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async-http-client/Sources/AsyncHTTPClient/HTTPClient.swift
T
Clinton Nkwocha a3d00a65b9 Add "debug initializer" hook for channels (#801) 
Motivation:

As requested in #596, it can be handy to have a lower-level access to
channels (HTTP/1 connection, HTTP/2 connection, or HTTP/2 stream) to
enable a more fine-grained interaction for, say, observability, testing,
etc.

Modifications:

- Add 3 new properties (`http1_1ConnectionDebugInitializer`,
`http2ConnectionDebugInitializer` and
`http2StreamChannelDebugInitializer`) to `HTTPClient.Configuration` with
access to the respective channels. These properties are of `Optional`
type `@Sendable (Channel) -> EventLoopFuture<Void>` and are called when
creating a connection/stream.

Result:

Provides APIs for a lower-level access to channels.

---------

Co-authored-by: Cory Benfield <lukasa@apple.com>
Co-authored-by: David Nadoba <d_nadoba@apple.com>
Co-authored-by: George Barnett <gbarnett@apple.com>
2025-04-25 12:11:02 +00:00

1440 lines
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//===----------------------------------------------------------------------===//
//
// This source file is part of the AsyncHTTPClient open source project
//
// Copyright (c) 2018-2019 Apple Inc. and the AsyncHTTPClient project authors
// Licensed under Apache License v2.0
//
// See LICENSE.txt for license information
// See CONTRIBUTORS.txt for the list of AsyncHTTPClient project authors
//
// SPDX-License-Identifier: Apache-2.0
//
//===----------------------------------------------------------------------===//
import Atomics
import Foundation
import Logging
import NIOConcurrencyHelpers
import NIOCore
import NIOHTTP1
import NIOHTTPCompression
import NIOPosix
import NIOSSL
import NIOTLS
import NIOTransportServices
extension Logger {
private func requestInfo(_ request: HTTPClient.Request) -> Logger.Metadata.Value {
"\(request.method) \(request.url)"
}
func attachingRequestInformation(_ request: HTTPClient.Request, requestID: Int) -> Logger {
var modified = self
modified[metadataKey: "ahc-prev-request"] = nil
modified[metadataKey: "ahc-request-id"] = "\(requestID)"
return modified
}
}
let globalRequestID = ManagedAtomic(0)
/// HTTPClient class provides API for request execution.
///
/// Example:
///
/// ```swift
/// HTTPClient.shared.get(url: "https://swift.org", deadline: .now() + .seconds(1)).whenComplete { result in
/// switch result {
/// case .failure(let error):
/// // process error
/// case .success(let response):
/// if let response.status == .ok {
/// // handle response
/// } else {
/// // handle remote error
/// }
/// }
/// }
/// ```
public class HTTPClient {
/// The `EventLoopGroup` in use by this ``HTTPClient``.
///
/// All HTTP transactions will occur on loops owned by this group.
public let eventLoopGroup: EventLoopGroup
let configuration: Configuration
let poolManager: HTTPConnectionPool.Manager
/// Shared thread pool used for file IO. It is lazily created on first access of ``Task/fileIOThreadPool``.
private var fileIOThreadPool: NIOThreadPool?
private let fileIOThreadPoolLock = NIOLock()
private var state: State
private let stateLock = NIOLock()
private let canBeShutDown: Bool
static let loggingDisabled = Logger(label: "AHC-do-not-log", factory: { _ in SwiftLogNoOpLogHandler() })
/// Create an ``HTTPClient`` with specified `EventLoopGroup` provider and configuration.
///
/// - parameters:
/// - eventLoopGroupProvider: Specify how `EventLoopGroup` will be created.
/// - configuration: Client configuration.
public convenience init(
eventLoopGroupProvider: EventLoopGroupProvider,
configuration: Configuration = Configuration()
) {
self.init(
eventLoopGroupProvider: eventLoopGroupProvider,
configuration: configuration,
backgroundActivityLogger: HTTPClient.loggingDisabled
)
}
/// Create an ``HTTPClient`` with specified `EventLoopGroup` and configuration.
///
/// - parameters:
/// - eventLoopGroup: Specify how `EventLoopGroup` will be created.
/// - configuration: Client configuration.
public convenience init(
eventLoopGroup: EventLoopGroup = HTTPClient.defaultEventLoopGroup,
configuration: Configuration = Configuration()
) {
self.init(
eventLoopGroupProvider: .shared(eventLoopGroup),
configuration: configuration,
backgroundActivityLogger: HTTPClient.loggingDisabled
)
}
/// Create an ``HTTPClient`` with specified `EventLoopGroup` provider and configuration.
///
/// - parameters:
/// - eventLoopGroupProvider: Specify how `EventLoopGroup` will be created.
/// - configuration: Client configuration.
/// - backgroundActivityLogger: The logger to use for background activity logs.
public convenience init(
eventLoopGroupProvider: EventLoopGroupProvider,
configuration: Configuration = Configuration(),
backgroundActivityLogger: Logger
) {
let eventLoopGroup: any EventLoopGroup
switch eventLoopGroupProvider {
case .shared(let group):
eventLoopGroup = group
default: // handle `.createNew` without a deprecation warning
eventLoopGroup = HTTPClient.defaultEventLoopGroup
}
self.init(
eventLoopGroup: eventLoopGroup,
configuration: configuration,
backgroundActivityLogger: backgroundActivityLogger
)
}
/// Create an ``HTTPClient`` with specified `EventLoopGroup` and configuration.
///
/// - parameters:
/// - eventLoopGroup: The `EventLoopGroup` that the ``HTTPClient`` will use.
/// - configuration: Client configuration.
