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- /*
- * Copyright 2021, gRPC Authors All rights reserved.
- *
- * Licensed under the Apache License, Version 2.0 (the "License");
- * you may not use this file except in compliance with the License.
- * You may obtain a copy of the License at
- *
- * http://www.apache.org/licenses/LICENSE-2.0
- *
- * Unless required by applicable law or agreed to in writing, software
- * distributed under the License is distributed on an "AS IS" BASIS,
- * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- * See the License for the specific language governing permissions and
- * limitations under the License.
- */
- @testable import GRPC
- import Logging
- import NIOCore
- import NIOEmbedded
- import NIOHTTP2
- import XCTest
- final class ConnectionPoolTests: GRPCTestCase {
- private enum TestError: Error {
- case noChannelExpected
- }
- private var eventLoop: EmbeddedEventLoop!
- private var tearDownBlocks: [() throws -> Void] = []
- override func setUp() {
- super.setUp()
- self.eventLoop = EmbeddedEventLoop()
- }
- override func tearDown() {
- XCTAssertNoThrow(try self.eventLoop.close())
- self.tearDownBlocks.forEach { try? $0() }
- super.tearDown()
- }
- private func noChannelExpected(
- _: ConnectionManager,
- _ eventLoop: EventLoop,
- line: UInt = #line
- ) -> EventLoopFuture<Channel> {
- XCTFail("Channel unexpectedly created", line: line)
- return eventLoop.makeFailedFuture(TestError.noChannelExpected)
- }
- private func makePool(
- waiters: Int = 1000,
- reservationLoadThreshold: Double = 0.9,
- now: @escaping () -> NIODeadline = { .now() },
- connectionBackoff: ConnectionBackoff = ConnectionBackoff(),
- onReservationReturned: @escaping (Int) -> Void = { _ in },
- onMaximumReservationsChange: @escaping (Int) -> Void = { _ in },
- channelProvider: ConnectionManagerChannelProvider
- ) -> ConnectionPool {
- return ConnectionPool(
- eventLoop: self.eventLoop,
- maxWaiters: waiters,
- reservationLoadThreshold: reservationLoadThreshold,
- assumedMaxConcurrentStreams: 100,
- connectionBackoff: connectionBackoff,
- channelProvider: channelProvider,
- streamLender: HookedStreamLender(
- onReturnStreams: onReservationReturned,
- onUpdateMaxAvailableStreams: onMaximumReservationsChange
- ),
- logger: self.logger.wrapped,
- now: now
- )
- }
- private func makePool(
- waiters: Int = 1000,
- makeChannel: @escaping (ConnectionManager, EventLoop) -> EventLoopFuture<Channel>
- ) -> ConnectionPool {
- return self.makePool(
- waiters: waiters,
- channelProvider: HookedChannelProvider(makeChannel)
- )
- }
- private func setUpPoolAndController(
- waiters: Int = 1000,
- reservationLoadThreshold: Double = 0.9,
- now: @escaping () -> NIODeadline = { .now() },
- connectionBackoff: ConnectionBackoff = ConnectionBackoff(),
- onReservationReturned: @escaping (Int) -> Void = { _ in },
- onMaximumReservationsChange: @escaping (Int) -> Void = { _ in }
- ) -> (ConnectionPool, ChannelController) {
- let controller = ChannelController()
- let pool = self.makePool(
- waiters: waiters,
- reservationLoadThreshold: reservationLoadThreshold,
- now: now,
- connectionBackoff: connectionBackoff,
- onReservationReturned: onReservationReturned,
- onMaximumReservationsChange: onMaximumReservationsChange,
- channelProvider: controller
- )
- self.tearDownBlocks.append {
- let shutdown = pool.shutdown()
- self.eventLoop.run()
- XCTAssertNoThrow(try shutdown.wait())
- controller.finish()
- }
- return (pool, controller)
- }
- func testEmptyConnectionPool() {
- let pool = self.makePool {
- self.noChannelExpected($0, $1)
- }
- XCTAssertEqual(pool.sync.connections, 0)
- XCTAssertEqual(pool.sync.waiters, 0)
- XCTAssertEqual(pool.sync.availableStreams, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- pool.initialize(connections: 20)
- XCTAssertEqual(pool.sync.connections, 20)
- XCTAssertEqual(pool.sync.waiters, 0)
- XCTAssertEqual(pool.sync.availableStreams, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- XCTAssertNoThrow(try pool.shutdown().wait())
- }
- func testShutdownEmptyPool() {
- let pool = self.makePool {
- self.noChannelExpected($0, $1)
- }
- XCTAssertNoThrow(try pool.shutdown().wait())
- // Shutting down twice should also be fine.
