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

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2018-11-04 15:17:22 -05:00
/*******************************************************************************
* unittests/libretroshare/services/gxs/nxspair_test.cc *
* *
* Copyright 2012 by Robert Fernie <retroshare.project@gmail.com> *
2018-11-04 15:17:22 -05:00
* *
* This program is free software: you can redistribute it and/or modify *
* it under the terms of the GNU Affero General Public License as *
* published by the Free Software Foundation, either version 3 of the *
* License, or (at your option) any later version. *
* *
* This program 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 Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General Public License *
* along with this program. If not, see <https://www.gnu.org/licenses/>. *
* *
******************************************************************************/
#include <gtest/gtest.h>
// from librssimulator
// from libretroshare
#include "rsitems/rsnxsitems.h"
// local
#include "GxsPairServiceTester.h"
#include "GxsPeerNode.h"
#include "gxstestservice.h"
/* Here we want to test the most basic NXS interactions.
* we have a GXS service, with no AuthorIDs or Circles.
*
*/
/*
* Test 1: nothing in Groups.... only sync packets.
*
* This test is rather slow - should speed it up.
*/
//TEST(libretroshare_services, GxsNxsPairExchange1)
TEST(libretroshare_services, DISABLED_GxsNxsPairExchange1)
{
RsPeerId p1 = RsPeerId::random();
RsPeerId p2 = RsPeerId::random();
int testMode = 0;
GxsPairServiceTester tester(p1, p2, testMode, false);
GxsPeerNode *peerNode1 = tester.getGxsPeerNode(p1);
GxsPeerNode *peerNode2 = tester.getGxsPeerNode(p2);
// we only care about the transaction going one way ...
// so drop SyncGrp packets from p2 -> p1.
SetFilter &dropFilter = tester.getDropFilter();
dropFilter.setFilterMode(SetFilter::FILTER_PARAMS);
dropFilter.setUseSource(true);
dropFilter.addSource(p2);
{
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RsNxsSyncGrpItem *syncGrp = new RsNxsSyncGrpItem(RS_SERVICE_GXS_TYPE_TEST);
dropFilter.setUseFullTypes(true);
dropFilter.addFullType(syncGrp->PacketId());
}
// these are currently slow operations.
RsGxsGroupId p2GroupId1, p2GroupId2;
RsGxsCircleId nullCircleId;
RsGxsId nullAuthorId;
EXPECT_TRUE(peerNode2->createGroup("group1", GXS_CIRCLE_TYPE_PUBLIC, nullCircleId, nullAuthorId, p2GroupId1));
EXPECT_TRUE(peerNode2->createGroup("group2", GXS_CIRCLE_TYPE_PUBLIC, nullCircleId, nullAuthorId, p2GroupId2));
std::cerr << "p2->group1 id: " << p2GroupId1;
std::cerr << std::endl;
std::cerr << "p2->group2 id: " << p2GroupId2;
std::cerr << std::endl;
int counter = 0;
while((counter < 30))
{
counter++;
tester.tick();
sleep(1);
}
std::list<RsGxsGroupId> p1GroupList;
std::list<RsGxsGroupId> p2GroupList;
EXPECT_TRUE(peerNode1->getGroupList(p1GroupList));
EXPECT_TRUE(peerNode2->getGroupList(p2GroupList));
EXPECT_TRUE(p1GroupList.size() == 2);
EXPECT_TRUE(p2GroupList.size() == 2);
EXPECT_TRUE(p1GroupList.end() != std::find(p1GroupList.begin(), p1GroupList.end(), p2GroupId1));
EXPECT_TRUE(p1GroupList.end() != std::find(p1GroupList.begin(), p1GroupList.end(), p2GroupId2));
EXPECT_TRUE(p2GroupList.end() != std::find(p2GroupList.begin(), p2GroupList.end(), p2GroupId1));
EXPECT_TRUE(p2GroupList.end() != std::find(p2GroupList.begin(), p2GroupList.end(), p2GroupId2));
std::vector<RsTestGroup> p1Groups;
std::vector<RsTestGroup> p2Groups;
EXPECT_TRUE(peerNode1->getGroups(p1Groups));
EXPECT_TRUE(peerNode2->getGroups(p2Groups));
EXPECT_TRUE(p1Groups.size() == 2);
EXPECT_TRUE(p2Groups.size() == 2);
tester.PrintCapturedPackets();
}
/***
* Test 2 includes ID & Circle Services.
**/
TEST(libretroshare_services, DISABLED_GxsNxsPairExchange2)
//TEST(libretroshare_services, GxsNxsPairExchange2)
{
RsPeerId p1 = RsPeerId::random();
RsPeerId p2 = RsPeerId::random();
int testMode = 0;
GxsPairServiceTester tester(p1, p2, testMode, true);
GxsPeerNode *peerNode1 = tester.getGxsPeerNode(p1);
GxsPeerNode *peerNode2 = tester.getGxsPeerNode(p2);
// we only care about the transaction going one way ...
// so drop SyncGrp packets from p2 -> p1.
SetFilter &dropFilter = tester.getDropFilter();
dropFilter.setFilterMode(SetFilter::FILTER_PARAMS);
dropFilter.setUseSource(true);
dropFilter.addSource(p2);
{
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RsNxsSyncGrpItem *syncGrp = new RsNxsSyncGrpItem(RS_SERVICE_GXS_TYPE_TEST);
dropFilter.setUseFullTypes(true);
dropFilter.addFullType(syncGrp->PacketId());
}
// these are currently slow operations.
RsGxsGroupId p2GroupId1, p2GroupId2;
RsGxsCircleId nullCircleId;
RsGxsId nullAuthorId;
EXPECT_TRUE(peerNode2->createGroup("group1", GXS_CIRCLE_TYPE_PUBLIC, nullCircleId, nullAuthorId, p2GroupId1));
EXPECT_TRUE(peerNode2->createGroup("group2", GXS_CIRCLE_TYPE_PUBLIC, nullCircleId, nullAuthorId, p2GroupId2));
std::cerr << "p2->group1 id: " << p2GroupId1;
std::cerr << std::endl;
std::cerr << "p2->group2 id: " << p2GroupId2;
std::cerr << std::endl;
int counter = 0;
while((counter < 60))
{
counter++;
tester.tick();
sleep(1);
}
std::list<RsGxsGroupId> p1GroupList;
std::list<RsGxsGroupId> p2GroupList;
EXPECT_TRUE(peerNode1->getGroupList(p1GroupList));
EXPECT_TRUE(peerNode2->getGroupList(p2GroupList));
EXPECT_TRUE(p1GroupList.size() == 2);
EXPECT_TRUE(p2GroupList.size() == 2);
EXPECT_TRUE(p1GroupList.end() != std::find(p1GroupList.begin(), p1GroupList.end(), p2GroupId1));
EXPECT_TRUE(p1GroupList.end() != std::find(p1GroupList.begin(), p1GroupList.end(), p2GroupId2));
EXPECT_TRUE(p2GroupList.end() != std::find(p2GroupList.begin(), p2GroupList.end(), p2GroupId1));
EXPECT_TRUE(p2GroupList.end() != std::find(p2GroupList.begin(), p2GroupList.end(), p2GroupId2));
tester.PrintCapturedPackets();
}