cat-bookmarker/deps/ecto_sql/integration_test/sql/transaction.exs

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2024-03-10 18:52:04 +00:00
defmodule Ecto.Integration.TransactionTest do
# We can keep this test async as long as it
# is the only one access the transactions table
use Ecto.Integration.Case, async: true
import Ecto.Query
alias Ecto.Integration.PoolRepo # Used for writes
alias Ecto.Integration.TestRepo # Used for reads
@moduletag :capture_log
defmodule UniqueError do
defexception message: "unique error"
end
setup do
PoolRepo.delete_all "transactions"
:ok
end
defmodule Trans do
use Ecto.Schema
schema "transactions" do
field :num, :integer
end
end
test "transaction returns value" do
refute PoolRepo.in_transaction?()
{:ok, val} = PoolRepo.transaction(fn ->
assert PoolRepo.in_transaction?()
{:ok, val} =
PoolRepo.transaction(fn ->
assert PoolRepo.in_transaction?()
42
end)
assert PoolRepo.in_transaction?()
val
end)
refute PoolRepo.in_transaction?()
assert val == 42
end
test "transaction re-raises" do
assert_raise UniqueError, fn ->
PoolRepo.transaction(fn ->
PoolRepo.transaction(fn ->
raise UniqueError
end)
end)
end
end
# tag is required for TestRepo, since it is checkout in
# Ecto.Integration.Case setup
@tag isolation_level: :snapshot
test "transaction commits" do
# mssql requires that all transactions that use same shared lock are set
# to :snapshot isolation level
opts = [isolation_level: :snapshot]
PoolRepo.transaction(fn ->
e = PoolRepo.insert!(%Trans{num: 1})
assert [^e] = PoolRepo.all(Trans)
assert [] = TestRepo.all(Trans)
end, opts)
assert [%Trans{num: 1}] = PoolRepo.all(Trans)
end
@tag isolation_level: :snapshot
test "transaction rolls back" do
opts = [isolation_level: :snapshot]
try do
PoolRepo.transaction(fn ->
e = PoolRepo.insert!(%Trans{num: 2})
assert [^e] = PoolRepo.all(Trans)
assert [] = TestRepo.all(Trans)
raise UniqueError
end, opts)
rescue
UniqueError -> :ok
end
assert [] = TestRepo.all(Trans)
end
test "transaction rolls back per repository" do
message = "cannot call rollback outside of transaction"
assert_raise RuntimeError, message, fn ->
PoolRepo.rollback(:done)
end
assert_raise RuntimeError, message, fn ->
TestRepo.transaction fn ->
PoolRepo.rollback(:done)
end
end
end
@tag :assigns_id_type
test "transaction rolls back with reason on aborted transaction" do
e1 = PoolRepo.insert!(%Trans{num: 13})
assert_raise Ecto.ConstraintError, fn ->
TestRepo.transaction fn ->
PoolRepo.insert!(%Trans{id: e1.id, num: 14})
end
end
end
test "nested transaction partial rollback" do
assert PoolRepo.transaction(fn ->
e1 = PoolRepo.insert!(%Trans{num: 3})
assert [^e1] = PoolRepo.all(Trans)
try do
PoolRepo.transaction(fn ->
e2 = PoolRepo.insert!(%Trans{num: 4})
assert [^e1, ^e2] = PoolRepo.all(from(t in Trans, order_by: t.num))
raise UniqueError
end)
rescue
UniqueError -> :ok
end
assert_raise DBConnection.ConnectionError, "transaction rolling back",
fn() -> PoolRepo.insert!(%Trans{num: 5}) end
end) == {:error, :rollback}
assert TestRepo.all(Trans) == []
end
test "manual rollback doesn't bubble up" do
x = PoolRepo.transaction(fn ->
e = PoolRepo.insert!(%Trans{num: 6})
assert [^e] = PoolRepo.all(Trans)
PoolRepo.rollback(:oops)
end)
assert x == {:error, :oops}
assert [] = TestRepo.all(Trans)
end