- XCTAssertNoThrow(try pool.shutdown().wait())
- }
- func testMakeStreamWhenShutdown() {
- let pool = self.makePool {
- self.noChannelExpected($0, $1)
- }
- XCTAssertNoThrow(try pool.shutdown().wait())
- let stream = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- XCTAssertThrowsError(try stream.wait()) { error in
- XCTAssert((error as? ConnectionPoolError).isShutdown)
- }
- }
- func testMakeStreamWhenWaiterQueueIsFull() {
- let maxWaiters = 5
- let pool = self.makePool(waiters: maxWaiters) {
- self.noChannelExpected($0, $1)
- }
- let waiting = (0 ..< maxWaiters).map { _ in
- return pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- }
- let tooManyWaiters = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- XCTAssertThrowsError(try tooManyWaiters.wait()) { error in
- XCTAssert((error as? ConnectionPoolError).isTooManyWaiters)
- }
- XCTAssertNoThrow(try pool.shutdown().wait())
- // All 'waiting' futures will be failed by the shutdown promise.
- for waiter in waiting {
- XCTAssertThrowsError(try waiter.wait()) { error in
- XCTAssert((error as? ConnectionPoolError).isShutdown)
- }
- }
- }
- func testWaiterTimingOut() {
- let pool = self.makePool {
- self.noChannelExpected($0, $1)
- }
- let waiter = pool.makeStream(deadline: .uptimeNanoseconds(10), logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- XCTAssertEqual(pool.sync.waiters, 1)
- self.eventLoop.advanceTime(to: .uptimeNanoseconds(10))
- XCTAssertThrowsError(try waiter.wait()) { error in
- XCTAssert((error as? ConnectionPoolError).isDeadlineExceeded)
- }
- XCTAssertEqual(pool.sync.waiters, 0)
- }
- func testWaiterTimingOutInPast() {
- let pool = self.makePool {
- self.noChannelExpected($0, $1)
- }
- self.eventLoop.advanceTime(to: .uptimeNanoseconds(10))
- let waiter = pool.makeStream(deadline: .uptimeNanoseconds(5), logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- XCTAssertEqual(pool.sync.waiters, 1)
- self.eventLoop.run()
- XCTAssertThrowsError(try waiter.wait()) { error in
- XCTAssert((error as? ConnectionPoolError).isDeadlineExceeded)
- }
- XCTAssertEqual(pool.sync.waiters, 0)
- }
- func testMakeStreamTriggersChannelCreation() {
- let (pool, controller) = self.setUpPoolAndController()
- pool.initialize(connections: 1)
- XCTAssertEqual(pool.sync.connections, 1)
- // No channels yet.
- XCTAssertEqual(controller.count, 0)
- let waiter = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // Start creating the channel.
- self.eventLoop.run()
- // We should have been asked for a channel now.
- XCTAssertEqual(controller.count, 1)
- // The connection isn't ready yet though, so no streams available.
- XCTAssertEqual(pool.sync.availableStreams, 0)
- // Make the connection 'ready'.
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0, maxConcurrentStreams: 10)
- // We have a multiplexer and a 'ready' connection.
- XCTAssertEqual(pool.sync.reservedStreams, 1)
- XCTAssertEqual(pool.sync.availableStreams, 9)
- XCTAssertEqual(pool.sync.waiters, 0)
- // Run the loop to create the stream, we need to fire the event too.
- self.eventLoop.run()
- XCTAssertNoThrow(try waiter.wait())
- controller.openStreamInChannel(atIndex: 0)
- // Now close the stream.
- controller.closeStreamInChannel(atIndex: 0)
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- XCTAssertEqual(pool.sync.availableStreams, 10)
- }
- func testMakeStreamWhenConnectionIsAlreadyAvailable() {
- let (pool, controller) = self.setUpPoolAndController()
- pool.initialize(connections: 1)
- let waiter = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // Start creating the channel.
- self.eventLoop.run()
- XCTAssertEqual(controller.count, 1)
- // Fire up the connection.
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0, maxConcurrentStreams: 10)
- // Run the loop to create the stream, we need to fire the stream creation event too.