/// - backgroundActivityLogger: The `Logger` that will be used to log background any activity that's not associated with a request.
public convenience init(
eventLoopGroup: any EventLoopGroup = HTTPClient.defaultEventLoopGroup,
configuration: Configuration = Configuration(),
backgroundActivityLogger: Logger
) {
self.init(
eventLoopGroup: eventLoopGroup,
configuration: configuration,
backgroundActivityLogger: backgroundActivityLogger,
canBeShutDown: true
)
}
internal required init(
eventLoopGroup: EventLoopGroup,
configuration: Configuration = Configuration(),
backgroundActivityLogger: Logger,
canBeShutDown: Bool
) {
self.canBeShutDown = canBeShutDown
self.eventLoopGroup = eventLoopGroup
self.configuration = configuration
self.poolManager = HTTPConnectionPool.Manager(
eventLoopGroup: self.eventLoopGroup,
configuration: self.configuration,
backgroundActivityLogger: backgroundActivityLogger
)
self.state = .upAndRunning
}
deinit {
debugOnly {
// We want to crash only in debug mode.
switch self.state {
case .shutDown:
break
case .shuttingDown:
preconditionFailure(
"""
This state should be totally unreachable. While the HTTPClient is shutting down a \
reference cycle should exist, that prevents it from deinit.
"""
)
case .upAndRunning:
preconditionFailure(
"""
Client not shut down before the deinit. Please call client.shutdown() when no \
longer needed. Otherwise memory will leak.
"""
)
}
}
}
/// Shuts down the client and `EventLoopGroup` if it was created by the client.
///
/// This method blocks the thread indefinitely, prefer using ``shutdown()-96ayw``.
@available(*, noasync, message: "syncShutdown() can block indefinitely, prefer shutdown()", renamed: "shutdown()")
public func syncShutdown() throws {
try self.syncShutdown(requiresCleanClose: false)
}
/// Shuts down the client and `EventLoopGroup` if it was created by the client.
///
/// - parameters:
/// - requiresCleanClose: Determine if the client should throw when it is shutdown in a non-clean state
///
/// - Note:
/// The `requiresCleanClose` will let the client do additional checks about its internal consistency on shutdown and
/// throw the appropriate error if needed. For instance, if its internal connection pool has any non-released connections,
/// this indicate shutdown was called too early before tasks were completed or explicitly canceled.
/// In general, setting this parameter to `true` should make it easier and faster to catch related programming errors.
func syncShutdown(requiresCleanClose: Bool) throws {
if let eventLoop = MultiThreadedEventLoopGroup.currentEventLoop {
preconditionFailure(
"""
BUG DETECTED: syncShutdown() must not be called when on an EventLoop.
Calling syncShutdown() on any EventLoop can lead to deadlocks.
Current eventLoop: \(eventLoop)
"""
)
}
let errorStorage: NIOLockedValueBox<Error?> = NIOLockedValueBox(nil)
let continuation = DispatchWorkItem {}
self.shutdown(requiresCleanClose: requiresCleanClose, queue: DispatchQueue(label: "async-http-client.shutdown"))
{ error in
if let error = error {
errorStorage.withLockedValue { errorStorage in
errorStorage = error
}
}
continuation.perform()
}
continuation.wait()
try errorStorage.withLockedValue { errorStorage in
if let error = errorStorage {
throw error
}
}
}
/// Shuts down the client and event loop gracefully.
///
/// This function is clearly an outlier in that it uses a completion
/// callback instead of an EventLoopFuture. The reason for that is that NIO's EventLoopFutures will call back on an event loop.
/// The virtue of this function is to shut the event loop down. To work around that we call back on a DispatchQueue
/// instead.
@preconcurrency public func shutdown(
queue: DispatchQueue = .global(),
_ callback: @Sendable @escaping (Error?) -> Void
) {
self.shutdown(requiresCleanClose: false, queue: queue, callback)
}
/// Shuts down the ``HTTPClient`` and releases its resources.
public func shutdown() -> EventLoopFuture<Void> {
let promise = self.eventLoopGroup.any().makePromise(of: Void.self)
self.shutdown(queue: .global()) { error in
if let error = error {
promise.fail(error)
} else {
promise.succeed(())
}
}
return promise.futureResult
}
private func shutdown(requiresCleanClose: Bool, queue: DispatchQueue, _ callback: @escaping ShutdownCallback) {
guard self.canBeShutDown else {
queue.async {
callback(HTTPClientError.shutdownUnsupported)
}
return
}
do {
try self.stateLock.withLock {
guard case .upAndRunning = self.state else {
throw HTTPClientError.alreadyShutdown
}
self.state = .shuttingDown(requiresCleanClose: requiresCleanClose, callback: callback)
}
} catch {
callback(error)
return
}
let promise = self.eventLoopGroup.any().makePromise(of: Bool.self)
self.poolManager.shutdown(promise: promise)
promise.futureResult.whenComplete { result in
switch result {
case .failure:
preconditionFailure("Shutting down the connection pool must not fail, ever.")
case .success(let unclean):
let (callback, uncleanError) = self.stateLock.withLock { () -> (ShutdownCallback, Error?) in
guard case .shuttingDown(let requiresClean, callback: let callback) = self.state else {
preconditionFailure("Why did the pool manager shut down, if it was not instructed to")
}
let error: Error? = (requiresClean && unclean) ? HTTPClientError.uncleanShutdown : nil
return (callback, error)
}
self.stateLock.withLock {
self.state = .shutDown
}
queue.async {
callback(uncleanError)
}
}
}
}
private func makeOrGetFileIOThreadPool() -> NIOThreadPool {
self.fileIOThreadPoolLock.withLock {
guard let fileIOThreadPool = self.fileIOThreadPool else {
return NIOThreadPool.singleton
}
return fileIOThreadPool
}
}
/// Execute `GET` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - deadline: Point in time by which the request must complete.
