| // Copyright (c) 2010 The Chromium OS Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| #include <set> |
| #include <string> |
| #include <utility> |
| #include <vector> |
| #include <gtest/gtest.h> |
| #include "chromeos/obsolete_logging.h" |
| #include "update_engine/cycle_breaker.h" |
| #include "update_engine/graph_types.h" |
| #include "update_engine/utils.h" |
| |
| using std::make_pair; |
| using std::pair; |
| using std::set; |
| using std::string; |
| using std::vector; |
| |
| namespace chromeos_update_engine { |
| |
| class CycleBreakerTest : public ::testing::Test {}; |
| |
| TEST(CycleBreakerTest, SimpleTest) { |
| int counter = 0; |
| const Vertex::Index n_a = counter++; |
| const Vertex::Index n_b = counter++; |
| const Vertex::Index n_c = counter++; |
| const Vertex::Index n_d = counter++; |
| const Vertex::Index n_e = counter++; |
| const Vertex::Index n_f = counter++; |
| const Vertex::Index n_g = counter++; |
| const Vertex::Index n_h = counter++; |
| const Graph::size_type kNodeCount = counter++; |
| |
| Graph graph(kNodeCount); |
| |
| graph[n_a].out_edges.insert(make_pair(n_e, EdgeProperties())); |
| graph[n_a].out_edges.insert(make_pair(n_f, EdgeProperties())); |
| graph[n_b].out_edges.insert(make_pair(n_a, EdgeProperties())); |
| graph[n_c].out_edges.insert(make_pair(n_d, EdgeProperties())); |
| graph[n_d].out_edges.insert(make_pair(n_e, EdgeProperties())); |
| graph[n_d].out_edges.insert(make_pair(n_f, EdgeProperties())); |
| graph[n_e].out_edges.insert(make_pair(n_b, EdgeProperties())); |
| graph[n_e].out_edges.insert(make_pair(n_c, EdgeProperties())); |
| graph[n_e].out_edges.insert(make_pair(n_f, EdgeProperties())); |
| graph[n_f].out_edges.insert(make_pair(n_g, EdgeProperties())); |
| graph[n_g].out_edges.insert(make_pair(n_h, EdgeProperties())); |
| graph[n_h].out_edges.insert(make_pair(n_g, EdgeProperties())); |
| |
| CycleBreaker breaker; |
| |
| set<Edge> broken_edges; |
| breaker.BreakCycles(graph, &broken_edges); |
| |
| // The following cycles must be cut: |
| // A->E->B |
| // C->D->E |
| // G->H |
| |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_a, n_e)) || |
| utils::SetContainsKey(broken_edges, make_pair(n_e, n_b)) || |
| utils::SetContainsKey(broken_edges, make_pair(n_b, n_a))); |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_c, n_d)) || |
| utils::SetContainsKey(broken_edges, make_pair(n_d, n_e)) || |
| utils::SetContainsKey(broken_edges, make_pair(n_e, n_c))); |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_g, n_h)) || |
| utils::SetContainsKey(broken_edges, make_pair(n_h, n_g))); |
| EXPECT_EQ(3, broken_edges.size()); |
| } |
| |
| namespace { |
| pair<Vertex::Index, EdgeProperties> EdgeWithWeight(Vertex::Index dest, |
| uint64_t weight) { |
| EdgeProperties props; |
| props.extents.resize(1); |
| props.extents[0].set_num_blocks(weight); |
| return make_pair(dest, props); |
| } |
| } // namespace {} |
| |
| |
| // This creates a bunch of cycles like this: |
| // |
| // root <------. |
| // (t)-> / | \ | |
| // V V V | |
| // N N N | |
| // \ | / | |
| // VVV | |
| // N | |
| // / | \ | |
| // V V V | |
| // N N N | |
| // ... | |
| // (s)-> \ | / | |
| // VVV | |
| // N | |
| // \_________/ |
| // |
| // such that the original cutting algo would cut edges (s). We changed |
| // the algorithm to cut cycles (t) instead, since they are closer to the |
| // root, and that can massively speed up cycle cutting. |
| TEST(CycleBreakerTest, AggressiveCutTest) { |
| int counter = 0; |
| |
| const int kNodesPerGroup = 4; |
| const int kGroups = 33; |
| |
| Graph graph(kGroups * kNodesPerGroup + 1); // + 1 for the root node |
| |
| const Vertex::Index n_root = counter++; |
| |
| Vertex::Index last_hub = n_root; |
| for (int i = 0; i < kGroups; i++) { |
| uint64_t weight = 5; |
| if (i == 0) |
| weight = 2; |
| else if (i == (kGroups - 1)) |
| weight = 1; |
| |
| const Vertex::Index next_hub = counter++; |
| |