- self.eventLoop.run()
- XCTAssertNoThrow(try waiter.wait())
- controller.openStreamInChannel(atIndex: 0)
- // Now we can create another stream, but as there's already an available stream on an active
- // connection we won't have to wait.
- XCTAssertEqual(pool.sync.waiters, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 1)
- let notWaiting = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // Still no waiters.
- XCTAssertEqual(pool.sync.waiters, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 2)
- // Run the loop to create the stream, we need to fire the stream creation event too.
- self.eventLoop.run()
- XCTAssertNoThrow(try notWaiting.wait())
- controller.openStreamInChannel(atIndex: 0)
- }
- func testMakeMoreWaitersThanConnectionCanHandle() {
- var returnedStreams: [Int] = []
- let (pool, controller) = self.setUpPoolAndController(onReservationReturned: {
- returnedStreams.append($0)
- })
- pool.initialize(connections: 1)
- // Enqueue twice as many waiters as the connection will be able to handle.
- let maxConcurrentStreams = 10
- let waiters = (0 ..< maxConcurrentStreams * 2).map { _ in
- return pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- }
- XCTAssertEqual(pool.sync.waiters, 2 * maxConcurrentStreams)
- // Fire up the connection.
- self.eventLoop.run()
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0, maxConcurrentStreams: maxConcurrentStreams)
- // We should have assigned a bunch of streams to waiters now.
- XCTAssertEqual(pool.sync.waiters, maxConcurrentStreams)
- XCTAssertEqual(pool.sync.reservedStreams, maxConcurrentStreams)
- XCTAssertEqual(pool.sync.availableStreams, 0)
- // Do the stream creation and make sure the first batch are succeeded.
- self.eventLoop.run()
- let firstBatch = waiters.prefix(maxConcurrentStreams)
- var others = waiters.dropFirst(maxConcurrentStreams)
- for waiter in firstBatch {
- XCTAssertNoThrow(try waiter.wait())
- controller.openStreamInChannel(atIndex: 0)
- }
- // Close a stream.
- controller.closeStreamInChannel(atIndex: 0)
- XCTAssertEqual(returnedStreams, [1])
- // We have another stream so a waiter should be succeeded.
- XCTAssertEqual(pool.sync.waiters, maxConcurrentStreams - 1)
- self.eventLoop.run()
- XCTAssertNoThrow(try others.popFirst()?.wait())
- // Shutdown the pool: the remaining waiters should be failed.
- let shutdown = pool.shutdown()
- self.eventLoop.run()
- XCTAssertNoThrow(try shutdown.wait())
- for waiter in others {
- XCTAssertThrowsError(try waiter.wait()) { error in
- XCTAssert((error as? ConnectionPoolError).isShutdown)
- }
- }
- }
- func testDropConnectionWithOutstandingReservations() {
- var streamsReturned: [Int] = []
- let (pool, controller) = self.setUpPoolAndController(
- onReservationReturned: { streamsReturned.append($0) }
- )
- pool.initialize(connections: 1)
- let waiter = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // Start creating the channel.
- self.eventLoop.run()
- XCTAssertEqual(controller.count, 1)
- // Fire up the connection.
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0, maxConcurrentStreams: 10)
- // Run the loop to create the stream, we need to fire the stream creation event too.
- self.eventLoop.run()
- XCTAssertNoThrow(try waiter.wait())
- controller.openStreamInChannel(atIndex: 0)
- // Create a handful of streams.
- XCTAssertEqual(pool.sync.availableStreams, 9)
- for _ in 0 ..< 5 {
- let notWaiting = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- self.eventLoop.run()
- XCTAssertNoThrow(try notWaiting.wait())
- controller.openStreamInChannel(atIndex: 0)
- }
- XCTAssertEqual(pool.sync.availableStreams, 4)
- XCTAssertEqual(pool.sync.reservedStreams, 6)
- // Blast the connection away. We'll be notified about dropped reservations.
- XCTAssertEqual(streamsReturned, [])
- controller.throwError(ChannelError.ioOnClosedChannel, inChannelAtIndex: 0)
- controller.fireChannelInactiveForChannel(atIndex: 0)
- XCTAssertEqual(streamsReturned, [6])
- XCTAssertEqual(pool.sync.availableStreams, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- }
- func testDropConnectionWithOutstandingReservationsAndWaiters() {
- var streamsReturned: [Int] = []
- let (pool, controller) = self.setUpPoolAndController(
- onReservationReturned: { streamsReturned.append($0) }
- )
- pool.initialize(connections: 1)
- // Reserve a bunch of streams.
