//===----------------------------------------------------------------------===// // // 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 Foundation import Logging import NIOConcurrencyHelpers import NIOCore import NIOHTTP1 import NIOHTTPCompression import NIOPosix import NIOSOCKS import NIOSSL import NIOTLS import NIOTransportServices extension Logger { private func requestInfo(_ request: HTTPClient.Request) -> Logger.Metadata.Value { return "\(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 = NIOAtomic.makeAtomic(value: 0) /// HTTPClient class provides API for request execution. /// /// Example: /// /// ```swift /// let client = HTTPClient(eventLoopGroupProvider: .createNew) /// client.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 /// } /// } /// } /// ``` /// /// It is important to close the client instance, for example in a defer statement, after use to cleanly shutdown the underlying NIO `EventLoopGroup`: /// /// ```swift /// try client.syncShutdown() /// ``` public class HTTPClient { public let eventLoopGroup: EventLoopGroup let eventLoopGroupProvider: EventLoopGroupProvider let configuration: Configuration let pool: ConnectionPool var state: State private let stateLock = Lock() internal 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` provider and configuration. /// /// - parameters: /// - eventLoopGroupProvider: Specify how `EventLoopGroup` will be created. /// - configuration: Client configuration. public required init(eventLoopGroupProvider: EventLoopGroupProvider, configuration: Configuration = Configuration(), backgroundActivityLogger: Logger) { self.eventLoopGroupProvider = eventLoopGroupProvider switch self.eventLoopGroupProvider { case .shared(let group): self.eventLoopGroup = group case .createNew: #if canImport(Network) if #available(OSX 10.14, iOS 12.0, tvOS 12.0, watchOS 6.0, *) { self.eventLoopGroup = NIOTSEventLoopGroup() } else { self.eventLoopGroup = MultiThreadedEventLoopGroup(numberOfThreads: 1) } #else self.eventLoopGroup = MultiThreadedEventLoopGroup(numberOfThreads: 1) #endif } self.configuration = configuration self.pool = ConnectionPool(configuration: configuration, backgroundActivityLogger: backgroundActivityLogger) self.state = .upAndRunning } deinit { assert(self.pool.count == 0) assert(self.state == .shutDown, "Client not shut down before the deinit. Please call client.syncShutdown() when no longer needed.") } /// Shuts down the client and `EventLoopGroup` if it was created by the client. 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. internal 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 errorStorageLock = Lock() var errorStorage: Error? let continuation = DispatchWorkItem {} self.shutdown(requiresCleanClose: requiresCleanClose, queue: DispatchQueue(label: "async-http-client.shutdown")) { error in if let error = error { errorStorageLock.withLock { errorStorage = error } } continuation.perform() } continuation.wait() try errorStorageLock.withLock { 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. public func shutdown(queue: DispatchQueue = .global(), _ callback: @escaping (Error?) -> Void) { self.shutdown(requiresCleanClose: false, queue: queue, callback) } private func shutdownEventLoop(queue: DispatchQueue, _ callback: @escaping (Error?) -> Void) { self.stateLock.withLock { switch self.eventLoopGroupProvider { case .shared: self.state = .shutDown callback(nil) case .createNew: switch self.state { case .shuttingDown: self.state = .shutDown self.eventLoopGroup.shutdownGracefully(queue: queue, callback) case .shutDown, .upAndRunning: assertionFailure("The only valid state at this point is \(State.shutDown)") } } } } private func shutdown(requiresCleanClose: Bool, queue: DispatchQueue, _ callback: @escaping (Error?) -> Void) { do { try self.stateLock.withLock { if self.state != .upAndRunning { throw HTTPClientError.alreadyShutdown } self.state = .shuttingDown } } catch { callback(error) return } self.pool.close(on: self.eventLoopGroup.next()).whenComplete { result in var closeError: Error? switch result { case .failure(let error): closeError = error case .success(let cleanShutdown): if !cleanShutdown, requiresCleanClose { closeError = HTTPClientError.uncleanShutdown } self.shutdownEventLoop(queue: queue) { eventLoopError in // we prioritise .uncleanShutdown here if let error = closeError { callback(error) } else { callback(eventLoopError) } } } } } /// 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 { return 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 { return 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 { return 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 { return 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 { return 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 { return 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 { return 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 { return 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 { return 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 { return 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 { 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.next().