| for (int j = 0; j < (kNodesPerGroup - 1); j++) { |
| const Vertex::Index node = counter++; |
| graph[last_hub].out_edges.insert(EdgeWithWeight(node, weight)); |
| graph[node].out_edges.insert(EdgeWithWeight(next_hub, weight)); |
| } |
| last_hub = next_hub; |
| } |
| |
| graph[last_hub].out_edges.insert(EdgeWithWeight(n_root, 5)); |
| |
| |
| EXPECT_EQ(counter, graph.size()); |
| |
| CycleBreaker breaker; |
| |
| set<Edge> broken_edges; |
| LOG(INFO) << "If this hangs for more than 1 second, the test has failed."; |
| breaker.BreakCycles(graph, &broken_edges); |
| |
| set<Edge> expected_cuts; |
| |
| for (Vertex::EdgeMap::const_iterator it = graph[n_root].out_edges.begin(), |
| e = graph[n_root].out_edges.end(); it != e; ++it) { |
| expected_cuts.insert(make_pair(n_root, it->first)); |
| } |
| |
| EXPECT_TRUE(broken_edges == expected_cuts); |
| } |
| |
| TEST(CycleBreakerTest, WeightTest) { |
| int counter = 0; |
| const Vertex::Index n_a = counter++; |
| const Vertex::Index n_b = counter++; |
| const Vertex::Index n_c = counter++; |
| const Vertex::Index n_d = counter++; |
| const Vertex::Index n_e = counter++; |
| const Vertex::Index n_f = counter++; |
| const Vertex::Index n_g = counter++; |
| const Vertex::Index n_h = counter++; |
| const Vertex::Index n_i = counter++; |
| const Vertex::Index n_j = counter++; |
| const Graph::size_type kNodeCount = counter++; |
| |
| Graph graph(kNodeCount); |
| |
| graph[n_a].out_edges.insert(EdgeWithWeight(n_b, 4)); |
| graph[n_a].out_edges.insert(EdgeWithWeight(n_f, 3)); |
| graph[n_a].out_edges.insert(EdgeWithWeight(n_h, 2)); |
| graph[n_b].out_edges.insert(EdgeWithWeight(n_a, 3)); |
| graph[n_b].out_edges.insert(EdgeWithWeight(n_c, 4)); |
| graph[n_c].out_edges.insert(EdgeWithWeight(n_b, 5)); |
| graph[n_c].out_edges.insert(EdgeWithWeight(n_d, 3)); |
| graph[n_d].out_edges.insert(EdgeWithWeight(n_a, 6)); |
| graph[n_d].out_edges.insert(EdgeWithWeight(n_e, 3)); |
| graph[n_e].out_edges.insert(EdgeWithWeight(n_d, 4)); |
| graph[n_e].out_edges.insert(EdgeWithWeight(n_g, 5)); |
| graph[n_f].out_edges.insert(EdgeWithWeight(n_g, 2)); |
| graph[n_g].out_edges.insert(EdgeWithWeight(n_f, 3)); |
| graph[n_g].out_edges.insert(EdgeWithWeight(n_d, 5)); |
| graph[n_h].out_edges.insert(EdgeWithWeight(n_i, 8)); |
| graph[n_i].out_edges.insert(EdgeWithWeight(n_e, 4)); |
| graph[n_i].out_edges.insert(EdgeWithWeight(n_h, 9)); |
| graph[n_i].out_edges.insert(EdgeWithWeight(n_j, 6)); |
| |
| CycleBreaker breaker; |
| |
| set<Edge> broken_edges; |
| breaker.BreakCycles(graph, &broken_edges); |
| |
| // These are required to be broken: |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_b, n_a))); |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_b, n_c))); |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_d, n_e))); |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_f, n_g))); |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_h, n_i))); |
| } |
| |
| TEST(CycleBreakerTest, UnblockGraphTest) { |
| int counter = 0; |
| const Vertex::Index n_a = counter++; |
| const Vertex::Index n_b = counter++; |
| const Vertex::Index n_c = counter++; |
| const Vertex::Index n_d = counter++; |
| const Graph::size_type kNodeCount = counter++; |
| |
| Graph graph(kNodeCount); |
| |
| graph[n_a].out_edges.insert(EdgeWithWeight(n_b, 1)); |
| graph[n_a].out_edges.insert(EdgeWithWeight(n_c, 1)); |
| graph[n_b].out_edges.insert(EdgeWithWeight(n_c, 2)); |
| graph[n_c].out_edges.insert(EdgeWithWeight(n_b, 2)); |
| graph[n_b].out_edges.insert(EdgeWithWeight(n_d, 2)); |
| graph[n_d].out_edges.insert(EdgeWithWeight(n_a, 2)); |
| |
| CycleBreaker breaker; |
| |
| set<Edge> broken_edges; |
| breaker.BreakCycles(graph, &broken_edges); |
| |
| // These are required to be broken: |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_a, n_b))); |
| EXPECT_TRUE(utils::SetContainsKey(broken_edges, make_pair(n_a, n_c))); |
| } |
| |
| } // namespace chromeos_update_engine |