public func get(url: String, deadline: NIODeadline? = nil) -> EventLoopFuture<Response> {
self.get(url: url, deadline: deadline, logger: HTTPClient.loggingDisabled)
}
/// Execute `GET` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func get(url: String, deadline: NIODeadline? = nil, logger: Logger) -> EventLoopFuture<Response> {
self.execute(.GET, url: url, deadline: deadline, logger: logger)
}
/// Execute `POST` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
public func post(url: String, body: Body? = nil, deadline: NIODeadline? = nil) -> EventLoopFuture<Response> {
self.post(url: url, body: body, deadline: deadline, logger: HTTPClient.loggingDisabled)
}
/// Execute `POST` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func post(
url: String,
body: Body? = nil,
deadline: NIODeadline? = nil,
logger: Logger
) -> EventLoopFuture<Response> {
self.execute(.POST, url: url, body: body, deadline: deadline, logger: logger)
}
/// Execute `PATCH` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
public func patch(url: String, body: Body? = nil, deadline: NIODeadline? = nil) -> EventLoopFuture<Response> {
self.patch(url: url, body: body, deadline: deadline, logger: HTTPClient.loggingDisabled)
}
/// Execute `PATCH` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func patch(
url: String,
body: Body? = nil,
deadline: NIODeadline? = nil,
logger: Logger
) -> EventLoopFuture<Response> {
self.execute(.PATCH, url: url, body: body, deadline: deadline, logger: logger)
}
/// Execute `PUT` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
public func put(url: String, body: Body? = nil, deadline: NIODeadline? = nil) -> EventLoopFuture<Response> {
self.put(url: url, body: body, deadline: deadline, logger: HTTPClient.loggingDisabled)
}
/// Execute `PUT` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func put(
url: String,
body: Body? = nil,
deadline: NIODeadline? = nil,
logger: Logger
) -> EventLoopFuture<Response> {
self.execute(.PUT, url: url, body: body, deadline: deadline, logger: logger)
}
/// Execute `DELETE` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - deadline: The time when the request must have been completed by.
public func delete(url: String, deadline: NIODeadline? = nil) -> EventLoopFuture<Response> {
self.delete(url: url, deadline: deadline, logger: HTTPClient.loggingDisabled)
}
/// Execute `DELETE` request using specified URL.
///
/// - parameters:
/// - url: Remote URL.
/// - deadline: The time when the request must have been completed by.
/// - logger: The logger to use for this request.
public func delete(url: String, deadline: NIODeadline? = nil, logger: Logger) -> EventLoopFuture<Response> {
self.execute(.DELETE, url: url, deadline: deadline, logger: logger)
}
/// Execute arbitrary HTTP request using specified URL.
///
/// - parameters:
/// - method: Request method.
/// - url: Request url.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func execute(
_ method: HTTPMethod = .GET,
url: String,
body: Body? = nil,
deadline: NIODeadline? = nil,
logger: Logger? = nil
) -> EventLoopFuture<Response> {
do {
let request = try Request(url: url, method: method, body: body)
return self.execute(request: request, deadline: deadline, logger: logger ?? HTTPClient.loggingDisabled)
} catch {
return self.eventLoopGroup.any().makeFailedFuture(error)
}
}
/// Execute arbitrary HTTP+UNIX request to a unix domain socket path, using the specified URL as the request to send to the server.
///
/// - parameters:
/// - method: Request method.
/// - socketPath: The path to the unix domain socket to connect to.
/// - urlPath: The URL path and query that will be sent to the server.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func execute(
_ method: HTTPMethod = .GET,
socketPath: String,
urlPath: String,
body: Body? = nil,
deadline: NIODeadline? = nil,
logger: Logger? = nil
) -> EventLoopFuture<Response> {
do {
guard let url = URL(httpURLWithSocketPath: socketPath, uri: urlPath) else {
throw HTTPClientError.invalidURL
}
let request = try Request(url: url, method: method, body: body)
return self.execute(request: request, deadline: deadline, logger: logger ?? HTTPClient.loggingDisabled)
} catch {
return self.eventLoopGroup.any().makeFailedFuture(error)
}
}
/// Execute arbitrary HTTPS+UNIX request to a unix domain socket path over TLS, using the specified URL as the request to send to the server.
///
/// - parameters:
/// - method: Request method.
/// - secureSocketPath: The path to the unix domain socket to connect to.
/// - urlPath: The URL path and query that will be sent to the server.
/// - body: Request body.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func execute(
_ method: HTTPMethod = .GET,
secureSocketPath: String,
urlPath: String,
body: Body? = nil,
deadline: NIODeadline? = nil,
logger: Logger? = nil
) -> EventLoopFuture<Response> {
do {
guard let url = URL(httpsURLWithSocketPath: secureSocketPath, uri: urlPath) else {
throw HTTPClientError.invalidURL
}
let request = try Request(url: url, method: method, body: body)
return self.execute(request: request, deadline: deadline, logger: logger ?? HTTPClient.loggingDisabled)
} catch {
return self.eventLoopGroup.any().makeFailedFuture(error)
}
}
/// Execute arbitrary HTTP request using specified URL.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - deadline: Point in time by which the request must complete.
public func execute(request: Request, deadline: NIODeadline? = nil) -> EventLoopFuture<Response> {
self.execute(request: request, deadline: deadline, logger: HTTPClient.loggingDisabled)
}
/// Execute arbitrary HTTP request using specified URL.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func execute(request: Request, deadline: NIODeadline? = nil, logger: Logger) -> EventLoopFuture<Response> {
let accumulator = ResponseAccumulator(request: request)
return self.execute(request: request, delegate: accumulator, deadline: deadline, logger: logger).futureResult
}
/// Execute arbitrary HTTP request using specified URL.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - eventLoop: NIO Event Loop preference.
/// - deadline: Point in time by which the request must complete.
public func execute(
request: Request,
eventLoop: EventLoopPreference,
deadline: NIODeadline? = nil
) -> EventLoopFuture<Response> {
self.execute(
request: request,
eventLoop: eventLoop,
deadline: deadline,
logger: HTTPClient.loggingDisabled
)
}
/// Execute arbitrary HTTP request and handle response processing using provided delegate.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - eventLoopPreference: NIO Event Loop preference.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func execute(
request: Request,
eventLoop eventLoopPreference: EventLoopPreference,
deadline: NIODeadline? = nil,
logger: Logger?
) -> EventLoopFuture<Response> {
let accumulator = ResponseAccumulator(request: request)
return self.execute(
request: request,
delegate: accumulator,
eventLoop: eventLoopPreference,
deadline: deadline,
logger: logger
).futureResult
}
/// Execute arbitrary HTTP request and handle response processing using provided delegate.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - delegate: Delegate to process response parts.
