#include // from librssimulator // from libretroshare #include "serialiser/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); { RsNxsSyncGrp *syncGrp = new RsNxsSyncGrp(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 p1GroupList; std::list 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 p1Groups; std::vector 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); { RsNxsSyncGrp *syncGrp = new RsNxsSyncGrp(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 p1GroupList; std::list 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(); }