RetroShare/tests/unittests/libretroshare/services/gxs/GxsPeerNode.cc

612 lines
15 KiB
C++

// from libretroshare
//#include "serialiser/rsstatusitems.h"
#include "services/p3idservice.h"
#include "services/p3gxscircles.h"
#include "gxs/rsgixs.h"
#include "gxs/rsdataservice.h"
#include "gxs/rsgxsnetservice.h"
#include "util/rsdir.h"
// local
#include "GxsPeerNode.h"
#include "FakePgpAuxUtils.h"
#include "gxstestservice.h"
#ifdef USER_NETSERVICE_WRAPPER
#include "RsGxsNetServiceTester.h"
#endif
GxsPeerNode::GxsPeerNode(const RsPeerId &ownId, const std::list<RsPeerId> &friends, int testMode, bool useIdentityService)
:PeerNode(ownId, friends, false),
mUseIdentityService(useIdentityService),
mTestMode(testMode),
mGxsDir("./gxs_unittest/" + ownId.toStdString() + "/"),
mGxsIdService(NULL),
mGxsCircles(NULL),
mTestService(NULL),
mTestDs(NULL),
mTestNs(NULL)
{
// extract bits we need.
p3PeerMgr *peerMgr = getPeerMgr();
p3LinkMgr *linkMgr = getLinkMgr();
p3NetMgr *netMgr = getNetMgr();
RsNxsNetMgr *nxsMgr = getNxsNetMgr();
p3ServiceControl *serviceCtrl = getServiceControl();
// Create Service for Testing.
// Specific Testing service here.
RsDirUtil::checkCreateDirectory(mGxsDir);
std::set<std::string> filesToKeep;
RsDirUtil::cleanupDirectory(mGxsDir, filesToKeep);
std::string gxs_passwd = "testpassword";
mPgpAuxUtils = new FakePgpAuxUtils(ownId);
mPgpAuxUtils->addPeerListToPgpList(friends);
if (mUseIdentityService)
{
/**** Identity service ****/
mGxsIdDs = new RsDataService(mGxsDir, "gxsid_db",
RS_SERVICE_GXS_TYPE_GXSID, NULL, gxs_passwd);
mGxsIdService = new p3IdService(mGxsIdDs, NULL, mPgpAuxUtils);
// circles created here, as needed by Ids.
mGxsCirclesDs = new RsDataService(mGxsDir, "gxscircles_db",
RS_SERVICE_GXS_TYPE_GXSCIRCLE, NULL, gxs_passwd);
mGxsCircles = new p3GxsCircles(mGxsCirclesDs, NULL, mGxsIdService, mPgpAuxUtils);
// create GXS ID service
mGxsIdNs = new RsGxsNetService(
RS_SERVICE_GXS_TYPE_GXSID, mGxsIdDs, nxsMgr,
mGxsIdService, mGxsIdService->getServiceInfo(),
mGxsIdService, mGxsCircles,
mPgpAuxUtils,
false); // don't synchronise group automatic (need explicit group request)
mGxsIdService->setNes(mGxsIdNs);
/**** GxsCircle service ****/
#ifdef USER_NETSERVICE_WRAPPER
mGxsCirclesNs = new RsGxsNetServiceTester
#else
mGxsCirclesNs = new RsGxsNetService
#endif
(RS_SERVICE_GXS_TYPE_GXSCIRCLE, mGxsCirclesDs, nxsMgr,
mGxsCircles, mGxsCircles->getServiceInfo(),
mGxsIdService, mGxsCircles,
mPgpAuxUtils);
}
else
{
mGxsIdDs = NULL;
mGxsIdService = NULL;
mGxsCirclesDs = NULL;
mGxsCircles = NULL;
mGxsIdNs = NULL;
mGxsCirclesNs = NULL;
}
mTestDs = new RsDataService(mGxsDir, "test_db",
RS_SERVICE_GXS_TYPE_TEST,
NULL, "testPasswd");
mTestService = new GxsTestService(mTestDs, NULL, mGxsIdService, testMode);
#ifdef USER_NETSERVICE_WRAPPER
mTestNs = new RsGxsNetServiceTester
#else
mTestNs = new RsGxsNetService
#endif
(RS_SERVICE_GXS_TYPE_TEST, mTestDs, nxsMgr,
mTestService, mTestService->getServiceInfo(),
mGxsIdService, mGxsCircles,
mPgpAuxUtils);
if (mUseIdentityService)
{
AddService(mGxsIdNs);
AddService(mGxsCirclesNs);
}
AddService(mTestNs);
//mConfigMgr->addConfiguration("testservice.cfg", mTestService);
if (mUseIdentityService)
{
//mConfigMgr->addConfiguration("gxsid.cfg", mGxsIdNs);
//mConfigMgr->addConfiguration("gxscircles.cfg", mGxsCircleNs);
mGxsIdService->start();
mGxsIdNs->start();
mGxsCircles->start();
mGxsCirclesNs->start();
}
mTestService->start();
mTestNs->start();
//node->AddPqiServiceMonitor(status);
}
GxsPeerNode::~GxsPeerNode()
{
mTestService->join();
mTestNs->join();
if (mUseIdentityService)
{
mGxsIdService->join();
mGxsIdNs->join();
mGxsCircles->join();
mGxsCirclesNs->join();
delete mGxsIdNs;
delete mGxsIdService;
delete mGxsCirclesNs;
delete mGxsCircles;
}
delete mTestNs;
delete mTestService;
// this is deleted somewhere else?