- let waiters = (0 ..< 10).map { _ in
- return pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- }
- // Connect and setup all the streams.
- self.eventLoop.run()
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0, maxConcurrentStreams: 10)
- self.eventLoop.run()
- for waiter in waiters {
- XCTAssertNoThrow(try waiter.wait())
- controller.openStreamInChannel(atIndex: 0)
- }
- // All streams should be reserved.
- XCTAssertEqual(pool.sync.availableStreams, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 10)
- // Add a waiter.
- XCTAssertEqual(pool.sync.waiters, 0)
- let waiter = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- XCTAssertEqual(pool.sync.waiters, 1)
- // Now bork the connection. We'll be notified about the 10 dropped reservation but not the one
- // waiter .
- XCTAssertEqual(streamsReturned, [])
- controller.throwError(ChannelError.ioOnClosedChannel, inChannelAtIndex: 0)
- controller.fireChannelInactiveForChannel(atIndex: 0)
- XCTAssertEqual(streamsReturned, [10])
- // The connection dropped, let the reconnect kick in.
- self.eventLoop.run()
- XCTAssertEqual(controller.count, 2)
- controller.connectChannel(atIndex: 1)
- controller.sendSettingsToChannel(atIndex: 1, maxConcurrentStreams: 10)
- self.eventLoop.run()
- XCTAssertNoThrow(try waiter.wait())
- controller.openStreamInChannel(atIndex: 1)
- controller.closeStreamInChannel(atIndex: 1)
- XCTAssertEqual(streamsReturned, [10, 1])
- XCTAssertEqual(pool.sync.availableStreams, 10)
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- }
- func testDeadlineExceededInSameTickAsSucceedingWaiters() {
- // deadline must be exceeded just as servicing waiter is done
- // - setup waiter with deadline x
- // - start connecting
- // - set time to x
- // - finish connecting
- let (pool, controller) = self.setUpPoolAndController(now: {
- return NIODeadline.uptimeNanoseconds(12)
- })
- pool.initialize(connections: 1)
- let waiter1 = pool.makeStream(deadline: .uptimeNanoseconds(10), logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- let waiter2 = pool.makeStream(deadline: .uptimeNanoseconds(15), logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // Start creating the channel.
- self.eventLoop.run()
- XCTAssertEqual(controller.count, 1)
- // Fire up the connection.
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0, maxConcurrentStreams: 10)
- // The deadline for the first waiter is already after 'now', so it'll fail with deadline
- // exceeded.
- self.eventLoop.run()
- // We need to advance the time to fire the timeout to fail the waiter.
- self.eventLoop.advanceTime(to: .uptimeNanoseconds(10))
- XCTAssertThrowsError(try waiter1.wait()) { error in
- XCTAssert((error as? ConnectionPoolError).isDeadlineExceeded)
- }
- self.eventLoop.run()
- XCTAssertNoThrow(try waiter2.wait())
- controller.openStreamInChannel(atIndex: 0)
- XCTAssertEqual(pool.sync.waiters, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 1)
- XCTAssertEqual(pool.sync.availableStreams, 9)
- controller.closeStreamInChannel(atIndex: 0)
- XCTAssertEqual(pool.sync.waiters, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- XCTAssertEqual(pool.sync.availableStreams, 10)
- }
- func testConnectionsAreBroughtUpAtAppropriateTimes() {
- let (pool, controller) = self.setUpPoolAndController(reservationLoadThreshold: 0.2)
- // We'll allow 3 connections and configure max concurrent streams to 10. With our reservation
- // threshold we'll bring up a new connection after enqueueing the 1st, 2nd and 4th waiters.
- pool.initialize(connections: 3)
- let maxConcurrentStreams = 10
- // No demand so all three connections are idle.
- XCTAssertEqual(pool.sync.idleConnections, 3)
- let w1 = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // demand=1, available=0, load=infinite, one connection should be non-idle
- XCTAssertEqual(pool.sync.idleConnections, 2)
- // Connect the first channel and write the first settings frame; this allows us to lower the
- // default max concurrent streams value (from 100).
- self.eventLoop.run()
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0, maxConcurrentStreams: maxConcurrentStreams)
- self.eventLoop.run()
- XCTAssertNoThrow(try w1.wait())
- controller.openStreamInChannel(atIndex: 0)
- let w2 = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- self.eventLoop.run()
- XCTAssertNoThrow(try w2.wait())
- controller.openStreamInChannel(atIndex: 0)
- // demand=2, available=10, load=0.2; only one idle connection now.