/// - deadline: Point in time by which the request must complete.
public func execute<Delegate: HTTPClientResponseDelegate>(
request: Request,
delegate: Delegate,
deadline: NIODeadline? = nil
) -> Task<Delegate.Response> {
self.execute(request: request, delegate: delegate, deadline: deadline, logger: HTTPClient.loggingDisabled)
}
/// Execute arbitrary HTTP request and handle response processing using provided delegate.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - delegate: Delegate to process response parts.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func execute<Delegate: HTTPClientResponseDelegate>(
request: Request,
delegate: Delegate,
deadline: NIODeadline? = nil,
logger: Logger
) -> Task<Delegate.Response> {
self.execute(request: request, delegate: delegate, eventLoop: .indifferent, deadline: deadline, logger: logger)
}
/// Execute arbitrary HTTP request and handle response processing using provided delegate.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - delegate: Delegate to process response parts.
/// - eventLoopPreference: NIO Event Loop preference.
/// - deadline: Point in time by which the request must complete.
public func execute<Delegate: HTTPClientResponseDelegate>(
request: Request,
delegate: Delegate,
eventLoop eventLoopPreference: EventLoopPreference,
deadline: NIODeadline? = nil
) -> Task<Delegate.Response> {
self.execute(
request: request,
delegate: delegate,
eventLoop: eventLoopPreference,
deadline: deadline,
logger: HTTPClient.loggingDisabled
)
}
/// Execute arbitrary HTTP request and handle response processing using provided delegate.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - delegate: Delegate to process response parts.
/// - eventLoopPreference: NIO Event Loop preference.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
public func execute<Delegate: HTTPClientResponseDelegate>(
request: Request,
delegate: Delegate,
eventLoop eventLoopPreference: EventLoopPreference,
deadline: NIODeadline? = nil,
logger: Logger?
) -> Task<Delegate.Response> {
self._execute(
request: request,
delegate: delegate,
eventLoop: eventLoopPreference,
deadline: deadline,
logger: logger,
redirectState: RedirectState(
self.configuration.redirectConfiguration.mode,
initialURL: request.url.absoluteString
)
)
}
/// Execute arbitrary HTTP request and handle response processing using provided delegate.
///
/// - parameters:
/// - request: HTTP request to execute.
/// - delegate: Delegate to process response parts.
/// - eventLoop: NIO Event Loop preference.
/// - deadline: Point in time by which the request must complete.
/// - logger: The logger to use for this request.
func _execute<Delegate: HTTPClientResponseDelegate>(
request: Request,
delegate: Delegate,
eventLoop eventLoopPreference: EventLoopPreference,
deadline: NIODeadline? = nil,
logger originalLogger: Logger?,
redirectState: RedirectState?
) -> Task<Delegate.Response> {
let logger = (originalLogger ?? HTTPClient.loggingDisabled).attachingRequestInformation(
request,
requestID: globalRequestID.wrappingIncrementThenLoad(ordering: .relaxed)
)
let taskEL: EventLoop
switch eventLoopPreference.preference {
case .indifferent:
// if possible we want a connection on the current `EventLoop`
taskEL = self.eventLoopGroup.any()
case .delegate(on: let eventLoop):
precondition(
self.eventLoopGroup.makeIterator().contains { $0 === eventLoop },
"Provided EventLoop must be part of clients EventLoopGroup."
)
taskEL = eventLoop
case .delegateAndChannel(on: let eventLoop):
precondition(
self.eventLoopGroup.makeIterator().contains { $0 === eventLoop },
"Provided EventLoop must be part of clients EventLoopGroup."
)
taskEL = eventLoop
case .testOnly_exact(_, delegateOn: let delegateEL):
taskEL = delegateEL
}
logger.trace(
"selected EventLoop for task given the preference",
metadata: [
"ahc-eventloop": "\(taskEL)",
"ahc-el-preference": "\(eventLoopPreference)",
]
)
let failedTask: Task<Delegate.Response>? = self.stateLock.withLock {
switch self.state {
case .upAndRunning:
return nil
case .shuttingDown, .shutDown:
logger.debug("client is shutting down, failing request")
return Task<Delegate.Response>.failedTask(
eventLoop: taskEL,
error: HTTPClientError.alreadyShutdown,
logger: logger,
makeOrGetFileIOThreadPool: self.makeOrGetFileIOThreadPool
)
}
}
if let failedTask = failedTask {
return failedTask
}
let redirectHandler: RedirectHandler<Delegate.Response>? = {
guard let redirectState = redirectState else { return nil }
return .init(request: request, redirectState: redirectState) { newRequest, newRedirectState in
self._execute(
request: newRequest,
delegate: delegate,
eventLoop: eventLoopPreference,
deadline: deadline,
logger: logger,
redirectState: newRedirectState
)
}
}()
let task = Task<Delegate.Response>(
eventLoop: taskEL,
logger: logger,
makeOrGetFileIOThreadPool: self.makeOrGetFileIOThreadPool
)
do {
let requestBag = try RequestBag(
request: request,
eventLoopPreference: eventLoopPreference,
task: task,
redirectHandler: redirectHandler,
connectionDeadline: .now() + (self.configuration.timeout.connectionCreationTimeout),
requestOptions: .fromClientConfiguration(self.configuration),
delegate: delegate
)
var deadlineSchedule: Scheduled<Void>?
if let deadline = deadline {
deadlineSchedule = taskEL.scheduleTask(deadline: deadline) {
requestBag.deadlineExceeded()
}
task.promise.futureResult.whenComplete { _ in
deadlineSchedule?.cancel()
}
}
self.poolManager.executeRequest(requestBag)
} catch {
task.fail(with: error, delegateType: Delegate.self)
}
return task
}
/// ``HTTPClient`` configuration.
public struct Configuration {
/// TLS configuration, defaults to `TLSConfiguration.makeClientConfiguration()`.
public var tlsConfiguration: Optional<TLSConfiguration>
/// Sometimes it can be useful to connect to one host e.g. `x.example.com` but
/// request and validate the certificate chain as if we would connect to `y.example.com`.
/// ``dnsOverride`` allows to do just that by mapping host names which we will request and validate the certificate chain, to a different
/// host name which will be used to actually connect to.
///
/// **Example:** if ``dnsOverride`` is set to `["example.com": "localhost"]` and we execute a request with a
/// `url` of `https://example.com/`, the ``HTTPClient`` will actually open a connection to `localhost` instead of `example.com`.
/// ``HTTPClient`` will still request certificates from the server for `example.com` and validate them as if we would connect to `example.com`.
public var dnsOverride: [String: String] = [:]
/// Enables following 3xx redirects automatically.
