func TestTopologyWithSimpleCpuinfo(t *testing.T) { sysFs := &fakesysfs.FakeSysFs{} c := sysfs.CacheInfo{ Size: 32 * 1024, Type: "unified", Level: 1, Cpus: 1, } sysFs.SetCacheInfo(c) topology, numCores, err := getTopology(sysFs, "processor\t: 0\n") if err != nil { t.Errorf("Expected cpuinfo with no topology data to succeed.") } node := info.Node{Id: 0} core := info.Core{Id: 0} core.Threads = append(core.Threads, 0) cache := info.Cache{ Size: 32 * 1024, Type: "unified", Level: 1, } core.Caches = append(core.Caches, cache) node.Cores = append(node.Cores, core) // Copy over Memory from result. TODO(rjnagal): Use memory from fake. node.Memory = topology[0].Memory expected := []info.Node{node} if !reflect.DeepEqual(topology, expected) { t.Errorf("Expected topology %+v, got %+v", expected, topology) } if numCores != 1 { t.Errorf("Expected 1 core, found %d", numCores) } }
func addNode(nodes *[]info.Node, id int) (int, error) { var idx int if id == -1 { // Some VMs don't fill topology data. Export single package. id = 0 } ok, idx := findNode(*nodes, id) if !ok { // New node node := info.Node{Id: id} // Add per-node memory information. meminfo := fmt.Sprintf("/sys/devices/system/node/node%d/meminfo", id) out, err := ioutil.ReadFile(meminfo) // Ignore if per-node info is not available. if err == nil { m, err := getMemoryCapacity(out) if err != nil { return -1, err } node.Memory = uint64(m) } *nodes = append(*nodes, node) idx = len(*nodes) - 1 } return idx, nil }
func TestTopology(t *testing.T) { testfile := "./testdata/cpuinfo" testcpuinfo, err := ioutil.ReadFile(testfile) if err != nil { t.Fatalf("unable to read input test file %s", testfile) } sysFs := &fakesysfs.FakeSysFs{} c := sysfs.CacheInfo{ Size: 32 * 1024, Type: "unified", Level: 1, Cpus: 2, } sysFs.SetCacheInfo(c) topology, numCores, err := getTopology(sysFs, string(testcpuinfo)) if err != nil { t.Errorf("failed to get topology for sample cpuinfo %s", string(testcpuinfo)) } if numCores != 12 { t.Errorf("Expected 12 cores, found %d", numCores) } expected_topology := []info.Node{} numNodes := 2 numCoresPerNode := 3 numThreads := 2 cache := info.Cache{ Size: 32 * 1024, Type: "unified", Level: 1, } for i := 0; i < numNodes; i++ { node := info.Node{Id: i} // Copy over Memory from result. TODO(rjnagal): Use memory from fake. node.Memory = topology[i].Memory for j := 0; j < numCoresPerNode; j++ { core := info.Core{Id: i*numCoresPerNode + j} core.Caches = append(core.Caches, cache) for k := 0; k < numThreads; k++ { core.Threads = append(core.Threads, k*numCoresPerNode*numNodes+core.Id) } node.Cores = append(node.Cores, core) } expected_topology = append(expected_topology, node) } if !reflect.DeepEqual(topology, expected_topology) { t.Errorf("Expected topology %+v, got %+v", expected_topology, topology) } }