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See #7718. Fix it by renaming all `types.py` to `common_types.py`. Additionally, add an advert for using `allowed_errors.py` to test any added regex.
80 lines
3.1 KiB
Python
80 lines
3.1 KiB
Python
from contextlib import closing
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import pytest
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from fixtures.benchmark_fixture import MetricReport
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from fixtures.common_types import Lsn
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from fixtures.compare_fixtures import NeonCompare, PgCompare
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from fixtures.pageserver.utils import wait_tenant_status_404
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from fixtures.pg_version import PgVersion
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#
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# Run bulk INSERT test.
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#
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# Collects metrics:
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#
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# 1. Time to INSERT 5 million rows
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# 2. Disk writes
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# 3. Disk space used
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# 4. Peak memory usage
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#
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@pytest.mark.skip("See https://github.com/neondatabase/neon/issues/7124")
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def test_bulk_insert(neon_with_baseline: PgCompare):
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env = neon_with_baseline
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start_lsn = Lsn(env.pg.safe_psql("SELECT pg_current_wal_lsn()")[0][0])
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with closing(env.pg.connect()) as conn:
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with conn.cursor() as cur:
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cur.execute("create table huge (i int, j int);")
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# Run INSERT, recording the time and I/O it takes
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with env.record_pageserver_writes("pageserver_writes"):
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with env.record_duration("insert"):
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cur.execute("insert into huge values (generate_series(1, 5000000), 0);")
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env.flush()
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env.report_peak_memory_use()
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env.report_size()
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# Report amount of wal written. Useful for comparing vanilla wal format vs
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# neon wal format, measuring neon write amplification, etc.
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end_lsn = Lsn(env.pg.safe_psql("SELECT pg_current_wal_lsn()")[0][0])
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wal_written_bytes = end_lsn - start_lsn
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wal_written_mb = round(wal_written_bytes / (1024 * 1024))
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env.zenbenchmark.record("wal_written", wal_written_mb, "MB", MetricReport.TEST_PARAM)
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# When testing neon, also check how long it takes the pageserver to reingest the
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# wal from safekeepers. If this number is close to total runtime, then the pageserver
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# is the bottleneck.
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if isinstance(env, NeonCompare):
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measure_recovery_time(env)
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def measure_recovery_time(env: NeonCompare):
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client = env.env.pageserver.http_client()
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pg_version = PgVersion(client.timeline_detail(env.tenant, env.timeline)["pg_version"])
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# Delete the Tenant in the pageserver: this will drop local and remote layers, such that
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# when we "create" the Tenant again, we will replay the WAL from the beginning.
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#
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# This is a "weird" thing to do, and can confuse the storage controller as we're re-using
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# the same tenant ID for a tenant that is logically different from the pageserver's point
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# of view, but the same as far as the safekeeper/WAL is concerned. To work around that,
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# we will explicitly create the tenant in the same generation that it was previously
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# attached in.
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attach_status = env.env.storage_controller.inspect(tenant_shard_id=env.tenant)
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assert attach_status is not None
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(attach_gen, _) = attach_status
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client.tenant_delete(env.tenant)
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wait_tenant_status_404(client, env.tenant, iterations=60, interval=0.5)
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env.env.pageserver.tenant_create(tenant_id=env.tenant, generation=attach_gen)
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# Measure recovery time
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with env.record_duration("wal_recovery"):
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client.timeline_create(pg_version, env.tenant, env.timeline)
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# Flush, which will also wait for lsn to catch up
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env.flush()
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