///
/// Following redirects are supported:
/// - `301: Moved Permanently`
/// - `302: Found`
/// - `303: See Other`
/// - `304: Not Modified`
/// - `305: Use Proxy`
/// - `307: Temporary Redirect`
/// - `308: Permanent Redirect`
public var redirectConfiguration: RedirectConfiguration
/// Default client timeout, defaults to no ``Timeout-swift.struct/read`` timeout
/// and 10 seconds ``Timeout-swift.struct/connect`` timeout.
public var timeout: Timeout
/// Connection pool configuration.
public var connectionPool: ConnectionPool
/// Upstream proxy, defaults to no proxy.
public var proxy: Proxy?
/// Enables automatic body decompression. Supported algorithms are gzip and deflate.
public var decompression: Decompression
/// Ignore TLS unclean shutdown error, defaults to `false`.
@available(
*,
deprecated,
message:
"AsyncHTTPClient now correctly supports handling unexpected SSL connection drops. This property is ignored"
)
public var ignoreUncleanSSLShutdown: Bool {
get { false }
set {}
}
/// What HTTP versions to use.
///
/// Set to ``HTTPVersion-swift.struct/automatic`` by default which will use HTTP/2 if run over https and the server supports it, otherwise HTTP/1
public var httpVersion: HTTPVersion
/// Whether ``HTTPClient`` will let Network.framework sit in the `.waiting` state awaiting new network changes, or fail immediately. Defaults to `true`,
/// which is the recommended setting. Only set this to `false` when attempting to trigger a particular error path.
public var networkFrameworkWaitForConnectivity: Bool
/// The maximum number of times each connection can be used before it is replaced with a new one. Use `nil` (the default)
/// if no limit should be applied to each connection.
///
/// - Precondition: The value must be greater than zero.
public var maximumUsesPerConnection: Int? {
willSet {
if let newValue = newValue, newValue <= 0 {
fatalError("maximumUsesPerConnection must be greater than zero or nil")
}
}
}
/// Whether ``HTTPClient`` will use Multipath TCP or not
/// By default, don't use it
public var enableMultipath: Bool
/// A method with access to the HTTP/1 connection channel that is called when creating the connection.
public var http1_1ConnectionDebugInitializer: (@Sendable (Channel) -> EventLoopFuture<Void>)?
/// A method with access to the HTTP/2 connection channel that is called when creating the connection.
public var http2ConnectionDebugInitializer: (@Sendable (Channel) -> EventLoopFuture<Void>)?
/// A method with access to the HTTP/2 stream channel that is called when creating the stream.
public var http2StreamChannelDebugInitializer: (@Sendable (Channel) -> EventLoopFuture<Void>)?
public init(
tlsConfiguration: TLSConfiguration? = nil,
redirectConfiguration: RedirectConfiguration? = nil,
timeout: Timeout = Timeout(),
connectionPool: ConnectionPool = ConnectionPool(),
proxy: Proxy? = nil,
ignoreUncleanSSLShutdown: Bool = false,
decompression: Decompression = .disabled
) {
self.tlsConfiguration = tlsConfiguration
self.redirectConfiguration = redirectConfiguration ?? RedirectConfiguration()
self.timeout = timeout
self.connectionPool = connectionPool
self.proxy = proxy
self.decompression = decompression
self.httpVersion = .automatic
self.networkFrameworkWaitForConnectivity = true
self.enableMultipath = false
}
public init(
tlsConfiguration: TLSConfiguration? = nil,
redirectConfiguration: RedirectConfiguration? = nil,
timeout: Timeout = Timeout(),
proxy: Proxy? = nil,
ignoreUncleanSSLShutdown: Bool = false,
decompression: Decompression = .disabled
) {
self.init(
tlsConfiguration: tlsConfiguration,
redirectConfiguration: redirectConfiguration,
timeout: timeout,
connectionPool: ConnectionPool(),
proxy: proxy,
ignoreUncleanSSLShutdown: ignoreUncleanSSLShutdown,
decompression: decompression
)
}
public init(
certificateVerification: CertificateVerification,
redirectConfiguration: RedirectConfiguration? = nil,
timeout: Timeout = Timeout(),
maximumAllowedIdleTimeInConnectionPool: TimeAmount = .seconds(60),
proxy: Proxy? = nil,
ignoreUncleanSSLShutdown: Bool = false,
decompression: Decompression = .disabled
) {
var tlsConfig = TLSConfiguration.makeClientConfiguration()
tlsConfig.certificateVerification = certificateVerification
self.init(
tlsConfiguration: tlsConfig,
redirectConfiguration: redirectConfiguration,
timeout: timeout,
connectionPool: ConnectionPool(idleTimeout: maximumAllowedIdleTimeInConnectionPool),
proxy: proxy,
ignoreUncleanSSLShutdown: ignoreUncleanSSLShutdown,
decompression: decompression
)
}
public init(
certificateVerification: CertificateVerification,
redirectConfiguration: RedirectConfiguration? = nil,
timeout: Timeout = Timeout(),
connectionPool: TimeAmount = .seconds(60),
proxy: Proxy? = nil,
ignoreUncleanSSLShutdown: Bool = false,
decompression: Decompression = .disabled,
backgroundActivityLogger: Logger?
