-31 17:21:11 -04:00
2015-01-11 17:18:28 -05:00
//===========================================================================================================================//
// Tunnel management //
//===========================================================================================================================//
2014-03-29 10:18:05 -04:00
2015-01-11 17:18:28 -05:00
// Each message is associated to a given GXS id.
// -> messages have a state about being sent/partially arrived/etc
2014-03-29 10:18:05 -04:00
2015-01-11 17:18:28 -05:00
// Each GXS id + service might have a collection of virtual peers
// -> each hash has possibly multiple virtual peers associated to it.
2014-03-31 17:21:11 -04:00
2014-04-11 17:56:10 -04:00
2015-01-11 17:18:28 -05:00
template < class T >
static bool operator < ( const std : : pair < int , T > & p1 , const std : : pair < int , T > & p2 )
2014-04-12 15:58:45 -04:00
{
2015-01-11 17:18:28 -05:00
return p1 . first < p2 . first ;
2014-03-29 10:18:05 -04:00
}
2015-01-11 17:18:28 -05:00
void p3GRouter : : handleTunnels ( )
2014-03-29 10:18:05 -04:00
{
2015-01-11 17:18:28 -05:00
// Go through the list of pending messages
// - if tunnels are pending for too long => remove from turtle
// - if item is waiting for too long => tunnels are waitin
2014-03-31 17:21:11 -04:00
2015-01-11 17:18:28 -05:00
// We need a priority queue of items to handle, starting from the most ancient items, with a delay that varies with
// how much time they have been waiting. When a turtle slot it freed, we take the next item in the queue and
// activate tunnel handling for it.
2014-03-31 17:21:11 -04:00
2015-01-11 17:18:28 -05:00
// possible pending message status:
// - RS_GROUTER_PENDING_MSG_STATUS_TUNNEL_READY : tunnel is ready. Waiting a few seconds to be used (this is to allow multiple tunnels to come).
// - RS_GROUTER_PENDING_MSG_STATUS_TUNNEL_PENDING : tunnel was asked.
// - RS_GROUTER_PENDING_MSG_STATUS_TUNNEL_UNMANAGED: not tunnel managed at the moment.
2014-03-31 17:21:11 -04:00
2015-01-11 17:18:28 -05:00
// 1 - make a priority list of messages to ask tunnels for
2014-04-11 17:56:10 -04:00
2015-01-11 17:18:28 -05:00
// compute the priority of pending messages, according to the number of attempts and how far in the past they have been tried for the last time.
2014-03-31 17:21:11 -04:00
2015-01-11 17:18:28 -05:00
// Delay after which a message is re-sent, depending on the number of attempts already made.
2014-04-11 17:56:10 -04:00
2015-01-15 15:33:24 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
if ( ! _pending_messages . empty ( ) )
2014-04-12 15:58:45 -04:00
{
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < " p3GRouter::handleTunnels() " < < std : : endl ;
grouter_debug ( ) < < " building priority list of items to send... " < < std : : endl ;
2014-03-29 10:18:05 -04:00
}
2015-01-22 04:50:44 -05:00
# endif
2014-03-29 10:18:05 -04:00
2015-01-11 17:18:28 -05:00
static uint32_t send_retry_time_delays [ 6 ] = { 0 , 1800 , 3600 , 5 * 3600 , 12 * 3600 , 24 * 2600 } ;
time_t now = time ( NULL ) ;
std : : vector < std : : pair < int , GRouterRoutingInfo * > > priority_list ;
2014-03-31 17:21:11 -04:00
2015-01-11 17:18:28 -05:00
for ( std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it = _pending_messages . begin ( ) ; it ! = _pending_messages . end ( ) ; + + it )
{
2014-04-11 17:56:10 -04:00
# ifdef GROUTER_DEBUG
2015-01-22 09:33:19 -05:00
grouter_debug ( ) < < " " < < std : : hex < < it - > first < < std : : dec
< < " data_status= " < < it - > second . data_status < < " , tunnel_status= " < < it - > second . tunnel_status
< < " last tried: " < < now - it - > second . last_tunnel_request_TS < < " (secs ago) " < < " , last sent: " < < now - it - > second . last_sent_TS < < " (secs ago) " ;
2015-01-22 04:50:44 -05:00
# endif
2014-03-29 10:18:05 -04:00
2015-01-11 17:18:28 -05:00
if ( it - > second . data_status = = RS_GROUTER_DATA_STATUS_PENDING )
{
2015-01-22 09:33:19 -05:00
if ( it - > second . tunnel_status = = RS_GROUTER_TUNNEL_STATUS_UNMANAGED & & it - > second . last_tunnel_request_TS + MAX_TUNNEL_UNMANAGED_TIME < now )
2015-01-11 17:18:28 -05:00
{
uint32_t item_delay = now - it - > second . last_tunnel_request_TS ;
int item_priority = item_delay - send_retry_time_delays [ std : : min ( 5u , it - > second . sending_attempts ) ] ;
2013-11-02 10:35:33 -04:00
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
grouter_debug ( ) < < " delay= " < < item_delay < < " attempts= " < < it - > second . sending_attempts < < " , priority= " < < item_priority < < std : : endl ;
2014-04-11 17:56:10 -04:00
# endif
2015-01-11 17:18:28 -05:00
if ( item_priority > 0 )
priority_list . push_back ( std : : make_pair ( item_priority , & it - > second ) ) ;
}
else if ( it - > second . tunnel_status = = RS_GROUTER_TUNNEL_STATUS_PENDING & & it - > second . last_tunnel_request_TS + MAX_TUNNEL_WAIT_TIME < now )
{
mTurtle - > stopMonitoringTunnels ( it - > second . tunnel_hash ) ;
2014-04-11 17:56:10 -04:00
2015-01-11 17:18:28 -05:00
it - > second . tunnel_status = RS_GROUTER_TUNNEL_STATUS_UNMANAGED ;
2014-04-11 17:56:10 -04:00
2014-03-31 17:21:11 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
grouter_debug ( ) < < " stopping tunnels for this message. " < < std : : endl ; ;
2014-03-31 17:21:11 -04:00
# endif
2015-01-11 17:18:28 -05:00
}
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
else if ( it - > second . tunnel_status = = RS_GROUTER_TUNNEL_STATUS_READY )
grouter_debug ( ) < < " tunnel is available. " < < std : : endl ;
2015-01-11 17:18:28 -05:00
else
grouter_debug ( ) < < " doing nothing. " < < std : : endl ;
2014-03-31 17:21:11 -04:00
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-11 17:18:28 -05:00
}
2015-01-23 07:13:13 -05:00
else if ( it - > second . data_status = = RS_GROUTER_DATA_STATUS_RECEIPT_OK )
2015-01-22 09:33:19 -05:00
{
# ifdef GROUTER_DEBUG
std : : cerr < < " closing pending tunnels. " < < std : : endl ;
# endif
mTurtle - > stopMonitoringTunnels ( it - > second . tunnel_hash ) ;
2014-03-31 17:21:11 -04:00
2015-01-23 07:13:13 -05:00
it - > second . tunnel_status = RS_GROUTER_TUNNEL_STATUS_UNMANAGED ;
}
else if ( it - > second . data_status = = RS_GROUTER_DATA_STATUS_SENT & & it - > second . last_sent_TS + MAX_RECEIPT_WAIT_TIME < now )
{
# ifdef GROUTER_DEBUG
std : : cerr < < " closing pending tunnels. " < < std : : endl ;
# endif
mTurtle - > stopMonitoringTunnels ( it - > second . tunnel_hash ) ;
it - > second . tunnel_status = RS_GROUTER_TUNNEL_STATUS_UNMANAGED ;
it - > second . data_status = RS_GROUTER_DATA_STATUS_PENDING ;
2015-01-22 09:33:19 -05:00
}
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
else
std : : cerr < < " doing nothing. " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-11 17:18:28 -05:00
}
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
if ( ! priority_list . empty ( ) )
grouter_debug ( ) < < " sorting... " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2014-01-03 17:41:20 -05:00
2015-01-11 17:18:28 -05:00
std : : sort ( priority_list . begin ( ) , priority_list . end ( ) ) ;
2014-01-03 17:41:20 -05:00
2015-01-11 17:18:28 -05:00
// take tunnels from item priority list, and enable tunnel handling, while respecting max number of active tunnels limit
2013-11-02 10:35:33 -04:00
2015-01-11 17:18:28 -05:00
for ( uint32_t i = 0 ; i < priority_list . size ( ) ; + + i )
{
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
grouter_debug ( ) < < " askign tunnel management for msg= " < < priority_list [ i ] . first < < " hash= " < < priority_list [ i ] . second - > tunnel_hash < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2013-11-02 10:35:33 -04:00
2015-01-23 14:28:10 -05:00
mTurtle - > monitorTunnels ( priority_list [ i ] . second - > tunnel_hash , this , false ) ;
2015-01-11 17:18:28 -05:00
priority_list [ i ] . second - > tunnel_status = RS_GROUTER_TUNNEL_STATUS_PENDING ;
priority_list [ i ] . second - > last_tunnel_request_TS = now ;
}
2013-11-02 10:35:33 -04:00
}
2015-01-11 17:18:28 -05:00
void p3GRouter : : routePendingObjects ( )
2013-11-02 10:35:33 -04:00
{
2015-01-11 17:18:28 -05:00
// Go throught he list of pending messages.
