// // SocketPacket.swift // Socket.IO-Client-Swift // // Created by Erik Little on 1/18/15. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // import Foundation struct SocketPacket { enum PacketType: Int { case connect, disconnect, event, ack, error, binaryEvent, binaryAck } private let placeholders: Int private static let logType = "SocketPacket" let nsp: String let id: Int let type: PacketType var binary: [Data] var data: [AnyObject] var args: [AnyObject] { if type == .event || type == .binaryEvent && data.count != 0 { return Array(data.dropFirst()) } else { return data } } var description: String { return "SocketPacket {type: \(String(type.rawValue)); data: " + "\(String(describing: data)); id: \(id); placeholders: \(placeholders); nsp: \(nsp)}" } var event: String { return String(describing: data[0]) } var packetString: String { return createPacketString() } init(type: PacketType, data: [AnyObject] = [AnyObject](), id: Int = -1, nsp: String, placeholders: Int = 0, binary: [Data] = [Data]()) { self.data = data self.id = id self.nsp = nsp self.type = type self.placeholders = placeholders self.binary = binary } mutating func addData(_ data: Data) -> Bool { if placeholders == binary.count { return true } binary.append(data) if placeholders == binary.count { fillInPlaceholders() return true } else { return false } } private func completeMessage(_ message: String) -> String { let restOfMessage: String if data.count == 0 { return message + "[]" } do { let jsonSend = try data.toJSON() guard let jsonString = String(data: jsonSend, encoding: .utf8) else { return message + "[]" } restOfMessage = jsonString } catch { DefaultSocketLogger.Logger.error("Error creating JSON object in SocketPacket.completeMessage", type: SocketPacket.logType) restOfMessage = "[]" } return message + restOfMessage } private func createPacketString() -> String { let typeString = String(type.rawValue) // Binary count? let binaryCountString = typeString + (type == .binaryEvent || type == .binaryAck ? String(binary.count) + "-" : "") // Namespace? let nspString = binaryCountString + (nsp != "/" ? nsp + "," : "") // Ack number? let idString = nspString + (id != -1 ? String(id) : "") return completeMessage(idString) } // Called when we have all the binary data for a packet // calls _fillInPlaceholders, which replaces placeholders with the // corresponding binary private mutating func fillInPlaceholders() { data = data.map(_fillInPlaceholders) } // Helper method that looks for placeholders // If object is a collection it will recurse // Returns the object if it is not a placeholder or the corresponding // binary data private func _fillInPlaceholders(_ object: AnyObject) -> AnyObject { switch object { case let dict as NSDictionary: if dict["_placeholder"] as? Bool ?? false { return binary[dict["num"] as! Int] as AnyObject } else { return dict.reduce(NSMutableDictionary(), {cur, keyValue in cur[keyValue.0 as! NSCopying] = _fillInPlaceholders(keyValue.1 as AnyObject) return cur }) } case let arr as [AnyObject]: return arr.map(_fillInPlaceholders) as AnyObject default: return object } } } extension SocketPacket { private static func findType(_ binCount: Int, ack: Bool) -> PacketType { switch binCount { case 0 where !ack: return .event case 0 where ack: return .ack case _ where !ack: return .binaryEvent case _ where ack: return .binaryAck default: return .error } } static func packetFromEmit(_ items: [AnyObject], id: Int, nsp: String, ack: Bool) -> SocketPacket { let (parsedData, binary) = deconstructData(items) let packet = SocketPacket(type: findType(binary.count, ack: ack), data: parsedData, id: id, nsp: nsp, binary: binary) return packet } } private extension SocketPacket { // Recursive function that looks for NSData in collections static func shred(_ data: AnyObject, binary: inout [Data]) -> AnyObject { let placeholder = ["_placeholder": true, "num": binary.count as AnyObject] as [String : Any] switch data { case let bin as Data: binary.append(bin) return placeholder as AnyObject case let arr as [AnyObject]: return arr.map({shred($0, binary: &binary)}) as AnyObject case let dict as NSDictionary: return dict.reduce(NSMutableDictionary(), {cur, keyValue in cur[keyValue.0 as! NSCopying] = shred(keyValue.1 as AnyObject, binary: &binary) return cur }) default: return data } } // Removes binary data from emit data // Returns a type containing the de-binaryed data and the binary static func deconstructData(_ data: [AnyObject]) -> ([AnyObject], [Data]) { var binary = [Data]() return (data.map({shred($0, binary: &binary)}), binary) } }