) {
var tlsConfig = TLSConfiguration.makeClientConfiguration()
tlsConfig.certificateVerification = certificateVerification
self.init(
tlsConfiguration: tlsConfig,
redirectConfiguration: redirectConfiguration,
timeout: timeout,
connectionPool: ConnectionPool(idleTimeout: connectionPool),
proxy: proxy,
ignoreUncleanSSLShutdown: ignoreUncleanSSLShutdown,
decompression: decompression
)
}
public init(
certificateVerification: CertificateVerification,
redirectConfiguration: RedirectConfiguration? = nil,
timeout: Timeout = Timeout(),
proxy: Proxy? = nil,
ignoreUncleanSSLShutdown: Bool = false,
decompression: Decompression = .disabled
) {
self.init(
certificateVerification: certificateVerification,
redirectConfiguration: redirectConfiguration,
timeout: timeout,
maximumAllowedIdleTimeInConnectionPool: .seconds(60),
proxy: proxy,
ignoreUncleanSSLShutdown: ignoreUncleanSSLShutdown,
decompression: decompression
)
}
public init(
tlsConfiguration: TLSConfiguration? = nil,
redirectConfiguration: RedirectConfiguration? = nil,
timeout: Timeout = Timeout(),
connectionPool: ConnectionPool = ConnectionPool(),
proxy: Proxy? = nil,
ignoreUncleanSSLShutdown: Bool = false,
decompression: Decompression = .disabled,
http1_1ConnectionDebugInitializer: (@Sendable (Channel) -> EventLoopFuture<Void>)? = nil,
http2ConnectionDebugInitializer: (@Sendable (Channel) -> EventLoopFuture<Void>)? = nil,
http2StreamChannelDebugInitializer: (@Sendable (Channel) -> EventLoopFuture<Void>)? = nil
) {
self.init(
tlsConfiguration: tlsConfiguration,
redirectConfiguration: redirectConfiguration,
timeout: timeout,
connectionPool: connectionPool,
proxy: proxy,
ignoreUncleanSSLShutdown: ignoreUncleanSSLShutdown,
decompression: decompression
)
self.http1_1ConnectionDebugInitializer = http1_1ConnectionDebugInitializer
self.http2ConnectionDebugInitializer = http2ConnectionDebugInitializer
self.http2StreamChannelDebugInitializer = http2StreamChannelDebugInitializer
}
}
/// Specifies how `EventLoopGroup` will be created and establishes lifecycle ownership.
public enum EventLoopGroupProvider {
/// `EventLoopGroup` will be provided by the user. Owner of this group is responsible for its lifecycle.
case shared(EventLoopGroup)
/// The original intention of this was that ``HTTPClient`` would create and own its own `EventLoopGroup` to
/// facilitate use in programs that are not already using SwiftNIO.
/// Since https://github.com/apple/swift-nio/pull/2471 however, SwiftNIO does provide a global, shared singleton
/// `EventLoopGroup`s that we can use. ``HTTPClient`` is no longer able to create & own its own
/// `EventLoopGroup` which solves a whole host of issues around shutdown.
@available(*, deprecated, renamed: "singleton", message: "Please use the singleton EventLoopGroup explicitly")
case createNew
}
/// Specifies how the library will treat the event loop passed by the user.
public struct EventLoopPreference {
enum Preference {
/// Event Loop will be selected by the library.
case indifferent
/// The delegate will be run on the specified EventLoop (and the Channel if possible).
case delegate(on: EventLoop)
/// The delegate and the `Channel` will be run on the specified EventLoop.
case delegateAndChannel(on: EventLoop)
case testOnly_exact(channelOn: EventLoop, delegateOn: EventLoop)
}
var preference: Preference
init(_ preference: Preference) {
self.preference = preference
}
/// Event Loop will be selected by the library.
public static let indifferent = EventLoopPreference(.indifferent)
/// The delegate will be run on the specified EventLoop (and the Channel if possible).
///
/// This will call the configured delegate on `eventLoop` and will try to use a `Channel` on the same
/// `EventLoop` but will not establish a new network connection just to satisfy the `EventLoop` preference if
/// another existing connection on a different `EventLoop` is readily available from a connection pool.
public static func delegate(on eventLoop: EventLoop) -> EventLoopPreference {
EventLoopPreference(.delegate(on: eventLoop))
}
/// The delegate and the `Channel` will be run on the specified EventLoop.
///
/// Use this for use-cases where you prefer a new connection to be established over re-using an existing
/// connection that might be on a different `EventLoop`.
public static func delegateAndChannel(on eventLoop: EventLoop) -> EventLoopPreference {
EventLoopPreference(.delegateAndChannel(on: eventLoop))
}
}
/// Specifies decompression settings.
public enum Decompression: Sendable {
/// Decompression is disabled.
case disabled
/// Decompression is enabled.
case enabled(limit: NIOHTTPDecompression.DecompressionLimit)
}
typealias ShutdownCallback = @Sendable (Error?) -> Void
enum State {
case upAndRunning
case shuttingDown(requiresCleanClose: Bool, callback: ShutdownCallback)
case shutDown
}
}
extension HTTPClient.EventLoopGroupProvider {
/// Shares ``HTTPClient/defaultEventLoopGroup`` which is a singleton `EventLoopGroup` suitable for the platform.
public static var singleton: Self {
.shared(HTTPClient.defaultEventLoopGroup)
}
}
extension HTTPClient {
/// Returns the default `EventLoopGroup` singleton, automatically selecting the best for the platform.
///
/// This will select the concrete `EventLoopGroup` depending which platform this is running on.
public static var defaultEventLoopGroup: EventLoopGroup {
#if canImport(Network)
if #available(OSX 10.14, iOS 12.0, tvOS 12.0, watchOS 6.0, *) {
return NIOTSEventLoopGroup.singleton
} else {
return MultiThreadedEventLoopGroup.singleton
}
#else
return MultiThreadedEventLoopGroup.singleton
#endif
}
}
extension HTTPClient.Configuration: Sendable {}
extension HTTPClient.EventLoopGroupProvider: Sendable {}
extension HTTPClient.EventLoopPreference: Sendable {}
// HTTPClient is thread-safe because its shared mutable state is protected through a lock
extension HTTPClient: @unchecked Sendable {}
extension HTTPClient.Configuration {
/// Timeout configuration.
public struct Timeout: Sendable {
/// Specifies connect timeout. If no connect timeout is given, a default 10 seconds timeout will be applied.
public var connect: TimeAmount?
/// Specifies read timeout.
public var read: TimeAmount?
/// Specifies the maximum amount of time without bytes being written by the client before closing the connection.
public var write: TimeAmount?
/// Internal connection creation timeout. Defaults the connect timeout to always contain a value.
var connectionCreationTimeout: TimeAmount {
self.connect ?? .seconds(10)
}
/// Create timeout.
///
/// - parameters:
/// - connect: `connect` timeout. Will default to 10 seconds, if no value is provided.
/// - read: `read` timeout.
public init(
connect: TimeAmount? = nil,
read: TimeAmount? = nil
) {
self.connect = connect
self.read = read
}
/// Create timeout.
///
/// - parameters:
/// - connect: `connect` timeout. Will default to 10 seconds, if no value is provided.