// For those with a tunnel ready, send the message in the tunnel.
2013-11-02 10:35:33 -04:00
2015-01-11 17:18:28 -05:00
time_t now = time ( NULL ) ;
2015-01-23 07:13:13 -05:00
std : : map < GRouterMsgPropagationId , std : : pair < GRouterClientService * , uint32_t > > notified_msgs ;
2014-03-29 10:18:05 -04:00
2015-01-23 07:13:13 -05:00
{
RS_STACK_MUTEX ( grMtx ) ;
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-22 09:33:19 -05:00
if ( ! _pending_messages . empty ( ) )
std : : cerr < < " p3GRouter::routePendingObjects() " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2013-11-02 10:35:33 -04:00
2015-01-23 07:13:13 -05:00
for ( std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it = _pending_messages . begin ( ) ; it ! = _pending_messages . end ( ) ; )
2015-01-22 09:33:19 -05:00
if ( it - > second . data_status = = RS_GROUTER_DATA_STATUS_PENDING & & it - > second . tunnel_status = = RS_GROUTER_TUNNEL_STATUS_READY & & now > it - > second . last_sent_TS + MAX_DELAY_BETWEEN_TWO_SEND )
2015-01-20 08:04:10 -05:00
{
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " routing id: " < < std : : hex < < it - > first < < std : : dec ;
2014-03-29 19:03:04 -04:00
# endif
2013-11-05 16:15:26 -05:00
2015-01-20 08:04:10 -05:00
const TurtleFileHash & hash ( it - > second . tunnel_hash ) ;
std : : map < TurtleFileHash , GRouterTunnelInfo > : : const_iterator vpit ;
2013-12-22 12:04:13 -05:00
2015-01-20 08:04:10 -05:00
if ( ( vpit = _virtual_peers . find ( hash ) ) = = _virtual_peers . end ( ) )
{
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " . No virtual peers. Skipping now. " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-23 07:13:13 -05:00
+ + it ;
2015-01-20 08:04:10 -05:00
continue ;
}
2014-04-12 15:58:45 -04:00
2015-01-20 08:04:10 -05:00
if ( vpit - > second . last_tunnel_ok_TS + TUNNEL_OK_WAIT_TIME > now )
{
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " . Still waiting delay (stabilisation). " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-23 07:13:13 -05:00
+ + it ;
2015-01-20 08:04:10 -05:00
continue ;
}
2014-04-11 17:56:10 -04:00
2015-01-20 08:04:10 -05:00
// for now, just take one. But in the future, we will need some policy to temporarily store objects at proxy peers, etc.
2014-03-29 10:18:05 -04:00
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " " < < vpit - > second . virtual_peers . size ( ) < < " virtual peers available. " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2014-04-11 17:56:10 -04:00
2015-01-20 08:04:10 -05:00
if ( vpit - > second . virtual_peers . empty ( ) )
{
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " no peers available. Cannot send!! " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-23 07:13:13 -05:00
+ + it ;
2015-01-20 08:04:10 -05:00
continue ;
}
TurtleVirtualPeerId vpid = ( vpit - > second . virtual_peers . begin ( ) ) - > first ;
2015-01-19 08:53:36 -05:00
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " sending to " < < vpid < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-19 08:53:36 -05:00
2015-01-20 08:04:10 -05:00
sendDataInTunnel ( vpid , it - > second . data_item ) ;
2015-01-19 08:53:36 -05:00
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " setting last sent time to now " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-19 08:53:36 -05:00
2015-01-20 08:04:10 -05:00
it - > second . last_sent_TS = now ;
2015-01-23 07:13:13 -05:00
+ + it ;
2015-01-20 08:04:10 -05:00
}
2015-01-23 07:13:13 -05:00
else if ( it - > second . data_status = = RS_GROUTER_DATA_STATUS_RECEIPT_OK | | it - > second . received_time_TS + GROUTER_ITEM_MAX_CACHE_KEEP_TIME < now ) // is the item too old for cache
{
# ifdef GROUTER_DEBUG
if ( it - > second . data_status = = RS_GROUTER_DATA_STATUS_RECEIPT_OK )
grouter_debug ( ) < < " Removing received cached item " < < std : : hex < < it - > first < < std : : dec < < std : : endl ;
else
grouter_debug ( ) < < " Removing too-old cached item " < < std : : hex < < it - > first < < std : : dec < < std : : endl ;
# endif
GRouterClientService * client = NULL ;
GRouterServiceId service_id = 0 ;
2014-03-29 10:18:05 -04:00
2015-01-23 07:13:13 -05:00
uint32_t status = ( it - > second . data_status = = RS_GROUTER_DATA_STATUS_RECEIPT_OK ) ? GROUTER_CLIENT_SERVICE_DATA_STATUS_RECEIVED : GROUTER_CLIENT_SERVICE_DATA_STATUS_FAILED ;
if ( ! locked_getClientAndServiceId ( it - > second . tunnel_hash , it - > second . data_item - > destination_key , client , service_id ) )
std : : cerr < < " ERROR: cannot find client for cancelled message " < < it - > first < < std : : endl ;
else
notified_msgs [ it - > first ] = std : : make_pair ( client , status ) ;
delete it - > second . data_item ;
if ( it - > second . receipt_item ! = NULL )
delete it - > second . receipt_item ;
std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator tmp ( it ) ;
+ + tmp ;
_pending_messages . erase ( it ) ;
it = tmp ;
}
else
+ + it ;
}
// look into pending items.
# ifdef GROUTER_DEBUG
grouter_debug ( ) < < " Pending messages to route : " < < _pending_messages . size ( ) < < std : : endl ;
# endif
for ( std : : map < GRouterMsgPropagationId , std : : pair < GRouterClientService * , uint32_t > > : : const_iterator it ( notified_msgs . begin ( ) ) ; it ! = notified_msgs . end ( ) ; + + it )
it - > second . first - > notifyDataStatus ( it - > first , it - > second . second ) ;
2013-11-02 10:35:33 -04:00
}
2014-03-29 10:18:05 -04:00
2015-01-20 08:04:10 -05:00
bool p3GRouter : : sendDataInTunnel ( const TurtleVirtualPeerId & vpid , RsGRouterAbstractMsgItem * item )
2014-01-03 17:41:20 -05:00
{
2015-01-15 15:33:24 -05:00
// split into chunks and send them all into the tunnel.
2014-01-03 17:41:20 -05:00
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-15 15:33:24 -05:00
std : : cerr < < " p3GRouter::sendDataInTunnel() " < < std : : endl ;
2015-01-19 08:53:36 -05:00
std : : cerr < < " item dump before send: " < < std : : endl ;
item - > print ( std : : cerr , 2 ) ;
2015-01-22 04:50:44 -05:00
# endif
2014-01-03 17:41:20 -05:00
2015-01-15 15:33:24 -05:00
uint32_t size = item - > serial_size ( ) ;
2015-03-28 13:23:52 -04:00
unsigned char * data = NULL ;
TemporaryMemoryHolder f ( data , size ) ; // data will be freed on return, whatever the route taken.
