Adds a LengthFieldPrepender class to prepend the length onto a message.

This class is a type of byte to message encoder. Motivation: To encode a prepended length field on data so that messages of arbitrary size can be sent. Can work as a pair with the ‘LengthFieldBasedFrameDecoder’. Modifications: Added ‘LengthFieldPrepender’ Added unit tests for ‘LengthFieldPrepender’ in ‘LengthFieldPrependerTest’ Updated the linux text files by running the script. Result: The length can now be easily prepended to any message.
2025-05-21 21:09:34 +08:00 · 2018-11-30 11:59:26 +00:00 · 2018-11-30 11:59:26 +00:00 · c6eae19fc7
commit c6eae19fc7
parent a9aafde504
4 changed files with 451 additions and 0 deletions
--- a/Sources/NIOExtras/LengthFieldPrepender.swift
+++ b/Sources/NIOExtras/LengthFieldPrepender.swift
@ -0,0 +1,97 @@
 //===----------------------------------------------------------------------===//
 //
 // This source file is part of the SwiftNIO open source project
 //
 // Copyright (c) 2017-2018 Apple Inc. and the SwiftNIO project authors
 // Licensed under Apache License v2.0
 //
 // See LICENSE.txt for license information
 // See CONTRIBUTORS.txt for the list of SwiftNIO project authors
 //
 // SPDX-License-Identifier: Apache-2.0
 //
 //===----------------------------------------------------------------------===//
 import NIO
 ///
 /// An encoder that takes a `ByteBuffer` message and prepends the number of bytes in the message.
 /// The length field is always the same fixed length specified on construction.
 /// These bytes contain a binary specification of the message size.
 /// For example, if you received a packet with a 3 byte length:
 ///     +---+-----+
 ///     | A | BCD | ('A' contains 0x0003)
 ///     +---+-----+
 ///
 /// Given that the specified header length is 1 byte, there would be a byte appended which contains the number 3
 /// This initial appended byte is called the 'length field'.
 ///
 public final class LengthFieldPrepender: MessageToByteEncoder {
    ///
    /// An enumeration to describe the length of a piece of data in bytes.
    /// It is contained to lengths that can be converted to integer types.
    ///
    public enum ByteLength {
        case one
        case two
        case four
        case eight
        fileprivate var length: Int {
            switch self {
            case .one:
                return 1
            case .two:
                return 2
            case .four:
                return 4
            case .eight:
                return 8
            }
        }
    }
    public typealias OutboundIn = ByteBuffer
    public typealias OutbondOut = ByteBuffer
    private let lengthFieldLength: ByteLength
    private let lengthFieldEndianness: Endianness
    /// Create `LengthFieldPrepender` with a given length field length.
    ///
    /// - parameters:
    ///    - lengthFieldLength: The length of the field specifying the remaining length of the frame.
    ///    - lengthFieldEndianness: The endianness of the field specifying the remaining length of the frame.
    ///
    public init(lengthFieldLength: ByteLength, lengthFieldEndianness: Endianness = .big) {
        // The value contained in the length field must be able to be represented by an integer type on the platform.
        // ie. .eight == 64bit which would not fit into the Int type on a 32bit platform.
        precondition(lengthFieldLength.length <= Int.bitWidth/8)
        self.lengthFieldLength = lengthFieldLength
        self.lengthFieldEndianness = lengthFieldEndianness
    }
    public func allocateOutBuffer(ctx: ChannelHandlerContext, data: OutboundIn) throws -> ByteBuffer {
        return ctx.channel.allocator.buffer(capacity: self.lengthFieldLength.length + data.readableBytes)
    }
    public func encode(ctx: ChannelHandlerContext, data: OutboundIn, out: inout ByteBuffer) throws {
        switch self.lengthFieldLength {
        case .one:
            out.write(integer: UInt8(data.readableBytes), endianness: self.lengthFieldEndianness)
        case .two:
            out.write(integer: UInt16(data.readableBytes), endianness: self.lengthFieldEndianness)
        case .four:
            out.write(integer: UInt32(data.readableBytes), endianness: self.lengthFieldEndianness)
        case .eight:
            out.write(integer: UInt64(data.readableBytes), endianness: self.lengthFieldEndianness)
        }
        out.write(bytes: data.readableBytesView)
    }
 }
--- a/Tests/LinuxMain.swift
+++ b/Tests/LinuxMain.swift
@ -28,6 +28,7 @@ import XCTest
   XCTMain([
         testCase(FixedLengthFrameDecoderTest.allTests),
         testCase(LengthFieldBasedFrameDecoderTest.allTests),
         testCase(LengthFieldPrependerTest.allTests),
         testCase(LineBasedFrameDecoderTest.allTests),
         testCase(QuiescingHelperTest.allTests),
    ])
--- a/Tests/NIOExtrasTests/LengthFieldPrependerTest+XCTest.swift
+++ b/Tests/NIOExtrasTests/LengthFieldPrependerTest+XCTest.swift
@ -0,0 +1,41 @@
 //===----------------------------------------------------------------------===//
 //
 // This source file is part of the SwiftNIO open source project
 //
 // Copyright (c) 2017-2018 Apple Inc. and the SwiftNIO project authors
 // Licensed under Apache License v2.0
 //
 // See LICENSE.txt for license information
 // See CONTRIBUTORS.txt for the list of SwiftNIO project authors
 //
 // SPDX-License-Identifier: Apache-2.0
 //
 //===----------------------------------------------------------------------===//
 //
 // LengthFieldPrependerTest+XCTest.swift
 //
 import XCTest
 ///
 /// NOTE: This file was generated by generate_linux_tests.rb
 ///
 /// Do NOT edit this file directly as it will be regenerated automatically when needed.
