RetroShare/libretroshare/src/gxs/rsgenexchange.cc

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/*
* libretroshare/src/gxs: rsgenexchange.cc
*
* RetroShare Gxs exchange interface.
*
* Copyright 2012-2012 by Christopher Evi-Parker, Robert Fernie
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License Version 2 as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Please report all bugs and problems to "retroshare@lunamutt.com".
*
*/
#include <openssl/err.h>
#include <openssl/ssl.h>
#include <openssl/evp.h>
#include <openssl/rand.h>
#include "rsgenexchange.h"
#include "gxssecurity.h"
RsGenExchange::RsGenExchange(RsGeneralDataService *gds,
RsNetworkExchangeService *ns, RsSerialType *serviceSerialiser, uint16_t servType)
: mGenMtx("GenExchange"), mDataStore(gds), mNetService(ns), mSerialiser(serviceSerialiser), mServType(servType)
{
mDataAccess = new RsGxsDataAccess(gds);
}
RsGenExchange::~RsGenExchange()
{
// need to destruct in a certain order (prob a bad thing!)
delete mNetService;
delete mDataAccess;
mDataAccess = NULL;
delete mDataStore;
mDataStore = NULL;
}
void RsGenExchange::tick()
{
mDataAccess->processRequests();
publishGrps();
publishMsgs();
notifyChanges(mNotifications);
mNotifications.clear();
}
bool RsGenExchange::acknowledgeTokenMsg(const uint32_t& token,
std::pair<RsGxsGroupId, RsGxsMessageId>& msgId)
{
RsStackMutex stack(mGenMtx);
std::map<uint32_t, std::pair<RsGxsGroupId, RsGxsMessageId> >::iterator mit =
mMsgPublished.find(token);
if(mit == mMsgPublished.end())
return false;
msgId = mit->second;
// no dump token as client has ackowledged its completion
mDataAccess->disposeOfPublicToken(token);
return true;
}
bool RsGenExchange::acknowledgeTokenGrp(const uint32_t& token,
RsGxsGroupId& grpId)
{
RsStackMutex stack(mGenMtx);
std::map<uint32_t, RsGxsGroupId >::iterator mit =
mGrpPublished.find(token);
if(mit == mGrpPublished.end())
return false;
grpId = mit->second;
// no dump token as client has ackowledged its completion
mDataAccess->disposeOfPublicToken(token);
return true;
}
void RsGenExchange::createGroup(RsNxsGrp *grp)
{
/* create Keys */
// admin keys
RSA *rsa_admin = RSA_generate_key(2048, 65537, NULL, NULL);
RSA *rsa_admin_pub = RSAPublicKey_dup(rsa_admin);
// publish keys
RSA *rsa_publish = RSA_generate_key(2048, 65537, NULL, NULL);
RSA *rsa_publish_pub = RSAPublicKey_dup(rsa_admin);
/* set keys */
RsTlvSecurityKey adminKey, privAdminKey;
/* set publish keys */
RsTlvSecurityKey pubKey, privPubKey;
GxsSecurity::setRSAPublicKey(adminKey, rsa_admin_pub);
GxsSecurity::setRSAPrivateKey(privAdminKey, rsa_admin);
GxsSecurity::setRSAPublicKey(pubKey, rsa_publish_pub);
GxsSecurity::setRSAPrivateKey(privPubKey, rsa_publish);
// for now all public
adminKey.keyFlags = RSTLV_KEY_DISTRIB_ADMIN | RSTLV_KEY_TYPE_PUBLIC_ONLY;
privAdminKey.keyFlags = RSTLV_KEY_DISTRIB_ADMIN | RSTLV_KEY_TYPE_FULL;
// for now all public
