forked from TrueCloudLab/xk6-frostfs
160 lines
5.4 KiB
JavaScript
160 lines
5.4 KiB
JavaScript
import native from 'k6/x/frostfs/native';
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import registry from 'k6/x/frostfs/registry';
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import s3 from 'k6/x/frostfs/s3';
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import logging from 'k6/x/frostfs/logging';
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import { sleep } from 'k6';
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import { Counter } from 'k6/metrics';
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import { textSummary } from './libs/k6-summary-0.0.2.js';
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import { parseEnv } from './libs/env-parser.js';
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parseEnv();
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const obj_registry = registry.open(__ENV.REGISTRY_FILE);
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// Time limit (in seconds) for the run
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const time_limit = __ENV.TIME_LIMIT || "60";
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const summary_json = __ENV.SUMMARY_JSON || "/tmp/summary.json";
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// Number of objects in each status. These counters are cumulative in a
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// sense that they reflect total number of objects in the registry, not just
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// number of objects that were processed by specific run of this scenario.
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// This allows to run this scenario multiple times and collect overall
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// statistics in the final run.
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const obj_counters = {
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verified: new Counter('verified_obj'),
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skipped: new Counter('skipped_obj'),
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invalid: new Counter('invalid_obj'),
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};
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let log = logging.new();
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// Connect to random gRPC endpoint
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let grpc_client = undefined;
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if (__ENV.GRPC_ENDPOINTS) {
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const grpcEndpoints = __ENV.GRPC_ENDPOINTS.split(',');
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const grpcEndpoint = grpcEndpoints[Math.floor(Math.random() * grpcEndpoints.length)];
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log = log.withField("endpoint", grpcEndpoint);
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grpc_client = native.connect(grpcEndpoint, '',
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__ENV.DIAL_TIMEOUT ? parseInt(__ENV.DIAL_TIMEOUT) : 0,
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__ENV.STREAM_TIMEOUT ? parseInt(__ENV.STREAM_TIMEOUT) : 0,
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__ENV.PREPARE_LOCALLY ? __ENV.PREPARE_LOCALLY.toLowerCase() === "true" : false, '');
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}
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// Connect to random S3 endpoint
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let s3_client = undefined;
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if (__ENV.S3_ENDPOINTS) {
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const no_verify_ssl = __ENV.NO_VERIFY_SSL || "true";
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const connection_args = {no_verify_ssl: no_verify_ssl}
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const s3_endpoints = __ENV.S3_ENDPOINTS.split(',');
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const s3_endpoint = s3_endpoints[Math.floor(Math.random() * s3_endpoints.length)];
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log = log.withField("endpoint", s3_endpoint);
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s3_client = s3.connect(s3_endpoint, connection_args);
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}
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// We will attempt to verify every object in "created" status. The scenario will execute
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// as many iterations as there are objects. Each object will have 3 retries to be verified
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const obj_to_verify_selector = registry.getSelector(
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__ENV.REGISTRY_FILE,
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"obj_to_verify",
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__ENV.SELECTION_SIZE ? parseInt(__ENV.SELECTION_SIZE) : 0,
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{
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status: "created",
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}
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);
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const obj_to_verify_count = obj_to_verify_selector.count();
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// Execute at least one iteration (executor shared-iterations can't run 0 iterations)
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const iterations = Math.max(1, obj_to_verify_count);
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// Executor shared-iterations requires number of iterations to be larger than number of VUs
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const vus = Math.min(__ENV.CLIENTS, iterations);
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const scenarios = {
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verify: {
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executor: 'shared-iterations',
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vus,
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iterations,
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maxDuration: `${time_limit}s`,
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exec: 'obj_verify',
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gracefulStop: '5s',
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}
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};
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export const options = {
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scenarios,
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setupTimeout: '5s',
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};
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export function setup() {
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// Populate counters with initial values
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for (const [status, counter] of Object.entries(obj_counters)) {
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const obj_selector = registry.getSelector(
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__ENV.REGISTRY_FILE,
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status,
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__ENV.SELECTION_SIZE ? parseInt(__ENV.SELECTION_SIZE) : 0,
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{ status });
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counter.add(obj_selector.count());
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}
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}
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export function handleSummary(data) {
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return {
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'stdout': textSummary(data, { indent: ' ', enableColors: false }),
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[summary_json]: JSON.stringify(data),
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};
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}
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export function obj_verify() {
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if (obj_to_verify_count == 0) {
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log.info("Nothing to verify");
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return;
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}
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if (__ENV.SLEEP) {
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sleep(__ENV.SLEEP);
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}
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const obj = obj_to_verify_selector.nextObject(5);
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if (!obj) {
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log.info("All objects have been verified");
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return;
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}
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const obj_status = verify_object_with_retries(obj, 3);
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obj_counters[obj_status].add(1);
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obj_registry.setObjectStatus(obj.id, obj.status, obj_status);
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}
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function verify_object_with_retries(obj, attempts) {
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for (let i = 0; i < attempts; i++) {
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let result;
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// Different name is required.
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// ReferenceError: Cannot access a variable before initialization.
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let lg = log;
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if (obj.c_id && obj.o_id) {
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lg = lg.withFields({cid: obj.c_id, oid: obj.o_id});
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result = grpc_client.verifyHash(obj.c_id, obj.o_id, obj.payload_hash);
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} else if (obj.s3_bucket && obj.s3_key) {
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lg = lg.withFields({bucket: obj.s3_bucket, key: obj.s3_key});
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result = s3_client.verifyHash(obj.s3_bucket, obj.s3_key, obj.payload_hash);
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} else {
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lg.withFields({
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cid: obj.c_id,
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oid: obj.o_id,
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bucket: obj.s3_bucket,
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key: obj.s3_key
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}).warn(`Object cannot be verified with supported protocols`);
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return "skipped";
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}
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if (result.success) {
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return "verified";
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} else if (result.error == "hash mismatch") {
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return "invalid";
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}
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// Unless we explicitly saw that there was a hash mismatch, then we will retry after a delay
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lg.error(`Verify error: ${result.error}. Object will be re-tried`);
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sleep(__ENV.SLEEP);
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}
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return "invalid";
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}
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