/// - read: `read` timeout.
/// - write: `write` timeout.
public init(
connect: TimeAmount? = nil,
read: TimeAmount? = nil,
write: TimeAmount
) {
self.connect = connect
self.read = read
self.write = write
}
}
/// Specifies redirect processing settings.
public struct RedirectConfiguration: Sendable {
enum Mode {
/// Redirects are not followed.
case disallow
/// Redirects are followed with a specified limit.
case follow(max: Int, allowCycles: Bool)
}
var mode: Mode
init() {
self.mode = .follow(max: 5, allowCycles: false)
}
init(configuration: Mode) {
self.mode = configuration
}
/// Redirects are not followed.
public static let disallow = RedirectConfiguration(configuration: .disallow)
/// Redirects are followed with a specified limit.
///
/// - parameters:
/// - max: The maximum number of allowed redirects.
/// - allowCycles: Whether cycles are allowed.
///
/// - warning: Cycle detection will keep all visited URLs in memory which means a malicious server could use this as a denial-of-service vector.
public static func follow(max: Int, allowCycles: Bool) -> RedirectConfiguration {
.init(configuration: .follow(max: max, allowCycles: allowCycles))
}
}
/// Connection pool configuration.
public struct ConnectionPool: Hashable, Sendable {
/// Specifies amount of time connections are kept idle in the pool. After this time has passed without a new
/// request the connections are closed.
public var idleTimeout: TimeAmount = .seconds(60)
/// The maximum number of connections that are kept alive in the connection pool per host. If requests with
/// an explicit eventLoopRequirement are sent, this number might be exceeded due to overflow connections.
public var concurrentHTTP1ConnectionsPerHostSoftLimit: Int = 8
/// If true, ``HTTPClient`` will try to create new connections on connection failure with an exponential backoff.
/// Requests will only fail after the ``HTTPClient/Configuration/Timeout-swift.struct/connect`` timeout exceeded.
/// If false, all requests that have no assigned connection will fail immediately after a connection could not be established.
/// Defaults to `true`.
/// - warning: We highly recommend leaving this on.
/// It is very common that connections establishment is flaky at scale.
/// ``HTTPClient`` will automatically mitigate these kind of issues if this flag is turned on.
public var retryConnectionEstablishment: Bool = true
public init() {}
public init(idleTimeout: TimeAmount) {
self.idleTimeout = idleTimeout
}
public init(idleTimeout: TimeAmount, concurrentHTTP1ConnectionsPerHostSoftLimit: Int) {
self.idleTimeout = idleTimeout
self.concurrentHTTP1ConnectionsPerHostSoftLimit = concurrentHTTP1ConnectionsPerHostSoftLimit
}
}
public struct HTTPVersion: Sendable, Hashable {
enum Configuration {
case http1Only
case automatic
}
/// We will only use HTTP/1, even if the server would supports HTTP/2
public static let http1Only: Self = .init(configuration: .http1Only)
/// HTTP/2 is used if we connect to a server with HTTPS and the server supports HTTP/2, otherwise we use HTTP/1
public static let automatic: Self = .init(configuration: .automatic)
var configuration: Configuration
}
}
/// Possible client errors.
public struct HTTPClientError: Error, Equatable, CustomStringConvertible {
private enum Code: Equatable {
case invalidURL
case emptyHost
case missingSocketPath
case alreadyShutdown
case emptyScheme
case unsupportedScheme(String)
case readTimeout
case writeTimeout
case remoteConnectionClosed
case cancelled
case identityCodingIncorrectlyPresent
@available(*, deprecated, message: "AsyncHTTPClient now silently corrects this invalid header.")
case chunkedSpecifiedMultipleTimes
case invalidProxyResponse
case contentLengthMissing
case proxyAuthenticationRequired
case redirectLimitReached
case redirectCycleDetected
case uncleanShutdown
case traceRequestWithBody
case invalidHeaderFieldNames([String])
case invalidHeaderFieldValues([String])
case bodyLengthMismatch
case writeAfterRequestSent
@available(*, deprecated, message: "AsyncHTTPClient now silently corrects invalid headers.")
case incompatibleHeaders
case connectTimeout
case socksHandshakeTimeout
case httpProxyHandshakeTimeout
case tlsHandshakeTimeout
case serverOfferedUnsupportedApplicationProtocol(String)
case requestStreamCancelled
case getConnectionFromPoolTimeout
case deadlineExceeded
case httpEndReceivedAfterHeadWith1xx
case shutdownUnsupported
}
private var code: Code
private init(code: Code) {
self.code = code
}
public var description: String {
"HTTPClientError.\(String(describing: self.code))"
}
/// Short description of the error that can be used in case a bounded set of error descriptions is expected, e.g. to
/// include in metric labels. For this reason the description must not contain associated values.
public var shortDescription: String {
// When adding new cases here, do *not* include dynamic (associated) values in the description.
switch self.code {
case .invalidURL:
return "Invalid URL"
case .emptyHost:
return "Empty host"
case .missingSocketPath:
return "Missing socket path"
case .alreadyShutdown:
return "Already shutdown"
case .emptyScheme:
return "Empty scheme"
case .unsupportedScheme:
return "Unsupported scheme"
case .readTimeout:
return "Read timeout"
case .writeTimeout:
return "Write timeout"
case .remoteConnectionClosed:
return "Remote connection closed"
case .cancelled:
return "Cancelled"
case .identityCodingIncorrectlyPresent:
return "Identity coding incorrectly present"
case .chunkedSpecifiedMultipleTimes:
return "Chunked specified multiple times"
case .invalidProxyResponse:
return "Invalid proxy response"
case .contentLengthMissing:
return "Content length missing"
case .proxyAuthenticationRequired:
return "Proxy authentication required"
case .redirectLimitReached:
return "Redirect limit reached"
case .redirectCycleDetected:
return "Redirect cycle detected"
case .uncleanShutdown:
return "Unclean shutdown"
case .traceRequestWithBody:
return "Trace request with body"
case .invalidHeaderFieldNames:
return "Invalid header field names"
case .invalidHeaderFieldValues:
return "Invalid header field values"
case .bodyLengthMismatch:
return "Body length mismatch"
case .writeAfterRequestSent:
return "Write after request sent"
case .incompatibleHeaders:
return "Incompatible headers"
case .connectTimeout:
return "Connect timeout"
case .socksHandshakeTimeout:
return "SOCKS handshake timeout"
case .httpProxyHandshakeTimeout:
return "HTTP proxy handshake timeout"
case .tlsHandshakeTimeout:
return "TLS handshake timeout"
case .serverOfferedUnsupportedApplicationProtocol:
return "Server offered unsupported application protocol"
case .requestStreamCancelled:
return "Request stream cancelled"
case .getConnectionFromPoolTimeout:
return "Get connection from pool timeout"
case .deadlineExceeded:
return "Deadline exceeded"
case .httpEndReceivedAfterHeadWith1xx:
return "HTTP end received after head with 1xx"
case .shutdownUnsupported:
return "The global singleton HTTP client cannot be shut down"
}
}
/// URL provided is invalid.