//delete mTestDs;
std::set<std::string> filesToKeep;
RsDirUtil::cleanupDirectory(mGxsDir, filesToKeep);
}
bool GxsPeerNode::checkTestServiceAllowedGroups(const RsPeerId &peerId)
{
#ifdef USER_NETSERVICE_WRAPPER
std::vector<RsGxsGroupId> groups;
return ((RsGxsNetServiceTester *) mTestNs)->fetchAllowedGroups(peerId, groups);
#else
std::cerr << "GxsPeerNode::checkTestServiceAllowedGroups() not available";
std::cerr << std::endl;
return true;
#endif
}
bool GxsPeerNode::checkCircleServiceAllowedGroups(const RsPeerId &peerId)
{
#ifdef USER_NETSERVICE_WRAPPER
std::vector<RsGxsGroupId> groups;
return ((RsGxsNetServiceTester *) mGxsCirclesNs)->fetchAllowedGroups(peerId, groups);
#else
std::cerr << "GxsPeerNode::checkCircleServiceAllowedGroups() not available";
std::cerr << std::endl;
return true;
#endif
}
bool GxsPeerNode::createIdentity(const std::string &name,
bool pgpLinked,
uint32_t circleType,
const RsGxsCircleId &circleId,
RsGxsId &gxsId)
{
/* create a couple of groups */
RsTokenService *tokenService = mGxsIdService->RsGenExchange::getTokenService();
RsGxsIdGroup id;
id.mMeta.mGroupName = name;
if (pgpLinked)
{
id.mMeta.mGroupFlags = RSGXSID_GROUPFLAG_REALID;
}
else
{
id.mMeta.mGroupFlags = 0;
}
id.mMeta.mCircleType = circleType;
switch(circleType)
{
case GXS_CIRCLE_TYPE_YOUREYESONLY:
id.mMeta.mInternalCircle = circleId;
break;
case GXS_CIRCLE_TYPE_LOCAL:
// no CircleId,
break;
case GXS_CIRCLE_TYPE_PUBLIC:
// no CircleId,
break;
case GXS_CIRCLE_TYPE_EXTERNAL:
id.mMeta.mCircleId = circleId;
break;
default:
case GXS_CIRCLE_TYPE_EXT_SELF:
std::cerr << "GxsPeerNode::createIdentity() Invalid circleType";
std::cerr << std::endl;
return false;
break;
}
uint32_t token;
if (!mGxsIdService->createGroup(token, id))
{
std::cerr << "GxsPeerNode::createIdentity() failed";
std::cerr << std::endl;
return false;
}
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
RsGxsGroupId groupId;
if (mGxsIdService->acknowledgeTokenGrp(token, groupId))
{
RsGxsId tmpGxsId(groupId.toStdString());
gxsId = tmpGxsId;
return true;
}
return false;
}
bool GxsPeerNode::createCircle(const std::string &name,
uint32_t circleType,
const RsGxsCircleId &circleId,
const RsGxsId &authorId,
std::list<RsPgpId> localMembers,
std::list<RsGxsId> externalMembers,
RsGxsGroupId &groupId)
{
/* create a couple of groups */
RsTokenService *tokenService = mGxsCircles->RsGenExchange::getTokenService();
RsGxsCircleGroup grp1;
grp1.mMeta.mGroupName = name;
grp1.mMeta.mAuthorId = authorId;
grp1.mMeta.mCircleType = circleType;
switch(circleType)
{
case GXS_CIRCLE_TYPE_LOCAL:
// no CircleId,
// THIS is for LOCAL Storage....
grp1.mLocalFriends = localMembers;
break;
case GXS_CIRCLE_TYPE_YOUREYESONLY:
// Circle shouldn't use this.
