#! /usr/bin/env awx-python # # !!! READ BEFORE POINTING THIS AT YOUR FOOT !!! # # This script attempts to connect to an AWX database and insert (by default) # a billion main_jobevent rows as screamingly fast as possible. # # tl;dr for best results, feed it high IOPS. # # this script exists *solely* for the purpose of generating *test* data very # quickly; do *not* point this at a production installation or you *will* be # very unhappy # # Before running this script, you should give postgres *GOBS* of memory # and disk so it can create indexes and constraints as quickly as possible. # In fact, it's probably not smart to attempt this on anything less than 8 core, # 32GB of RAM, and tens of thousands of IOPS. # # Also, a billion events is a *lot* of data; make sure you've # provisioned *at least* 750GB of disk space # # if you want this script to complete in a few hours, a good starting point # is something like m5.4xlarge w/ 1TB provisioned IOPS SSD (io1) # import argparse import datetime import json import multiprocessing import pkg_resources import subprocess import sys from io import StringIO from time import time from uuid import uuid4 import psycopg2 from django import setup as setup_django from django.db import connection from django.db.models.sql import InsertQuery from django.utils.timezone import now db = json.loads( subprocess.check_output( ['awx-manage', 'print_settings', 'DATABASES', '--format', 'json'] ) ) name = db['DATABASES']['default']['NAME'] user = db['DATABASES']['default']['USER'] pw = db['DATABASES']['default']['PASSWORD'] host = db['DATABASES']['default']['HOST'] dsn = f'dbname={name} user={user} password={pw} host={host}' u = str(uuid4()) STATUS_OPTIONS = ('successful', 'failed', 'error', 'canceled') class YieldedRows(StringIO): def __init__(self, job_id, rows, *args, **kwargs): self.rows = rows self.row = "\t".join([ "2020-01-02 12:00:00", "2020-01-02 12:00:01", "playbook_on_start", "{}", 'false', 'false', "localhost", "Example Play", "Hello World", "", "0", "1", job_id, u, "", "1", "hello_world.yml", "0", "X", "1", ]) + '\n' def read(self, x): if self.rows <= 0: self.close() return '' self.rows -= 10000 return self.row * 10000 def firehose(job, count): conn = psycopg2.connect(dsn) f = YieldedRows(job, count) with conn.cursor() as cursor: cursor.copy_expert(( 'COPY ' 'main_jobevent(' 'created, modified, event, event_data, failed, changed, ' 'host_name, play, role, task, counter, host_id, job_id, uuid, ' 'parent_uuid, end_line, playbook, start_line, stdout, verbosity' ') ' 'FROM STDIN' ), f, size=1024 * 1000) conn.commit() conn.close() def cleanup(sql): print(sql) conn = psycopg2.connect(dsn) with conn.cursor() as cursor: cursor.execute(sql) conn.commit() conn.close() def generate_jobs(jobs, batch_size): print(f'inserting {jobs} job(s)') sys.path.insert(0, pkg_resources.get_distribution('awx').module_path) from awx import prepare_env prepare_env() setup_django() from awx.main.models import UnifiedJob, Job, JobTemplate fields = list(set(Job._meta.fields) - set(UnifiedJob._meta.fields)) job_field_names = set([f.attname for f in fields]) # extra unified job field names from base class for field_name in ('name', 'created_by_id', 'modified_by_id'): job_field_names.add(field_name) jt_count = JobTemplate.objects.count() def make_batch(N, jt_pos=0): jt = None while not jt: try: jt = JobTemplate.objects.all()[jt_pos % jt_count] except IndexError as e: # seems to happen every now and then due to some race condition print('Warning: IndexError on {} JT, error: {}'.format( jt_pos % jt_count, e )) jt_pos += 1 jt_defaults = dict( (f.attname, getattr(jt, f.attname)) for f in JobTemplate._meta.get_fields() if f.concrete and f.attname in job_field_names and getattr(jt, f.attname) ) jt_defaults['job_template_id'] = jt.pk jt_defaults['unified_job_template_id'] = jt.pk # populated by save method jobs = [ Job( status=STATUS_OPTIONS[i % len(STATUS_OPTIONS)], started=now(), created=now(), modified=now(), finished=now(), elapsed=0., **jt_defaults) for i in range(N) ] ujs = UnifiedJob.objects.bulk_create(jobs) query = InsertQuery(Job) query.insert_values(fields, ujs) with connection.cursor() as cursor: query, params = query.sql_with_params()[0] cursor.execute(query, params) return ujs[-1], jt_pos i = 1 jt_pos = 0 s = time() while jobs > 0: s_loop = time() print('running batch {}, runtime {}'.format(i, time() - s)) created, jt_pos = make_batch(min(jobs, batch_size), jt_pos) print('took {}'.format(time() - s_loop)) i += 1 jobs -= batch_size return created def generate_events(events, job): conn = psycopg2.connect(dsn) cursor = conn.cursor() print('removing indexes and constraints') # get all the indexes for main_jobevent try: # disable WAL to drastically increase write speed # we're not doing replication, and the goal of this script is to just # insert data as quickly as possible without concern for the risk of # data loss on crash # see: https://www.compose.com/articles/faster-performance-with-unlogged-tables-in-postgresql/ cursor.execute('ALTER TABLE main_jobevent SET UNLOGGED') cursor.execute("SELECT indexname, indexdef FROM pg_indexes WHERE tablename='main_jobevent' AND indexname != 'main_jobevent_pkey';") indexes = cursor.fetchall() cursor.execute( "SELECT conname, contype, pg_catalog.pg_get_constraintdef(r.oid, true) as condef FROM pg_catalog.pg_constraint r WHERE r.conrelid = 'main_jobevent'::regclass AND conname != 'main_jobevent_pkey';" # noqa ) constraints = cursor.fetchall() # drop all indexes for speed for indexname, indexdef in indexes: cursor.execute(f'DROP INDEX IF EXISTS {indexname}') print(f'DROP INDEX IF EXISTS {indexname}') for conname, contype, condef in constraints: cursor.execute(f'ALTER TABLE main_jobevent DROP CONSTRAINT IF EXISTS {conname}') print(f'ALTER TABLE main_jobevent DROP CONSTRAINT IF EXISTS {conname}') conn.commit() print(f'attaching {events} events to job {job}') cores = multiprocessing.cpu_count() workers = [] for i in range(cores): p = multiprocessing.Process(target=firehose, args=(job, events / cores)) p.daemon = True workers.append(p) for w in workers: w.start() for w in workers: w.join() workers = [] print('generating unique start/end line counts') cursor.execute('CREATE SEQUENCE IF NOT EXISTS firehose_seq;') cursor.execute('CREATE SEQUENCE IF NOT EXISTS firehose_line_seq MINVALUE 0;') cursor.execute('ALTER SEQUENCE firehose_seq RESTART WITH 1;') cursor.execute('ALTER SEQUENCE firehose_line_seq RESTART WITH 0;') cursor.execute("SELECT nextval('firehose_line_seq')") conn.commit() cursor.execute( "UPDATE main_jobevent SET " "counter=nextval('firehose_seq')::integer," "start_line=nextval('firehose_line_seq')::integer," "end_line=currval('firehose_line_seq')::integer + 2 " f"WHERE job_id={job}" ) conn.commit() finally: # restore all indexes print(datetime.datetime.utcnow().isoformat()) print('restoring indexes and constraints (this may take awhile)') workers = [] for indexname, indexdef in indexes: p = multiprocessing.Process(target=cleanup, args=(indexdef,)) p.daemon = True workers.append(p) for w in workers: w.start() for w in workers: w.join() for conname, contype, condef in constraints: if contype == 'c': # if there are any check constraints, don't add them back # (historically, these are > 0 checks, which are basically # worthless, because Ansible doesn't emit counters, line # numbers, verbosity, etc... < 0) continue sql = f'ALTER TABLE main_jobevent ADD CONSTRAINT {conname} {condef}' cleanup(sql) conn.close() print(datetime.datetime.utcnow().isoformat()) if __name__ == '__main__': parser = argparse.ArgumentParser(formatter_class=argparse.ArgumentDefaultsHelpFormatter) parser.add_argument( '--jobs', type=int, help='Number of jobs to create.', default=1000000) # 1M by default parser.add_argument( '--events', type=int, help='Number of events to create.', default=1000000000) # 1B by default parser.add_argument( '--batch-size', type=int, help='Number of jobs to create in a single batch.', default=1000) params = parser.parse_args() jobs = params.jobs events = params.events batch_size = params.batch_size print(datetime.datetime.utcnow().isoformat()) created = generate_jobs(jobs, batch_size=batch_size) generate_events(events, str(created.pk))