2015-01-15 15:33:24 -05:00
if ( data = = NULL )
{
std : : cerr < < " ERROR: cannot allocate memory. Size= " < < size < < std : : endl ;
2015-01-20 08:04:10 -05:00
return false ;
2015-01-15 15:33:24 -05:00
}
if ( ! item - > serialise ( data , size ) )
{
std : : cerr < < " ERROR: cannot serialise. " < < std : : endl ;
2015-01-20 08:04:10 -05:00
return false ;
2015-01-15 15:33:24 -05:00
}
uint32_t offset = 0 ;
static const uint32_t CHUNK_SIZE = 15000 ;
while ( offset < size )
2015-03-28 13:23:52 -04:00
{
uint32_t chunk_size = std : : min ( size - offset , CHUNK_SIZE ) ;
2015-01-15 15:33:24 -05:00
2015-03-28 13:23:52 -04:00
RsGRouterTransactionChunkItem * chunk_item = new RsGRouterTransactionChunkItem ;
chunk_item - > propagation_id = item - > routing_id ;
chunk_item - > total_size = size ;
chunk_item - > chunk_start = offset ;
chunk_item - > chunk_size = chunk_size ;
chunk_item - > chunk_data = ( uint8_t * ) malloc ( chunk_size ) ;
2014-01-03 17:41:20 -05:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-03-28 13:23:52 -04:00
std : : cerr < < " preparing to send a chunk [ " < < offset < < " -> " < < offset + chunk_size < < " / " < < size < < " ] " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2014-01-03 17:41:20 -05:00
2015-03-28 13:23:52 -04:00
if ( chunk_item - > chunk_data = = NULL )
{
std : : cerr < < " ERROR: Cannot allocate memory for size " < < chunk_size < < std : : endl ;
delete chunk_item ;
return false ;
}
memcpy ( chunk_item - > chunk_data , & data [ offset ] , chunk_size ) ;
2014-01-03 17:41:20 -05:00
2015-03-28 13:23:52 -04:00
offset + = chunk_size ;
2015-01-15 15:33:24 -05:00
2015-03-28 13:23:52 -04:00
RsTurtleGenericDataItem * turtle_item = new RsTurtleGenericDataItem ;
2015-01-15 15:33:24 -05:00
2015-03-28 13:23:52 -04:00
uint32_t turtle_data_size = chunk_item - > serial_size ( ) ;
uint8_t * turtle_data = ( uint8_t * ) malloc ( turtle_data_size ) ;
2015-01-15 15:33:24 -05:00
2015-03-28 13:23:52 -04:00
if ( turtle_data = = NULL )
{
std : : cerr < < " ERROR: Cannot allocate turtle data memory for size " < < turtle_data_size < < std : : endl ;
delete chunk_item ;
return false ;
}
if ( ! chunk_item - > serialise ( turtle_data , turtle_data_size ) )
{
std : : cerr < < " ERROR: cannot serialise RsGRouterTransactionChunkItem. " < < std : : endl ;
delete chunk_item ;
free ( turtle_data ) ;
return false ;
}
2015-01-15 15:33:24 -05:00
2015-03-28 13:23:52 -04:00
delete chunk_item ;
2015-01-15 15:33:24 -05:00
2015-03-28 13:23:52 -04:00
turtle_item - > data_size = turtle_data_size ;
turtle_item - > data_bytes = turtle_data ;
2015-01-15 15:33:24 -05:00
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-03-28 13:23:52 -04:00
std : : cerr < < " sending to vpid " < < vpid < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-03-28 13:23:52 -04:00
mTurtle - > sendTurtleData ( vpid , turtle_item ) ;
}
2015-01-15 15:33:24 -05:00
2015-01-20 08:04:10 -05:00
return true ;
2014-01-03 17:41:20 -05:00
}
2013-11-02 10:35:33 -04:00
2015-01-19 08:53:36 -05:00
void p3GRouter : : handleIncoming ( const TurtleFileHash & hash , RsGRouterAbstractMsgItem * item )
2013-11-02 10:35:33 -04:00
{
2015-01-19 08:53:36 -05:00
RsGRouterGenericDataItem * generic_data_item ;
RsGRouterSignedReceiptItem * receipt_item ;
2013-11-02 10:35:33 -04:00
2015-01-19 08:53:36 -05:00
if ( NULL ! = ( generic_data_item = dynamic_cast < RsGRouterGenericDataItem * > ( item ) ) )
handleIncomingDataItem ( hash , generic_data_item ) ;
else if ( NULL ! = ( receipt_item = dynamic_cast < RsGRouterSignedReceiptItem * > ( item ) ) )
handleIncomingReceiptItem ( hash , receipt_item ) ;
else
std : : cerr < < " Item has unknown type (not data nor signed receipt). Dropping! " < < std : : endl ;
2014-04-12 15:58:45 -04:00
2015-01-19 08:53:36 -05:00
delete item ;
2013-11-02 10:35:33 -04:00
}
2015-01-19 08:53:36 -05:00
void p3GRouter : : handleIncomingReceiptItem ( const TurtleFileHash & hash , RsGRouterSignedReceiptItem * receipt_item )
2014-04-19 12:02:11 -04:00
{
2015-01-22 09:33:19 -05:00
bool changed = false ;
2014-04-19 12:02:11 -04:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " Handling incoming signed receipt item. " < < std : : endl ;
2015-01-19 08:53:36 -05:00
std : : cerr < < " Item content: " < < std : : endl ;
receipt_item - > print ( std : : cerr , 2 ) ;
2014-04-19 12:02:11 -04:00
# endif
2015-01-20 08:04:10 -05:00
// Because we don't do proxy-transmission yet, the client needs to be notified. Otherwise, we will need to
2015-01-19 08:53:36 -05:00
// first check if we're a proxy or not. We also remove the message from the global router sending list.
// in the proxy case, we should only store the receipt.
2014-04-11 17:56:10 -04:00
2015-01-19 08:53:36 -05:00
{
RS_STACK_MUTEX ( grMtx ) ;
std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it = _pending_messages . find ( receipt_item - > routing_id ) ;
2015-01-20 08:04:10 -05:00
if ( it = = _pending_messages . end ( ) )
2015-01-19 08:53:36 -05:00
{
2015-01-20 08:04:10 -05:00
std : : cerr < < " ERROR: no routing ID corresponds to this message. Inconsistency! " < < std : : endl ;
return ;
}
2015-01-19 08:53:36 -05:00
2015-01-20 08:04:10 -05:00
// check signature.
