package main import ( "encoding/json" "fmt" "git.curoverse.com/arvados.git/sdk/go/arvadosclient" "git.curoverse.com/arvados.git/sdk/go/arvadostest" "git.curoverse.com/arvados.git/sdk/go/keepclient" "git.curoverse.com/arvados.git/services/datamanager/keep" "io/ioutil" "log" "net/http" "os" "os/exec" "regexp" "strings" "testing" "time" ) var arv arvadosclient.ArvadosClient var keepClient *keepclient.KeepClient var keepServers []string func SetupDataManagerTest(t *testing.T) { os.Setenv("ARVADOS_API_HOST_INSECURE", "true") // start api and keep servers arvadostest.ResetEnv() arvadostest.StartAPI() arvadostest.StartKeep() // make arvadosclient var err error arv, err = arvadosclient.MakeArvadosClient() if err != nil { t.Fatalf("Error setting up arvados client: %s", err) } // keep client keepClient = &keepclient.KeepClient{ Arvados: &arv, Want_replicas: 2, Using_proxy: true, Client: &http.Client{}, } // discover keep services if err := keepClient.DiscoverKeepServers(); err != nil { t.Fatalf("Error discovering keep services: %s", err) } for _, host := range keepClient.LocalRoots() { keepServers = append(keepServers, host) } } func TearDownDataManagerTest(t *testing.T) { arvadostest.StopKeep() arvadostest.StopAPI() } func putBlock(t *testing.T, data string) string { locator, _, err := keepClient.PutB([]byte(data)) if err != nil { t.Fatalf("Error putting test data for %s %s %v", data, locator, err) } if locator == "" { t.Fatalf("No locator found after putting test data") } splits := strings.Split(locator, "+") return splits[0] + "+" + splits[1] } func getBlock(t *testing.T, locator string, data string) { reader, blocklen, _, err := keepClient.Get(locator) if err != nil { t.Fatalf("Error getting test data in setup for %s %s %v", data, locator, err) } if reader == nil { t.Fatalf("No reader found after putting test data") } if blocklen != int64(len(data)) { t.Fatalf("blocklen %d did not match data len %d", blocklen, len(data)) } all, err := ioutil.ReadAll(reader) if string(all) != data { t.Fatalf("Data read %s did not match expected data %s", string(all), data) } } // Create a collection using arv-put func createCollection(t *testing.T, data string) string { tempfile, err := ioutil.TempFile(os.TempDir(), "temp-test-file") defer os.Remove(tempfile.Name()) _, err = tempfile.Write([]byte(data)) if err != nil { t.Fatalf("Error writing to tempfile %v", err) } // arv-put output, err := exec.Command("arv-put", "--use-filename", "test.txt", tempfile.Name()).Output() if err != nil { t.Fatalf("Error running arv-put %s", err) } uuid := string(output[0:27]) // trim terminating char return uuid } // Get collection locator var locatorMatcher = regexp.MustCompile(`^([0-9a-f]{32})\+(\d*)(.*)$`) func getCollectionLocator(t *testing.T, uuid string) string { manifest := getCollection(t, uuid)["manifest_text"].(string) locator := strings.Split(manifest, " ")[1] match := locatorMatcher.FindStringSubmatch(locator) if match == nil { t.Fatalf("No locator found in collection manifest %s", manifest) } return match[1] + "+" + match[2] } func getCollection(t *testing.T, uuid string) Dict { getback := make(Dict) err := arv.Get("collections", uuid, nil, &getback) if err != nil { t.Fatalf("Error getting collection %s", err) } if getback["uuid"] != uuid { t.Fatalf("Get collection uuid did not match original: $s, result: $s", uuid, getback["uuid"]) } return getback } func updateCollection(t *testing.T, uuid string, paramName string, paramValue string) { err := arv.Update("collections", uuid, arvadosclient.Dict{ "collection": arvadosclient.Dict{ paramName: paramValue, }, }, &arvadosclient.Dict{}) if err != nil { t.Fatalf("Error updating collection %s", err) } } type Dict map[string]interface{} func deleteCollection(t *testing.T, uuid string) { getback := make(Dict) err := arv.Delete("collections", uuid, nil, &getback) if err != nil { t.Fatalf("Error deleting collection %s", err) } if getback["uuid"] != uuid { t.Fatalf("Delete