 ///
 extension LengthFieldPrependerTest {
   static var allTests : [(String, (LengthFieldPrependerTest) -> () throws -> Void)] {
      return [
                ("testEncodeWithUInt8HeaderWithData", testEncodeWithUInt8HeaderWithData),
                ("testEncodeWithUInt16HeaderWithString", testEncodeWithUInt16HeaderWithString),
                ("testEncodeWithUInt32HeaderWithString", testEncodeWithUInt32HeaderWithString),
                ("testEncodeWithUInt64HeaderWithString", testEncodeWithUInt64HeaderWithString),
                ("testEncodeWithInt64HeaderWithString", testEncodeWithInt64HeaderWithString),
                ("testEncodeWithUInt64HeaderStringBigEndian", testEncodeWithUInt64HeaderStringBigEndian),
                ("testEncodeWithInt64HeaderStringDefaultingToBigEndian", testEncodeWithInt64HeaderStringDefaultingToBigEndian),
                ("testEmptyBuffer", testEmptyBuffer),
                ("testTooLargeFor256DefaultBuffer", testTooLargeFor256DefaultBuffer),
           ]
   }
 }
--- a/Tests/NIOExtrasTests/LengthFieldPrependerTest.swift
+++ b/Tests/NIOExtrasTests/LengthFieldPrependerTest.swift
@ -0,0 +1,312 @@
 //===----------------------------------------------------------------------===//
 //
 // This source file is part of the SwiftNIO open source project
 //
 // Copyright (c) 2017-2018 Apple Inc. and the SwiftNIO project authors
 // Licensed under Apache License v2.0
 //
 // See LICENSE.txt for license information
 // See CONTRIBUTORS.txt for the list of SwiftNIO project authors
 //
 // SPDX-License-Identifier: Apache-2.0
 //
 //===----------------------------------------------------------------------===//
 import XCTest
 import NIO
 import NIOExtras
 private let standardDataString = "abcde"
 class LengthFieldPrependerTest: XCTestCase {
    private var channel: EmbeddedChannel!
    private var encoderUnderTest: LengthFieldPrepender!
