package fs2 import ( "os" "path/filepath" "strings" "testing" "github.com/opencontainers/runc/libcontainer/cgroups" ) const exampleMemoryStatData = `anon 790425600 file 6502666240 kernel_stack 7012352 pagetables 8867840 percpu 2445520 sock 40960 shmem 6721536 file_mapped 656187392 file_dirty 1122304 file_writeback 0 swapcached 10 anon_thp 438304768 file_thp 0 shmem_thp 0 inactive_anon 892223488 active_anon 2973696 inactive_file 5307346944 active_file 1179316224 unevictable 31477760 slab_reclaimable 348866240 slab_unreclaimable 10099808 slab 358966048 workingset_refault_anon 0 workingset_refault_file 0 workingset_activate_anon 0 workingset_activate_file 0 workingset_restore_anon 0 workingset_restore_file 0 workingset_nodereclaim 0 pgfault 103216687 pgmajfault 6879 pgrefill 0 pgscan 0 pgsteal 0 pgactivate 1110217 pgdeactivate 292 pglazyfree 267 pglazyfreed 0 thp_fault_alloc 57411 thp_collapse_alloc 443` func TestStatMemoryPodCgroupNotFound(t *testing.T) { // We're using a fake cgroupfs. cgroups.TestMode = true fakeCgroupDir := t.TempDir() // only write memory.stat to ensure pod cgroup usage // still reads memory.current. statPath := filepath.Join(fakeCgroupDir, "memory.stat") if err := os.WriteFile(statPath, []byte(exampleMemoryStatData), 0o644); err != nil { t.Fatal(err) } gotStats := cgroups.NewStats() // use a fake root path to mismatch the file we wrote. // this triggers the non-root path which should fail to find memory.current. err := statMemory(fakeCgroupDir, gotStats) if err == nil { t.Errorf("expected error when statting memory for cgroupv2 root, but was nil") } if !strings.Contains(err.Error(), "memory.current: no such file or directory") { t.Errorf("expected error to contain 'memory.current: no such file or directory', but was %s", err.Error()) } } func TestStatMemoryPodCgroup(t *testing.T) { // We're using a fake cgroupfs. cgroups.TestMode = true fakeCgroupDir := t.TempDir() statPath := filepath.Join(fakeCgroupDir, "memory.stat") if err := os.WriteFile(statPath, []byte(exampleMemoryStatData), 0o644); err != nil { t.Fatal(err) } if err := os.WriteFile(filepath.Join(fakeCgroupDir, "memory.current"), []byte("123456789"), 0o644); err != nil { t.Fatal(err) } if err := os.WriteFile(filepath.Join(fakeCgroupDir, "memory.max"), []byte("999999999"), 0o644); err != nil { t.Fatal(err) } if err := os.WriteFile(filepath.Join(fakeCgroupDir, "memory.peak"), []byte("987654321"), 0o644); err != nil { t.Fatal(err) } gotStats := cgroups.NewStats() // use a fake root path to trigger the pod cgroup lookup. err := statMemory(fakeCgroupDir, gotStats) if err != nil { t.Errorf("expected no error when statting memory for cgroupv2 root, but got %#+v", err) } // result should be "memory.current" var expectedUsageBytes uint64 = 123456789 if gotStats.MemoryStats.Usage.Usage != expectedUsageBytes { t.Errorf("parsed cgroupv2 memory.stat doesn't match expected result: \ngot %#v\nexpected %#v\n", gotStats.MemoryStats.Usage.Usage, expectedUsageBytes) } // result should be "memory.max" var expectedLimitBytes uint64 = 999999999 if gotStats.MemoryStats.Usage.Limit != expectedLimitBytes { t.Errorf("parsed cgroupv2 memory.stat doesn't match expected result: \ngot %#v\nexpected %#v\n", gotStats.MemoryStats.Usage.Limit, expectedLimitBytes) } // result should be "memory.peak" var expectedMaxUsageBytes uint64 = 987654321 if gotStats.MemoryStats.Usage.MaxUsage != expectedMaxUsageBytes { t.Errorf("parsed cgroupv2 memory.stat doesn't match expected result: \ngot %#v\nexpected %#v\n", gotStats.MemoryStats.Usage.MaxUsage, expectedMaxUsageBytes) } } func TestRootStatsFromMeminfo(t *testing.T) { stats := &cgroups.Stats{ MemoryStats: cgroups.MemoryStats{ Stats: map[string]uint64{ "anon": 790425600, "file": 6502666240, }, }, } if err := rootStatsFromMeminfo(stats); err != nil { t.Fatal(err) } // result is anon + file var expectedUsageBytes uint64 = 7293091840 if stats.MemoryStats.Usage.Usage != expectedUsageBytes { t.Errorf("parsed cgroupv2 memory.stat doesn't match expected result: \ngot %d\nexpected %d\n", stats.MemoryStats.Usage.Usage, expectedUsageBytes) } // swap is adjusted to mem+swap if stats.MemoryStats.SwapUsage.Usage < stats.MemoryStats.Usage.Usage { t.Errorf("swap usage %d should be at least mem usage %d", stats.MemoryStats.SwapUsage.Usage, stats.MemoryStats.Usage.Usage) } if stats.MemoryStats.SwapUsage.Limit < stats.MemoryStats.Usage.Limit { t.Errorf("swap limit %d should be at least mem limit %d", stats.MemoryStats.SwapUsage.Limit, stats.MemoryStats.Usage.Limit) } }