- XCTAssertEqual(pool.sync.idleConnections, 1)
- // Add more demand before the second connection comes up.
- let w3 = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // demand=3, available=20, load=0.15; still one idle connection.
- XCTAssertEqual(pool.sync.idleConnections, 1)
- // Connection the next channel
- self.eventLoop.run()
- controller.connectChannel(atIndex: 1)
- controller.sendSettingsToChannel(atIndex: 1, maxConcurrentStreams: maxConcurrentStreams)
- XCTAssertNoThrow(try w3.wait())
- controller.openStreamInChannel(atIndex: 1)
- }
- func testQuiescingConnectionIsReplaced() {
- var reservationsReturned: [Int] = []
- let (pool, controller) = self.setUpPoolAndController(onReservationReturned: {
- reservationsReturned.append($0)
- })
- pool.initialize(connections: 1)
- XCTAssertEqual(pool.sync.connections, 1)
- let w1 = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // Start creating the channel.
- self.eventLoop.run()
- // Make the connection 'ready'.
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0)
- // Run the loop to create the stream.
- self.eventLoop.run()
- XCTAssertNoThrow(try w1.wait())
- controller.openStreamInChannel(atIndex: 0)
- // One stream reserved by 'w1' on the only connection in the pool (which isn't idle).
- XCTAssertEqual(pool.sync.reservedStreams, 1)
- XCTAssertEqual(pool.sync.connections, 1)
- XCTAssertEqual(pool.sync.idleConnections, 0)
- // Quiesce the connection. It should be punted from the pool and any active RPCs allowed to run
- // their course. A new (idle) connection should replace it in the pool.
- controller.sendGoAwayToChannel(atIndex: 0)
- // The quiescing connection had 1 stream reserved, it's now returned to the outer pool and we
- // have a new idle connection in place of the old one.
- XCTAssertEqual(reservationsReturned, [1])
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- XCTAssertEqual(pool.sync.availableStreams, 0)
- XCTAssertEqual(pool.sync.idleConnections, 1)
- // Ask for another stream: this will be on the new idle connection.
- let w2 = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- self.eventLoop.run()
- XCTAssertEqual(controller.count, 2)
- // Make the connection 'ready'.
- controller.connectChannel(atIndex: 1)
- controller.sendSettingsToChannel(atIndex: 1)
- self.eventLoop.run()
- XCTAssertNoThrow(try w2.wait())
- controller.openStreamInChannel(atIndex: 1)
- XCTAssertEqual(pool.sync.reservedStreams, 1)
- XCTAssertEqual(pool.sync.availableStreams, 99)
- // Return a stream for the _quiescing_ connection: nothing should change in the pool.
- controller.closeStreamInChannel(atIndex: 0)
- XCTAssertEqual(pool.sync.reservedStreams, 1)
- XCTAssertEqual(pool.sync.availableStreams, 99)
- // Return a stream for the new connection.
- controller.closeStreamInChannel(atIndex: 1)
- XCTAssertEqual(reservationsReturned, [1, 1])
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- XCTAssertEqual(pool.sync.availableStreams, 100)
- }
- func testBackoffIsUsedForReconnections() {
- // Fix backoff to always be 1 second.
- let backoff = ConnectionBackoff(
- initialBackoff: 1.0,
- maximumBackoff: 1.0,
- multiplier: 1.0,
- jitter: 0.0
- )
- let (pool, controller) = self.setUpPoolAndController(connectionBackoff: backoff)
- pool.initialize(connections: 1)
- XCTAssertEqual(pool.sync.connections, 1)
- let w1 = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // Start creating the channel.
- self.eventLoop.run()
- // Make the connection 'ready'.
- controller.connectChannel(atIndex: 0)
- controller.sendSettingsToChannel(atIndex: 0)
- self.eventLoop.run()
- XCTAssertNoThrow(try w1.wait())
- controller.openStreamInChannel(atIndex: 0)
- // Close the connection. It should hit the transient failure state.
- controller.fireChannelInactiveForChannel(atIndex: 0)
- // Now nothing is available in the pool.
- XCTAssertEqual(pool.sync.waiters, 0)
- XCTAssertEqual(pool.sync.availableStreams, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 0)
- XCTAssertEqual(pool.sync.idleConnections, 0)
- // Enqueue two waiters. One to time out before the reconnect happens.
