#include #include #include #include #include #include #include #include #include #include #include struct http_plugin __g_http_plugin; struct http_plugin * g_http_plugin = &__g_http_plugin; int http_plugin_init(struct tfe_proxy * proxy) { return 0; } void http_plugin_deinit(struct tfe_proxy * proxy) { return; } int http_connection_entry_open(const struct tfe_stream * stream, unsigned int thread_id, enum tfe_conn_dir dir, void ** pme) { struct http_connection_private * ht_conn = ALLOC(struct http_connection_private, 1); TAILQ_INIT(&ht_conn->hs_private_list); ht_conn->stream = stream; *pme = (void *) ht_conn; return 0; } struct user_event_dispatch_closure { const struct tfe_stream * stream; const struct tfe_http_session * session; unsigned int thread_id; }; static int __user_event_dispatch(struct http_half_private * hf_private, enum tfe_http_event ev, const unsigned char * data, size_t len, void * user) { struct user_event_dispatch_closure * __closure = (struct user_event_dispatch_closure *) user; struct http_frame_session_ctx * ht_frame = hf_private->session->ht_frame; //todo: http_frame_raise_event(ht_frame, __closure->stream, (struct tfe_http_session *) __closure->session, ev, data, len, __closure->thread_id); return 0; } static int __write_http_half(struct http_half_private * hf_private, const struct tfe_stream * stream, enum tfe_conn_dir dir) { /* Construct, and write response immediately */ hf_private_construct(hf_private); size_t __to_write_len = evbuffer_get_length(hf_private->evbuf_raw); unsigned char * __to_write = evbuffer_pullup(hf_private->evbuf_raw, __to_write_len); /* Write the data to stream, UPSTREAM is the incoming direction for response */ int ret = tfe_stream_write(stream, dir, __to_write, __to_write_len); if (unlikely(ret < 0)) { assert(0); } evbuffer_drain(hf_private->evbuf_raw, __to_write_len); return ret; } static int __write_http_half_to_line(const struct tfe_stream * stream, enum tfe_conn_dir dir, struct http_half_private * hf_private) { int ret = 0; if (hf_private->is_setup_by_stream) { /* By stream, first time to write http request/response, * and has been call body_begin, construct the header */ if (hf_private->evbuf_body != NULL && hf_private->write_ctx == NULL) { /* Alloc stream write ctx */ hf_private->write_ctx = tfe_stream_write_frag_start(stream, dir); if (unlikely(hf_private->write_ctx == NULL)) return -1; ret = __write_http_half(hf_private, stream, dir); if (unlikely(ret < 0)) return ret; } } else { /* Not stream, need to be complete, then construct all data and send out */ if (hf_private->message_status == STATUS_COMPLETE) { ret = __write_http_half(hf_private, stream, dir); if (unlikely(ret < 0)) return ret; } } return 0; } enum tfe_stream_action __http_connection_entry_on_request(const struct tfe_stream * stream, struct http_connection_private * hc_private, unsigned int thread_id, const unsigned char * data, size_t len) { struct http_session_private * hs_private = TAILQ_LAST(&hc_private->hs_private_list, hs_private_list); struct http_half_private * hf_private_req_in = to_hf_request_private(hs_private); struct http_half_private * hf_private_req_user; /* tfe_hexdump2file(stderr, __FUNCTION__, data, (unsigned int)len); */ int ret = 0; size_t __action_byptes; /* There is no available in session list, * that indicate all HTTP request has corresponding response, * or the last request is finished, we need to create a new session. */ if (hs_private == NULL || hf_private_req_in->message_status == STATUS_COMPLETE) { /* HTTP Request and Session */ hf_private_req_in = hf_private_create(TFE_HTTP_REQUEST, 1, 0); hs_private = hs_private_create(hc_private, hf_private_req_in, NULL); hf_private_set_session(hf_private_req_in, hs_private); /* Closure, catch stream, session and thread_id */ struct user_event_dispatch_closure * __closure = ALLOC(struct user_event_dispatch_closure, 1); __closure->thread_id = thread_id; __closure->stream = stream; __closure->session = to_hs_public(hs_private); /* Set callback, this callback used to raise business event */ hf_private_set_callback(hf_private_req_in, __user_event_dispatch, __closure, free); /* Call business plugin */ hs_private->ht_frame = http_frame_raise_session_begin(stream, &hs_private->hs_public, thread_id); if (hs_private->ht_frame == NULL) { TFE_STREAM_LOG_ERROR(stream, "Failed at raising session begin event. "); goto __errout; } TAILQ_INSERT_TAIL(&hc_private->hs_private_list, hs_private, next); } /* The session is suspended, and to resume */ if (hs_private->suspend_tag_effective) { hf_private_req_in->event_cb(hf_private_req_in, hs_private->suspend_event, NULL, 0, hf_private_req_in->event_cb_user); hs_private->suspend_event = (enum