#include #include #include "workflow/Workflow.h" #include "workflow/WFTaskFactory.h" #include "workflow/WFFacilities.h" #include "message.h" using WFTutorialTask = WFNetworkTask; using tutorial_callback_t = std::function; using namespace protocol; class MyFactory : public WFTaskFactory { public: static WFTutorialTask *create_tutorial_task(const std::string& host, unsigned short port, int retry_max, tutorial_callback_t callback) { using NTF = WFNetworkTaskFactory; WFTutorialTask *task = NTF::create_client_task(TT_TCP, host, port, retry_max, std::move(callback)); task->set_keep_alive(30 * 1000); return task; } }; int main(int argc, char *argv[]) { unsigned short port; std::string host; if (argc != 3) { fprintf(stderr, "USAGE: %s \n", argv[0]); exit(1); } host = argv[1]; port = atoi(argv[2]); auto&& create = [host, port](WFRepeaterTask *)->SubTask *{ char buf[1024]; printf("Input next request string (Ctrl-D to exit): "); *buf = '\0'; scanf("%1023s", buf); size_t body_size = strlen(buf); if (body_size == 0) { printf("\n"); return NULL; } WFTutorialTask *task = MyFactory::create_tutorial_task(host, port, 0, [](WFTutorialTask *task) { int state = task->get_state(); int error = task->get_error(); TutorialResponse *resp = task->get_resp(); void *body; size_t body_size; if (state == WFT_STATE_SUCCESS) { resp->get_message_body_nocopy(&body, &body_size); printf("Server Response: %.*s\n", (int)body_size, (char *)body); } else { const char *str = WFGlobal::get_error_string(state, error); fprintf(stderr, "Error: %s\n", str); } }); task->get_req()->set_message_body(buf, body_size); task->get_resp()->set_size_limit(4 * 1024); return task; }; WFFacilities::WaitGroup wait_group(1); WFRepeaterTask *repeater; repeater = WFTaskFactory::create_repeater_task(std::move(create), nullptr); Workflow::start_series_work(repeater, [&wait_group](const SeriesWork *) { wait_group.done(); }); wait_group.wait(); return 0; }