- let w2 = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- let w3 = pool.makeStream(
- deadline: .uptimeNanoseconds(UInt64(TimeAmount.milliseconds(500).nanoseconds)),
- logger: self.logger.wrapped
- ) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- XCTAssertEqual(pool.sync.waiters, 2)
- // Time out w3.
- self.eventLoop.advanceTime(by: .milliseconds(500))
- XCTAssertThrowsError(try w3.wait())
- XCTAssertEqual(pool.sync.waiters, 1)
- // Wait a little more for the backoff to pass. The controller should now have a second channel.
- self.eventLoop.advanceTime(by: .milliseconds(500))
- XCTAssertEqual(controller.count, 2)
- // Start up the next channel.
- controller.connectChannel(atIndex: 1)
- controller.sendSettingsToChannel(atIndex: 1)
- self.eventLoop.run()
- XCTAssertNoThrow(try w2.wait())
- controller.openStreamInChannel(atIndex: 1)
- }
- func testFailedWaiterWithError() throws {
- // We want to check a few things in this test:
- //
- // 1. When an active channel throws an error that any waiter in the connection pool which has
- // its deadline exceeded or any waiter which exceeds the waiter limit fails with an error
- // which includes the underlying channel error.
- // 2. When a reconnect happens and the pool is just busy, no underlying error is passed through
- // to failing waiters.
- // Fix backoff to always be 1 second. This is necessary to figure out timings later on when
- // we try to establish a new connection.
- let backoff = ConnectionBackoff(
- initialBackoff: 1.0,
- maximumBackoff: 1.0,
- multiplier: 1.0,
- jitter: 0.0
- )
- let (pool, controller) = self.setUpPoolAndController(waiters: 10, connectionBackoff: backoff)
- pool.initialize(connections: 1)
- // First we'll create two streams which will fail for different reasons.
- // - w1 will fail because of a timeout (no channel came up before the waiters own deadline
- // passed but no connection has previously failed)
- // - w2 will fail because of a timeout but after the underlying channel has failed to connect so
- // should have that additional failure information.
- let w1 = pool.makeStream(deadline: .uptimeNanoseconds(10), logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- let w2 = pool.makeStream(deadline: .uptimeNanoseconds(20), logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- // Start creating the channel.
- self.eventLoop.run()
- XCTAssertEqual(controller.count, 1)
- // Fire up the connection.
- controller.connectChannel(atIndex: 0)
- // Advance time to fail the w1.
- self.eventLoop.advanceTime(to: .uptimeNanoseconds(10))
- XCTAssertThrowsError(try w1.wait()) { error in
- switch error as? ConnectionPoolError {
- case .some(.deadlineExceeded(.none)):
- // Deadline exceeded but no underlying error, as expected.
- ()
- default:
- XCTFail("Expected ConnectionPoolError.deadlineExceeded(.none) but got \(error)")
- }
- }
- // Now fail the connection and timeout w2.
- struct DummyError: Error {}
- controller.throwError(DummyError(), inChannelAtIndex: 0)
- controller.fireChannelInactiveForChannel(atIndex: 0)
- self.eventLoop.advanceTime(to: .uptimeNanoseconds(20))
- XCTAssertThrowsError(try w2.wait()) { error in
- switch error as? ConnectionPoolError {
- case let .some(.deadlineExceeded(.some(wrappedError))):
- // Deadline exceeded and we have the underlying error.
- XCTAssert(wrappedError is DummyError)
- default:
- XCTFail("Expected ConnectionPoolError.deadlineExceeded(.some) but got \(error)")
- }
- }
- // For the next part of the test we want to validate that when a new channel is created after
- // the backoff period passes that no additional errors are attached when the pool is just busy
- // but otherwise operational.
- //
- // To do this we'll create a bunch of waiters. These will be succeeded when the new connection
- // comes up and, importantly, use up all available streams on that connection.
- //
- // We'll then enqueue enough waiters to fill the waiter queue. We'll then validate that one more
- // waiter trips over the queue limit but does not include the connection error we saw earlier.
- // We'll then timeout the waiters in the queue and validate the same thing.
- // These streams should succeed when the new connection is up. We'll limit the connection to 10
- // streams when we bring it up.
- let streams = (0 ..< 10).map { _ in
- pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- }
- // The connection is backing off; advance time to create another channel.