test "manual rollback bubbles up on nested transaction" do
assert PoolRepo.transaction(fn ->
e = PoolRepo.insert!(%Trans{num: 7})
assert [^e] = PoolRepo.all(Trans)
assert {:error, :oops} = PoolRepo.transaction(fn ->
PoolRepo.rollback(:oops)
end)
assert_raise DBConnection.ConnectionError, "transaction rolling back",
fn() -> PoolRepo.insert!(%Trans{num: 8}) end
end) == {:error, :rollback}
assert [] = TestRepo.all(Trans)
end
test "transactions are not shared in repo" do
pid = self()
opts = [isolation_level: :snapshot]
new_pid = spawn_link fn ->
PoolRepo.transaction(fn ->
e = PoolRepo.insert!(%Trans{num: 9})
assert [^e] = PoolRepo.all(Trans)
send(pid, :in_transaction)
receive do
:commit -> :ok
after
5000 -> raise "timeout"
end
end, opts)
send(pid, :committed)
end
receive do
:in_transaction -> :ok
after
5000 -> raise "timeout"
end
# mssql requires that all transactions that use same shared lock
# set transaction isolation level to "snapshot" so this must be wrapped into
# explicit transaction
PoolRepo.transaction(fn ->
assert [] = PoolRepo.all(Trans)
end, opts)
send(new_pid, :commit)
receive do
:committed -> :ok
after
5000 -> raise "timeout"
end
assert [%Trans{num: 9}] = PoolRepo.all(Trans)
end
## Checkout
describe "with checkouts" do
test "transaction inside checkout" do
PoolRepo.checkout(fn ->
refute PoolRepo.in_transaction?()
PoolRepo.transaction(fn ->
assert PoolRepo.in_transaction?()
end)
refute PoolRepo.in_transaction?()
end)
end
test "checkout inside transaction" do
PoolRepo.transaction(fn ->
assert PoolRepo.in_transaction?()
PoolRepo.checkout(fn ->
assert PoolRepo.in_transaction?()
end)
assert PoolRepo.in_transaction?()
end)
end
@tag :transaction_checkout_raises
test "checkout raises on transaction attempt" do
assert_raise DBConnection.ConnectionError, ~r"connection was checked out with status", fn ->
PoolRepo.checkout(fn -> PoolRepo.query!("BEGIN") end)
end
end
end
## Logging
defp register_telemetry() do
Process.put(:telemetry, fn _, measurements, event -> send(self(), {measurements, event}) end)
end
test "log begin, commit and rollback" do
register_telemetry()
PoolRepo.transaction(fn ->
assert_received {measurements, %{params: [], result: {:ok, _res}}}
assert is_integer(measurements.query_time) and measurements.query_time >= 0
assert is_integer(measurements.queue_time) and measurements.queue_time >= 0
refute_received %{}
register_telemetry()
end)
assert_received {measurements, %{params: [], result: {:ok, _res}}}
assert is_integer(measurements.query_time) and measurements.query_time >= 0
refute Map.has_key?(measurements, :queue_time)
assert PoolRepo.transaction(fn ->
refute_received %{}
register_telemetry()
PoolRepo.rollback(:log_rollback)
end) == {:error, :log_rollback}
assert_received {measurements, %{params: [], result: {:ok, _res}}}
assert is_integer(measurements.query_time) and measurements.query_time >= 0
refute Map.has_key?(measurements, :queue_time)
end
test "log queries inside transactions" do
PoolRepo.transaction(fn ->
register_telemetry()
assert [] = PoolRepo.all(Trans)
assert_received {measurements, %{params: [], result: {:ok, _res}}}
assert is_integer(measurements.query_time) and measurements.query_time >= 0
assert is_integer(measurements.decode_time) and measurements.query_time >= 0
refute Map.has_key?(measurements, :queue_time)
end)
end
end