    override func setUp() {
        self.channel = EmbeddedChannel()
    }
    func testEncodeWithUInt8HeaderWithData() throws {
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .one,
                                                     lengthFieldEndianness: .little)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        let dataBytes: [UInt8] = [10, 20, 30, 40]
        let extepectedData: [UInt8] = [UInt8(dataBytes.count)] + dataBytes
        var buffer = self.channel.allocator.buffer(capacity: dataBytes.count)
        buffer.write(bytes: dataBytes)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let outputData = outputBuffer.readBytes(length: outputBuffer.readableBytes)
            XCTAssertEqual(extepectedData,  outputData)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
    func testEncodeWithUInt16HeaderWithString() throws {
        let endianness: Endianness = .little
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .two,
                                                     lengthFieldEndianness: endianness)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        var buffer = self.channel.allocator.buffer(capacity: standardDataString.count)
        buffer.write(string: standardDataString)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let sizeInHeader = outputBuffer.readInteger(endianness: endianness, as: UInt16.self).map({ Int($0) })
            XCTAssertEqual(standardDataString.count, sizeInHeader)
            let bodyString = outputBuffer.readString(length: standardDataString.count)
            XCTAssertEqual(standardDataString, bodyString)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
    func testEncodeWithUInt32HeaderWithString() throws {
        let endianness: Endianness = .little
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .four,
                                                     lengthFieldEndianness: endianness)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        var buffer = self.channel.allocator.buffer(capacity: standardDataString.count)
        buffer.write(string: standardDataString)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let sizeInHeader = outputBuffer.readInteger(endianness: endianness, as: UInt32.self).map({ Int($0) })
            XCTAssertEqual(standardDataString.count, sizeInHeader)
            let bodyString = outputBuffer.readString(length: standardDataString.count)
            XCTAssertEqual(standardDataString, bodyString)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
    func testEncodeWithUInt64HeaderWithString() throws {
        let endianness: Endianness = .little
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .eight,
                                                     lengthFieldEndianness: endianness)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        var buffer = self.channel.allocator.buffer(capacity: standardDataString.count)
        buffer.write(string: standardDataString)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let sizeInHeader = outputBuffer.readInteger(endianness: endianness, as: UInt64.self).map({ Int($0) })
            XCTAssertEqual(standardDataString.count, sizeInHeader)
            let bodyString = outputBuffer.readString(length: standardDataString.count)
            XCTAssertEqual(standardDataString, bodyString)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
    func testEncodeWithInt64HeaderWithString() throws {
        let endianness: Endianness = .little
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .eight,
                                                     lengthFieldEndianness: endianness)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        var buffer = self.channel.allocator.buffer(capacity: standardDataString.count)
        buffer.write(string: standardDataString)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let sizeInHeader = outputBuffer.readInteger(endianness: endianness, as: Int64.self).map({ Int($0) })
            XCTAssertEqual(standardDataString.count, sizeInHeader)
            let bodyString = outputBuffer.readString(length: standardDataString.count)
            XCTAssertEqual(standardDataString, bodyString)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
    func testEncodeWithUInt64HeaderStringBigEndian() throws {
        let endianness: Endianness = .big
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .eight,
                                                     lengthFieldEndianness: endianness)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        var buffer = self.channel.allocator.buffer(capacity: standardDataString.count)
        buffer.write(string: standardDataString)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let sizeInHeader = outputBuffer.readInteger(endianness: endianness, as: UInt64.self).map({ Int($0) })
            XCTAssertEqual(standardDataString.count, sizeInHeader)
            let bodyString = outputBuffer.readString(length: standardDataString.count)
            XCTAssertEqual(standardDataString, bodyString)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
    func testEncodeWithInt64HeaderStringDefaultingToBigEndian() throws {
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .eight)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        var buffer = self.channel.allocator.buffer(capacity: standardDataString.count)
        buffer.write(string: standardDataString)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let sizeInHeader = outputBuffer.readInteger(endianness: .big, as: UInt64.self).map({ Int($0) })
            XCTAssertEqual(standardDataString.count, sizeInHeader)
            let bodyString = outputBuffer.readString(length: standardDataString.count)
            XCTAssertEqual(standardDataString, bodyString)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
    func testEmptyBuffer() throws {
        let endianness: Endianness = .little
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .eight,
                                                     lengthFieldEndianness: endianness)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        let buffer = self.channel.allocator.buffer(capacity: 0)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let sizeInHeader = outputBuffer.readInteger(endianness: endianness, as: UInt64.self).map({ Int($0) })
            XCTAssertEqual(0, sizeInHeader)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
    func testTooLargeFor256DefaultBuffer() throws {
        // Default implementation of 'MessageToByteEncoder' allocates a `ByteBuffer` with capacity of `256`
        let endianness: Endianness = .little
        self.encoderUnderTest = LengthFieldPrepender(lengthFieldLength: .eight,
                                                     lengthFieldEndianness: endianness)
        try? self.channel.pipeline.add(handler: self.encoderUnderTest).wait()
        let contents = Array<UInt8>(repeating: 200, count: 256)
        var buffer = self.channel.allocator.buffer(capacity: contents.count)
        buffer.write(bytes: contents)
        try self.channel.writeAndFlush(buffer).wait()
        if case .some(.byteBuffer(var outputBuffer)) = self.channel.readOutbound() {
            let sizeInHeader = outputBuffer.readInteger(endianness: endianness, as: UInt64.self).map({ Int($0) })
            XCTAssertEqual(contents.count, sizeInHeader)
            let bodyData = outputBuffer.readBytes(length: contents.count)
            XCTAssertEqual(contents, bodyData)
            let additionalData = outputBuffer.readBytes(length: 1)
            XCTAssertNil(additionalData)
        } else {
            XCTFail("couldn't read ByteBuffer from channel")
        }
        XCTAssertFalse(try self.channel.finish())
    }
 }