pubKey.keyFlags = RSTLV_KEY_DISTRIB_PUBLIC | RSTLV_KEY_TYPE_PUBLIC_ONLY;
privPubKey.keyFlags = RSTLV_KEY_DISTRIB_PRIVATE | RSTLV_KEY_TYPE_FULL;
adminKey.startTS = time(NULL);
adminKey.endTS = 0; /* no end */
RsGxsGrpMetaData* meta = grp->metaData;
/* add keys to grp */
meta->keys.keys[adminKey.keyId] = adminKey;
meta->keys.keys[privAdminKey.keyId] = privAdminKey;
meta->keys.keys[pubKey.keyId] = pubKey;
meta->keys.keys[privPubKey.keyId] = privPubKey;
meta->mGroupId = adminKey.keyId;
grp->grpId = meta->mGroupId;
adminKey.TlvClear();
privAdminKey.TlvClear();
privPubKey.TlvClear();
pubKey.TlvClear();
// free the private key for now, as it is not in use
RSA_free(rsa_admin);
RSA_free(rsa_admin_pub);
RSA_free(rsa_publish);
RSA_free(rsa_publish_pub);
}
bool RsGenExchange::createMessage(RsNxsMsg* msg)
{
const RsGxsGroupId& id = msg->grpId;
std::map<RsGxsGroupId, RsGxsGrpMetaData*> metaMap;
metaMap.insert(std::make_pair(id, (RsGxsGrpMetaData*)(NULL)));
mDataStore->retrieveGxsGrpMetaData(metaMap);
bool ok = true;
if(!metaMap[id])
{
return false;
}
else
{
// get publish key
RsGxsGrpMetaData* meta = metaMap[id];
// public and shared is publish key
RsTlvSecurityKeySet& keys = meta->keys;
RsTlvSecurityKey* pubKey;
std::map<std::string, RsTlvSecurityKey>::iterator mit =
keys.keys.begin(), mit_end = keys.keys.end();
bool pub_key_found = false;
for(; mit != mit_end; mit++)
{
pub_key_found = mit->second.keyFlags & (RSTLV_KEY_TYPE_FULL | RSTLV_KEY_DISTRIB_PUBLIC);
if(pub_key_found)
break;
}
if(pub_key_found)
{
pubKey = &(mit->second);
RSA* rsa_pub = GxsSecurity::extractPrivateKey(*pubKey);
EVP_PKEY *key_pub = EVP_PKEY_new();
EVP_PKEY_assign_RSA(key_pub, rsa_pub);
/* calc and check signature */
EVP_MD_CTX *mdctx = EVP_MD_CTX_create();
ok = EVP_SignInit(mdctx, EVP_sha1()) == 1;
ok = EVP_SignUpdate(mdctx, msg->msg.bin_data, msg->msg.bin_len) == 1;
unsigned int siglen = EVP_PKEY_size(key_pub);
unsigned char sigbuf[siglen];
ok = EVP_SignFinal(mdctx, sigbuf, &siglen, key_pub) == 1;
RsGxsMsgMetaData &meta = *(msg->metaData);
meta.pubSign.signData.setBinData(sigbuf, siglen);
meta.pubSign.keyId = pubKey->keyId;
msg->metaData->mMsgId = msg->msgId = GxsSecurity::getBinDataSign(sigbuf, siglen);
// clean up
EVP_MD_CTX_destroy(mdctx);
EVP_PKEY_free(key_pub);
RSA_free(rsa_pub);
}
else
{
ok = false;
}
delete meta;
}
return ok;
}
bool RsGenExchange::getGroupList(const uint32_t &token, std::list<RsGxsGroupId> &groupIds)
{
return mDataAccess->getGroupList(token, groupIds);
}
bool RsGenExchange::getMsgList(const uint32_t &token,
GxsMsgIdResult &msgIds)
{
return mDataAccess->getMsgList(token, msgIds);
}
bool RsGenExchange::getGroupMeta(const uint32_t &token, std::list<RsGroupMetaData> &groupInfo)
{
std::list<RsGxsGrpMetaData*> metaL;
bool ok = mDataAccess->getGroupSummary(token, metaL);
std::list<RsGxsGrpMetaData*>::iterator lit = metaL.begin();
RsGroupMetaData m;