collection uuid did not match original: $s, result: $s", uuid, getback["uuid"]) } } func dataManagerSingleRun(t *testing.T) { err := singlerun() if err != nil { t.Fatalf("Error during singlerun %s", err) } } func getBlockIndexesForServer(t *testing.T, i int) []string { var indexes []string path := keepServers[i] + "/index" client := http.Client{} req, err := http.NewRequest("GET", path, nil) req.Header.Add("Authorization", "OAuth2 "+keep.GetDataManagerToken(nil)) req.Header.Add("Content-Type", "application/octet-stream") resp, err := client.Do(req) defer resp.Body.Close() if err != nil { t.Fatalf("Error during %s %s", path, err) } body, err := ioutil.ReadAll(resp.Body) if err != nil { t.Fatalf("Error reading response from %s %s", path, err) } lines := strings.Split(string(body), "\n") for _, line := range lines { indexes = append(indexes, strings.Split(line, " ")...) } return indexes } func getBlockIndexes(t *testing.T) [][]string { var indexes [][]string for i := 0; i < len(keepServers); i++ { indexes = append(indexes, getBlockIndexesForServer(t, i)) } return indexes } func verifyBlocks(t *testing.T, notExpected []string, expected []string) { blocks := getBlockIndexes(t) for _, block := range notExpected { for i := 0; i < len(blocks); i++ { exists := valueInArray(block, blocks[i]) if exists { t.Fatalf("Found unexpected block in index %s", block) } } } // var blockExists [][]string blockExists := make(map[string][]string) for _, block := range expected { var blockArray []string for i := 0; i < len(blocks); i++ { exists := valueInArray(block, blocks[i]) if exists { blockArray = append(blockArray, block) } } blockExists[block] = blockArray } for _, block := range expected { if blockExists[block] == nil || len(blockExists[block]) != 2 { t.Fatalf("Expected to find two replicas for block %s; found %d", block, len(blockExists[block])) } } } func valueInArray(value string, list []string) bool { for _, v := range list { if value == v { return true } } return false } /* Test env uses two keep volumes. The volume names can be found by reading the files ARVADOS_HOME/tmp/keep0.volume and ARVADOS_HOME/tmp/keep1.volume The keep volumes are of the dir structure: volumeN/subdir/locator */ func backdateBlocks(t *testing.T, oldUnusedBlockLocators []string) { // First get rid of any size hints in the locators var trimmedBlockLocators []string for _, block := range oldUnusedBlockLocators { trimmedBlockLocators = append(trimmedBlockLocators, strings.Split(block, "+")[0]) } // Get the working dir so that we can read keep{n}.volume files wd, err := os.Getwd() if err != nil { t.Fatalf("Error getting working dir %s", err) } // Now cycle through the two keep volumes oldTime := time.Now().AddDate(0, -2, 0) for i := 0; i < 2; i++ { filename := fmt.Sprintf("%s/../../tmp/keep%d.volume", wd, i) volumeDir, err := ioutil.ReadFile(filename) if err != nil { t.Fatalf("Error reading keep volume file %s %s", filename, err) } // Read the keep volume dir structure volumeContents, err := ioutil.ReadDir(string(volumeDir)) if err != nil { t.Fatalf("Error reading keep dir %s %s", string(volumeDir), err) } // Read each subdir for each of the keep volume dir for _, subdir := range volumeContents { subdirName := fmt.Sprintf("%s/%s", volumeDir, subdir.Name()) subdirContents, err := ioutil.ReadDir(string(subdirName)) if err != nil { t.Fatalf("Error reading keep dir %s %s", string(subdirName), err) } // Now we got to the files. The files are names are the block locators for _, fileInfo := range subdirContents { blockName := fileInfo.Name() myname := fmt.Sprintf("%s/%s", subdirName, blockName) if valueInArray(blockName, trimmedBlockLocators) { err = os.Chtimes(myname, oldTime, oldTime) } } } } } func getStatus(t *testing.T, path string) interface{} { client := http.Client{} req, err := http.NewRequest("GET", path, nil) req.Header.Add("Authorization", "OAuth2 "+keep.GetDataManagerToken(nil)) req.Header.Add("Content-Type", "application/octet-stream") resp, err := client.Do(req) defer resp.Body.Close() if err != nil { t.Fatalf("Error during %s %s", path, err) } var s interface{} json.NewDecoder(resp.Body).Decode(&s) return s } func waitUntilQueuesFinishWork(t *testing.T) { // Wait until PullQueue and TrashQueue finish their work for { var done [2]bool for i := 0; i < 2; i++ { s := getStatus(t, keepServers[i]+"/status.json") var pullQueueStatus interface{} pullQueueStatus = s.