HttpClientJvmEngine

abstract class HttpClientJvmEngine : HttpClientEngine

Deprecated: Use HttpClientEngineBase instead.

Base jvm implementation for HttpClientEngine

Constructors

<init>

HttpClientJvmEngine(engineName: String)

Base jvm implementation for HttpClientEngine

Properties

coroutineContext

open val coroutineContext: <ERROR CLASS>

dispatcher

open val dispatcher: CoroutineDispatcher

CoroutineDispatcher specified for io operations.

Inherited Properties

config

abstract val config: HttpClientEngineConfig

Engine configuration

Functions

close

open fun close(): Unit

createCallContext

suspend fun createCallContext(): <ERROR CLASS>

Create CoroutineContext to execute call.

Inherited Functions

execute

abstract suspend fun execute(
    data: HttpRequestData
): HttpResponseData

Creates a new HttpClientCall specific for this engine, using a request data.

install

open fun install(client: HttpClient): Unit

Install engine into HttpClient.

Extension Functions

decodeChunked

fun CoroutineScope.decodeChunked(
    input: ByteReadChannel
): DecoderJob
fun CoroutineScope.decodeChunked(
    input: ByteReadChannel,
    contentLength: Long
): DecoderJob

Start a chunked stream decoder coroutine

embeddedServer

fun <TEngine : ApplicationEngine, TConfiguration : Configuration> CoroutineScope.embeddedServer(
    factory: ApplicationEngineFactory<TEngine, TConfiguration>,
    port: Int = 80,
    host: String = "0.0.0.0",
    watchPaths: List<String> = emptyList(),
    parentCoroutineContext: <ERROR CLASS> = EmptyCoroutineContext,
    configure: TConfiguration.() -> Unit = {},
    module: Application.() -> Unit
): TEngine

Creates an embedded server with the given factory, listening on host:port

httpServer

fun CoroutineScope.httpServer(
    settings: HttpServerSettings,
    handler: HttpRequestHandler
): HttpServer

Start an http server with settings invoking handler for every request

parseMultipart

fun CoroutineScope.parseMultipart(
    input: ByteReadChannel,
    headers: HttpHeadersMap
): ReceiveChannel<MultipartEvent>
fun CoroutineScope.parseMultipart(
    input: ByteReadChannel,
    contentType: CharSequence,
    contentLength: Long?
): ReceiveChannel<MultipartEvent>
fun CoroutineScope.parseMultipart(
    boundaryPrefixed: ByteBuffer,
    input: ByteReadChannel,
    totalLength: Long?
): ReceiveChannel<MultipartEvent>

Starts a multipart parser coroutine producing multipart events

pinger

fun CoroutineScope.pinger(
    outgoing: SendChannel<Frame>,
    period: Duration,
    timeout: Duration,
    pool: ObjectPool<ByteBuffer> = KtorDefaultPool
): SendChannel<Pong>

Launch pinger coroutine on CoroutineScope that is sending ping every specified period to outgoing channel, waiting for and verifying client’s pong frames. It is also handling timeout and sending timeout close frame

fun CoroutineScope.pinger(
    outgoing: SendChannel<Frame>,
    periodMillis: Long,
    timeoutMillis: Long,
    pool: ObjectPool<ByteBuffer> = KtorDefaultPool
): SendChannel<Pong>

Launch pinger coroutine on CoroutineScope that is sending ping every specified periodMillis to outgoing channel, waiting for and verifying client’s pong frames. It is also handling timeoutMillis and sending timeout close frame

pinger

fun CoroutineScope.pinger(
    outgoing: SendChannel<Frame>,
    period: <ERROR CLASS>,
    timeout: <ERROR CLASS>,
    pool: ObjectPool<ByteBuffer> = KtorDefaultPool
): SendChannel<Pong>

Launch pinger coroutine on CoroutineScope that is sending ping every specified period to outgoing channel, waiting for and verifying client’s pong frames. It is also handling timeout and sending timeout close frame

ponger

fun CoroutineScope.ponger(
    outgoing: SendChannel<Pong>,
    pool: ObjectPool<ByteBuffer> = KtorDefaultPool
): SendChannel<Ping>

Launch a ponger actor job on the CoroutineScope sending pongs to outgoing channel. It is acting for every client’s ping frame and replying with corresponding pong

reader

fun CoroutineScope.reader(
    coroutineContext: <ERROR CLASS> = EmptyCoroutineContext,
    channel: ByteChannel,
    block: suspend ReaderScope.() -> Unit
): ReaderJob
fun CoroutineScope.reader(
    coroutineContext: <ERROR CLASS> = EmptyCoroutineContext,
    autoFlush: Boolean = false,
    block: suspend ReaderScope.() -> Unit
): ReaderJob

startConnectionPipeline

fun CoroutineScope.startConnectionPipeline(
    input: ByteReadChannel,
    output: ByteWriteChannel,
    timeout: WeakTimeoutQueue,
    handler: HttpRequestHandler
): Job

Start connection HTTP pipeline invoking handler for every request. Note that handler could be invoked multiple times concurrently due to HTTP pipeline nature

writeMultipleRanges

fun CoroutineScope.writeMultipleRanges(
    channelProducer: (LongRange) -> ByteReadChannel,
    ranges: List<LongRange>,
    fullLength: Long?,
    boundary: String,
    contentType: String
): ByteReadChannel

Start multirange response writer coroutine

writer

fun CoroutineScope.writer(
    coroutineContext: <ERROR CLASS> = EmptyCoroutineContext,
    channel: ByteChannel,
    block: suspend WriterScope.() -> Unit
): WriterJob
fun CoroutineScope.writer(
    coroutineContext: <ERROR CLASS> = EmptyCoroutineContext,
    autoFlush: Boolean = false,
    block: suspend WriterScope.() -> Unit
): WriterJob