- XCTAssertEqual(controller.count, 1)
- self.eventLoop.advanceTime(by: .seconds(1))
- XCTAssertEqual(controller.count, 2)
- controller.connectChannel(atIndex: 1)
- controller.sendSettingsToChannel(atIndex: 1, maxConcurrentStreams: 10)
- self.eventLoop.run()
- // Make sure the streams are succeeded.
- for stream in streams {
- XCTAssertNoThrow(try stream.wait())
- controller.openStreamInChannel(atIndex: 1)
- }
- // All streams should be reserved.
- XCTAssertEqual(pool.sync.availableStreams, 0)
- XCTAssertEqual(pool.sync.reservedStreams, 10)
- XCTAssertEqual(pool.sync.waiters, 0)
- // We configured the pool to allow for 10 waiters, so let's enqueue that many which will time
- // out at a known point in time.
- let now = NIODeadline.now()
- self.eventLoop.advanceTime(to: now)
- let waiters = (0 ..< 10).map { _ in
- pool.makeStream(deadline: now + .seconds(1), logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- }
- // This is one waiter more than is allowed so it should hit too-many-waiters. We don't expect
- // an inner error though, the connection is just busy.
- let tooManyWaiters = pool.makeStream(deadline: .distantFuture, logger: self.logger.wrapped) {
- $0.eventLoop.makeSucceededVoidFuture()
- }
- XCTAssertThrowsError(try tooManyWaiters.wait()) { error in
- switch error as? ConnectionPoolError {
- case .some(.tooManyWaiters(.none)):
- ()
- default:
- XCTFail("Expected ConnectionPoolError.tooManyWaiters(.none) but got \(error)")
- }
- }
- // Finally, timeout the remaining waiters. Again, no inner error, the connection is just busy.
- self.eventLoop.advanceTime(by: .seconds(1))
- for waiter in waiters {
- XCTAssertThrowsError(try waiter.wait()) { error in
- switch error as? ConnectionPoolError {
- case .some(.deadlineExceeded(.none)):
- ()
- default:
- XCTFail("Expected ConnectionPoolError.deadlineExceeded(.none) but got \(error)")
- }
- }
- }
- }
- func testWaiterStoresItsScheduledTask() throws {
- let deadline = NIODeadline.uptimeNanoseconds(42)
- let promise = self.eventLoop.makePromise(of: Channel.self)
- let waiter = ConnectionPool.Waiter(deadline: deadline, promise: promise) {
- return $0.eventLoop.makeSucceededVoidFuture()
- }
- XCTAssertNil(waiter._scheduledTimeout)
- waiter.scheduleTimeout(on: self.eventLoop) {
- waiter.fail(ConnectionPoolError.deadlineExceeded(connectionError: nil))
- }
- XCTAssertNotNil(waiter._scheduledTimeout)
- self.eventLoop.advanceTime(to: deadline)
- XCTAssertThrowsError(try promise.futureResult.wait())
- XCTAssertNil(waiter._scheduledTimeout)
- }
- }
- extension ConnectionPool {
- // For backwards compatibility, to avoid large diffs in these tests.
- fileprivate func shutdown() -> EventLoopFuture<Void> {
- return self.shutdown(mode: .forceful)
- }
- }
- // MARK: - Helpers
- internal final class ChannelController {
- private var channels: [EmbeddedChannel] = []
- internal var count: Int {
- return self.channels.count
- }
- internal func finish() {
- while let channel = self.channels.popLast() {
- // We're okay with this throwing: some channels are left in a bad state (i.e. with errors).
