226 lines
7.2 KiB
C++
226 lines
7.2 KiB
C++
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#include "AsyncHttpClient.h"
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namespace hv {
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int AsyncHttpClient::send(const HttpRequestPtr& req, HttpResponseCallback resp_cb) {
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hloop_t* loop = EventLoopThread::hloop();
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if (loop == NULL) return -1;
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auto task = std::make_shared<HttpClientTask>();
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task->req = req;
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task->cb = std::move(resp_cb);
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task->start_time = hloop_now_hrtime(loop);
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if (req->retry_count > 0 && req->retry_delay > 0) {
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req->retry_count = MIN(req->retry_count, req->timeout * 1000 / req->retry_delay - 1);
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}
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return send(task);
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}
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// createsocket => startConnect =>
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// onconnect => sendRequest => startRead =>
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// onread => HttpParser => resp_cb
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int AsyncHttpClient::doTask(const HttpClientTaskPtr& task) {
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const HttpRequestPtr& req = task->req;
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if (req->cancel) {
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return -1;
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}
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// queueInLoop timeout?
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uint64_t now_hrtime = hloop_now_hrtime(EventLoopThread::hloop());
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int elapsed_ms = (now_hrtime - task->start_time) / 1000;
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int timeout_ms = req->timeout * 1000;
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if (timeout_ms > 0 && elapsed_ms >= timeout_ms) {
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hlogw("%s queueInLoop timeout!", req->url.c_str());
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return -10;
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}
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req->ParseUrl();
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sockaddr_u peeraddr;
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memset(&peeraddr, 0, sizeof(peeraddr));
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const char* host = req->host.c_str();
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int ret = sockaddr_set_ipport(&peeraddr, host, req->port);
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if (ret != 0) {
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hloge("unknown host %s", host);
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return -20;
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}
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int connfd = -1;
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// first get from conn_pools
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char strAddr[SOCKADDR_STRLEN] = {0};
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SOCKADDR_STR(&peeraddr, strAddr);
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auto iter = conn_pools.find(strAddr);
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if (iter != conn_pools.end()) {
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// hlogd("get from conn_pools");
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iter->second.get(connfd);
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}
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if (connfd < 0) {
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// create socket
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connfd = socket(peeraddr.sa.sa_family, SOCK_STREAM, 0);
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if (connfd < 0) {
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perror("socket");
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return -30;
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}
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hio_t* connio = hio_get(EventLoopThread::hloop(), connfd);
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assert(connio != NULL);
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hio_set_peeraddr(connio, &peeraddr.sa, sockaddr_len(&peeraddr));
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addChannel(connio);
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// https
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if (req->IsHttps() && !req->IsProxy()) {
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hio_enable_ssl(connio);
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if (!is_ipaddr(host)) {
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hio_set_hostname(connio, host);
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}
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}
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}
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const SocketChannelPtr& channel = getChannel(connfd);
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assert(channel != NULL);
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HttpClientContext* ctx = channel->getContext<HttpClientContext>();
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ctx->task = task;
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channel->onconnect = [&channel]() {
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sendRequest(channel);
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};
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channel->onread = [this, &channel](Buffer* buf) {
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HttpClientContext* ctx = channel->getContext<HttpClientContext>();
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if (ctx->task == NULL) return;
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if (ctx->task->req->cancel) {
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channel->close();
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return;
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}
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const char* data = (const char*)buf->data();
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int len = buf->size();
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int nparse = ctx->parser->FeedRecvData(data, len);
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if (nparse != len) {
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ctx->errorCallback();
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channel->close();
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return;
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}
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if (ctx->parser->IsComplete()) {
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auto& req = ctx->task->req;
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auto& resp = ctx->resp;
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bool keepalive = req->IsKeepAlive() && resp->IsKeepAlive();
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if (req->redirect && HTTP_STATUS_IS_REDIRECT(resp->status_code)) {
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std::string location = resp->headers["Location"];
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if (!location.empty()) {
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hlogi("redirect %s => %s", req->url.c_str(), location.c_str());
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req->url = location;
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req->ParseUrl();
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req->headers["Host"] = req->host;
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resp->Reset();
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send(ctx->task);
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// NOTE: detatch from original channel->context
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ctx->cancelTask();
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}
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} else {
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ctx->successCallback();
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}
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if (keepalive) {
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// NOTE: add into conn_pools to reuse
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// hlogd("add into conn_pools");
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conn_pools[channel->peeraddr()].add(channel->fd());
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} else {
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channel->close();
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}
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}
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};
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channel->onclose = [this, &channel]() {
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HttpClientContext* ctx = channel->getContext<HttpClientContext>();
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// NOTE: remove from conn_pools
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// hlogd("remove from conn_pools");
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auto iter = conn_pools.find(channel->peeraddr());
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if (iter != conn_pools.end()) {
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iter->second.remove(channel->fd());
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}
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const HttpClientTaskPtr& task = ctx->task;
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if (task) {
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if (ctx->parser &&
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ctx->parser->IsEof()) {
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ctx->successCallback();
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}
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else if (task->req &&
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task->req->cancel == 0 &&
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task->req->retry_count-- > 0) {
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if (task->req->retry_delay > 0) {
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// try again after delay
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setTimeout(task->req->retry_delay, [this, task](TimerID timerID){
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hlogi("retry %s %s", http_method_str(task->req->method), task->req->url.c_str());
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sendInLoop(task);
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});
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} else {
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send(task);
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}
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}
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else {
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ctx->errorCallback();
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}
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}
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removeChannel(channel);
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};
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// timer
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if (timeout_ms > 0) {
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ctx->timerID = setTimeout(timeout_ms - elapsed_ms, [&channel](TimerID timerID){
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HttpClientContext* ctx = channel->getContext<HttpClientContext>();
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if (ctx && ctx->task) {
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hlogw("%s timeout!", ctx->task->req->url.c_str());
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}
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if (channel) {
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channel->close();
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}
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});
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}
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if (channel->isConnected()) {
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// sendRequest
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sendRequest(channel);
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} else {
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// startConnect
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if (req->connect_timeout > 0) {
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channel->setConnectTimeout(req->connect_timeout * 1000);
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}
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channel->startConnect();
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}
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return 0;
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}
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// InitResponse => SubmitRequest => while(GetSendData) write => startRead
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int AsyncHttpClient::sendRequest(const SocketChannelPtr& channel) {
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HttpClientContext* ctx = (HttpClientContext*)channel->context();
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assert(ctx != NULL && ctx->task != NULL);
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if (ctx->resp == NULL) {
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ctx->resp = std::make_shared<HttpResponse>();
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}
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HttpRequest* req = ctx->task->req.get();
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HttpResponse* resp = ctx->resp.get();
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assert(req != NULL && resp != NULL);
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if (req->http_cb) resp->http_cb = std::move(req->http_cb);
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if (ctx->parser == NULL) {
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ctx->parser.reset(HttpParser::New(HTTP_CLIENT, (http_version)req->http_major));
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}
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ctx->parser->InitResponse(resp);
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ctx->parser->SubmitRequest(req);
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char* data = NULL;
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size_t len = 0;
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while (ctx->parser->GetSendData(&data, &len)) {
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if (req->cancel) {
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channel->close();
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return -1;
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}
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// NOTE: ensure write buffer size is enough
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if (len > (1 << 22) /* 4M */) {
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channel->setMaxWriteBufsize(len);
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}
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channel->write(data, len);
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}
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channel->startRead();
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return 0;
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}
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}
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