(map[string]interface{})["PullQueue"] var trashQueueStatus interface{} trashQueueStatus = s.(map[string]interface{})["TrashQueue"] if pullQueueStatus.(map[string]interface{})["Queued"] == float64(0) && pullQueueStatus.(map[string]interface{})["InProgress"] == float64(0) && trashQueueStatus.(map[string]interface{})["Queued"] == float64(0) && trashQueueStatus.(map[string]interface{})["InProgress"] == float64(0) { done[i] = true } } if done[0] && done[1] { break } else { time.Sleep(100 * time.Millisecond) } } } /* Create some blocks and backdate some of them. Also create some collections and delete some of them. Verify block indexes. */ func TestPutAndGetBlocks(t *testing.T) { log.Print("TestPutAndGetBlocks start") defer TearDownDataManagerTest(t) SetupDataManagerTest(t) // Put some blocks which will be backdated later on // The first one will also be used in a collection and hence should not be deleted when datamanager runs. // The rest will be old and unreferenced and hence should be deleted when datamanager runs. var oldUnusedBlockLocators []string oldUnusedBlockData := "this block will have older mtime" for i := 0; i < 5; i++ { oldUnusedBlockLocators = append(oldUnusedBlockLocators, putBlock(t, fmt.Sprintf("%s%d", oldUnusedBlockData, i))) } for i := 0; i < 5; i++ { getBlock(t, oldUnusedBlockLocators[i], fmt.Sprintf("%s%d", oldUnusedBlockData, i)) } // The rest will be old and unreferenced and hence should be deleted when datamanager runs. oldUsedBlockData := "this collection block will have older mtime" oldUsedBlockLocator := putBlock(t, oldUsedBlockData) getBlock(t, oldUsedBlockLocator, oldUsedBlockData) // Put some more blocks which will not be backdated; hence they are still new, but not in any collection. // Hence, even though unreferenced, these should not be deleted when datamanager runs. var newBlockLocators []string newBlockData := "this block is newer" for i := 0; i < 5; i++ { newBlockLocators = append(newBlockLocators, putBlock(t, fmt.Sprintf("%s%d", newBlockData, i))) } for i := 0; i < 5; i++ { getBlock(t, newBlockLocators[i], fmt.Sprintf("%s%d", newBlockData, i)) } // Create a collection that would be deleted later on toBeDeletedCollectionUuid := createCollection(t, "some data for collection creation") toBeDeletedCollectionLocator := getCollectionLocator(t, toBeDeletedCollectionUuid) // Create another collection that has the same data as the one of the old blocks oldUsedBlockCollectionUuid := createCollection(t, oldUsedBlockData) oldUsedBlockCollectionLocator := getCollectionLocator(t, oldUsedBlockCollectionUuid) if oldUsedBlockCollectionLocator != oldUsedBlockLocator { t.Fatalf("Locator of the collection with the same data as old block is different %s", oldUsedBlockCollectionLocator) } // Create another collection whose replication level will be changed replicationCollectionUuid := createCollection(t, "replication level on this collection will be reduced") replicationCollectionLocator := getCollectionLocator(t, replicationCollectionUuid) // Create two collections with same data; one will be deleted later on dataForTwoCollections := "one of these collections will be deleted" oneOfTwoWithSameDataUuid := createCollection(t, dataForTwoCollections) oneOfTwoWithSameDataLocator := getCollectionLocator(t, oneOfTwoWithSameDataUuid) secondOfTwoWithSameDataUuid := createCollection(t, dataForTwoCollections) secondOfTwoWithSameDataLocator := getCollectionLocator(t, secondOfTwoWithSameDataUuid) if oneOfTwoWithSameDataLocator != secondOfTwoWithSameDataLocator { t.Fatalf("Locators for both these collections expected to be same: %s %s", oneOfTwoWithSameDataLocator, secondOfTwoWithSameDataLocator) } // Verify blocks before doing any backdating / deleting. var expected []string expected = append(expected, oldUnusedBlockLocators...) expected = append(expected, newBlockLocators...) expected = append(expected, toBeDeletedCollectionLocator) expected = append(expected, replicationCollectionLocator) expected = append(expected, oneOfTwoWithSameDataLocator) expected = append(expected, secondOfTwoWithSameDataLocator) verifyBlocks(t, nil, expected) // Run datamanager in singlerun mode dataManagerSingleRun(t) waitUntilQueuesFinishWork(t) verifyBlocks(t, nil, expected) // Backdate the to-be old blocks and delete the collections backdateBlocks(t, oldUnusedBlockLocators) deleteCollection(t, toBeDeletedCollectionUuid) deleteCollection(t, secondOfTwoWithSameDataUuid) // Run data manager again dataManagerSingleRun(t) waitUntilQueuesFinishWork(t) // Get block indexes and verify that all backdated blocks except the first one used in collection are not included. expected = expected[:0] expected = append(expected, oldUsedBlockLocator) expected = append(expected, newBlockLocators...) expected = append(expected, toBeDeletedCollectionLocator) expected = append(expected, replicationCollectionLocator) expected = append(expected, oneOfTwoWithSameDataLocator) expected = append(expected, secondOfTwoWithSameDataLocator) verifyBlocks(t, oldUnusedBlockLocators, expected) // Reduce replication on replicationCollectionUuid collection and verify that the overreplicated blocks are untouched. // Default replication level is 2; first verify that the replicationCollectionLocator appears in both volumes for i := 0; i < len(keepServers); i++ { indexes := getBlockIndexesForServer(t, i) if !valueInArray(replicationCollectionLocator, indexes) { t.Fatalf("Not found block in index %s", replicationCollectionLocator) } } // Now reduce replication level on this collection and verify that it still appears in both volumes updateCollection(t, replicationCollectionUuid, "replication_desired", "1") collection := getCollection(t, replicationCollectionUuid) if collection["replication_desired"].(interface{}) != float64(1) { t.Fatalf("After update replication_desired is not 1; instead it is %v", collection["replication_desired"]) } // Run data manager again time.Sleep(100 * time.Millisecond) dataManagerSingleRun(t) waitUntilQueuesFinishWork(t) for i := 0; i < len(keepServers); i++ { indexes := getBlockIndexesForServer(t, i) if !valueInArray(replicationCollectionLocator, indexes) { t.Fatalf("Not found block in index %s", replicationCollectionLocator) } } // Done testing reduce replication on collection // Verify blocks one more time verifyBlocks(t, oldUnusedBlockLocators, expected) } func _TestDatamanagerSingleRunRepeatedly(t *testing.T) { log.Print("TestDatamanagerSingleRunRepeatedly start") defer TearDownDataManagerTest(t) SetupDataManagerTest(t) for i := 0; i < 10; i++ { err := singlerun() if err != nil { t.Fatalf("Got an error during datamanager singlerun: %v", err) } time.Sleep(100 * time.Millisecond) } } func _TestGetStatusRepeatedly(t *testing.T) { log.Print("TestGetStatusRepeatedly start") defer TearDownDataManagerTest(t) SetupDataManagerTest(t) for i := 0; i < 10; i++ { for j := 0; j < 2; j++ { s := getStatus(t, keepServers[j]+"/status.json") var pullQueueStatus interface{} pullQueueStatus = s.(map[string]interface{})["PullQueue"] var trashQueueStatus interface{} trashQueueStatus = s.(map[string]interface{})["TrashQueue"] if pullQueueStatus.(map[string]interface{})["Queued"] == nil || pullQueueStatus.(map[string]interface{})["InProgress"] == nil || trashQueueStatus.(map[string]interface{})["Queued"] == nil || trashQueueStatus.(map[string]interface{})["InProgress"] == nil { t.Fatalf("PullQueue and TrashQueue status not found") } time.Sleep(100 * time.Millisecond) } } }