- _ = try? channel.finish()
- }
- }
- private func isValidIndex(
- _ index: Int,
- file: StaticString = #file,
- line: UInt = #line
- ) -> Bool {
- let isValid = self.channels.indices.contains(index)
- XCTAssertTrue(isValid, "Invalid connection index '\(index)'", file: file, line: line)
- return isValid
- }
- internal func connectChannel(
- atIndex index: Int,
- file: StaticString = #file,
- line: UInt = #line
- ) {
- guard self.isValidIndex(index, file: file, line: line) else { return }
- XCTAssertNoThrow(
- try self.channels[index].connect(to: .init(unixDomainSocketPath: "/")),
- file: file,
- line: line
- )
- }
- internal func fireChannelInactiveForChannel(
- atIndex index: Int,
- file: StaticString = #file,
- line: UInt = #line
- ) {
- guard self.isValidIndex(index, file: file, line: line) else { return }
- self.channels[index].pipeline.fireChannelInactive()
- }
- internal func throwError(
- _ error: Error,
- inChannelAtIndex index: Int,
- file: StaticString = #file,
- line: UInt = #line
- ) {
- guard self.isValidIndex(index, file: file, line: line) else { return }
- self.channels[index].pipeline.fireErrorCaught(error)
- }
- internal func sendSettingsToChannel(
- atIndex index: Int,
- maxConcurrentStreams: Int = 100,
- file: StaticString = #file,
- line: UInt = #line
- ) {
- guard self.isValidIndex(index, file: file, line: line) else { return }
- let settings = [HTTP2Setting(parameter: .maxConcurrentStreams, value: maxConcurrentStreams)]
- let settingsFrame = HTTP2Frame(streamID: .rootStream, payload: .settings(.settings(settings)))
- XCTAssertNoThrow(try self.channels[index].writeInbound(settingsFrame), file: file, line: line)
- }
- internal func sendGoAwayToChannel(
- atIndex index: Int,
- file: StaticString = #file,
- line: UInt = #line
- ) {
- guard self.isValidIndex(index, file: file, line: line) else { return }
- let goAwayFrame = HTTP2Frame(
- streamID: .rootStream,
- payload: .goAway(lastStreamID: .maxID, errorCode: .noError, opaqueData: nil)
- )
- XCTAssertNoThrow(try self.channels[index].writeInbound(goAwayFrame), file: file, line: line)
- }
- internal func openStreamInChannel(
- atIndex index: Int,
- file: StaticString = #file,
- line: UInt = #line
- ) {
- guard self.isValidIndex(index, file: file, line: line) else { return }
- // The details don't matter here.
- let event = NIOHTTP2StreamCreatedEvent(
- streamID: .rootStream,
- localInitialWindowSize: nil,
- remoteInitialWindowSize: nil
- )
- self.channels[index].pipeline.fireUserInboundEventTriggered(event)
- }
- internal func closeStreamInChannel(
- atIndex index: Int,
- file: StaticString = #file,
- line: UInt = #line
- ) {
- guard self.isValidIndex(index, file: file, line: line) else { return }
- // The details don't matter here.
- let event = StreamClosedEvent(streamID: .rootStream, reason: nil)
- self.channels[index].pipeline.fireUserInboundEventTriggered(event)
- }
- }
- extension ChannelController: ConnectionManagerChannelProvider {
- internal func makeChannel(
- managedBy connectionManager: ConnectionManager,
- onEventLoop eventLoop: EventLoop,
- connectTimeout: TimeAmount?,
- logger: Logger
- ) -> EventLoopFuture<Channel> {
- let channel = EmbeddedChannel(loop: eventLoop as! EmbeddedEventLoop)
- self.channels.append(channel)
- let multiplexer = HTTP2StreamMultiplexer(
- mode: .client,
- channel: channel,
- inboundStreamInitializer: nil
- )
- let idleHandler = GRPCIdleHandler(
- connectionManager: connectionManager,
- multiplexer: multiplexer,
- idleTimeout: .minutes(5),
- keepalive: ClientConnectionKeepalive(),
- logger: logger
- )
- XCTAssertNoThrow(try channel.pipeline.syncOperations.addHandler(idleHandler))
- XCTAssertNoThrow(try channel.pipeline.syncOperations.addHandler(multiplexer))
- return eventLoop.makeSucceededFuture(channel)
- }
- }
- internal struct HookedStreamLender: StreamLender {
- internal var onReturnStreams: (Int) -> Void
- internal var onUpdateMaxAvailableStreams: (Int) -> Void
- internal func returnStreams(_ count: Int, to pool: ConnectionPool) {
- self.onReturnStreams(count)
- }
- internal func changeStreamCapacity(by max: Int, for pool: ConnectionPool) {
- self.onUpdateMaxAvailableStreams(max)
- }
- }
- extension Optional where Wrapped == ConnectionPoolError {
- internal var isTooManyWaiters: Bool {
- switch self {
- case .some(.tooManyWaiters):
- return true
- case .some(.deadlineExceeded), .some(.shutdown), .none:
- return false
- }
- }
- internal var isDeadlineExceeded: Bool {
- switch self {
- case .some(.deadlineExceeded):
- return true
- case .some(.tooManyWaiters), .some(.shutdown), .none:
- return false
- }
- }
- internal var isShutdown: Bool {
- switch self {
- case .some(.shutdown):
- return true
- case .some(.tooManyWaiters), .some(.deadlineExceeded), .none:
- return false
- }
- }
- }
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