if ( receipt_item - > data_hash ! = RsDirUtil : : sha1sum ( it - > second . data_item - > data_bytes , it - > second . data_item - > data_size ) )
{
std : : cerr < < " checking receipt hash : FAILED. Receipt is dropped. " < < std : : endl ;
return ;
2015-01-19 08:53:36 -05:00
}
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
else
2015-01-20 08:04:10 -05:00
std : : cerr < < " checking receipt hash : OK " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2014-04-19 12:02:11 -04:00
2015-01-20 08:04:10 -05:00
if ( ! verifySignedDataItem ( receipt_item ) )
{
std : : cerr < < " checking receipt signature : FAILED. Receipt is dropped. " < < std : : endl ;
return ;
}
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " checking receipt signature : OK. " < < std : : endl ;
std : : cerr < < " removing messsage from cache. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-22 12:04:13 -05:00
2015-01-22 09:33:19 -05:00
it - > second . data_status = RS_GROUTER_DATA_STATUS_RECEIPT_OK ;
2015-01-23 07:13:13 -05:00
it - > second . receipt_item = receipt_item - > duplicate ( ) ;
2013-11-02 10:35:33 -04:00
2015-01-22 09:33:19 -05:00
changed = true ;
2015-01-11 17:18:28 -05:00
}
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " notifying client that the msg was received. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2014-04-12 15:58:45 -04:00
2015-01-22 09:33:19 -05:00
if ( changed )
IndicateConfigChanged ( ) ;
2015-01-11 17:18:28 -05:00
}
2014-04-19 12:02:11 -04:00
2015-01-19 08:53:36 -05:00
void p3GRouter : : handleIncomingDataItem ( const TurtleFileHash & hash , RsGRouterGenericDataItem * generic_item )
2015-01-11 17:18:28 -05:00
{
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " Handling incoming data item. Passing to client. " < < std : : endl ;
std : : cerr < < " Item content: " < < std : : endl ;
generic_item - > print ( std : : cerr , 2 ) ;
2014-03-29 19:03:04 -04:00
# endif
2014-03-29 10:18:05 -04:00
2015-01-19 08:53:36 -05:00
GRouterClientService * client = NULL ;
GRouterServiceId service_id = 0 ;
2014-04-11 17:56:10 -04:00
2015-01-19 08:53:36 -05:00
{
2015-01-22 09:33:19 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2014-03-29 10:18:05 -04:00
2015-01-22 09:33:19 -05:00
if ( ! locked_getClientAndServiceId ( hash , generic_item - > destination_key , client , service_id ) )
{
std : : cerr < < " ERROR: cannot find client service for this hash/key combination. " < < std : : endl ;
return ;
}
2015-01-19 08:53:36 -05:00
}
2014-03-29 10:18:05 -04:00
2015-01-19 08:53:36 -05:00
// We don't do proxy yet, so the item is necessarily for us.
// The item's signature must be checked, and the item needs to be decrypted.
2013-12-22 12:04:13 -05:00
2015-01-19 08:53:36 -05:00
if ( verifySignedDataItem ( generic_item ) ) // we should get proper flags out of this
2015-01-22 04:50:44 -05:00
{
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " verifying item signature: CHECKED! " ;
2015-01-22 04:50:44 -05:00
# endif
}
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
else
std : : cerr < < " verifying item signature: FAILED! " ;
2015-01-22 04:50:44 -05:00
# endif
2014-03-29 10:18:05 -04:00
2015-01-20 08:04:10 -05:00
// compute the hash before decryption.
2014-04-12 15:58:45 -04:00
2015-01-20 08:04:10 -05:00
Sha1CheckSum data_hash = RsDirUtil : : sha1sum ( generic_item - > data_bytes , generic_item - > data_size ) ;
2014-04-11 17:56:10 -04:00
2015-01-19 08:53:36 -05:00
if ( ! decryptDataItem ( generic_item ) )
{
std : : cerr < < " decrypting item : FAILED! Item will be dropped. " < < std : : endl ;
return ;
}
2014-04-11 17:56:10 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
else
std : : cerr < < " decrypting item : OK! " < < std : : endl ;
2015-01-22 04:50:44 -05:00
# endif
2015-01-19 08:53:36 -05:00
// make a copy of the data, since the item will be deleted.
2014-04-11 17:56:10 -04:00
2015-01-19 08:53:36 -05:00
uint8_t * data_copy = ( uint8_t * ) malloc ( generic_item - > data_size ) ;
memcpy ( data_copy , generic_item - > data_bytes , generic_item - > data_size ) ;
client - > receiveGRouterData ( generic_item - > destination_key , generic_item - > signature . keyId , service_id , data_copy , generic_item - > data_size ) ;
2015-01-20 08:04:10 -05:00
// No we need to send a signed receipt to the sender.
RsGRouterSignedReceiptItem * receipt_item = new RsGRouterSignedReceiptItem ;
receipt_item - > data_hash = data_hash ;
receipt_item - > routing_id = generic_item - > routing_id ;
receipt_item - > destination_key = generic_item - > signature . keyId ;
receipt_item - > flags = 0 ;
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " preparing signed receipt. " < < std : : endl ;
2014-04-11 17:56:10 -04:00
# endif
2015-01-20 08:04:10 -05:00
if ( ! signDataItem ( receipt_item , generic_item - > destination_key ) )
{
2015-03-28 13:23:52 -04:00
delete receipt_item ;
2015-01-20 08:04:10 -05:00
std : : cerr < < " signing: FAILED. Receipt dropped. ERROR. " < < std : : endl ;
return ;
}
2014-04-11 17:56:10 -04:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " signing: OK. " < < std : : endl ;
2014-04-11 17:56:10 -04:00
# endif
2014-04-19 12:02:11 -04:00
2015-01-20 08:04:10 -05:00
// Normally (proxy mode) we should store the signed receipt so that it can be sent back, and handle it
// in the routePendingObjects() method.
if ( ! sendDataInTunnel ( generic_item - > PeerId ( ) , receipt_item ) )
{
std : : cerr < < " sending signed receipt in tunnel " < < generic_item - > PeerId ( ) < < " : FAILED. " < < std : : endl ;
delete receipt_item ;
return ;
}
2014-04-19 12:02:11 -04:00
# ifdef GROUTER_DEBUG
2015-01-20 08:04:10 -05:00
std : : cerr < < " sent signed receipt in tunnel " < < generic_item - > PeerId ( ) < < std : : endl ;
2014-04-19 12:02:11 -04:00
# endif
2015-03-28 13:23:52 -04:00
delete receipt_item ;
2015-01-19 08:53:36 -05:00
}
2015-01-22 09:33:19 -05:00
bool p3GRouter : : locked_getClientAndServiceId ( const TurtleFileHash & hash , const RsGxsId & destination_key , GRouterClientService * & client , GRouterServiceId & service_id )
2015-01-19 08:53:36 -05:00
{
client = NULL ;
service_id = 0 ;
2015-01-20 08:04:10 -05:00
RsGxsId gxs_id ;
makeGxsIdAndClientId ( hash , gxs_id , service_id ) ;
2015-01-19 08:53:36 -05:00
2015-01-20 08:04:10 -05:00
if ( gxs_id ! = destination_key )
2015-01-19 08:53:36 -05:00
{
2015-01-20 08:04:10 -05:00
std : : cerr < < " ERROR: verification (destination) GXS key " < < destination_key < < " does not match key from hash " < < gxs_id < < std : : endl ;
2015-01-19 08:53:36 -05:00
return false ;
}
2015-01-20 08:04:10 -05:00
2015-01-22 09:33:19 -05:00
// now find the client given its id.
2015-01-20 08:04:10 -05:00
2015-01-22 09:33:19 -05:00
std : : map < GRouterServiceId , GRouterClientService * > : : const_iterator its = _registered_services . find ( service_id ) ;
2015-01-19 08:53:36 -05:00
2015-01-22 09:33:19 -05:00
if ( its = = _registered_services . end ( ) )
{
std : : cerr < < " ERROR: client id " < < service_id < < " not registered. Consistency error. " < < std : : endl ;
return false ;
2015-01-22 04:50:44 -05:00
}
2015-01-19 08:53:36 -05:00
2015-01-22 09:33:19 -05:00
client = its - > second ;
2015-01-19 08:53:36 -05:00
return true ;
2013-11-02 10:35:33 -04:00
}
2014-10-22 17:00:20 -04:00
void p3GRouter : : addRoutingClue ( const GRouterKeyId & id , const RsPeerId & peer_id )
{
2015-01-15 15:33:24 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2014-10-22 17:00:20 -04:00
# ifdef GROUTER_DEBUG
grouter_debug ( ) < < " Received new routing clue for key " < < id < < " from peer " < < peer_id < < std : : endl ;
# endif
_routing_matrix . addRoutingClue ( id , peer_id , RS_GROUTER_BASE_WEIGHT_GXS_PACKET ) ;
}
2015-01-11 17:18:28 -05:00
bool p3GRouter : : registerClientService ( const GRouterServiceId & id , GRouterClientService * service )
{
2015-01-15 15:33:24 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2015-01-11 17:18:28 -05:00
_registered_services [ id ] = service ;
return true ;
}
2013-12-24 11:41:07 -05:00
2015-01-11 17:18:28 -05:00
bool p3GRouter : : encryptDataItem ( RsGRouterGenericDataItem * item , const RsGxsId & destination_key )
2013-11-02 10:35:33 -04:00
{
2015-01-11 17:18:28 -05:00
assert ( ! ( item - > flags & RS_GROUTER_DATA_FLAGS_ENCRYPTED ) ) ;
2014-04-11 17:56:10 -04:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
std : : cerr < < " Encrypting data for key " < < destination_key < < std : : endl ;
std : : cerr < < " Decrypted size = " < < item - > data_size < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2015-03-14 10:33:23 -04:00
# ifdef SUSPENDED
2015-01-11 17:18:28 -05:00
RsTlvSecurityKey encryption_key ;
// get the key, and let the cache find it.