// but could potentially.
grp1.mMeta.mInternalCircle = circleId;
grp1.mInvitedMembers = externalMembers;
break;
case GXS_CIRCLE_TYPE_PUBLIC:
// no CircleId,
grp1.mInvitedMembers = externalMembers;
break;
case GXS_CIRCLE_TYPE_EXTERNAL:
grp1.mMeta.mCircleId = circleId;
grp1.mInvitedMembers = externalMembers;
break;
case GXS_CIRCLE_TYPE_EXT_SELF:
// no CircleId.
grp1.mInvitedMembers = externalMembers;
break;
default:
std::cerr << "GxsPeerNode::createCircle() Invalid circleType";
std::cerr << std::endl;
return false;
break;
}
std::cerr << "GxsPeerNode::createCircle()";
std::cerr << " CircleType: " << (uint32_t) grp1.mMeta.mCircleType;
std::cerr << " CircleId: " << grp1.mMeta.mCircleId.toStdString();
std::cerr << std::endl;
uint32_t token;
mGxsCircles->createGroup(token, grp1) ;
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
return mGxsCircles->acknowledgeTokenGrp(token, groupId);
}
bool GxsPeerNode::createGroup(const std::string &name,
uint32_t circleType,
const RsGxsCircleId &circleId,
const RsGxsId &authorId,
RsGxsGroupId &groupId)
{
/* create a couple of groups */
RsTokenService *tokenService = mTestService->RsGenExchange::getTokenService();
RsTestGroup grp1;
grp1.mMeta.mGroupName = name;
grp1.mMeta.mAuthorId = authorId;
grp1.mMeta.mCircleType = circleType;
grp1.mTestString = "testString";
switch(circleType)
{
case GXS_CIRCLE_TYPE_YOUREYESONLY:
grp1.mMeta.mInternalCircle = circleId;
break;
case GXS_CIRCLE_TYPE_LOCAL:
// no CircleId,
break;
case GXS_CIRCLE_TYPE_PUBLIC:
// no CircleId,
break;
case GXS_CIRCLE_TYPE_EXTERNAL:
grp1.mMeta.mCircleId = circleId;
break;
default:
case GXS_CIRCLE_TYPE_EXT_SELF:
std::cerr << "GxsPeerNode::createGroup() Invalid circleType";
std::cerr << std::endl;
return false;
break;
}
uint32_t token;
if (!mTestService->submitTestGroup(token, grp1))
{
std::cerr << "GxsPeerNode::createGroup() failed";
std::cerr << std::endl;
return false;
}
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
return mTestService->acknowledgeTokenGrp(token, groupId);
}
bool GxsPeerNode::createMsg(const std::string &msgstr,
const RsGxsGroupId &groupId,
const RsGxsId &authorId,
RsGxsMessageId &msgId)
{
/* create a couple of groups */
RsTokenService *tokenService = mTestService->RsGenExchange::getTokenService();
RsTestMsg msg;
msg.mMeta.mGroupId = groupId;
msg.mMeta.mAuthorId = authorId;
msg.mTestString = msgstr;
uint32_t token;
if (!mTestService->submitTestMsg(token, msg))
{
std::cerr << "GxsPeerNode::createMsg() failed";
std::cerr << std::endl;
return false;
}
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
RsGxsGrpMsgIdPair pairId;
bool retval = mTestService->acknowledgeTokenMsg(token, pairId);
if (retval)
{
msgId = pairId.second;
}
return retval;
}
bool GxsPeerNode::subscribeToGroup(const RsGxsGroupId &groupId, bool subscribe)
{
/* create a couple of groups */
RsTokenService *tokenService = mTestService->RsGenExchange::getTokenService();
uint32_t token;
if (!mTestService->RsGenExchange::subscribeToGroup(token, groupId, subscribe))
{
std::cerr << "GxsPeerNode::subscribeToGroup() failed";
std::cerr << std::endl;
return false;
}
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
RsGxsGroupId ackGroupId;
return mTestService->acknowledgeTokenGrp(token, ackGroupId);
}
bool GxsPeerNode::getGroups(std::vector<RsTestGroup> &groups)
{
std::cerr << "GxsPeerNode::getGroups()";
std::cerr << std::endl;
RsTokenService *tokenService = mTestService->RsGenExchange::getTokenService();
RsTokReqOptions opts;
