AsyncHttpClient IOExceptionFilter异常过滤器
作者:codecraft
序
本文主要研究一下AsyncHttpClient的IOExceptionFilter
IOExceptionFilter
org/asynchttpclient/filter/IOExceptionFilter.java
/** * This filter is invoked when an {@link java.io.IOException} occurs during an http transaction. */ public interface IOExceptionFilter { /** * An {@link org.asynchttpclient.AsyncHttpClient} will invoke {@link IOExceptionFilter#filter} and will * use the returned {@link FilterContext} to replay the {@link org.asynchttpclient.Request} or abort the processing. * * @param ctx a {@link FilterContext} * @param <T> the handler result type * @return {@link FilterContext}. The {@link FilterContext} instance may not the same as the original one. * @throws FilterException to interrupt the filter processing. */ <T> FilterContext<T> filter(FilterContext<T> ctx) throws FilterException; }
IOExceptionFilter接口定义了filter方法,在捕获到IOException的时候执行
ResumableIOExceptionFilter
org/asynchttpclient/handler/resumable/ResumableIOExceptionFilter.java
/** * Simple {@link org.asynchttpclient.filter.IOExceptionFilter} that replay the current {@link org.asynchttpclient.Request} using a {@link ResumableAsyncHandler} */ public class ResumableIOExceptionFilter implements IOExceptionFilter { public <T> FilterContext<T> filter(FilterContext<T> ctx) { if (ctx.getIOException() != null && ctx.getAsyncHandler() instanceof ResumableAsyncHandler) { Request request = ResumableAsyncHandler.class.cast(ctx.getAsyncHandler()).adjustRequestRange(ctx.getRequest()); return new FilterContext.FilterContextBuilder<>(ctx).request(request).replayRequest(true).build(); } return ctx; } }
ResumableIOExceptionFilter实现了IOExceptionFilter接口,它在asyncHandler是ResumableAsyncHandler类型的时候执行adjustRequestRange方法获取新的request,然后再通过new FilterContext.FilterContextBuilder<>(ctx).request(request).replayRequest(true).build()返回
ResumableAsyncHandler
org/asynchttpclient/handler/resumable/ResumableAsyncHandler.java
/** * Invoke this API if you want to set the Range header on your {@link Request} based on the last valid bytes * position. * * @param request {@link Request} * @return a {@link Request} with the Range header properly set. */ public Request adjustRequestRange(Request request) { Long ri = resumableIndex.get(request.getUrl()); if (ri != null) { byteTransferred.set(ri); } // The Resumable if (resumableListener != null && resumableListener.length() > 0 && byteTransferred.get() != resumableListener.length()) { byteTransferred.set(resumableListener.length()); } RequestBuilder builder = new RequestBuilder(request); if (request.getHeaders().get(RANGE) == null && byteTransferred.get() != 0) { builder.setHeader(RANGE, "bytes=" + byteTransferred.get() + "-"); } return builder.build(); }
adjustRequestRange方法在byteTransferred不等于resumableListener.length()的时候会重置byteTransferred,对于有range的header则重置其bytes参数值
ResponseFiltersInterceptor
org/asynchttpclient/netty/handler/intercept/ResponseFiltersInterceptor.java
public boolean exitAfterProcessingFilters(Channel channel, NettyResponseFuture<?> future, AsyncHandler<?> handler, HttpResponseStatus status, HttpHeaders responseHeaders) { FilterContext fc = new FilterContext.FilterContextBuilder().asyncHandler(handler).request(future.getCurrentRequest()).responseStatus(status) .responseHeaders(responseHeaders).build(); for (ResponseFilter asyncFilter : config.getResponseFilters()) { try { fc = asyncFilter.filter(fc); // FIXME Is it worth protecting against this? assertNotNull("fc", "filterContext"); } catch (FilterException efe) { requestSender.abort(channel, future, efe); } } // The handler may have been wrapped. future.setAsyncHandler(fc.getAsyncHandler()); // The request has changed if (fc.replayRequest()) { requestSender.replayRequest(future, fc, channel); return true; } return false; }
ResponseFiltersInterceptor的exitAfterProcessingFilters方法,对于fc.replayRequest()为true则执行requestSender.replayRequest(future, fc, channel)
replayRequest
org/asynchttpclient/netty/request/NettyRequestSender.java
public void replayRequest(final NettyResponseFuture<?> future, FilterContext fc, Channel channel) { Request newRequest = fc.getRequest(); future.setAsyncHandler(fc.getAsyncHandler()); future.setChannelState(ChannelState.NEW); future.touch(); LOGGER.debug("\n\nReplaying Request {}\n for Future {}\n", newRequest, future); try { future.getAsyncHandler().onRetry(); } catch (Exception e) { LOGGER.error("onRetry crashed", e); abort(channel, future, e); return; } channelManager.drainChannelAndOffer(channel, future); sendNextRequest(newRequest, future); }
NettyRequestSender的replayRequest方法会触发future.getAsyncHandler().onRetry()回调,然后执行channelManager.drainChannelAndOffer(channel, future)及sendNextRequest
applyIoExceptionFiltersAndReplayRequest
org/asynchttpclient/netty/request/NettyRequestSender.java
public boolean applyIoExceptionFiltersAndReplayRequest(NettyResponseFuture<?> future, IOException e, Channel channel) { boolean replayed = false; @SuppressWarnings({"unchecked", "rawtypes"}) FilterContext<?> fc = new FilterContext.FilterContextBuilder().asyncHandler(future.getAsyncHandler()) .request(future.getCurrentRequest()).ioException(e).build(); for (IOExceptionFilter asyncFilter : config.getIoExceptionFilters()) { try { fc = asyncFilter.filter(fc); assertNotNull(fc, "filterContext"); } catch (FilterException efe) { abort(channel, future, efe); } } if (fc.replayRequest() && future.incrementRetryAndCheck() && future.isReplayPossible()) { future.setKeepAlive(false); replayRequest(future, fc, channel); replayed = true; } return replayed; }
NettyRequestSender的applyIoExceptionFiltersAndReplayRequest方法会遍历config.getIoExceptionFilters(),然后挨个执行fc = asyncFilter.filter(fc)
小结
AsyncHttpClient的IOExceptionFilter接口定义了filter方法,在捕获到IOException的时候执行;
ResumableIOExceptionFilter实现了IOExceptionFilter接口,它在asyncHandler是ResumableAsyncHandler类型的时候执行adjustRequestRange方法获取新的request,然后再通过new FilterContext.FilterContextBuilder<>(ctx).request(request).replayRequest(true).build()返回;
NettyRequestSender的replayRequest方法会触发future.getAsyncHandler().onRetry()回调,然后执行channelManager.drainChannelAndOffer(channel, future)及sendNextRequest。
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