for ( int i = 0 ; i < 4 ; + + i )
if ( mIdService - > getKey ( destination_key , encryption_key ) )
break ;
else
usleep ( 500 * 1000 ) ; // sleep half a sec.
if ( encryption_key . keyId . isNull ( ) )
{
std : : cerr < < " (EE) Cannot get encryption key for id " < < destination_key < < std : : endl ;
return false ;
}
uint8_t * encrypted_data = NULL ;
int encrypted_size = 0 ;
if ( ! GxsSecurity : : encrypt ( encrypted_data , encrypted_size , item - > data_bytes , item - > data_size , encryption_key ) )
{
std : : cerr < < " (EE) Encryption failed. " < < std : : endl ;
return false ;
}
2015-03-14 10:33:23 -04:00
# endif
uint8_t * encrypted_data = NULL ;
uint32_t encrypted_size = 0 ;
uint32_t error_status ;
if ( ! mGixs - > encryptData ( item - > data_bytes , item - > data_size , encrypted_data , encrypted_size , destination_key , true , error_status ) )
{
std : : cerr < < " (EE) Cannot encrypt: " ;
if ( error_status = = RsGixs : : RS_GIXS_ERROR_KEY_NOT_AVAILABLE ) std : : cerr < < " key not available for ID = " < < destination_key < < std : : endl ;
if ( error_status = = RsGixs : : RS_GIXS_ERROR_UNKNOWN ) std : : cerr < < " unknown error for ID = " < < destination_key < < std : : endl ;
return false ;
}
2015-01-11 17:18:28 -05:00
2015-01-23 10:16:04 -05:00
free ( item - > data_bytes ) ;
2015-01-11 17:18:28 -05:00
item - > data_bytes = encrypted_data ;
item - > data_size = encrypted_size ;
item - > flags | = RS_GROUTER_DATA_FLAGS_ENCRYPTED ;
2014-03-29 10:18:05 -04:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
std : : cerr < < " Encrypted size = " < < encrypted_size < < std : : endl ;
2015-01-22 04:50:44 -05:00
std : : cerr < < " First bytes of encrypted data: " < < RsUtil : : BinToHex ( ( const char * ) encrypted_data , std : : min ( encrypted_size , 30 ) ) < < " ... " < < std : : endl ;
2015-01-11 17:18:28 -05:00
std : : cerr < < " Encrypted data hash = " < < RsDirUtil : : sha1sum ( ( const uint8_t * ) encrypted_data , encrypted_size ) < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2015-01-11 17:18:28 -05:00
return true ;
}
bool p3GRouter : : decryptDataItem ( RsGRouterGenericDataItem * item )
{
2015-01-19 08:53:36 -05:00
assert ( item - > flags & RS_GROUTER_DATA_FLAGS_ENCRYPTED ) ;
2014-03-29 10:18:05 -04:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " decrypting data for key " < < item - > destination_key < < std : : endl ;
std : : cerr < < " encrypted size = " < < item - > data_size < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2015-03-14 10:33:23 -04:00
uint8_t * decrypted_data = NULL ;
uint32_t decrypted_size = 0 ;
uint32_t error_status ;
if ( mGixs - > decryptData ( item - > data_bytes , item - > data_size , decrypted_data , decrypted_size , item - > destination_key , error_status ) )
{
if ( error_status = = RsGixs : : RS_GIXS_ERROR_KEY_NOT_AVAILABLE )
std : : cerr < < " (EE) Cannot decrypt incoming message. Key " < < item - > destination_key < < " unknown. " < < std : : endl ;
else
std : : cerr < < " (EE) Cannot decrypt incoming message. Unknown error. " < < std : : endl ;
}
# ifdef SUSPENDED
2015-01-19 08:53:36 -05:00
RsTlvSecurityKey encryption_key ;
// get the key, and let the cache find it.
for ( int i = 0 ; i < 4 ; + + i )
if ( mIdService - > getPrivateKey ( item - > destination_key , encryption_key ) )
break ;
else
usleep ( 500 * 1000 ) ; // sleep half a sec.
if ( encryption_key . keyId . isNull ( ) )
{
std : : cerr < < " (EE) Cannot get encryption key for id " < < item - > destination_key < < std : : endl ;
return false ;
}
2013-12-24 11:41:07 -05:00
2015-01-19 08:53:36 -05:00
uint8_t * decrypted_data = NULL ;
int decrypted_size = 0 ;
if ( ! GxsSecurity : : decrypt ( decrypted_data , decrypted_size , item - > data_bytes , item - > data_size , encryption_key ) )
{
std : : cerr < < " (EE) Decryption failed. " < < std : : endl ;
return false ;
}
2015-03-14 10:33:23 -04:00
# endif
2015-01-19 08:53:36 -05:00
2015-01-23 10:16:04 -05:00
free ( item - > data_bytes ) ;
2015-01-19 08:53:36 -05:00
item - > data_bytes = decrypted_data ;
item - > data_size = decrypted_size ;
item - > flags & = ~ RS_GROUTER_DATA_FLAGS_ENCRYPTED ;
return true ;
}
2013-11-02 10:35:33 -04:00
2015-01-20 08:04:10 -05:00
bool p3GRouter : : signDataItem ( RsGRouterAbstractMsgItem * item , const RsGxsId & signing_id )
2015-01-11 17:18:28 -05:00
{
uint8_t * data = NULL ;
2013-12-24 11:41:07 -05:00
2015-01-11 17:18:28 -05:00
try
{
RsTlvSecurityKey signature_key ;
2014-04-11 17:56:10 -04:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
std : : cerr < < " p3GRouter::signDataItem() " < < std : : endl ;
std : : cerr < < " Key ID = " < < signing_id < < std : : endl ;
std : : cerr < < " Getting key material... " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2015-01-11 17:18:28 -05:00
uint32_t data_size = item - > signed_data_size ( ) ;
uint8_t * data = ( uint8_t * ) malloc ( data_size ) ;
2013-12-28 16:47:15 -05:00
2015-01-11 17:18:28 -05:00
if ( data = = NULL )
throw std : : runtime_error ( " Cannot allocate memory for signing data. " ) ;
2014-04-19 12:02:11 -04:00
2015-03-14 10:33:23 -04:00
if ( ! item - > serialise_signed_data ( data , data_size ) )
throw std : : runtime_error ( " Cannot serialise signed data. " ) ;
# ifdef SUSPENDED
2015-01-11 17:18:28 -05:00
if ( ! mIdService - > getPrivateKey ( signing_id , signature_key ) )
throw std : : runtime_error ( " Cannot get signature key for id " + signing_id . toStdString ( ) ) ;
2014-04-15 18:10:53 -04:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
std : : cerr < < " Signing... " < < std : : endl ;
2015-01-22 04:50:44 -05:00
std : : cerr < < " First bytes of signed data: " < < RsUtil : : BinToHex ( ( const char * ) data , std : : min ( data_size , 30u ) ) < < " ... " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-24 11:41:07 -05:00
2015-01-11 17:18:28 -05:00
if ( ! GxsSecurity : : getSignature ( ( char * ) data , data_size , signature_key , item - > signature ) )
throw std : : runtime_error ( " Cannot sign for id " + signing_id . toStdString ( ) + " . Signature call failed. " ) ;
2015-03-14 10:33:23 -04:00
# endif
uint32_t error_status ;
if ( ! mGixs - > signData ( data , data_size , signing_id , item - > signature , error_status ) )
throw std : : runtime_error ( " Cannot sign for id " + signing_id . toStdString ( ) + " . Signature call failed. " ) ;
2013-12-24 11:41:07 -05:00
2015-01-22 04:50:44 -05:00
# ifdef GROUTER_DEBUG
std : : cerr < < " Created signature for data hash: " < < RsDirUtil : : sha1sum ( data , data_size ) < < " and key id= " < < signing_id < < std : : endl ;
# endif
2015-01-11 17:18:28 -05:00
free ( data ) ;
return true ;
}
catch ( std : : exception & e )
{
std : : cerr < < " signing failed. Error: " < < e . what ( ) < < std : : endl ;
if ( data ! = NULL )
free ( data ) ;
2015-03-14 10:33:23 -04:00
2015-01-11 17:18:28 -05:00
item - > signature . TlvClear ( ) ;
return false ;
}
2013-11-02 10:35:33 -04:00
}
2015-01-20 08:04:10 -05:00
bool p3GRouter : : verifySignedDataItem ( RsGRouterAbstractMsgItem * item )
2013-12-27 15:06:47 -05:00
{
2015-01-11 17:18:28 -05:00
try
{
RsTlvSecurityKey signature_key ;
2013-12-24 11:41:07 -05:00
2015-01-11 17:18:28 -05:00
uint32_t data_size = item - > signed_data_size ( ) ;
2015-03-28 13:23:52 -04:00
uint8_t * data = NULL ;
TemporaryMemoryHolder f ( data , data_size ) ;
if ( data = = NULL )
throw std : : runtime_error ( " Cannot allocate data. " ) ;
2013-12-24 11:41:07 -05:00
2015-01-11 17:18:28 -05:00
if ( ! item - > serialise_signed_data ( data , data_size ) )
throw std : : runtime_error ( " Cannot serialise signed data. " ) ;
2013-12-24 11:41:07 -05:00
2015-03-14 10:33:23 -04:00
# ifdef SUSPENDED
2015-01-11 17:18:28 -05:00
for ( int i = 0 ; i < 6 ; + + i )
if ( ! mIdService - > getKey ( item - > signature . keyId , signature_key ) | | signature_key . keyData . bin_data = = NULL )
{
std : : cerr < < " Cannot get key. Waiting for caching. try " < < i < < " /6 " < < std : : endl ;
usleep ( 500 * 1000 ) ; // sleep for 500 msec.