opts.mReqType = GXS_REQUEST_TYPE_GROUP_DATA;
uint32_t token;
tokenService->requestGroupInfo(token, RS_TOKREQ_ANSTYPE_DATA, opts);
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
return mTestService->getTestGroups(token, groups);
}
bool GxsPeerNode::getGroupList(std::list<RsGxsGroupId> &groups)
{
std::cerr << "GxsPeerNode::getGroupList()";
std::cerr << std::endl;
RsTokenService *tokenService = mTestService->RsGenExchange::getTokenService();
RsTokReqOptions opts;
opts.mReqType = GXS_REQUEST_TYPE_GROUP_IDS;
uint32_t token;
tokenService->requestGroupInfo(token, RS_TOKREQ_ANSTYPE_LIST, opts);
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
return mTestService->RsGenExchange::getGroupList(token, groups);
}
bool GxsPeerNode::getMsgList(const RsGxsGroupId &id, std::list<RsGxsMessageId> &msgIds)
{
std::cerr << "GxsPeerNode::getMsgList()";
std::cerr << std::endl;
RsTokenService *tokenService = mTestService->RsGenExchange::getTokenService();
RsTokReqOptions opts;
opts.mReqType = GXS_REQUEST_TYPE_MSG_IDS;
uint32_t token;
std::list<RsGxsGroupId> grpIds;
grpIds.push_back(id);
tokenService->requestMsgInfo(token, RS_TOKREQ_ANSTYPE_LIST, opts, grpIds);
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
std::map<RsGxsGroupId, std::vector<RsGxsMessageId> > msgResult;
if (mTestService->RsGenExchange::getMsgList(token, msgResult))
{
std::vector<RsGxsMessageId>::iterator vit;
for(vit = msgResult[id].begin(); vit != msgResult[id].end(); vit++)
{
msgIds.push_back(*vit);
}
return true;
}
return false;
}
bool GxsPeerNode::getIdentities(std::vector<RsGxsIdGroup> &groups)
{
std::cerr << "GxsPeerNode::getIdentities()";
std::cerr << std::endl;
RsTokenService *tokenService = mGxsIdService->RsGenExchange::getTokenService();
RsTokReqOptions opts;
opts.mReqType = GXS_REQUEST_TYPE_GROUP_DATA;
uint32_t token;
tokenService->requestGroupInfo(token, RS_TOKREQ_ANSTYPE_DATA, opts);
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
return mGxsIdService->getGroupData(token, groups);
}
bool GxsPeerNode::getIdentitiesList(std::list<RsGxsGroupId> &groups)
{
std::cerr << "GxsPeerNode::getIdentitiesList()";
std::cerr << std::endl;
RsTokenService *tokenService = mGxsIdService->RsGenExchange::getTokenService();
RsTokReqOptions opts;
opts.mReqType = GXS_REQUEST_TYPE_GROUP_IDS;
uint32_t token;
tokenService->requestGroupInfo(token, RS_TOKREQ_ANSTYPE_LIST, opts);
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
return mGxsIdService->RsGenExchange::getGroupList(token, groups);
}
bool GxsPeerNode::getCircles(std::vector<RsGxsCircleGroup> &groups)
{
std::cerr << "GxsPeerNode::getCircles()";
std::cerr << std::endl;
RsTokenService *tokenService = mGxsCircles->RsGenExchange::getTokenService();
RsTokReqOptions opts;
opts.mReqType = GXS_REQUEST_TYPE_GROUP_DATA;
uint32_t token;
tokenService->requestGroupInfo(token, RS_TOKREQ_ANSTYPE_DATA, opts);
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
return mGxsCircles->getGroupData(token, groups);
}
bool GxsPeerNode::getCirclesList(std::list<RsGxsGroupId> &groups)
{
std::cerr << "GxsPeerNode::getCirclesList()";
std::cerr << std::endl;
RsTokenService *tokenService = mGxsCircles->RsGenExchange::getTokenService();
RsTokReqOptions opts;
opts.mReqType = GXS_REQUEST_TYPE_GROUP_IDS;
uint32_t token;
tokenService->requestGroupInfo(token, RS_TOKREQ_ANSTYPE_LIST, opts);
while(tokenService->requestStatus(token) != RsTokenService::GXS_REQUEST_V2_STATUS_COMPLETE)
{
tick();
sleep(1);
}
return mGxsCircles->RsGenExchange::getGroupList(token, groups);
}