Example program for simple-mbed-client, connecting a device to mbed Device Connector.
Dependencies: C12832 FXOS8700Q simple-mbed-client
Fork of simple-mbed-client-example by
source/main.cpp
- Committer:
- Jan Jongboom
- Date:
- 2016-12-02
- Revision:
- 35:4b11d20d60e9
- Child:
- 38:fbbab77b54fb
File content as of revision 35:4b11d20d60e9:
#include "mbed.h" #include "security.h" #include "easy-connect.h" #include "simple-mbed-client.h" EventQueue eventQueue(32 * EVENTS_EVENT_SIZE); // Event queue! SimpleMbedClient client; // Declare peripherals DigitalOut connectivityLed(LED2); // Blinks while connecting, turns solid when connected DigitalOut augmentedLed(LED1, BUILTIN_LED_OFF); // LED that can be controlled through Connector InterruptIn btn(MBED_CONF_APP_BUTTON); // Button that sends it's count to Connector Ticker connectivityTicker; // Callback function when the pattern resource is updated void patternUpdated(string v) { printf("New pattern: %s\n", v.c_str()); } // Define resources here. They act as normal variables, but are exposed to the internet... SimpleResourceInt btn_count = client.define_resource("button/0/clicks", 0, M2MBase::GET_ALLOWED); SimpleResourceString pattern = client.define_resource("led/0/pattern", "500:500:500:500:500:500:500", &patternUpdated); void fall() { btn_count = btn_count + 1; printf("Button count is now %d\r\n", static_cast<int>(btn_count)); } void toggleConnectivityLed() { connectivityLed = !connectivityLed; } void registered() { printf("Registered\r\n"); connectivityTicker.detach(); connectivityLed = BUILTIN_LED_ON; } void play(void* args) { connectivityLed = BUILTIN_LED_OFF; // Parse the pattern string, and toggle the LED in that pattern stringstream ss(pattern); string item; while(getline(ss, item, ':')) { wait_ms(atoi((const char*)item.c_str())); augmentedLed = !augmentedLed; } augmentedLed = BUILTIN_LED_OFF; connectivityLed = BUILTIN_LED_ON; } int main() { // Run a separate Thread to process events in rtos::Thread et; et.start(callback(&eventQueue, &EventQueue::dispatch_forever)); // Handle interrupts on the eventQueue - so we don't do things in interrupt context btn.fall(eventQueue.event(&fall)); // Toggle the built-in LED every second (until we're connected, see `registered` function) connectivityTicker.attach(eventQueue.event(toggleConnectivityLed), 1.0f); // Keep alive ticker (every 25 seconds) eventQueue.call_every(25000, callback(&client, &SimpleMbedClient::keep_alive)); // Functions can be executed through mbed Device Connector via POST calls client.define_function("led/0/play", &play); // Connect to the internet (see mbed_app.json for the connectivity method) NetworkInterface* network = easy_connect(true); if (!network) { return 1; } // Connect to mbed Device Connector struct MbedClientOptions opts = client.get_default_options(); opts.ServerAddress = MBED_SERVER_ADDRESS; bool setup = client.setup(opts, network); if (!setup) { printf("Client setup failed\n"); return 1; } client.on_registered(®istered); while (1) {} }