}
else
break ;
if ( signature_key . keyData . bin_data = = NULL )
throw std : : runtime_error ( " No key for checking signature from " + item - > signature . keyId . toStdString ( ) ) ;
2013-12-24 11:41:07 -05:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-19 08:53:36 -05:00
std : : cerr < < " Validating signature for data hash: " < < RsDirUtil : : sha1sum ( data , data_size ) < < " and key_id = " < < item - > signature . keyId < < std : : endl ;
2015-01-22 09:33:19 -05:00
std : : cerr < < " First bytes of signed data: " < < RsUtil : : BinToHex ( ( const char * ) data , std : : min ( data_size , 30u ) ) < < " ... " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2015-01-11 17:18:28 -05:00
if ( ! GxsSecurity : : validateSignature ( ( char * ) data , data_size , signature_key , item - > signature ) )
throw std : : runtime_error ( " Signature was verified and it doesn't check! This is a security issue! " ) ;
2015-03-14 10:33:23 -04:00
# endif
uint32_t error_status ;
if ( ! mGixs - > validateData ( data , data_size , item - > signature , true , error_status ) )
{
switch ( error_status )
{
case RsGixs : : RS_GIXS_ERROR_KEY_NOT_AVAILABLE : std : : cerr < < " (EE) Key is not available. Cannot verify. " < < std : : endl ;
break ;
case RsGixs : : RS_GIXS_ERROR_SIGNATURE_MISMATCH : std : : cerr < < " (EE) Signature mismatch. Spoofing/Corrupted/MITM?. " < < std : : endl ;
break ;
default : break ;
}
return false ;
}
2015-01-11 17:18:28 -05:00
return true ;
}
catch ( std : : exception & e )
{
std : : cerr < < " signature verification failed. Error: " < < e . what ( ) < < std : : endl ;
return false ;
}
2013-12-27 15:06:47 -05:00
}
2015-01-22 09:33:19 -05:00
bool p3GRouter : : cancel ( GRouterMsgPropagationId mid )
{
{
RS_STACK_MUTEX ( grMtx ) ;
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-22 09:33:19 -05:00
std : : cerr < < " p3GRouter::cancel(). Canceling message ID " < < mid < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-28 16:47:15 -05:00
2015-01-22 09:33:19 -05:00
std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it = _pending_messages . find ( mid ) ;
2014-04-11 17:56:10 -04:00
2015-01-22 09:33:19 -05:00
if ( it = = _pending_messages . end ( ) )
{
std : : cerr < < " ERROR: message ID is unknown. " < < std : : endl ;
return false ;
}
2014-04-19 12:02:11 -04:00
2015-01-22 09:33:19 -05:00
delete it - > second . data_item ;
if ( it - > second . receipt_item )
delete it - > second . receipt_item ;
2014-04-11 17:56:10 -04:00
2015-01-22 09:33:19 -05:00
_pending_messages . erase ( it ) ;
}
2013-11-02 10:35:33 -04:00
2015-01-22 09:33:19 -05:00
IndicateConfigChanged ( ) ;
return true ;
2013-12-27 15:06:47 -05:00
}
2015-01-23 10:16:04 -05:00
bool p3GRouter : : sendData ( const RsGxsId & destination , const GRouterServiceId & client_id , const uint8_t * data , uint32_t data_size , const RsGxsId & signing_id , GRouterMsgPropagationId & propagation_id )
2013-11-02 10:35:33 -04:00
{
2015-01-22 04:50:44 -05:00
if ( data_size > MAX_GROUTER_DATA_SIZE )
{
std : : cerr < < " GRouter max size limit exceeded (size= " < < data_size < < " , max= " < < MAX_GROUTER_DATA_SIZE < < " ). Please send a smaller object! " < < std : : endl ;
}
2015-01-11 17:18:28 -05:00
// Make sure we have a unique id (at least locally).
//
{
RsStackMutex mtx ( grMtx ) ;
do { propagation_id = RSRandom : : random_u64 ( ) ; } while ( _pending_messages . find ( propagation_id ) ! = _pending_messages . end ( ) ) ;
}
// create the signed data item
RsGRouterGenericDataItem * data_item = new RsGRouterGenericDataItem ;
2015-01-23 10:16:04 -05:00
data_item - > data_bytes = ( uint8_t * ) malloc ( data_size ) ;
memcpy ( data_item - > data_bytes , data , data_size ) ;
2015-01-11 17:18:28 -05:00
data_item - > data_size = data_size ;
data_item - > routing_id = propagation_id ;
data_item - > randomized_distance = 0 ;
data_item - > destination_key = destination ;
data_item - > flags = 0 ;
// First, encrypt.
if ( ! encryptDataItem ( data_item , destination ) )
{
std : : cerr < < " Cannot encrypt data item. Some error occured! " < < std : : endl ;
2015-03-28 13:23:52 -04:00
delete data_item ;
2015-01-11 17:18:28 -05:00
return false ;
}
// Then, sign the encrypted data, so that the signature can be checked by non priviledged users.
if ( ! signDataItem ( data_item , signing_id ) )
{
std : : cerr < < " Cannot sign data item. Some error occured! " < < std : : endl ;
2015-03-28 13:23:52 -04:00
delete data_item ;
2015-01-11 17:18:28 -05:00
return false ;
}
// Verify the signature. If that fails, there's a bug somewhere!!
if ( ! verifySignedDataItem ( data_item ) )
{
std : : cerr < < " Cannot verify data item that was just signed. Some error occured! " < < std : : endl ;
2015-03-28 13:23:52 -04:00
delete data_item ;
2015-01-11 17:18:28 -05:00
return false ;
}
// push the item into pending messages.
