Christos Vasilakis
/
pelion-example-common-DISCO_F413ZH
pelion-example-common-DISCO_F413ZH
main.cpp
- Committer:
- screamer
- Date:
- 2018-12-11
- Revision:
- 5:766c011942b4
- Parent:
- 4:05845431da95
- Child:
- 7:24d524c2bdcc
File content as of revision 5:766c011942b4:
// ---------------------------------------------------------------------------- // Copyright 2016-2018 ARM Ltd. // // 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. // ---------------------------------------------------------------------------- #ifndef MBED_TEST_MODE #include "mbed.h" #include "simple-mbed-cloud-client.h" #include "FATFileSystem.h" #include "LittleFileSystem.h" // An event queue is a very useful structure to debounce information between contexts (e.g. ISR and normal threads) // This is great because things such as network operations are illegal in ISR, so updating a resource in a button's fall() function is not allowed EventQueue eventQueue; // Default network interface object NetworkInterface *net = NetworkInterface::get_default_instance(); // Default block device BlockDevice *bd = BlockDevice::get_default_instance(); SlicingBlockDevice sd(bd, 0, 2*1024*1024); LittleFileSystem fs("fs", &sd); // Default User button for GET example InterruptIn button(BUTTON1); // Default LED to use for PUT/POST example DigitalOut led(LED1); // Default temperature reading from microcontroller AnalogIn adc_temp(ADC_TEMP); // Voltage reference from microcontroller AnalogIn adc_vref(ADC_VREF); #define SENSORS_POLL_INTERVAL 1.0 // Declaring pointers for access to Pelion Client resources outside of main() MbedCloudClientResource *res_button; MbedCloudClientResource *res_led; MbedCloudClientResource *res_temperature; MbedCloudClientResource *res_voltage; // When the device is registered, this variable will be used to access various useful information, like device ID etc. static const ConnectorClientEndpointInfo* endpointInfo; /** * PUT handler * @param resource The resource that triggered the callback * @param newValue Updated value for the resource */ void led_put_callback(MbedCloudClientResource *resource, m2m::String newValue) { printf("PUT received, new value: %s\n", newValue.c_str()); led = atoi(newValue.c_str()); } /** * POST handler * @param resource The resource that triggered the callback * @param buffer If a body was passed to the POST function, this contains the data. * Note that the buffer is deallocated after leaving this function, so copy it if you need it longer. * @param size Size of the body */ void led_post_callback(MbedCloudClientResource *resource, const uint8_t *buffer, uint16_t size) { printf("POST received. Going to blink LED pattern: %s\n", res_led->get_value().c_str()); led = atoi(res_led->get_value().c_str()); } /** * Button function triggered by the physical button press. */ void button_press() { int v = res_button->get_value_int() + 1; res_button->set_value(v); printf("Button clicked %d times\n", v); } /** * Notification callback handler * @param resource The resource that triggered the callback * @param status The delivery status of the notification */ void button_callback(MbedCloudClientResource *resource, const NoticationDeliveryStatus status) { printf("Button notification, status %s (%d)\n", MbedCloudClientResource::delivery_status_to_string(status), status); } /** * Registration callback handler * @param endpoint Information about the registered endpoint such as the name (so you can find it back in portal) */ void registered(const ConnectorClientEndpointInfo *endpoint) { printf("Connected to Pelion Device Management. Endpoint Name: %s\n", endpoint->internal_endpoint_name.c_str()); endpointInfo = endpoint; } /** * Update sensors and report their values. * This function is called periodically. */ void sensors_update() { float temp = adc_temp.read()*100; float vref = adc_vref.read(); printf("ADC temp: %6.4f C, vref: %6.4f %%\r\n", temp, vref); if (endpointInfo) { res_temperature->set_value(temp); res_voltage->set_value(vref); } } int main(void) { printf("Starting Simple Pelion Device Management Client example\n"); // If the User button is pressed ons start, then format storage. const int PRESSED = 1; DigitalIn *user_button = new DigitalIn(BUTTON1); if (user_button->read() == PRESSED) { printf("User button is pushed on start. Formatting the storage...\n"); int storage_status = fs.reformat(&sd); if (storage_status != 0) { if (sd.erase(0, sd.size()) == 0) { if (fs.format(&sd) == 0) { storage_status = 0; printf("The storage reformatted successfully.\n"); } } } if (storage_status != 0) { printf("ERROR: Failed to reformat the storage (%d).\n", storage_status); } } // Connect to the internet (DHCP is expected to be on) printf("Connecting to the network using Wifi...\n"); net = NetworkInterface::get_default_instance(); nsapi_error_t net_status = -1; for (int tries = 0; tries < 3; tries++) { net_status = net->connect(); if (net_status == NSAPI_ERROR_OK) { break; } else { printf("Unable to connect to network. Retrying...\n"); } } if (net_status != NSAPI_ERROR_OK) { printf("ERROR: Connecting to the network failed (%d)!\n", net_status); return -1; } printf("Connected to the network successfully. IP address: %s\n", net->get_ip_address()); // SimpleMbedCloudClient handles registering over LwM2M to Pelion DM SimpleMbedCloudClient client(net, bd, &fs); int client_status = client.init(); if (client_status != 0) { printf("ERROR: Pelion Client initialization failed (%d)\n", client_status); return -1; } // Creating resources, which can be written or read from the cloud res_button = client.create_resource("3200/0/5501", "button_count"); res_button->set_value(0); res_button->methods(M2MMethod::GET); res_button->observable(true); res_button->attach_notification_callback(button_callback); res_led = client.create_resource("3201/0/5853", "led_state"); res_led->set_value(1); res_led->methods(M2MMethod::GET | M2MMethod::PUT); res_led->attach_put_callback(led_put_callback); // Sensor resources res_temperature = client.create_resource("3303/0/5700", "temperature"); res_temperature->set_value(0); res_temperature->methods(M2MMethod::GET); res_temperature->observable(true); res_voltage = client.create_resource("3316/0/5700", "voltage"); res_voltage->set_value(0); res_voltage->methods(M2MMethod::GET); res_voltage->observable(true); printf("Initialized Pelion Client. Registering...\n"); // Callback that fires when registering is complete client.on_registered(®istered); // Register with Pelion DM client.register_and_connect(); int i = 600; // wait 60 seconds while (i-- > 0 && !client.is_client_registered()) { wait_ms(100); } button.fall(eventQueue.event(&button_press)); // The timer fires on an interrupt context, but debounces it to the eventqueue, so it's safe to do network operations Ticker timer; timer.attach(eventQueue.event(&sensors_update), SENSORS_POLL_INTERVAL); // You can easily run the eventQueue in a separate thread if required eventQueue.dispatch_forever(); } #endif