for(; lit != metaL.end(); lit++)
{
RsGxsGrpMetaData& gMeta = *(*lit);
m = gMeta;
groupInfo.push_back(m);
delete (*lit);
}
return ok;
}
bool RsGenExchange::getMsgMeta(const uint32_t &token,
GxsMsgMetaMap &msgInfo)
{
std::list<RsGxsMsgMetaData*> metaL;
GxsMsgMetaResult result;
bool ok = mDataAccess->getMsgSummary(token, result);
GxsMsgMetaResult::iterator mit = result.begin();
for(; mit != result.end(); mit++)
{
std::vector<RsGxsMsgMetaData*>& metaV = mit->second;
msgInfo[mit->first] = std::vector<RsMsgMetaData>();
std::vector<RsMsgMetaData>& msgInfoV = msgInfo[mit->first];
std::vector<RsGxsMsgMetaData*>::iterator vit = metaV.begin();
RsMsgMetaData meta;
for(; vit != metaV.end(); vit++)
{
RsGxsMsgMetaData& m = *(*vit);
meta = m;
msgInfoV.push_back(meta);
delete *vit;
}
metaV.clear();
}
return ok;
}
bool RsGenExchange::getGroupData(const uint32_t &token, std::vector<RsGxsGrpItem *>& grpItem)
{
std::list<RsNxsGrp*> nxsGrps;
bool ok = mDataAccess->getGroupData(token, nxsGrps);
std::list<RsNxsGrp*>::iterator lit = nxsGrps.begin();
if(ok)
{
for(; lit != nxsGrps.end(); lit++)
{
RsTlvBinaryData& data = (*lit)->grp;
RsItem* item = mSerialiser->deserialise(data.bin_data, &data.bin_len);
if(item != NULL){
RsGxsGrpItem* gItem = dynamic_cast<RsGxsGrpItem*>(item);
gItem->meta = *((*lit)->metaData);
grpItem.push_back(gItem);
delete *lit;
}
}
}
return ok;
}
bool RsGenExchange::getMsgData(const uint32_t &token,
GxsMsgDataMap &msgItems)
{
NxsMsgDataResult msgResult;
bool ok = mDataAccess->getMsgData(token, msgResult);
NxsMsgDataResult::iterator mit = msgResult.begin();
if(ok)
{
for(; mit != msgResult.end(); mit++)
{
std::vector<RsGxsMsgItem*> gxsMsgItems;
const RsGxsGroupId& grpId = mit->first;
std::vector<RsNxsMsg*>& nxsMsgsV = mit->second;
std::vector<RsNxsMsg*>::iterator vit
= nxsMsgsV.begin();
for(; vit != nxsMsgsV.end(); vit++)
{
RsNxsMsg*& msg = *vit;
RsItem* item = mSerialiser->deserialise(msg->msg.bin_data,
&msg->msg.bin_len);
RsGxsMsgItem* mItem = dynamic_cast<RsGxsMsgItem*>(item);
mItem->meta = *((*vit)->metaData); // get meta info from nxs msg
gxsMsgItems.push_back(mItem);
delete msg;
}
msgItems[grpId] = gxsMsgItems;
}
}
return ok;
}
RsTokenServiceV2* RsGenExchange::getTokenService()
{
return mDataAccess;
}
void RsGenExchange::notifyNewGroups(std::vector<RsNxsGrp *> &groups)
{
std::vector<RsNxsGrp*>::iterator vit = groups.begin();
// store these for tick() to pick them up
for(; vit != groups.end(); vit++)
mReceivedGrps.push_back(*vit);
}
void RsGenExchange::notifyNewMessages(std::vector<RsNxsMsg *>& messages)
{
std::vector<RsNxsMsg*>::iterator vit = messages.begin();
// store these for tick() to pick them up
for(; vit != messages.end(); vit++)
mReceivedMsgs.push_back(*vit);
}
bool RsGenExchange::publishGroup(uint32_t& token, RsGxsGrpItem *grpItem)
{
RsStackMutex stack(mGenMtx);
token = mDataAccess->generatePublicToken();