//
GRouterRoutingInfo info ;
time_t now = time ( NULL ) ;
info . data_item = data_item ;
2015-01-23 07:13:13 -05:00
info . receipt_item = NULL ;
2015-01-11 17:18:28 -05:00
info . data_status = RS_GROUTER_DATA_STATUS_PENDING ;
info . tunnel_status = RS_GROUTER_TUNNEL_STATUS_UNMANAGED ;
info . last_sent_TS = 0 ;
info . last_tunnel_request_TS = 0 ;
info . sending_attempts = 0 ;
info . received_time_TS = now ;
info . tunnel_hash = makeTunnelHash ( destination , client_id ) ;
info . client_id = client_id ;
2014-03-29 10:18:05 -04:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < " p3GRouter::sendGRouterData(): pushing the followign item in the msg pending list: " < < std : : endl ;
grouter_debug ( ) < < " routing id = " < < propagation_id < < std : : endl ;
grouter_debug ( ) < < " data_item.size = " < < info . data_item - > data_size < < std : : endl ;
grouter_debug ( ) < < " data_item.byte = " < < RsDirUtil : : sha1sum ( info . data_item - > data_bytes , info . data_item - > data_size ) < < std : : endl ;
2015-01-22 04:50:44 -05:00
grouter_debug ( ) < < " destination = " < < data_item - > destination_key < < std : : endl ;
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < " signed by key = " < < data_item - > signature . keyId < < std : : endl ;
grouter_debug ( ) < < " data status = " < < info . data_status < < std : : endl ;
grouter_debug ( ) < < " tunnel status = " < < info . tunnel_status < < std : : endl ;
grouter_debug ( ) < < " sending attempt= " < < info . sending_attempts < < std : : endl ;
grouter_debug ( ) < < " distance = " < < info . data_item - > randomized_distance < < std : : endl ;
grouter_debug ( ) < < " recv time = " < < info . received_time_TS < < std : : endl ;
grouter_debug ( ) < < " client id = " < < std : : hex < < info . client_id < < std : : dec < < std : : endl ;
grouter_debug ( ) < < " tunnel hash = " < < info . tunnel_hash < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-24 11:41:07 -05:00
2015-01-11 17:18:28 -05:00
{
2015-01-15 15:33:24 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2015-01-11 17:18:28 -05:00
_pending_messages [ propagation_id ] = info ;
}
2015-01-22 09:33:19 -05:00
IndicateConfigChanged ( ) ;
2015-01-11 17:18:28 -05:00
return true ;
2013-11-02 10:35:33 -04:00
}
2015-01-11 17:18:28 -05:00
Sha1CheckSum p3GRouter : : makeTunnelHash ( const RsGxsId & destination , const GRouterServiceId & client )
2013-12-22 12:04:13 -05:00
{
2015-01-11 17:18:28 -05:00
assert ( destination . SIZE_IN_BYTES = = 16 ) ;
assert ( Sha1CheckSum : : SIZE_IN_BYTES = = 20 ) ;
2013-12-22 12:04:13 -05:00
2015-01-11 17:18:28 -05:00
uint8_t bytes [ 20 ] ;
memcpy ( bytes , destination . toByteArray ( ) , 16 ) ;
bytes [ 16 ] = 0 ;
bytes [ 17 ] = 0 ;
bytes [ 18 ] = ( client > > 8 ) & 0xff ;
bytes [ 19 ] = client & 0xff ;
2013-12-22 12:04:13 -05:00
2015-01-11 17:18:28 -05:00
return Sha1CheckSum ( bytes ) ;
2013-12-22 12:04:13 -05:00
}
2015-01-20 08:04:10 -05:00
void p3GRouter : : makeGxsIdAndClientId ( const TurtleFileHash & sum , RsGxsId & gxs_id , GRouterServiceId & client_id )
2015-01-15 15:33:24 -05:00
{
assert ( gxs_id . SIZE_IN_BYTES = = 16 ) ;
assert ( Sha1CheckSum : : SIZE_IN_BYTES = = 20 ) ;
2013-12-22 12:04:13 -05:00
2015-01-15 15:33:24 -05:00
gxs_id = RsGxsId ( sum . toByteArray ( ) ) ; // takes the first 16 bytes
client_id = sum . toByteArray ( ) [ 19 ] + ( sum . toByteArray ( ) [ 18 ] < < 8 ) ;
}
2015-01-11 17:18:28 -05:00
bool p3GRouter : : loadList ( std : : list < RsItem * > & items )
2013-11-02 10:35:33 -04:00
{
2015-01-15 15:33:24 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2013-12-27 15:06:47 -05:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " p3GRouter::loadList() : " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-27 15:06:47 -05:00
_routing_matrix . loadList ( items ) ;
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2013-12-27 15:06:47 -05:00
// remove all existing objects.
//
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " removing all existing items ( " < < _pending_messages . size ( ) < < " items to delete). " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-27 15:06:47 -05:00
2015-01-22 04:50:44 -05:00
if ( ! _pending_messages . empty ( ) )
std : : cerr < < " WARNING: pending msg list is not empty. List will be cleared. " < < std : : endl ;
2014-04-21 08:39:30 -04:00
// clear the existing list.
//
2013-12-27 15:06:47 -05:00
for ( std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it ( _pending_messages . begin ( ) ) ; it ! = _pending_messages . end ( ) ; + + it )
2015-01-11 17:18:28 -05:00
delete it - > second . data_item ;
2013-12-27 15:06:47 -05:00
_pending_messages . clear ( ) ;
for ( std : : list < RsItem * > : : const_iterator it ( items . begin ( ) ) ; it ! = items . end ( ) ; + + it )
{
RsGRouterRoutingInfoItem * itm1 = NULL ;
if ( NULL ! = ( itm1 = dynamic_cast < RsGRouterRoutingInfoItem * > ( * it ) ) )
2015-01-22 04:50:44 -05:00
{
2013-12-27 15:06:47 -05:00
_pending_messages [ itm1 - > data_item - > routing_id ] = * itm1 ;
2014-04-21 08:39:30 -04:00
//_pending_messages[itm1->data_item->routing_id].data_item = itm1->data_item ; // avoids duplication.
2013-12-27 15:06:47 -05:00
itm1 - > data_item = NULL ; // prevents deletion.
}
delete * it ;
2015-01-11 17:18:28 -05:00
}
2015-01-22 04:50:44 -05:00
return true ;
2013-11-02 10:35:33 -04:00
}
2013-12-27 15:06:47 -05:00
bool p3GRouter : : saveList ( bool & cleanup , std : : list < RsItem * > & items )
2013-11-02 10:35:33 -04:00
{
2015-01-22 04:50:44 -05:00
// We save
// - the routing clues
// - the pending items
2013-12-22 12:04:13 -05:00
2015-01-22 04:50:44 -05:00
cleanup = true ; // the client should delete the items.
2013-12-27 15:06:47 -05:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-22 04:50:44 -05:00
grouter_debug ( ) < < " p3GRouter::saveList()... " < < std : : endl ;
grouter_debug ( ) < < " saving routing clues. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-27 15:06:47 -05:00
2015-01-22 04:50:44 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2015-01-15 15:33:24 -05:00
_routing_matrix . saveList ( items ) ;
2013-12-27 15:06:47 -05:00
2014-03-29 19:03:04 -04:00
# ifdef GROUTER_DEBUG
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < " saving pending items. " < < std : : endl ;
2014-03-29 19:03:04 -04:00
# endif
2013-12-27 15:06:47 -05:00
2015-01-22 04:50:44 -05:00
for ( std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : const_iterator it ( _pending_messages . begin ( ) ) ; it ! = _pending_messages . end ( ) ; + + it )
{
RsGRouterRoutingInfoItem * item = new RsGRouterRoutingInfoItem ;
2013-12-27 15:06:47 -05:00
2015-01-22 04:50:44 -05:00
* ( GRouterRoutingInfo * ) item = it - > second ; // copy all members
2013-12-27 15:06:47 -05:00
2015-01-22 04:50:44 -05:00
item - > data_item = it - > second . data_item - > duplicate ( ) ; // deep copy, because we call delete on the object, and the item might be removed before we handle it in the client.