public static let invalidURL = HTTPClientError(code: .invalidURL)
/// URL does not contain host.
public static let emptyHost = HTTPClientError(code: .emptyHost)
/// URL does not contain a socketPath as a host for http(s)+unix shemes.
public static let missingSocketPath = HTTPClientError(code: .missingSocketPath)
/// Client is shutdown and cannot be used for new requests.
public static let alreadyShutdown = HTTPClientError(code: .alreadyShutdown)
/// URL does not contain scheme.
public static let emptyScheme = HTTPClientError(code: .emptyScheme)
/// Provided URL scheme is not supported, supported schemes are: `http` and `https`
public static func unsupportedScheme(_ scheme: String) -> HTTPClientError {
HTTPClientError(code: .unsupportedScheme(scheme))
}
/// Request timed out while waiting for response.
public static let readTimeout = HTTPClientError(code: .readTimeout)
/// Request timed out.
public static let writeTimeout = HTTPClientError(code: .writeTimeout)
/// Remote connection was closed unexpectedly.
public static let remoteConnectionClosed = HTTPClientError(code: .remoteConnectionClosed)
/// Request was cancelled.
public static let cancelled = HTTPClientError(code: .cancelled)
/// Request contains invalid identity encoding.
public static let identityCodingIncorrectlyPresent = HTTPClientError(code: .identityCodingIncorrectlyPresent)
/// Request contains multiple chunks definitions.
@available(*, deprecated, message: "AsyncHTTPClient now silently corrects this invalid header.")
public static let chunkedSpecifiedMultipleTimes = HTTPClientError(code: .chunkedSpecifiedMultipleTimes)
/// Proxy response was invalid.
public static let invalidProxyResponse = HTTPClientError(code: .invalidProxyResponse)
/// Request does not contain `Content-Length` header.
public static let contentLengthMissing = HTTPClientError(code: .contentLengthMissing)
/// Proxy Authentication Required.
public static let proxyAuthenticationRequired = HTTPClientError(code: .proxyAuthenticationRequired)
/// Redirect Limit reached.
public static let redirectLimitReached = HTTPClientError(code: .redirectLimitReached)
/// Redirect Cycle detected.
public static let redirectCycleDetected = HTTPClientError(code: .redirectCycleDetected)
/// Unclean shutdown.
public static let uncleanShutdown = HTTPClientError(code: .uncleanShutdown)
/// A body was sent in a request with method TRACE.
public static let traceRequestWithBody = HTTPClientError(code: .traceRequestWithBody)
/// Header field names contain invalid characters.
public static func invalidHeaderFieldNames(_ names: [String]) -> HTTPClientError {
HTTPClientError(code: .invalidHeaderFieldNames(names))
}
/// Header field values contain invalid characters.
public static func invalidHeaderFieldValues(_ values: [String]) -> HTTPClientError {
HTTPClientError(code: .invalidHeaderFieldValues(values))
}
/// Body length is not equal to `Content-Length`.
public static let bodyLengthMismatch = HTTPClientError(code: .bodyLengthMismatch)
/// Body part was written after request was fully sent.
public static let writeAfterRequestSent = HTTPClientError(code: .writeAfterRequestSent)
/// Incompatible headers specified, for example `Transfer-Encoding` and `Content-Length`.
@available(*, deprecated, message: "AsyncHTTPClient now silently corrects invalid headers.")
public static let incompatibleHeaders = HTTPClientError(code: .incompatibleHeaders)
/// Creating a new tcp connection timed out
public static let connectTimeout = HTTPClientError(code: .connectTimeout)
/// The socks handshake timed out.
public static let socksHandshakeTimeout = HTTPClientError(code: .socksHandshakeTimeout)
/// The http proxy connection creation timed out.
public static let httpProxyHandshakeTimeout = HTTPClientError(code: .httpProxyHandshakeTimeout)
/// The tls handshake timed out.
public static let tlsHandshakeTimeout = HTTPClientError(code: .tlsHandshakeTimeout)
/// The remote server only offered an unsupported application protocol
public static func serverOfferedUnsupportedApplicationProtocol(_ proto: String) -> HTTPClientError {
HTTPClientError(code: .serverOfferedUnsupportedApplicationProtocol(proto))
}
/// The globally shared singleton ``HTTPClient`` cannot be shut down.
public static var shutdownUnsupported: HTTPClientError {
HTTPClientError(code: .shutdownUnsupported)
}
/// The request deadline was exceeded. The request was cancelled because of this.
public static let deadlineExceeded = HTTPClientError(code: .deadlineExceeded)
/// The remote server responded with a status code >= 300, before the full request was sent. The request stream
/// was therefore cancelled
public static let requestStreamCancelled = HTTPClientError(code: .requestStreamCancelled)
/// Aquiring a HTTP connection from the connection pool timed out.
///
/// This can have multiple reasons:
/// - A connection could not be created within the timout period.
/// - Tasks are not processed fast enough on the existing connections, to process all waiters in time
public static let getConnectionFromPoolTimeout = HTTPClientError(code: .getConnectionFromPoolTimeout)
@available(
*,
deprecated,
message:
"AsyncHTTPClient now correctly supports informational headers. For this reason `httpEndReceivedAfterHeadWith1xx` will not be thrown anymore."
)
public static let httpEndReceivedAfterHeadWith1xx = HTTPClientError(code: .httpEndReceivedAfterHeadWith1xx)
}
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