tfe_http_event) 0; hs_private->suspend_tag_effective = false; hs_private->suspend_tag_user = false; if (hf_private_req_in->is_user_stream_action_set) { hf_private_req_in->stream_action = hf_private_req_in->user_stream_action; } else { hf_private_req_in->stream_action = ACTION_FORWARD_DATA; } /* Ignore parse the content which is nullptr. */ return hf_private_req_in->stream_action; } /* Parse the content, the data which in defered state has been ignored. */ ret = hf_private_parse(hf_private_req_in, data, len); /* Need more data, no boundary touched */ if (ret == 0) { if (hf_private_req_in->stream_action == ACTION_DROP_DATA || hf_private_req_in->stream_action == ACTION_FORWARD_DATA) { hf_private_req_in->parse_cursor = 0; } return hf_private_req_in->stream_action; } /* Suspend */ if (hs_private->suspend_tag_user) { assert(!hs_private->suspend_tag_effective); hs_private->suspend_tag_effective = true; /* Suspend TCP stream */ tfe_stream_suspend(stream, CONN_DIR_DOWNSTREAM); return ACTION_DEFER_DATA; } /* Some kind of error happened, write log and detach the stream */ if (ret == -1) { TFE_STREAM_LOG_ERROR(stream, "Failed at parsing stream as HTTP: %u, %s, %s", hf_private_req_in->parse_errno, http_errno_name(hf_private_req_in->parse_errno), http_errno_description(hf_private_req_in->parse_errno)); goto __errout; } /* Touch a boundary, such as the end of HTTP headers, bodys, et al. */ __action_byptes = hf_private_req_in->parse_cursor; hf_private_req_in->parse_cursor = 0; hf_private_req_user = hs_private->hf_private_req_user; if (hf_private_req_user != NULL && hf_private_req_user->message_status == STATUS_COMPLETE) { /* Construct, and write response immediately */ hf_private_construct(hf_private_req_user); size_t __to_write_len = evbuffer_get_length(hf_private_req_user->evbuf_raw); unsigned char * __to_write = evbuffer_pullup(hf_private_req_user->evbuf_raw, __to_write_len); /* Write the data to stream, UPSTREAM is the incoming direction for response */ ret = tfe_stream_write(stream, CONN_DIR_UPSTREAM, __to_write, __to_write_len); if (unlikely(ret < 0)) { assert(0); } hf_private_destory(hf_private_req_user); hs_private->hf_private_resp_user = NULL; } if (hf_private_req_in->stream_action == ACTION_FORWARD_DATA) { tfe_stream_action_set_opt(stream, ACTION_OPT_FOWARD_BYTES, &__action_byptes, sizeof(__action_byptes)); return ACTION_FORWARD_DATA; } if (hf_private_req_in->stream_action == ACTION_DROP_DATA) { tfe_stream_action_set_opt(stream, ACTION_OPT_DROP_BYTES, &__action_byptes, sizeof(__action_byptes)); return ACTION_DROP_DATA; } goto __errout; __errout: tfe_stream_detach(stream); return ACTION_FORWARD_DATA; } enum tfe_stream_action __http_connection_entry_on_response(const struct tfe_stream * stream, struct http_connection_private * hc_private, unsigned int thread_id, const unsigned char * data, size_t len) { struct http_session_private * hs_private = TAILQ_FIRST(&hc_private->hs_private_list); struct http_half_private * hf_private_resp_in; struct http_half_private * hf_private_resp_user; enum tfe_stream_action __stream_action; int ret = 0; size_t __action_byptes; /* Standalone response, it means missing something or malformed http protocol */ if (hs_private == NULL) { TFE_STREAM_LOG_ERROR(stream, "Standlone HTTP response emerged. Malformed HTTP Protocol, detached. "); goto __errout; } hf_private_resp_in = to_hf_response_private(hs_private); /* First time parse http response */ if (hf_private_resp_in == NULL) { /* HTTP Version */ short resp_major = to_hf_request_private(hs_private)->major; short resp_minor = to_hf_request_private(hs_private)->minor; /* Response */ hf_private_resp_in = hf_private_create(TFE_HTTP_RESPONSE, resp_major, resp_minor); hs_private_hf_private_set(hs_private, hf_private_resp_in, TFE_HTTP_RESPONSE); hf_private_set_session(hf_private_resp_in, hs_private); /* Closure, catch stream, session and thread_id */ struct user_event_dispatch_closure * __closure = ALLOC(struct user_event_dispatch_closure, 1); __closure->thread_id = thread_id; __closure->stream = stream; __closure->session = to_hs_public(hs_private); /* Set callback, this callback used to raise business event */ hf_private_set_callback(hf_private_resp_in, __user_event_dispatch, __closure, free); /* Setup user's action */ if (hs_private->hf_private_resp_user != NULL) { hf_private_resp_in->is_user_stream_action_set = true; hf_private_resp_in->user_stream_action = ACTION_DROP_DATA; } } /* Parse the content, the data which in defered state has been ignored. */ ret = hf_private_parse(hf_private_resp_in, data, len); /* Need more data, no boundary touched */ if (ret == 0) { if (hf_private_resp_in->stream_action == ACTION_DROP_DATA || hf_private_resp_in->stream_action == ACTION_FORWARD_DATA) { hf_private_resp_in->parse_cursor = 0; } return hf_private_resp_in->stream_action; } /* Some kind of error happened, write log and detach the stream */ if (ret == -1) { TFE_STREAM_LOG_ERROR(stream, "Failed at parsing HTTP response: %u, %s, %s", hf_private_request->parse_errno, http_errno_name(hf_private_request->parse_errno), http_errno_description(hf_private_request->parse_errno)); goto __errout; } hf_private_resp_user = hs_private->hf_private_resp_user; if (hf_private_resp_user != NULL) { ret = __write_http_half_to_line(stream, CONN_DIR_DOWNSTREAM, hf_private_resp_user); if (unlikely(ret < 0)) { TFE_STREAM_LOG_ERROR(stream, "Failed to write HTTP response setup by user".); goto __errout; } if (hf_private_resp_user->message_status == STATUS_COMPLETE) { hf_private_destory(hf_private_resp_user); hs_private->hf_private_resp_user = NULL; } } __stream_action = hf_private_resp_in->stream_action; __action_byptes = hf_private_resp_in->parse_cursor; hf_private_resp_in->parse_cursor = 0; if (hf_private_resp_in->message_status == STATUS_COMPLETE) { /* Still sending user's response, should not destroy the session, * move the session to orphan list, then we can handle the next session's response */ if (hs_private->hf_private_resp_user != NULL) { TAILQ_REMOVE(&hc_private->hs_private_list, hs_private, next); TAILQ_INSERT_TAIL(&hc_private->hs_private_orphan_list, hs_private, next); } /* Nothing to do, everything is over, destroy the session */ else { http_frame_raise_session_end(hs_private->ht_frame, stream, &hs_private->hs_public, thread_id); TAILQ_REMOVE(&hc_private->hs_private_list, hs_private, next); hs_private_destory(hs_private); } } if (__stream_action == ACTION_FORWARD_DATA) { tfe_stream_action_set_opt(stream, ACTION_OPT_FOWARD_BYTES, &__action_byptes, sizeof(__action_byptes)); return ACTION_FORWARD_DATA; } if (__stream_action == ACTION_DROP_DATA) { tfe_stream_action_set_opt(stream, ACTION_OPT_DROP_BYTES, &__action_byptes, sizeof(__action_byptes)); return ACTION_DROP_DATA; } goto __errout; __errout: tfe_stream_detach(stream); return ACTION_FORWARD_DATA; } int __http_connection_identify(const struct tfe_stream * stream, struct http_connection_private * ht_conn, const unsigned char * data, size_t len) { struct http_half_private * hf_private = hf_private_create(TFE_HTTP_REQUEST, 1, 0); int ret = hf_private_parse(hf_private, data, len); hf_private_destory(hf_private); return ret; } #define HTTP_INDENTIFY_LENGTH 4 enum tfe_stream_action http_connection_entry_data(const struct tfe_stream * stream, unsigned int thread_id, enum tfe_conn_dir dir, const unsigned char * data, size_t len, void ** pme) { struct http_connection_private * ht_conn = (struct http_connection_private *) (*pme); if (ht_conn->is_preempted == 0) { /* If the server push response before client send request, this must not be HTTP, detach the stream */ if (dir == CONN_DIR_UPSTREAM) goto __detach; /* Protocol Identification, we need 8 bytes at least to tell it is HTTP or not */ if (len < HTTP_INDENTIFY_LENGTH) goto __detach; /* Now, we want to identify this stream */ int ret = __http_connection_identify(stream, ht_conn, data, len); if (ret < 0) goto __detach; /* This is HTTP, try to preempt the stream * It may be failed because other plugin preempted before us */ ret = tfe_stream_preempt(stream); if (ret != 0) goto __detach; ht_conn->is_preempted = 1; } /* This stream has been preempt, this plugin try to parse it */ return (dir == CONN_DIR_DOWNSTREAM) ? __http_connection_entry_on_request(stream, ht_conn, thread_id, data, len) : __http_connection_entry_on_response(stream, ht_conn, thread_id, data, len); __detach: tfe_stream_detach(stream); return ACTION_FORWARD_DATA; } void http_connection_entry_close(const struct tfe_stream * stream, unsigned int thread_id, enum tfe_stream_close_reason reason, void ** pme) { struct http_connection_private * ht_conn = (struct http_connection_private *) (*pme); *pme = NULL; /* Delete all live sessions */ while (true) { struct http_session_private * hs_private_iter = TAILQ_FIRST(&ht_conn->hs_private_list); if (hs_private_iter == NULL) break; TAILQ_REMOVE(&ht_conn->hs_private_list, hs_private_iter, next); hs_private_destory(hs_private_iter); } /* Clear session counter, and free ht_conn structure */ ht_conn->session_id_counter = 0; free(ht_conn); } static struct tfe_plugin __http_plugin_info = { .symbol = "HTTP", .type = TFE_PLUGIN_TYPE_PROTOCOL, .on_init = http_plugin_init, .on_deinit = http_plugin_deinit, .on_open = http_connection_entry_open, .on_data = http_connection_entry_data, .on_close = http_connection_entry_close }; TFE_PLUGIN_REGISTER(HTTP, __http_plugin_info)