2015-01-22 09:33:19 -05:00
if ( it - > second . receipt_item ! = NULL )
item - > receipt_item = it - > second . receipt_item - > duplicate ( ) ;
2015-01-22 04:50:44 -05:00
items . push_back ( item ) ;
2015-01-11 17:18:28 -05:00
}
2013-12-27 15:06:47 -05:00
2015-01-22 04:50:44 -05:00
return true ;
2013-11-02 10:35:33 -04:00
}
2014-04-07 17:36:43 -04:00
bool p3GRouter : : getRoutingMatrixInfo ( RsGRouter : : GRouterRoutingMatrixInfo & info )
2014-03-29 10:18:05 -04:00
{
2015-01-15 15:33:24 -05:00
RS_STACK_MUTEX ( grMtx ) ;
info . per_friend_probabilities . clear ( ) ;
2014-03-29 10:18:05 -04:00
info . friend_ids . clear ( ) ;
info . published_keys . clear ( ) ;
2014-03-29 19:03:04 -04:00
std : : set < RsPeerId > ids ;
2014-04-19 12:02:11 -04:00
mServiceControl - > getPeersConnected ( getServiceInfo ( ) . mServiceType , ids ) ;
2014-03-29 10:18:05 -04:00
2015-01-23 07:13:13 -05:00
info . published_keys = _owned_key_ids ;
2014-03-29 10:18:05 -04:00
2014-03-29 19:03:04 -04:00
for ( std : : set < RsPeerId > : : const_iterator it ( ids . begin ( ) ) ; it ! = ids . end ( ) ; + + it )
2014-03-29 10:18:05 -04:00
info . friend_ids . push_back ( * it ) ;
std : : vector < GRouterKeyId > known_keys ;
std : : vector < float > probas ;
_routing_matrix . getListOfKnownKeys ( known_keys ) ;
for ( uint32_t i = 0 ; i < known_keys . size ( ) ; + + i )
{
_routing_matrix . computeRoutingProbabilities ( known_keys [ i ] , info . friend_ids , probas ) ;
info . per_friend_probabilities [ known_keys [ i ] ] = probas ;
}
return true ;
}
2014-04-07 17:36:43 -04:00
bool p3GRouter : : getRoutingCacheInfo ( std : : vector < GRouterRoutingCacheInfo > & infos )
2014-03-29 10:18:05 -04:00
{
2015-01-23 07:13:13 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2015-01-15 15:33:24 -05:00
infos . clear ( ) ;
2014-03-29 10:18:05 -04:00
2015-01-23 07:13:13 -05:00
for ( std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : const_iterator it ( _pending_messages . begin ( ) ) ; it ! = _pending_messages . end ( ) ; + + it )
{
GRouterRoutingCacheInfo cinfo ;
2014-03-29 10:18:05 -04:00
2015-01-23 07:13:13 -05:00
cinfo . mid = it - > first ;
cinfo . local_origin . clear ( ) ; // not used before we implement proxys
2015-01-22 04:50:44 -05:00
cinfo . destination = it - > second . data_item - > destination_key ;
2015-01-23 07:13:13 -05:00
cinfo . routing_time = it - > second . received_time_TS ;
cinfo . last_tunnel_attempt_time = it - > second . last_tunnel_request_TS ;
cinfo . last_sent_time = it - > second . last_sent_TS ;
cinfo . receipt_available = ( it - > second . receipt_item ! = NULL ) ;
cinfo . data_status = it - > second . data_status ;
cinfo . tunnel_status = it - > second . tunnel_status ;
cinfo . data_size = it - > second . data_item - > data_size ;
cinfo . data_hash = RsDirUtil : : sha1sum ( it - > second . data_item - > data_bytes , it - > second . data_item - > data_size ) ;
infos . push_back ( cinfo ) ;
}
return true ;
2014-03-29 10:18:05 -04:00
}
2013-11-05 16:15:26 -05:00
// Dump everything
//
void p3GRouter : : debugDump ( )
{
2015-01-15 15:33:24 -05:00
RS_STACK_MUTEX ( grMtx ) ;
2013-12-27 15:06:47 -05:00
2013-11-05 16:15:26 -05:00
time_t now = time ( NULL ) ;
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " Full dump of Global Router state: " < < std : : endl ;
grouter_debug ( ) < < " Owned keys : " < < std : : endl ;
2013-11-05 16:15:26 -05:00
2015-01-11 17:18:28 -05:00
for ( std : : map < Sha1CheckSum , GRouterPublishedKeyInfo > : : const_iterator it ( _owned_key_ids . begin ( ) ) ; it ! = _owned_key_ids . end ( ) ; + + it )
2013-11-05 16:15:26 -05:00
{
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < " Hash : " < < it - > first < < std : : endl ;
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " Service id : " < < std : : hex < < it - > second . service_id < < std : : dec < < std : : endl ;
grouter_debug ( ) < < " Description : " < < it - > second . description_string < < std : : endl ;
2013-11-05 16:15:26 -05:00
}
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " Registered services: " < < std : : endl ;
2013-11-05 16:15:26 -05:00
for ( std : : map < GRouterServiceId , GRouterClientService * > : : const_iterator it ( _registered_services . begin ( ) ) ; it ! = _registered_services . end ( ) ; + + it )
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " " < < std : : hex < < it - > first < < " " < < std : : dec < < ( void * ) it - > second < < std : : endl ;
2013-11-05 16:15:26 -05:00
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " Data items: " < < std : : endl ;
2014-03-29 10:18:05 -04:00
2014-04-13 15:27:50 -04:00
static const std : : string statusString [ 5 ] = { " Unkn " , " Pend " , " Sent " , " Ackn " , " Dead " } ;
2014-03-29 10:18:05 -04:00
for ( std : : map < GRouterMsgPropagationId , GRouterRoutingInfo > : : iterator it ( _pending_messages . begin ( ) ) ; it ! = _pending_messages . end ( ) ; + + it )
2015-01-11 17:18:28 -05:00
{
grouter_debug ( ) < < " Msg id : " < < std : : hex < < it - > first < < std : : dec ;
2015-01-22 04:50:44 -05:00
grouter_debug ( ) < < " Destination: " < < it - > second . data_item - > destination_key ;
2015-01-11 17:18:28 -05:00
grouter_debug ( ) < < " Received : " < < now - it - > second . received_time_TS < < " secs ago. " ;
grouter_debug ( ) < < " Last sent : " < < now - it - > second . last_sent_TS < < " secs ago. " ;
grouter_debug ( ) < < " Data Status: " < < statusString [ it - > second . data_status ] < < std : : endl ;
grouter_debug ( ) < < " Tunl Status: " < < statusString [ it - > second . tunnel_status ] < < std : : endl ;
2015-01-19 08:53:36 -05:00
grouter_debug ( ) < < " Receipt ok : " < < ( it - > second . receipt_item ! = NULL ) < < std : : endl ;
2015-01-11 17:18:28 -05:00
}
grouter_debug ( ) < < " Tunnels: " < < std : : endl ;
for ( std : : map < TurtleFileHash , GRouterTunnelInfo > : : const_iterator it ( _virtual_peers . begin ( ) ) ; it ! = _virtual_peers . end ( ) ; + + it )
{
grouter_debug ( ) < < " hash: " < < it - > first < < " , first received: " < < now - it - > second . last_tunnel_ok_TS < < " (secs ago), last received: " < < now - it - > second . last_tunnel_ok_TS < < std : : endl ;
2015-01-15 15:33:24 -05:00
for ( std : : map < TurtleVirtualPeerId , RsGRouterTransactionChunkItem * > : : const_iterator it2 = it - > second . virtual_peers . begin ( ) ; it2 ! = it - > second . virtual_peers . end ( ) ; + + it2 )
grouter_debug ( ) < < " " < < it2 - > first < < " : cached data = " < < ( void * ) it2 - > second < < std : : endl ;
2015-01-11 17:18:28 -05:00
}
2014-03-29 10:18:05 -04:00
2014-04-13 15:27:50 -04:00
grouter_debug ( ) < < " Routing matrix: " < < std : : endl ;
2013-11-05 16:15:26 -05:00
2015-01-22 04:50:44 -05:00
// if(_debug_enabled)
// _routing_matrix.debugDump() ;
2013-11-05 16:15:26 -05:00
}
2013-11-02 10:35:33 -04:00