mGrpsToPublish.insert(std::make_pair(token, grpItem));
return true;
}
bool RsGenExchange::publishMsg(uint32_t& token, RsGxsMsgItem *msgItem)
{
RsStackMutex stack(mGenMtx);
token = mDataAccess->generatePublicToken();
mMsgsToPublish.insert(std::make_pair(token, msgItem));
return true;
}
void RsGenExchange::publishMsgs()
{
RsStackMutex stack(mGenMtx);
std::map<uint32_t, RsGxsMsgItem*>::iterator mit = mMsgsToPublish.begin();
for(; mit != mMsgsToPublish.end(); )
{
RsNxsMsg* msg = new RsNxsMsg(mServType);
RsGxsMsgItem* msgItem = mit->second;
uint32_t size = mSerialiser->size(msgItem);
char mData[size];
bool ok = mSerialiser->serialise(msgItem, mData, &size);
if(ok)
{
msg->metaData = new RsGxsMsgMetaData();
*(msg->metaData) = msgItem->meta;
ok = createMessage(msg);
if(ok)
ok = mDataAccess->addMsgData(msg);
mMsgPublished.insert(std::make_pair(mit->first, std::make_pair(msg->grpId, msg->msgId)));
}
// if addition failed then delete nxs message
if(!ok)
{
#ifdef GEN_EXCH_DEBUG
std::cerr << "RsGenExchange::publishMsgs() failed to publish msg " << std::endl;
#endif
mMsgPublished.insert(std::make_pair(mit->first, std::make_pair(RsGxsGroupId(""), RsGxsMessageId(""))));
delete msg;
continue;
}
delete msgItem; // delete msg item as we're done with it
}
// clear msg list as we're done publishing them and entries
// are invalid
mMsgsToPublish.clear();
}
void RsGenExchange::publishGrps()
{
RsStackMutex stack(mGenMtx);
std::map<uint32_t, RsGxsGrpItem*>::iterator mit = mGrpsToPublish.begin();
for(; mit != mGrpsToPublish.end(); mit++)
{
RsNxsGrp* grp = new RsNxsGrp(mServType);
RsGxsGrpItem* grpItem = mit->second;
uint32_t size = mSerialiser->size(grpItem);
char gData[size];
bool ok = mSerialiser->serialise(grpItem, gData, &size);
grp->grp.setBinData(gData, size);
if(ok)
{
grp->metaData = new RsGxsGrpMetaData();
*(grp->metaData) = grpItem->meta;
createGroup(grp);
size = grp->metaData->serial_size();
char mData[size];
ok = grp->metaData->serialise(mData, size);
grp->meta.setBinData(mData, size);
ok = mDataAccess->addGroupData(grp);
// add to published to allow acknowledgement
mGrpPublished.insert(std::make_pair(mit->first, grp->grpId));
mDataAccess->updatePublicRequestStatus(mit->first, RsTokenServiceV2::GXS_REQUEST_STATUS_COMPLETE);
}
if(!ok)
{
#ifdef GEN_EXCH_DEBUG
std::cerr << "RsGenExchange::publishGrps() failed to publish grp " << std::endl;
#endif
delete grp;
// add to published to allow acknowledgement, grpid is empty as grp creation failed
mGrpPublished.insert(std::make_pair(mit->first, RsGxsGroupId("")));
mDataAccess->updatePublicRequestStatus(mit->first, RsTokenServiceV2::GXS_REQUEST_STATUS_FAILED);
continue;
}
delete grpItem;
}
// clear grp list as we're done publishing them and entries
// are invalid
mGrpsToPublish.clear();
}
void RsGenExchange::processRecvdData()
{
}
void RsGenExchange::processRecvdMessages()
{
}
void RsGenExchange::processRecvdGroups()
{
}