/* * Copyright (c) 2018, Arm Limited and affiliates. * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "CellularContext.h" #include "CellularLog.h" #include "ThisThread.h" MBED_WEAK CellularInterface *CellularInterface::get_target_default_instance() { return mbed::CellularContext::get_default_instance(); } namespace mbed { MBED_WEAK CellularContext *CellularContext::get_default_instance() { CellularDevice *dev = CellularDevice::get_default_instance(); if (!dev) { return NULL; } static CellularContext *context = dev->create_context(NULL, NULL, MBED_CONF_CELLULAR_CONTROL_PLANE_OPT); #if (DEVICE_SERIAL && DEVICE_INTERRUPTIN) || defined(DOXYGEN_ONLY) #if defined(MDMDCD) && defined(MDM_PIN_POLARITY) context->set_file_handle(static_cast(&dev->get_file_handle()), MDMDCD, MDM_PIN_POLARITY); #endif // #if defined(MDMDCD) && defined(MDM_PIN_POLARITY) #endif // #if DEVICE_SERIAL return context; } MBED_WEAK CellularContext *CellularContext::get_default_nonip_instance() { // Uses default APN, uname, password from mbed_app.json CellularDevice *dev = CellularDevice::get_default_instance(); if (!dev) { return NULL; } static CellularContext *context = dev->create_context(NULL, NULL, MBED_CONF_CELLULAR_CONTROL_PLANE_OPT, true); #if (DEVICE_SERIAL && DEVICE_INTERRUPTIN) || defined(DOXYGEN_ONLY) #if defined(MDMDCD) && defined(MDM_PIN_POLARITY) context->set_file_handle(static_cast(&dev->get_file_handle()), MDMDCD, MDM_PIN_POLARITY); #endif // #if defined(MDMDCD) && defined(MDM_PIN_POLARITY) #endif // #if DEVICE_SERIAL return context; } CellularContext::CellularContext() : _next(0), _stack(0), _pdp_type(DEFAULT_PDP_TYPE), _authentication_type(CellularContext::CHAP), _connect_status(NSAPI_STATUS_DISCONNECTED), _status_cb(0), _cid(-1), _new_context_set(false), _is_context_active(false), _is_context_activated(false), _apn(0), _uname(0), _pwd(0), _dcd_pin(NC), _active_high(false), _cp_netif(0), _retry_array_length(0), _retry_count(0), _device(0), _nw(0), _is_blocking(true), _nonip_req(false), _cp_in_use(false) { memset(_retry_timeout_array, 0, sizeof(_retry_timeout_array)); } void CellularContext::cp_data_received() { _cp_netif->data_received(); } CellularDevice *CellularContext::get_device() const { return _device; } int CellularContext::get_cid() const { return _cid; } void CellularContext::set_authentication_type(AuthenticationType type) { _authentication_type = type; } void CellularContext::validate_ip_address() { const int IP_MAX_TRIES = 10; // maximum of 2 seconds as we wait 200ms between tries const int IP_WAIT_INTERVAL = 200; // 200 ms between retries const char *ip = NULL; int i = 0; while (1) { ip = get_ip_address(); if (ip || i >= IP_MAX_TRIES) { if (ip == NULL) { tr_warning("Connected but no local ip address"); } else { tr_info("Cellular local IP: %s", ip); } break; } rtos::ThisThread::sleep_for(IP_WAIT_INTERVAL); i++; } } void CellularContext::do_connect_with_retry() { if (_cb_data.final_try) { _cb_data.final_try = false; _cb_data.error = NSAPI_ERROR_NO_CONNECTION; call_network_cb(NSAPI_STATUS_DISCONNECTED); return; } do_connect(); if (_cb_data.error == NSAPI_ERROR_OK) { // Some modems don't get the ip address right after connect so we must // validate it but even if we don't get ip we still send NSAPI_STATUS_GLOBAL_UP if (!_nonip_req && !_cp_in_use) { // don't validate if non-ip case validate_ip_address(); } call_network_cb(NSAPI_STATUS_GLOBAL_UP); return; } if (_retry_count == 0) { _device->get_retry_timeout_array(_retry_timeout_array, _retry_array_length); } if (_is_blocking) { while (_retry_count < _retry_array_length) { tr_debug("SYNC do_connect failed with %d, retry after %d seconds", _cb_data.error, _retry_timeout_array[_retry_count]); rtos::ThisThread::sleep_for(_retry_timeout_array[_retry_count] * 1000); do_connect(); if (_cb_data.error == NSAPI_ERROR_OK) { return; } _retry_count++; } } else { if (_retry_count < _retry_array_length) { if (_retry_count == _retry_array_length - 1) { // set the flag that this is the last try for ppp connect / pdp context activate _cb_data.final_try = true; } tr_debug("ASYNC do_connect failed with %d, retry after %d seconds", _cb_data.error, _retry_timeout_array[_retry_count]); int id = _device->get_queue()->call_in(_retry_timeout_array[_retry_count] * 1000, this, &CellularContext::do_connect_with_retry); if (id == 0) { tr_error("Failed call via eventqueue in do_connect_with_retry()"); #if !NSAPI_PPP_AVAILABLE _cb_data.final_try = true; _cb_data.error = NSAPI_ERROR_NO_MEMORY; // in PPP mode we did not activate any context, just searched the correct _cid if (_status_cb) { _status_cb((nsapi_event_t)CellularActivatePDPContext, (intptr_t)&_cb_data); } _cb_data.final_try = false; _cb_data.error = NSAPI_ERROR_OK; #else call_network_cb(NSAPI_STATUS_DISCONNECTED); #endif // !NSAPI_PPP_AVAILABLE } _retry_count++; return; // don't call NSAPI_STATUS_DISCONNECTED in every failure, only the last one. } } #if NSAPI_PPP_AVAILABLE if (_cb_data.error != NSAPI_ERROR_OK) { tr_error("Failed to open data channel!"); call_network_cb(NSAPI_STATUS_DISCONNECTED); } #endif // #if NSAPI_PPP_AVAILABLE } void CellularContext::do_connect() { _cb_data.error = NSAPI_ERROR_OK; } void CellularContext::call_network_cb(nsapi_connection_status_t status) { if (_connect_status != status) { _connect_status = status; if (_status_cb) { _status_cb(NSAPI_EVENT_CONNECTION_STATUS_CHANGE, _connect_status); } if (_nw && _connect_status == NSAPI_STATUS_DISCONNECTED) { tr_info("CellularContext disconnected"); } } } } // namespace mbed