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 { 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.next().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 { 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.next().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 { return 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 { 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 { return 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. /// - eventLoop: 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 { 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(request: Request, delegate: Delegate, deadline: NIODeadline? = nil) -> Task { return 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(request: Request, delegate: Delegate, deadline: NIODeadline? = nil, logger: Logger) -> Task { return 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. /// - eventLoop: 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, delegate: Delegate, eventLoop eventLoopPreference: EventLoopPreference, deadline: NIODeadline? = nil) -> Task { return 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. /// - eventLoop: NIO Event Loop preference. /// - deadline: Point in time by which the request must complete. public func execute(request: Request, delegate: Delegate, eventLoop eventLoopPreference: EventLoopPreference, deadline: NIODeadline? = nil, logger originalLogger: Logger?) -> Task { let logger = (originalLogger ?? HTTPClient.loggingDisabled).attachingRequestInformation(request, requestID: globalRequestID.add(1)) let taskEL: EventLoop switch eventLoopPreference.preference { case .indifferent: taskEL = self.pool.associatedEventLoop(for: ConnectionPool.Key(request)) ?? self.eventLoopGroup.next() 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? = self.stateLock.withLock { switch state { case .upAndRunning: return nil case .shuttingDown, .shutDown: logger.debug("client is shutting down, failing request") return Task.failedTask(eventLoop: taskEL, error: HTTPClientError.alreadyShutdown, logger: logger) } } if let failedTask = failedTask { return failedTask } let redirectHandler: RedirectHandler? switch self.configuration.redirectConfiguration.configuration { case .follow(let max, let allowCycles): var request = request if request.redirectState == nil { request.redirectState = .init(count: max, visited: allowCycles ? nil : Set()) } redirectHandler = RedirectHandler(request: request) { newRequest in self.execute(request: newRequest, delegate: delegate, eventLoop: eventLoopPreference, deadline: deadline) } case .disallow: redirectHandler = nil } let task = Task(eventLoop: taskEL, logger: logger) let setupComplete = taskEL.makePromise(of: Void.self) let connection = self.pool.getConnection(request, preference: eventLoopPreference, taskEventLoop: taskEL, deadline: deadline, setupComplete: setupComplete.futureResult, logger: logger) let taskHandler = TaskHandler(task: task, kind: request.kind, delegate: delegate, redirectHandler: redirectHandler, ignoreUncleanSSLShutdown: self.configuration.ignoreUncleanSSLShutdown, logger: logger) connection.flatMap { connection -> EventLoopFuture in logger.debug("got connection for request", metadata: ["ahc-connection": "\(connection)", "ahc-request": "\(request.method) \(request.url)", "ahc-channel-el": "\(connection.channel.eventLoop)", "ahc-task-el": "\(taskEL)"]) let channel = connection.channel func prepareChannelForTask0() -> EventLoopFuture { do { let syncPipelineOperations = channel.pipeline.syncOperations if let timeout = self.resolve(timeout: self.configuration.timeout.read, deadline: deadline) { try syncPipelineOperations.addHandler(IdleStateHandler(readTimeout: timeout)) } try syncPipelineOperations.addHandler(taskHandler) } catch { connection.release(closing: true, logger: logger) return channel.eventLoop.makeFailedFuture(error) } task.setConnection(connection) let isCancelled = task.lock.withLock { task.cancelled } if !isCancelled { return channel.writeAndFlush(request).flatMapError { _ in // At this point the `TaskHandler` will already be present // to handle the failure and pass it to the `promise` channel.eventLoop.makeSucceededVoidFuture() } } else { return channel.eventLoop.makeSucceededVoidFuture() } } if channel.eventLoop.inEventLoop { return prepareChannelForTask0() } else { return channel.eventLoop.flatSubmit { return prepareChannelForTask0() } } }.always { _ in setupComplete.succeed(()) }.whenFailure { error in taskHandler.callOutToDelegateFireAndForget { task in delegate.didReceiveError(task: task, error) } task.promise.fail(error) } return task } private func resolve(timeout: TimeAmount?, deadline: NIODeadline?) -> TimeAmount? { switch (timeout, deadline) { case (.some(let timeout), .some(let deadline)): return min(timeout, deadline - .now()) case (.some(let timeout), .none): return timeout case (.none, .some(let deadline)): return deadline - .now() case (.none, .none): return nil } } static func resolveAddress(host: String, port: Int, proxy: Configuration.Proxy?) -> (host: String, port: Int) { switch proxy { case .none: return (host, port) case .some(let proxy): return (proxy.host, proxy.port) } } /// `HTTPClient` configuration. public struct Configuration { /// TLS configuration, defaults to `TLSConfiguration.makeClientConfiguration()`. public var tlsConfiguration: Optional /// Enables following 3xx redirects automatically, defaults to `RedirectConfiguration()`. /// /// 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 `read` timeout and 10 seconds `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`. public var ignoreUncleanSSLShutdown: Bool 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.ignoreUncleanSSLShutdown = ignoreUncleanSSLShutdown self.decompression = decompression } 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(), 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(), 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 ) } } /// 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) /// `EventLoopGroup` will be created by the client. When `syncShutdown` is called, created `EventLoopGroup` will be shut down as well. case createNew } /// Specifies how the library will treat 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 { return 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 { return EventLoopPreference(.delegateAndChannel(on: eventLoop)) } var bestEventLoop: EventLoop? { switch self.preference { case .delegate(on: let el): return el case .delegateAndChannel(on: let el): return el case .testOnly_exact(channelOn: let el, delegateOn: _): return el case .indifferent: return nil } } } /// Specifies decompression settings. public enum Decompression { /// Decompression is disabled. case disabled /// Decompression is enabled. case enabled(limit: NIOHTTPDecompression.DecompressionLimit) } enum State { case upAndRunning case shuttingDown case shutDown } } extension HTTPClient.Configuration { /// Timeout configuration. public struct Timeout { /// Specifies connect timeout. public var connect: TimeAmount? /// Specifies read timeout. public var read: 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. See `var connectionCreationTimeout` /// - read: `read` timeout. public init(connect: TimeAmount? = nil, read: TimeAmount? = nil) { self.connect = connect self.read = read } } /// Specifies redirect processing settings. public struct RedirectConfiguration { enum Configuration { /// Redirects are not followed. case disallow /// Redirects are followed with a specified limit. case follow(max: Int, allowCycles: Bool) } var configuration: Configuration init() { self.configuration = .follow(max: 5, allowCycles: false) } init(configuration: Configuration) { self.configuration = 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 { return .init(configuration: .follow(max: max, allowCycles: allowCycles)) } } /// Connection pool configuration. public struct ConnectionPool: Hashable { // Specifies amount of time connections are kept idle in the pool. public var idleTimeout: TimeAmount public init(idleTimeout: TimeAmount = .seconds(60)) { self.idleTimeout = idleTimeout } } } /// 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 remoteConnectionClosed case cancelled case identityCodingIncorrectlyPresent case chunkedSpecifiedMultipleTimes case invalidProxyResponse case contentLengthMissing case proxyAuthenticationRequired case redirectLimitReached case redirectCycleDetected case uncleanShutdown case traceRequestWithBody case invalidHeaderFieldNames([String]) case bodyLengthMismatch case writeAfterRequestSent case incompatibleHeaders case connectTimeout case socksHandshakeTimeout case httpProxyHandshakeTimeout case tlsHandshakeTimeout case serverOfferedUnsupportedApplicationProtocol(String) case requestStreamCancelled case getConnectionFromPoolTimeout } private var code: Code private init(code: Code) { self.code = code } public var description: String { return "HTTPClientError.\(String(describing: self.code))" } /// 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 { return HTTPClientError(code: .unsupportedScheme(scheme)) } /// Request timed out. public static let readTimeout = HTTPClientError(code: .readTimeout) /// 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. 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 { return HTTPClientError(code: .invalidHeaderFieldNames(names)) } /// 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`. 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 { return HTTPClientError(code: .serverOfferedUnsupportedApplicationProtocol(proto)) } /// 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) }